Package: adios2-data Description-md5: 8dfd1562d15510899ddf04cb3bd599c3 Description-en: ADIOS2 Adaptable IO system for simulations - tool data The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains tool data for ADIOS2. Package: adios2-mpi-bin Description-md5: 13439910a31b75459b92b4893cee3be1 Description-en: ADIOS2 Adaptable IO system for simulations - binary tools (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains binary tools for the MPI build of ADIOS2. Package: adios2-scripts Description-md5: 47150ef130d4a9e991df093a62ec1dec Description-en: ADIOS2 Adaptable IO system for simulations - scripts The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains scripts for ADIOS2. Package: adios2-serial-bin Description-md5: d0a03efaffbc863c9f7ba4203085ebd4 Description-en: ADIOS2 Adaptable IO system for simulations - binary tools (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains binary tools for ADIOS2. Package: apt-cudf Description-md5: b4c5b792c843380c3d78649b6134794d Description-en: CUDF solver integration for APT apt-cudf provides integration among the APT package manager and CUDF solvers, allowing APT to rely on external (CUDF-based) dependency solvers to plan package installation, upgrade, and removal. . CUDF is a distribution-independent, standard format to describe dependency solving scenarios, as faced by package managers in popular package-based GNU/Linux distributions. APT is a well-known package manager for Debian-based distributions, which is able to delegate dependency solving to external solvers, by the means of the External Dependency Solving Protocol (EDSP). . apt-cudf provides the glue between the EDSP protocol and CUDF solvers, enabling any installed CUDF solver to be used as an external solver for APT. . Several CUDF solvers are available in Debian. They all provide the cudf-solver virtual package. Package: asammdf Description-md5: 4f285c3fadc58271ea0bed3de2d96391 Description-en: GUI application used to analyse engine CAN logs asammdf is a fast parser and editor for ASAM (Association for Standardization of Automation and Measuring Systems) MDF (Measurement Data Format) files. . asammdf supports MDF versions 2 (.dat), 3 (.mdf) and 4 (.mf4). Package: atdts Description-md5: 77a5bc6bc7cca5d6df7d4af85f6457c3 Description-en: OCaml code generator for TypeScript Atdts is a command-line program that takes as input type definitions in the ATD syntax and produces TypeScript classes that can read and write JHSON data. Package: basix-doc Description-md5: b6940f11df33533cc3f7183e3f0fa8f7 Description-en: Finite Element Basis Function Definition Runtime Library (docs) Computes FE basis functions and derivatives for the following elements: - Lagrange (interval, triangle, tetrahedron, prism, pyramid, quadrilateral, hexahedron) - Nédélec (triangle, tetrahedron) - Nédélec Second Kind (triangle, tetrahedron) - Raviart-Thomas (triangle, tetrahedron) - Regge (triangle, tetrahedron) - Crouzeix-Raviart (triangle, tetrahedron) . Computes quadrature rules on different cell types . Provides reference topology and geometry for reference cells of each type. . This is the common documentation package. Package: binutils-h8300-hms Description-md5: d36f7ce5528d0c8862667e995a4a2067 Description-en: GNU binary utilities, for h8300-hitachi-coff target This package provides GNU assembler, linker and binary utilities for h8300-hitachi-coff target, for use in a cross-compilation environment. . You don't need this package unless you plan to cross-compile programs for h8300-hitachi-coff. Package: bolt-19 Description-md5: a5816535f62942b4fcded9b86fb66840 Description-en: Post-link optimizer It achieves the improvements by optimizing application's code layout based on execution profile gathered by sampling profiler. Package: bolt-21 Description-md5: a5816535f62942b4fcded9b86fb66840 Description-en: Post-link optimizer It achieves the improvements by optimizing application's code layout based on execution profile gathered by sampling profiler. Package: bolt-22 Description-md5: a5816535f62942b4fcded9b86fb66840 Description-en: Post-link optimizer It achieves the improvements by optimizing application's code layout based on execution profile gathered by sampling profiler. Package: botch Description-md5: 1e7a6c327a8c6660ae56f96c23eeff2b Description-en: tools to create and analyse dependency graphs botch is a collection of tools to create and analyze dependency graphs. This task is facilitated by a range of individual tools which use the deb822 and graphml formats to exchange information with each other. . The tools installed by this package provide these features: . - analyze graphs - transform Packages and Sources control files - create graphs of different types - analysis of Packages and Sources control files - handling of botch-internal formats - dose3 wrappers - set operations on Packages or Sources files - create build orders - conversion of graphs - shell scripts connecting the tools for meaningful operations - extract regions from graphs Package: botch-doc Description-md5: b4689f4bc8b4ffb42375d3ffe0ca6506 Description-en: Bootstrapping helper - documentation Botch stands for bootstrap/build ordering tool chain and allows one to create and analyze bootstrapping dependency graphs, creates suggestions how to break dependency cycles and generates a build order. . This package contains the documentation. Package: broot Description-md5: 174330a83500f354c4fc831729919de4 Description-en: tree view, file manager, configurable launcher broot lets you explore file hierarchies with a tree-like view, manipulate files, launch actions, and define your own shortcuts. . It displays the directory contents on a single page, lets you filter the tree using fuzzy patterns and regular expressions, and integrates with git to hide gitignored files by default. It lets you preview files and images and displays images in high resolution if the terminal supports Kitty's graphics protocol (compatible terminals: Kitty and WezTerm). . Usage and full documentation at https://dystroy.org/broot. Package: calculix-ccx Description-md5: b9652211e4452dc83798aead93a56b9e Description-en: Three-Dimensional Structural Finite Element Program CalculiX is a free and open source finite element analysis application that uses a similar input format to Abaqus. It has an implicit and explicit solver and a pre and post processor (CGX). This package contains the solver CalculiX CrunchiX (cxx). Package: cddl Description-md5: e8478fc02ed8fcbd0c6bb38e17e25f9b Description-en: tool for verifying conformance of CDDL definitions Tool for verifying conformance of CDDL definitions against RFC 8610 and for validating JSON documents and CBOR binary files Package: ceph-exporter Description-md5: 14f06467b954d4b5d80311c7e2fb4140 Description-en: metrics exporter for the ceph distributed storage system Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package contains the metrics exporter daemon, which is used to expose the performance metrics. Package: ceph-fuse Description-md5: 2e66da405a3a0048edd7d65c675526ff Description-en: FUSE-based client for the Ceph distributed file system Ceph is a distributed network file system designed to provide excellent performance, reliability, and scalability. This is a FUSE-based client that allows one to mount a Ceph file system without root privileges. . Because the FUSE-based client has certain inherent performance limitations, it is recommended that the native Linux kernel client be used if possible. If it is not practical to load a kernel module (insufficient privileges, older kernel, etc.), then the FUSE client will do. Package: ceph-grafana-dashboards Description-md5: 939c1013f80e4cc3c5ba5ec1da64b54c Description-en: Grafana dashboards for the Ceph dashboard Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package contains Grafana dashboards that are used by the Ceph Dashboard for monitoring. Package: ceph-immutable-object-cache Description-md5: c76c82274d014d060096f8293a6f711f Description-en: Ceph daemon for immutable object cache Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. This is a daemon for immutable object cache. Package: ceph-mgr-cephadm Description-md5: 0da38d6bcb55495002fa13c0136a25ef Description-en: cephadm orchestrator module for ceph-mgr Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package contains the CEPHADM module for ceph-mgr's orchestration functionality, to allow ceph-mgr to perform orchestration functions over a standard SSH connection. Package: ceph-mgr-dashboard Description-md5: 9456ae355deee9b12b1de8a1b94dd3ca Description-en: dashboard module for ceph-mgr Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package provides a ceph-mgr module, providing a web-based application to monitor and manage many aspects of a Ceph cluster and related components. . See the Dashboard documentation at http://docs.ceph.com/ for details and a detailed feature overview. Package: ceph-mgr-diskprediction-local Description-md5: 02a03197652e5c6eab4a90148eaa1a89 Description-en: diskprediction-local module for ceph-mgr Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package contains the diskprediction_local module for the ceph-mgr daemon, which helps predict disk failures. Package: ceph-mgr-k8sevents Description-md5: 56d70a75867540beabd413da01d6e8e2 Description-en: kubernetes events module for ceph-mgr Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package contains the k8sevents module, to allow ceph-mgr to send ceph related events to the kubernetes events API, and track all events that occur within the rook-ceph namespace. Package: ceph-mgr-rook Description-md5: 475363182e55451cd54ca37f2d67e100 Description-en: rook module for ceph-mgr Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package contains the rook module for ceph-mgr's orchestration functionality, to allow ceph-mgr to install and configure ceph using Rook. Package: ceph-prometheus-alerts Description-md5: f723c2e34718794866ce0a96c0147549 Description-en: Prometheus alerts for the Ceph dashboard Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package contains alerts used for Prometheus to interact with the Ceph Dashboard. Package: ceph-resource-agents Description-md5: f350d6a1d9754497356ffd017b1cd63e Description-en: OCF-compliant resource agents for Ceph Ceph is a distributed storage and network file system designed to provide excellent performance, reliability, and scalability. . This package contains the resource agents (RAs) which integrate Ceph with OCF-compliant cluster resource managers, such as Pacemaker. Package: cephadm Description-md5: 110f2b722251944a806cc32bbb99c417 Description-en: cephadm utility to bootstrap ceph daemons with systemd and containers Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . The cephadm utility is used to bootstrap a Ceph cluster and to manage ceph daemons deployed with systemd and containers. Package: cephfs-mirror Description-md5: e34342d801959995a3de149b52093567 Description-en: Daemon for mirroring CephFS directory snapshots Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package contains the daemon for mirroring CephFS directory snapshots between Ceph clusters. Package: cephfs-shell Description-md5: 0270e88f7113c49abc31ad8ecd0f5323 Description-en: interactive shell for the Ceph distributed file system Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. This is an interactive tool that allows accessing a Ceph file system without mounting it by providing a nice pseudo-shell which works like an FTP client. . This package contains a CLI for interacting with the CephFS. Package: clang-19 Description-md5: c364160e44345420df0f2e97b3082b69 Description-en: C, C++ and Objective-C compiler Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. Package: clang-19-doc Description-md5: 6bf5242bfe6f159fd907beb982f2315f Description-en: C, C++ and Objective-C compiler - Documentation Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the documentation. Package: clang-19-examples Description-md5: c2fd51cc2d722b8e5b1c1549d931bc06 Description-en: Clang examples Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang examples. Package: clang-21 Description-md5: c364160e44345420df0f2e97b3082b69 Description-en: C, C++ and Objective-C compiler Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. Package: clang-21-doc Description-md5: 6bf5242bfe6f159fd907beb982f2315f Description-en: C, C++ and Objective-C compiler - Documentation Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the documentation. Package: clang-21-examples Description-md5: c2fd51cc2d722b8e5b1c1549d931bc06 Description-en: Clang examples Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang examples. Package: clang-22 Description-md5: c364160e44345420df0f2e97b3082b69 Description-en: C, C++ and Objective-C compiler Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. Package: clang-22-doc Description-md5: 6bf5242bfe6f159fd907beb982f2315f Description-en: C, C++ and Objective-C compiler - Documentation Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the documentation. Package: clang-22-examples Description-md5: c2fd51cc2d722b8e5b1c1549d931bc06 Description-en: Clang examples Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang examples. Package: clang-format-19 Description-md5: 5fdb7838fa336de9de2703cb644c12e4 Description-en: Tool to format C/C++/Obj-C code Clang-format is both a library and a stand-alone tool with the goal of automatically reformatting C++ sources files according to configurable style guides. To do so, clang-format uses Clang's Lexer to transform an input file into a token stream and then changes all the whitespace around those tokens. The goal is for clang-format to both serve both as a user tool (ideally with powerful IDE integrations) and part of other refactoring tools, e.g. to do a reformatting of all the lines changed during a renaming. . This package also provides vim and emacs plugins. Package: clang-format-21 Description-md5: 5fdb7838fa336de9de2703cb644c12e4 Description-en: Tool to format C/C++/Obj-C code Clang-format is both a library and a stand-alone tool with the goal of automatically reformatting C++ sources files according to configurable style guides. To do so, clang-format uses Clang's Lexer to transform an input file into a token stream and then changes all the whitespace around those tokens. The goal is for clang-format to both serve both as a user tool (ideally with powerful IDE integrations) and part of other refactoring tools, e.g. to do a reformatting of all the lines changed during a renaming. . This package also provides vim and emacs plugins. Package: clang-format-22 Description-md5: 5fdb7838fa336de9de2703cb644c12e4 Description-en: Tool to format C/C++/Obj-C code Clang-format is both a library and a stand-alone tool with the goal of automatically reformatting C++ sources files according to configurable style guides. To do so, clang-format uses Clang's Lexer to transform an input file into a token stream and then changes all the whitespace around those tokens. The goal is for clang-format to both serve both as a user tool (ideally with powerful IDE integrations) and part of other refactoring tools, e.g. to do a reformatting of all the lines changed during a renaming. . This package also provides vim and emacs plugins. Package: clang-tidy-19 Description-md5: 239d974b460ce0b6a914aa94c05888ad Description-en: clang-based C++ linter tool Provide an extensible framework for diagnosing and fixing typical programming errors, like style violations, interface misuse, or bugs that can be deduced via static analysis. clang-tidy is modular and provides a convenient interface for writing new checks. Package: clang-tidy-21 Description-md5: 239d974b460ce0b6a914aa94c05888ad Description-en: clang-based C++ linter tool Provide an extensible framework for diagnosing and fixing typical programming errors, like style violations, interface misuse, or bugs that can be deduced via static analysis. clang-tidy is modular and provides a convenient interface for writing new checks. Package: clang-tidy-22 Description-md5: 239d974b460ce0b6a914aa94c05888ad Description-en: clang-based C++ linter tool Provide an extensible framework for diagnosing and fixing typical programming errors, like style violations, interface misuse, or bugs that can be deduced via static analysis. clang-tidy is modular and provides a convenient interface for writing new checks. Package: clang-tools-19 Description-md5: da24a5a87f39211c1ff10f03f06e0a3c Description-en: clang-based tools for C/C++ developments Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains some clang-based tools like scan-build, clang-cl, etc. Package: clang-tools-21 Description-md5: da24a5a87f39211c1ff10f03f06e0a3c Description-en: clang-based tools for C/C++ developments Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains some clang-based tools like scan-build, clang-cl, etc. Package: clang-tools-22 Description-md5: da24a5a87f39211c1ff10f03f06e0a3c Description-en: clang-based tools for C/C++ developments Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains some clang-based tools like scan-build, clang-cl, etc. Package: clangd-19 Description-md5: 9ae9ea58c7af3228199dd96c36ecd0bb Description-en: Language server that provides IDE-like features to editors clangd understands your C++ code and adds smart features to your editor: - code completion - compile errors - go-to-definition - and more. . clangd is a language server that implements the Language Server Protocol; it can work with many editors through a plugin. Package: clangd-21 Description-md5: 9ae9ea58c7af3228199dd96c36ecd0bb Description-en: Language server that provides IDE-like features to editors clangd understands your C++ code and adds smart features to your editor: - code completion - compile errors - go-to-definition - and more. . clangd is a language server that implements the Language Server Protocol; it can work with many editors through a plugin. Package: clangd-22 Description-md5: 9ae9ea58c7af3228199dd96c36ecd0bb Description-en: Language server that provides IDE-like features to editors clangd understands your C++ code and adds smart features to your editor: - code completion - compile errors - go-to-definition - and more. . clangd is a language server that implements the Language Server Protocol; it can work with many editors through a plugin. Package: cppcheck Description-md5: 9998bc10c93cd21710a4b0829a0bcc92 Description-en: tool for static C/C++ code analysis (CLI) Cppcheck is a command-line tool that tries to detect bugs that your C/C++ compiler doesn't see. It is versatile, and can check non-standard code including various compiler extensions, inline assembly code, etc. Its internal preprocessor can handle includes, macros, and several preprocessor commands. While Cppcheck is highly configurable, you can start using it just by giving it a path to the source code. . It includes checks for: * pointers to out-of-scope auto variables; * assignment of auto variables to an effective parameter of a function; * out-of-bounds errors in arrays and STL; * missing class constructors; * variables not initialized by a constructor; * use of memset, memcpy, etcetera on a class; * non-virtual destructors for base classes; * operator= not returning a constant reference to itself; * use of deprecated functions (mktemp, gets, scanf); * exceptions thrown in destructors; * memory leaks in class or function variables; * C-style pointer cast in C++ code; * redundant if; * misuse of the strtol or sprintf functions; * unsigned division or division by zero; * unused functions and struct members; * passing parameters by value; * misuse of signed char variables; * unusual pointer arithmetic (such as "abc" + 'd'); * dereferenced null pointers; * incomplete statements; * misuse of iterators when iterating through a container; * dereferencing of erased iterators; * use of invalidated vector iterators/pointers; . This package contains the command-line interface for cppcheck. Package: cppcheck-gui Description-md5: a5b195958a0dbd8a7eca7f99f946e638 Description-en: tool for static C/C++ code analysis (GUI) Cppcheck is a command-line tool that tries to detect bugs that your C/C++ compiler doesn't see. It is versatile, and can check non-standard code including various compiler extensions, inline assembly code, etc. Its internal preprocessor can handle includes, macros, and several preprocessor commands. While Cppcheck is highly configurable, you can start using it just by giving it a path to the source code. . It includes checks for: * pointers to out-of-scope auto variables; * assignment of auto variables to an effective parameter of a function; * out-of-bounds errors in arrays and STL; * missing class constructors; * variables not initialized by a constructor; * use of memset, memcpy, etcetera on a class; * non-virtual destructors for base classes; * operator= not returning a constant reference to itself; * use of deprecated functions (mktemp, gets, scanf); * exceptions thrown in destructors; * memory leaks in class or function variables; * C-style pointer cast in C++ code; * redundant if; * misuse of the strtol or sprintf functions; * unsigned division or division by zero; * unused functions and struct members; * passing parameters by value; * misuse of signed char variables; * unusual pointer arithmetic (such as "abc" + 'd'); * dereferenced null pointers; * incomplete statements; * misuse of iterators when iterating through a container; * dereferencing of erased iterators; * use of invalidated vector iterators/pointers . This package contains the graphical user interface for cppcheck. Package: crimson-osd Description-md5: 1278b850d94d621f66cd5ba4c3992e1a Description-en: Crimson OSD server for the ceph storage system Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . Crimson is a re-implementation of the ceph-osd daemon using a more platform aware and scalable software architecture (seastar). . This package contains the Crimson Object Storage Daemon for the Ceph storage system. It is responsible for storing objects on a local file system and providing access to them over the network. Package: crossbuild-essential-amd64 Description-md5: 9b2629bcd07961cfcb27934f1371078a Description-en: Informational list of cross-build-essential packages If you do not plan to cross build Debian packages, you don't need this package. Starting with sbuild (>= 0.63.0) this package is required for cross building Debian packages in a chroot. . This package contains an informational list of packages which are considered essential for cross building Debian packages. This package also depends on the packages on that list, to make it easy to have the cross-build-essential packages installed. . If you have this package installed, you only need to install whatever a package specifies as its build-time dependencies to cross build the package. Conversely, if you are determining what your package needs to build-depend on, you can always leave out the packages this package depends on. Package: crossbuild-essential-i386 Description-md5: 9b2629bcd07961cfcb27934f1371078a Description-en: Informational list of cross-build-essential packages If you do not plan to cross build Debian packages, you don't need this package. Starting with sbuild (>= 0.63.0) this package is required for cross building Debian packages in a chroot. . This package contains an informational list of packages which are considered essential for cross building Debian packages. This package also depends on the packages on that list, to make it easy to have the cross-build-essential packages installed. . If you have this package installed, you only need to install whatever a package specifies as its build-time dependencies to cross build the package. Conversely, if you are determining what your package needs to build-depend on, you can always leave out the packages this package depends on. Package: crossbuild-essential-powerpc Description-md5: 9b2629bcd07961cfcb27934f1371078a Description-en: Informational list of cross-build-essential packages If you do not plan to cross build Debian packages, you don't need this package. Starting with sbuild (>= 0.63.0) this package is required for cross building Debian packages in a chroot. . This package contains an informational list of packages which are considered essential for cross building Debian packages. This package also depends on the packages on that list, to make it easy to have the cross-build-essential packages installed. . If you have this package installed, you only need to install whatever a package specifies as its build-time dependencies to cross build the package. Conversely, if you are determining what your package needs to build-depend on, you can always leave out the packages this package depends on. Package: cryfs Description-md5: 6a193616bfd007a57999d6d65d2c809f Description-en: encrypt your files and store them in the cloud CryFS encrypts your files, so you can safely store them anywhere. It works well together with cloud services like Dropbox, iCloud, OneDrive and others. Package: csv2svg Description-md5: b4bd0b59e8a64b0bb116fc510a159a96 Description-en: Take a csv as input and outputs svg Build a SVG graph from a csv document. Package: cutadapt Description-md5: 46c01d9fd51f339f2bdd4fe86ff04caf Description-en: Clean biological sequences from high-throughput sequencing reads Cutadapt helps with biological sequence clean tasks by finding the adapter or primer sequences in an error-tolerant way. It can also modify and filter reads in various ways. Adapter sequences can contain IUPAC wildcard characters. Also, paired-end reads and even colorspace data is supported. If you want, you can also just demultiplex your input data, without removing adapter sequences at all. . This package contains the user interface. Package: dart-doc Description-md5: 362a08e4f5d065b1bf14f82d1cb8c33b Description-en: Kinematics Dynamics and Optimization Library - Documentation DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains documentation, tutorials and examples. Package: dbus-cpp-bin Description-md5: 1f692b6fb03f341cbe1df4e085c14071 Description-en: header-only dbus-binding leveraging C++-11 (tools) Protocol compiler and generator to automatically generate protocol headers from introspection XML. . D-Bus is a message bus used for sending messages between applications. . This package contains runtime binaries. Package: dbus-cpp-dev-examples Description-md5: 6c264b967b244227d03e3bafa733507d Description-en: header-only dbus-binding leveraging C++-11 (examples) A header-only dbus-binding leveraging C++-11, relying on compile-time polymorphism to integrate with arbitrary type systems. . D-Bus is a message bus used for sending messages between applications. . This package provides examples. Package: debuginfod Description-md5: 1ee7ebf3b25c14692d31b56419915fb2 Description-en: debuginfo-related http file-server daemon Server, client tool and library to index and fetch ELF/DWARF files addressed by build-id through HTTP. Package: desktop-base Description-md5: 803a1cfa10c4fe42fa50462e9b011bfb Description-en: common files for the Debian Desktop This package contains various miscellaneous files which are used by Debian Desktop installations. Currently, it provides some Debian-related artwork and themes, .desktop files containing links to Debian related material (suitable for placement on a user's desktop), and other common files between the available desktop environments such as GNOME and KDE. Package: dials Description-md5: ca13c7c5eb0b3848fea8c4630137336b Description-en: Diffraction Integration for Advanced Light Sources The DIALS software is developed in a fully open-source, collaborative environment. The main development teams are based at Diamond Light Source and CCP4, in the UK, and at Lawrence Berkeley National Laboratory, USA. However, in the spirit of the open source movement, we welcome collaboration from anyone who wishes to contribute to the project. . To avoid “reinventing the wheel” as much as possible, the DIALS project builds on knowledge accumulated over many decades in the field of crystallographic data processing. We benefit greatly from the altruism of experts who contribute their ideas and advice, either directly or via their detailed publications on existing algorithms and packages such as XDS [2] and MOSFLM [3]. At the heart of the DIALS framework lies a design philosophy of hardware abstraction and a generalised model of the experiment that is inspired directly by material published on the seminal workshops on position sensitive detector software [1]. Continuing in the spirit of these workshops we held our own series of meetings, with talks from invited speakers, and code camps in which specific problems are addressed by intensive effort across the collaboration. Summaries of these meetings and copies of slides given as presentations are available here. . DIALS is written using Python and C++, making heavy use of the cctbx [4] for core crystallographic calculations and much infrastructure including a complete build system. Seamless interaction between the C++ and Python components of this hybrid system is enabled by Boost.Python. Python provides a useful ground for rapid prototyping, after which core algorithms and data structures may be transferred over to C++ for speed. High level interfaces of the hybrid system remain in Python, facilitating further development and code reuse both within DIALS and by third parties. Package: dose-builddebcheck Description-md5: a0e3c3577dea8696e672646bb139ac3e Description-en: Checks whether build-dependencies can be satisfied This software checks, given a collection of source package stanzas and a collection of binary package stanzas of Debian packages, whether the build-dependencies of each source package can be satisfied by the binary packages. Package: dose-distcheck Description-md5: 2715c55e164fd097abdc6437f82f0f66 Description-en: Checks whether dependencies of packages can be satisfied This software checks for every package of a distribution whether it is possible to satisfy its dependencies and conflicts within this distribution. It comes in several versions: - dose-debcheck for Debian packages - dose-rpmcheck for rpm packages - dose-eclipsecheck for OSGi plugins Package: dose-doc Description-md5: e8e279d4e57cc7ab991d1b7b7b79d285 Description-en: Documentation for dose tools and libraries. The dose suite provides libraries for handling package meta-data, and various tools for analyzing package relationships in a large package repository. This package contains the documentation of the dose API, and tutorials of various dose tools. Package: dose-extra Description-md5: 21c020291e5e0bcc86762063c9ace0c9 Description-en: Extra QA tools from the Dose3-library This package contains extra tools for analyzing meta-data of software packages: - ceve, a general metadata parser supporting different input formats (Debian, rpm, and others) and different output formats. - dose-outdated, a Debian-specific tool for finding packages that are not installable with respect to a package repository, and that can only be made installable again by fixing the package itself. - dose-challenged, a Debian-specific tool for checking which packages will certainly become uninstallable when some existing package is upgraded to a newer version. - dose-deb-coinstall, a Debian-specific tool for checking whether a set of packages can be installed all together. The tools dose-distcheck and dose-builddebcheck are packaged in their own respective packages. Package: elpa-protobuf-mode Description-md5: 5d24efe0475e2f840cf889eba9b49a37 Description-en: Emacs addon for editing protocol buffers Protocol buffers are a flexible, efficient, automated mechanism for serializing structured data - similar to XML, but smaller, faster, and simpler. You define how you want your data to be structured once, then you can use special generated source code to easily write and read your structured data to and from a variety of data streams and using a variety of languages. You can even update your data structure without breaking deployed programs that are compiled against the "old" format. . Google uses Protocol Buffers for almost all of its internal RPC protocols and file formats. . This package provides an emacs major mode for editing files in protocol buffers format. It features syntax highlighting and auto-indentation. Package: esstra Description-md5: b6a9ef57c9793a3d3c1ab5b37324841a Description-en: software suite for Enhancing Software Supply Chain Transparency esstra, software suite for Enhancing Software Supply Chain Transparency, aims to improve transparency of software supply chains as the name suggests. . It embeds metadata in resulting binary files at compile time, contains information about the source and header files from which the binary file is generated. Package: euslisp Description-md5: 3539fd5ec17931680d721a6bc32caa30 Description-en: Lisp based intelligent robots programming system euslisp provides executables, library and necessary lisp code for running EusLisp language. This provides basic Lisp interpreter, OOP functions, geometric class such as edge, plane, polygon, face, hole and body. Xlib/OpenGL interfaces. . This package contains the eus0/eus1/eus2/eusg/eusx/eusgl executable and accompanying files. Package: euslisp-dev Description-md5: fd5f57b7787784f6bc155ddf45c392f0 Description-en: Development files of Lisp based intelligent robots programming system euslisp-dev provides C language headers and C and Lisp source files for developping EusLisp based modulse. . This package contains *eusdir*/{lisp, include, lib, contrib, demos, models} Package: euslisp-doc Description-md5: 843e7def772d5975babd7bb1ed27476a Description-en: Manuals and Documentations of EusLisp programming system euslisp-doc contains various README and pdf version of manual of EusLisp along with HTML version of the documents. . This package contains the documentation of EusLisp Package: eye Description-md5: b509d100ee53ef205b9512e00c645e20 Description-en: semantic web reasoning engine Euler Yet another proof Engine (EYE) is a reasoning engine supporting the Semantic Web layers. It performs semibackward chaining and it supports Euler paths. Via N3 it is interoperable with Cwm. . Semibackward chaining is backward chaining for rules using <= in N3 and forward chaining for rules using => in N3. This can be seen in EYE Reasoning. . Euler paths are roughly "don't step in your own steps" which is inspired by what Leonhard Euler discovered in 1736 for the Königsberg Bridge Problem. EYE sees the rule P => C as P & NOT(C) => C. . Notation3 (N3) is a shorthand non-XML serialization of Resource Description Framework (RDF) models, designed with human-readability in mind: N3 is much more compact and readable than XML RDF notation. . Resource Description Framework (RDF) is a standard model for data interchange on the Web. Package: flang-19 Description-md5: bd017b88c85853e1292c78015b1d62a8 Description-en: Fortran compiler Ground-up implementation of a Fortran front end written in modern C++. . While it is capable of generating executables for a number of examples, some functionalities are still missing. Package: flang-21 Description-md5: bd017b88c85853e1292c78015b1d62a8 Description-en: Fortran compiler Ground-up implementation of a Fortran front end written in modern C++. . While it is capable of generating executables for a number of examples, some functionalities are still missing. Package: flang-22 Description-md5: bd017b88c85853e1292c78015b1d62a8 Description-en: Fortran compiler Ground-up implementation of a Fortran front end written in modern C++. . While it is capable of generating executables for a number of examples, some functionalities are still missing. Package: ford Description-md5: 688897c25f4edb69e34ecabb5f8c3355 Description-en: Fortran documentation generator This is an automatic documentation generator for modern Fortran programs. FORD stands for FORtran Documenter. . The goal of FORD is to be able to reliably produce documentation for modern Fortran software which is informative and nice to look at. Ford was written due to Doxygen's poor handling of Fortran and the lack of comparable alternatives. The documentation should be easy to write and non-obtrusive within the code. . While it will never be as feature-rich as Doxygen, hopefully FORD will be able to provide a good alternative for documenting Fortran projects. Package: frama-c-base Description-md5: 2e7860054dd191ec0787bab2062c3031 Description-en: Platform dedicated to the analysis of source code written in C Frama-C gathers several analysis techniques in a single collaborative framework, based on analyzers (called "plug-ins") that can build upon the results computed by other analyzers in the framework. . Thanks to this approach, Frama-C provides sophisticated tools, including: * an analyzer based on abstract interpretation (Value plug-in); * a program proof framework based on weakest precondition calculus (WP plug-in); * a program slicer (Slicing plug-in); * a tool for verification of temporal (LTL) properties (Aoraï plug-in); * several tools for code base exploration and dependency analysis (plug-ins From, Impact, Metrics, Occurrence, Scope, etc.). . These plug-ins communicate between each other via the Frama-C API and via ACSL (ANSI/ISO C Specification Language) properties. . This package provides the library of Frama-c which is useful to build plugins for Frama-c, the command-line tools, and the graphical interface. Package: g++-mingw-w64 Description-md5: be80ce4b74c17089adf52fd4e6f4d519 Description-en: GNU C++ compiler for MinGW-w64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the C++ compiler, supporting cross-compiling to 32- and 64-bit MinGW-w64 targets. Package: g++-mingw-w64-i686 Description-md5: 6366762ba193116a3b542733f5cfb5e8 Description-en: GNU C++ compiler for MinGW-w64 targeting Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the C++ compiler, supporting cross-compiling to 32-bit MinGW-w64 targets. Package: g++-mingw-w64-i686-posix Description-md5: 59f77e288f7da43385e23cd3357279e5 Description-en: GNU C++ compiler for MinGW-w64, Win32/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the C++ compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the POSIX threading model. Package: g++-mingw-w64-i686-win32 Description-md5: a417f252857a5b8608e19402178d0d79 Description-en: GNU C++ compiler for MinGW-w64, Win32/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the C++ compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the Win32 threading model. Package: g++-mingw-w64-x86-64 Description-md5: 14601edb773363e23588439ef1aaa043 Description-en: GNU C++ compiler for MinGW-w64 targeting Win64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the C++ compiler, supporting cross-compiling to 64-bit MinGW-w64 targets. Package: g++-mingw-w64-x86-64-posix Description-md5: 2f78b451e8f57f04cf2bb392f2101c0e Description-en: GNU C++ compiler for MinGW-w64, Win64/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the C++ compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the POSIX threading model. Package: g++-mingw-w64-x86-64-win32 Description-md5: b7a278b6e6a5418562b9721cbfb394f2 Description-en: GNU C++ compiler for MinGW-w64, Win64/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the C++ compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the Win32 threading model. Package: gcc-mingw-w64 Description-md5: 186a2a61eb56afd112def7e23ba6c0ba Description-en: GNU C compiler for MinGW-w64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the C compiler, supporting cross-compiling to 32- and 64-bit MinGW-w64 targets. Package: gcc-mingw-w64-base Description-md5: c672bcae021d4c3e369501f16896add5 Description-en: GNU Compiler Collection for MinGW-w64 (base package) MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This empty package contains the documentation common to all gcc-mingw-w64 packages. Package: gcc-mingw-w64-i686 Description-md5: 1df9e48aacb272ce9615f670323ec4b7 Description-en: GNU C compiler for MinGW-w64 targeting Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the C compiler, supporting cross-compiling to 32-bit MinGW-w64 targets. Package: gcc-mingw-w64-i686-posix Description-md5: aaea0a71bcf8004dbff53ab14cdc680c Description-en: GNU C compiler for MinGW-w64, Win32/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the C compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the POSIX threading model. Package: gcc-mingw-w64-i686-posix-runtime Description-md5: 8cf4db2a61554a8b638d718263fa1896 Description-en: GNU Compiler Collection for MinGW-w64, i686/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the runtime DLLs used by GCC and applications built with it, for i686, using the POSIX thread model. Its purpose is both to provide the DLLs used during builds, and to allow packages shipping Windows programs to depend on those DLLs without pulling in the complete toolchain. Package: gcc-mingw-w64-i686-win32 Description-md5: 9d97b15b1a36742b6f1c0af43e50bd9e Description-en: GNU C compiler for MinGW-w64, Win32/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the C compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the Win32 threading model. Package: gcc-mingw-w64-i686-win32-runtime Description-md5: 388de3e4d18656b3a94b84c4a51659cf Description-en: GNU Compiler Collection for MinGW-w64, i686/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the runtime DLLs used by GCC and applications built with it, for i686, using the Win32 thread model. Its purpose is both to provide the DLLs used during builds, and to allow packages shipping Windows programs to depend on those DLLs without pulling in the complete toolchain. Package: gcc-mingw-w64-x86-64 Description-md5: cfe2f1984459e655ca7197df3f410b29 Description-en: GNU C compiler for MinGW-w64 targeting Win64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the C compiler, supporting cross-compiling to 64-bit MinGW-w64 targets. Package: gcc-mingw-w64-x86-64-posix Description-md5: 6a3f3e94c5611377c2ca02e8e014ab3a Description-en: GNU C compiler for MinGW-w64, Win64/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the C compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the POSIX threading model. Package: gcc-mingw-w64-x86-64-posix-runtime Description-md5: a45e6da30baf0e44fb002221b7820e3f Description-en: GNU Compiler Collection for MinGW-w64, x86-64/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the runtime DLLs used by GCC and applications built with it, for x86-64, using the POSIX thread model. Its purpose is both to provide the DLLs used during builds, and to allow packages shipping Windows programs to depend on those DLLs without pulling in the complete toolchain. Package: gcc-mingw-w64-x86-64-win32 Description-md5: caa3be7db7eeed56498fd7c4fb27f2b2 Description-en: GNU C compiler for MinGW-w64, Win64/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the C compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the Win32 threading model. Package: gcc-mingw-w64-x86-64-win32-runtime Description-md5: 6a92bf4ba77035bbc3f428c93f7fd133 Description-en: GNU Compiler Collection for MinGW-w64, x86-64/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the runtime DLLs used by GCC and applications built with it, for x86-64, using the Win32 thread model. Its purpose is both to provide the DLLs used during builds, and to allow packages shipping Windows programs to depend on those DLLs without pulling in the complete toolchain. Package: gdal-bin Description-md5: 9b991dff688fb509bc873ba688a660b5 Description-en: Geospatial Data Abstraction Library - Utility programs GDAL is a translator library for raster geospatial data formats. As a library, it presents a single abstract data model to the calling application for all supported formats. The related OGR library (which lives within the GDAL source tree) provides a similar capability for simple features vector data. . GDAL supports 40+ popular data formats, including commonly used ones (GeoTIFF, JPEG, PNG and more) as well as the ones used in GIS and remote sensing software packages (ERDAS Imagine, ESRI Arc/Info, ENVI, PCI Geomatics). Also supported many remote sensing and scientific data distribution formats such as HDF, EOS FAST, NOAA L1B, NetCDF, FITS. . OGR library supports popular vector formats like ESRI Shapefile, TIGER data, S57, MapInfo File, DGN, GML and more. . This package contains utility programs, based on GDAL/OGR library, namely gdal_translate, gdalinfo, gdaladdo, gdalwarp, ogr2ogr, ogrinfo, ogrtindex. Package: gdal-data Description-md5: 81ef266f0ab038b3120be125843fe901 Description-en: Geospatial Data Abstraction Library - Data files GDAL is a translator library for raster geospatial data formats. As a library, it presents a single abstract data model to the calling application for all supported formats. The related OGR library (which lives within the GDAL source tree) provides a similar capability for simple features vector data. . GDAL supports 40+ popular data formats, including commonly used ones (GeoTIFF, JPEG, PNG and more) as well as the ones used in GIS and remote sensing software packages (ERDAS Imagine, ESRI Arc/Info, ENVI, PCI Geomatics). Also supported many remote sensing and scientific data distribution formats such as HDF, EOS FAST, NOAA L1B, NetCDF, FITS. . OGR library supports popular vector formats like ESRI Shapefile, TIGER data, S57, MapInfo File, DGN, GML and more. . This package contains the GDAL data files. Package: gdal-plugins Description-md5: 6b88a972f184d3df554c631d9627b3a5 Description-en: Geospatial Data Abstraction Library - Plugins GDAL is a translator library for raster geospatial data formats. As a library, it presents a single abstract data model to the calling application for all supported formats. The related OGR library (which lives within the GDAL source tree) provides a similar capability for simple features vector data. . GDAL supports 40+ popular data formats, including commonly used ones (GeoTIFF, JPEG, PNG and more) as well as the ones used in GIS and remote sensing software packages (ERDAS Imagine, ESRI Arc/Info, ENVI, PCI Geomatics). Also supported many remote sensing and scientific data distribution formats such as HDF, EOS FAST, NOAA L1B, NetCDF, FITS. . OGR library supports popular vector formats like ESRI Shapefile, TIGER data, S57, MapInfo File, DGN, GML and more. . This package contains data for the plugins. Package: gdk-pixbuf-tests Description-md5: cf0f6aef61d499ed22f97ebc5d8c2d7b Description-en: installed tests for the GDK Pixbuf library The GDK Pixbuf library provides: - Image loading and saving facilities. - Fast scaling and compositing of pixbufs. - Simple animation loading (ie. animated GIFs) . This package contains the installed tests for the GDK Pixbuf library. Package: geophar Description-md5: c3acc8ca9907ae13522455d6c16ff829 Description-en: Swiss army knife for the math teacher this application contains every tool you would like to find when preparing math courses, exercises or their keys. Features: - symbolic calculus - tables of variations, LaTeX syntax - dynamic geometry - probability trees - graphs - function plotting - histograms, etc. Package: gfortran-mingw-w64 Description-md5: 226bdce350b0262f3c77b87c36299c88 Description-en: GNU Fortran compiler for MinGW-w64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Fortran compiler, supporting cross-compiling to 32- and 64-bit MinGW-w64 targets. Package: gfortran-mingw-w64-i686 Description-md5: 8514229bdbe4d596f03ba9790bbcfd2a Description-en: GNU Fortran compiler for MinGW-w64 targeting Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Fortran compiler, supporting cross-compiling to 32-bit MinGW-w64 targets. Package: gfortran-mingw-w64-i686-posix Description-md5: 8a0592c2734bdbf3cad2e63b33589d7c Description-en: GNU Fortran compiler for MinGW-w64, Win32/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Fortran compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the POSIX threading model. Package: gfortran-mingw-w64-i686-win32 Description-md5: 189f58f8edc956cf8be003dc5d75ed39 Description-en: GNU Fortran compiler for MinGW-w64, Win32/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Fortran compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the Win32 threading model. Package: gfortran-mingw-w64-x86-64 Description-md5: f81944970a0452452936b0dfcfe0605b Description-en: GNU Fortran compiler for MinGW-w64 targeting Win64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Fortran compiler, supporting cross-compiling to 64-bit MinGW-w64 targets. Package: gfortran-mingw-w64-x86-64-posix Description-md5: 416377ec0777856235543e1a2b85afce Description-en: GNU Fortran compiler for MinGW-w64, Win64/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Fortran compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the POSIX threading model. Package: gfortran-mingw-w64-x86-64-win32 Description-md5: 8d5bee720a90108f09b45c667c3c492e Description-en: GNU Fortran compiler for MinGW-w64, Win64/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Fortran compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the Win32 threading model. Package: gir1.2-cogl-1.0 Description-md5: 148c6f8cbdcd16e6500ac32753a34daf Description-en: GObject introspection data for the Cogl 1.0 library This package contains introspection data for the Clutter scene graph library. . It can be used by packages using the GIRepository format to generate dynamic bindings for libcogl. Package: gir1.2-coglpango-1.0 Description-md5: 9add089f4444192d7be4e46f724bc4b0 Description-en: GObject introspection data for the CoglPango 1.0 library This package contains introspection data for the Clutter scene graph library. . It can be used by packages using the GIRepository format to generate dynamic bindings for libcogl-pango. Package: glibc-source Description-md5: 1892ef83f2f36db0d236ccc041158b32 Description-en: GNU C Library: sources This package contains the sources and patches which are needed to build glibc. Package: gnat-mingw-w64 Description-md5: 1562dadaf2bdac519bb9c18b81e84dc7 Description-en: GNU Ada compiler for MinGW-w64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Ada compiler, supporting cross-compiling to 32- and 64-bit MinGW-w64 targets. Package: gnat-mingw-w64-i686 Description-md5: ebdcd25cfbe0ca4c6add299e73634239 Description-en: GNU Ada compiler for MinGW-w64 targeting Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Ada compiler, supporting cross-compiling to 32-bit MinGW-w64 targets. Package: gnat-mingw-w64-i686-posix Description-md5: d3d4f50a6680407f291d49171d48eaf4 Description-en: GNU Ada compiler for MinGW-w64, Win32/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Ada compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the POSIX threading model. Package: gnat-mingw-w64-i686-win32 Description-md5: ca2e7efc6aa8646c992d40a727079873 Description-en: GNU Ada compiler for MinGW-w64, Win32/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Ada compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the Win32 threading model. Package: gnat-mingw-w64-x86-64 Description-md5: 0328018315680f1cb26ea975661e7c0a Description-en: GNU Ada compiler for MinGW-w64 targeting Win64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Ada compiler, supporting cross-compiling to 64-bit MinGW-w64 targets. Package: gnat-mingw-w64-x86-64-posix Description-md5: c8efde02816ce5b6297ec4a53754a4c7 Description-en: GNU Ada compiler for MinGW-w64, Win64/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Ada compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the POSIX threading model. Package: gnat-mingw-w64-x86-64-win32 Description-md5: b51b502172020254cc2e28dc8bc50333 Description-en: GNU Ada compiler for MinGW-w64, Win64/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Ada compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the Win32 threading model. Package: gnome-builder Description-md5: 22d6381b4c5e52c504ca03a4e4582e1c Description-en: IDE for GNOME Builder is a new IDE for GNOME that is focused on bringing the power of the platform to more developers than ever before. . Builder attempts to be an IDE for writing software for GNOME. It does not try to be a generic IDE, but one specialized for GNOME application developers. Package: gobjc++-mingw-w64 Description-md5: dc7e3abeb026ad5da4a85f91fa070a74 Description-en: GNU Objective-C++ compiler for MinGW-w64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Objective-C++ compiler, supporting cross-compiling to 32- and 64-bit MinGW-w64 targets. Package: gobjc++-mingw-w64-i686 Description-md5: 0517df82def24a8915a4a2be58749172 Description-en: GNU Objective-C++ compiler for MinGW-w64 targeting Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Objective-C++ compiler, supporting cross-compiling to 32-bit MinGW-w64 targets. Package: gobjc++-mingw-w64-i686-posix Description-md5: 6e63256af7f3fdead5ba0305c626eac5 Description-en: GNU Objective-C++ compiler for MinGW-w64, Win32/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Objective-C++ compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the POSIX threading model. Package: gobjc++-mingw-w64-i686-win32 Description-md5: 0696c94a708736812e65ad9a40746273 Description-en: GNU Objective-C++ compiler for MinGW-w64, Win32/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Objective-C++ compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the Win32 threading model. Package: gobjc++-mingw-w64-x86-64 Description-md5: bb20907e50d2659494026949f23b16cc Description-en: GNU Objective-C++ compiler for MinGW-w64 targeting Win64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Objective-C++ compiler, supporting cross-compiling to 64-bit MinGW-w64 targets. Package: gobjc++-mingw-w64-x86-64-posix Description-md5: ebf58359e18f213c08d8b10411f94cf7 Description-en: GNU Objective-C++ compiler for MinGW-w64, Win64/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Objective-C++ compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the POSIX threading model. Package: gobjc++-mingw-w64-x86-64-win32 Description-md5: 5551ceb3abf97239c8901e039dc560c8 Description-en: GNU Objective-C++ compiler for MinGW-w64, Win64/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Objective-C++ compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the Win32 threading model. Package: gobjc-mingw-w64 Description-md5: 7fe2ecb47243cc07bea99018742991b0 Description-en: GNU Objective-C compiler for MinGW-w64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Objective-C compiler, supporting cross-compiling to 32- and 64-bit MinGW-w64 targets. Package: gobjc-mingw-w64-i686 Description-md5: 172fe07dd1538747126285978c1061e8 Description-en: GNU Objective-C compiler for MinGW-w64 targeting Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Objective-C compiler, supporting cross-compiling to 32-bit MinGW-w64 targets. Package: gobjc-mingw-w64-i686-posix Description-md5: 3be549903ba16400e761d50360f234a9 Description-en: GNU Objective-C compiler for MinGW-w64, Win32/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Objective-C compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the POSIX threading model. Package: gobjc-mingw-w64-i686-win32 Description-md5: f53953ed988e77ca04a5e9a57d390e32 Description-en: GNU Objective-C compiler for MinGW-w64, Win32/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Objective-C compiler, supporting cross-compiling to 32-bit MinGW-w64 targets, using the Win32 threading model. Package: gobjc-mingw-w64-x86-64 Description-md5: 11ea58d29c4f5d92c7dc744cf90b0af6 Description-en: GNU Objective-C compiler for MinGW-w64 targeting Win64 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This metapackage provides the Objective-C compiler, supporting cross-compiling to 64-bit MinGW-w64 targets. Package: gobjc-mingw-w64-x86-64-posix Description-md5: 9f75b5920ef296d65897332a582bfac6 Description-en: GNU Objective-C compiler for MinGW-w64, Win64/POSIX MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Objective-C compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the POSIX threading model. Package: gobjc-mingw-w64-x86-64-win32 Description-md5: 4ea5963c05fed1a60c996954e71f2d0a Description-en: GNU Objective-C compiler for MinGW-w64, Win64/Win32 MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains the Objective-C compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the Win32 threading model. Package: golang-github-cilium-ebpf-dev Description-md5: c3fc4c621a2f93d3c74a5d10cd7fa14e Description-en: eBPF Library for Go eBPF is a pure Go library that provides utilities for loading, compiling, and debugging eBPF programs. It has minimal external dependencies and is intended to be used in long running processes. Package: golang-github-containerd-cgroups-dev Description-md5: 02918fbd0db650abb748067c96da01a2 Description-en: cgroups package for Go Go package for creating, managing, inspecting, and destroying cgroups. The resources format for settings on the cgroup uses the OCI runtime-spec found here (https://github.com/opencontainers/runtime-spec). Package: golang-github-safchain-ethtool-dev Description-md5: 3f5d449895d23d8eb0f94cd2991964e1 Description-en: simple ethtool-like library for Go The ethtool package aims to provide a library giving simple access to the Linux SIOCETHTOOL ioctl operations. It can be used to retrieve information from a network device like statistics, driver related information or even the peer of a VETH interface. Package: golang-github-snapcore-snapd-dev Description-md5: a2d3a19f6630f9476511151dac13666a Description-en: snappy development go packages. Use these to use the snappy API. Package: golang-github-ubuntu-core-snappy-dev Description-md5: 1f317b04f78374dba7d1e14def0b7f80 Description-en: transitional dummy package This is a transitional dummy package. It can safely be removed. Package: gourmand Description-md5: f1993cd7e57731540e2e71e07286e4b4 Description-en: Recipe organizer and shopping list generator Gourmet Recipe Manager is a gtk-based application to store, organize and search recipes. . Features: * Makes it easy to create shopping lists from recipes. * Imports recipes from a number of sources, including MealMaster and MasterCook archives and several popular websites. * Exports recipes as PDF files, plain text, MealMaster files, HTML web pages, and a custom XML format for exchange with other Gourmet users. * Supports linking images with recipes. * Can calculate nutritional information for recipes based on the ingredients. Package: gourmet Description-md5: be6a169e83fb5a14cbdf34432b3aaacd Description-en: transitionnal package to install gourmand This is a transitional dummy package, it can be safely removed. Package: grcov Description-md5: 51f6e1d2c2c4d056a30132817a299058 Description-en: Collects and aggregates code coverage information for multiple source files This package contains the following binaries built from the Rust crate "grcov": - grcov Package: gshutdown Description-md5: ee97b4df0e39068e484578e7e1eb9f2d Description-en: Graphical shutdown utility and shutdown timer GShutdown is a utility which allows you to schedule the shutdown or restart of your computer. With it you can simply and quickly choose the turn off time at either a specific time or after a countdown. . The graphical user interface uses Gtk+2. Package: gstreamer1.0-plugins-ugly Description-md5: c036226562f55540aad2e51fbde63d54 Description-en: GStreamer plugins from the "ugly" set GStreamer is a streaming media framework, based on graphs of filters which operate on media data. Applications using this library can do anything from real-time sound processing to playing videos, and just about anything else media-related. Its plugin-based architecture means that new data types or processing capabilities can be added simply by installing new plug-ins. . This package contains plugins from the "ugly" set, a set of good-quality plug-ins that might pose distribution problems. Package: gtk-4-examples Description-md5: 5aa776a1b85b3a7177e93a35cc24869b Description-en: example files for GTK 4 GTK is a multi-platform toolkit for creating graphical user interfaces. Offering a complete set of widgets, GTK is suitable for projects ranging from small one-off tools to complete application suites. . This package contains the example files and a demonstration program for GTK4. Package: gtk-4-tests Description-md5: 16801b2e0bb5b3bd5dd4b20c8fb93349 Description-en: "as-installed" tests for GTK 4 GTK is a multi-platform toolkit for creating graphical user interfaces. Offering a complete set of widgets, GTK is suitable for projects ranging from small one-off tools to complete application suites. . This package contains installable test programs, primarily for use with autopkgtest. Package: gudhi-utils Description-md5: b51bf5afa1111fae25d9c7961897131d Description-en: Utilities from the GUDHI library The GUDHI library is a generic open source C++ library for Topological Data Analysis (TDA) and Higher Dimensional Geometry Understanding. The library offers state-of-the-art data structures and algorithms to construct simplicial complexes and compute persistent homology. . This package contains some utilities built with the GUDHI library. Package: guile-fibers Description-md5: 380ebade345d1303117eda1718feee69 Description-en: Guile library with facility to provide Go-like concurrency Fibers is a facility that provides Go-like concurrency for Guile Scheme, in the tradition of Concurrent ML. . This package contains the Guile Fibers modules. Package: idle Description-md5: caa84bc1c10b5a5e1a8c46a5b4afa275 Description-en: IDE for Python using Tkinter (default version) IDLE is an Integrated Development Environment for Python. IDLE is written using Tkinter and therefore quite platform-independent. . This package is a dependency package, which depends on Debian's default Python 3 version's IDLE (currently v3.13). Package: idle-python3.14 Description-md5: 40293a613fe7ea3ba671fca60f6c3f6f Description-en: IDE for Python (v3.14) using Tkinter IDLE is an Integrated Development Environment for Python (v3.14). IDLE is written using Tkinter and therefore quite platform-independent. Package: js-of-ocaml Description-md5: ddf90060f879f27f21c8bfc040ae0c08 Description-en: OCaml bytecode to JavaScript compiler (compiler) Js_of_ocaml is a compiler of OCaml bytecode to JavaScript. It makes it possible to run OCaml programs in a web browser. Its key features are the following: * the whole language, and most of the standard library are supported; * the generated code can be used with any web server and browser; * you can use a standard installation of OCaml to compile your programs. In particular, you do not have to recompile a library to use it with Js_of_ocaml. You just have to link your program with a specific library to interface with the browser APIs. . This package contains the compiler itself. Package: just Description-md5: 21f9e3f6dc06fb78bd65e8dbc14a65d1 Description-en: Save and run project-specific commands just is a command runner with a configuration file similar to Makefile but can be written in arbitrary languages. . It has improvements over make e.g. no .PHONY, is cross-platform, has detailed error output, and comes with command line completions for popular shells. Package: kamailio Description-md5: 3b9808665d86120a31874a338e582585 Description-en: very fast, dynamic and configurable SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, kamailio can handle thousands requests per second even on low-budget hardware. It can be configured to act as a SIP proxy, application server, session border controller, or call load balancer to handle a set of media servers. . A C Shell like scripting language provides full control over the server's behaviour. It's easy to integrate Kamailio with 3rd party API's and applications using HTTP, AMQP, database drivers, LDAP, Radius and many other solutions. In addition there is support for scripting using Lua, Python, Perl, Java. . Kamailio's modular architecture allows only required functionality to be loaded. There are over 100 modules available: WebSockets for WebRTC, authentication, multiple databases - both traditional SQL databases as well as no-SQL, message bus systems like Rabbit MQ, instant messaging, a presence agent, integration with REST-ful APIs using HTTP and JSON or XML, radius authentication, record routing, an SMS gateway, a XMPP/jabber gateway, a transaction and dialog module, OSP module, statistics support, registrar and user location services, SNMP, SIMPLE Presence and much more. . This package contains the main Kamailio binary along with the principal modules and support binaries. Package: kamailio-autheph-modules Description-md5: e80feac6503dfc23b0b8833138f225df Description-en: authentication using ephemeral credentials for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the ephemeral authentication module for Kamailio, enabling authentication using a Restful HTTP API. Package: kamailio-berkeley-bin Description-md5: 239ed22252bef8c6ab31de881898378c Description-en: Berkeley database module for Kamailio - helper program Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides helper modules for the Berkeley database module for Kamailio, a high-performance embedded DB kernel. You should normally install kamailio-berkeley-modules and not this package directly. Package: kamailio-berkeley-modules Description-md5: afe21acd6a81996d52c56d67c65cd8f1 Description-en: Berkeley database module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the Berkeley database module for Kamailio, a high-performance embedded database. All database tables are stored in files, no additional server is necessary. Package: kamailio-cnxcc-modules Description-md5: 3d59c0d88b6e3024f973200765504fc0 Description-en: cnxcc modules for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the cnxcc call charging control module for Kamailio. Package: kamailio-cpl-modules Description-md5: acc08d42c21651499c8ae0c0e2615207 Description-en: CPL module (CPL interpreter engine) for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides a CPL (Call Processing Language) interpreter for Kamailio, turning Kamailio into a CPL server (storage and interpreter). Package: kamailio-erlang-modules Description-md5: 81dd7fccd6b7b252e7247bc36e64f9ee Description-en: Erlang modules for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This Kamailio module provides interaction with the Erlang node from the Kamailio SIP routing scripts. The module allows sending, receiving Erlang messages and RPC calls between each other. Package: kamailio-extra-modules Description-md5: 7adb33bccea1a4d69f0519fff8d2e5ec Description-en: Extra modules for the Kamailio SIP Server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides a set of modules for compression of SIP attachments, UUID usage, JSON data structure support, HTTP restful API asynchronous access, JWT (JSON Web Token) and a few more functions: gzcompress uuid evapi jansson janssonrpcc http_async_client jwt Package: kamailio-geoip2-modules Description-md5: bb2968f9479079a613c83dc80911f1d5 Description-en: geoip2 module for the Kamailio SIP Server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the geoip2 module, an extension enabling real-time queries against the Max Mind GeoIP2 database within the Kamailio configuration file. Package: kamailio-ims-modules Description-md5: 9f40af666cd6a9dd0fe3d4272bd00ce0 Description-en: IMS module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package contains various Diameter interfaces and modules for Kamailio to run as an IMS core. Package: kamailio-json-modules Description-md5: 096739f186c290e3b7f40d8d29087d16 Description-en: Json parser and Json-RPC modules for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides a JSON parser for use in the Kamailio configuration file and the JSON-RPC client over netstrings. Package: kamailio-kafka-modules Description-md5: 6f44290ff565783723f0191e7cb54dd4 Description-en: Kafka module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides an embedded kafka producer using librdkafka. Package: kamailio-kazoo-modules Description-md5: 8d9132d1dc3d008b539e3a8adf13ed13 Description-en: kazoo modules for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the Kazoo application server integration module for Kamailio. Package: kamailio-ldap-modules Description-md5: a1f37e4d883caccb2b182a8e04087683 Description-en: LDAP modules for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the ldap and h350 modules for Kamailio, enabling LDAP queries from the Kamailio routing scripts and storage of SIP account data in an LDAP directory. Package: kamailio-lua-modules Description-md5: e78678d1eea14c5a28d0b5756a863786 Description-en: app_lua module for Kamailio Lua support Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the app_lua module, an extension allowing to execute embedded Lua applications within the configuration file as well as writing the entire configuration file in Lua. Package: kamailio-lwsc-modules Description-md5: 651a0529537101bebec504571b00408a Description-en: Libwebsockets module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package contains the lwcs module, which provides a client-side WebSockets API through libwebsockets. Package: kamailio-memcached-modules Description-md5: 8a1b5b6a49b64c3f266fd53f56497b9b Description-en: interface to the memcached server, for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the memcached module, an interface to the memcached server, a high-performance, distributed memory object caching system. Package: kamailio-microhttpd-modules Description-md5: f414917140b7589791acfc739ce72745 Description-en: Microhttpd module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides an embedded HTTP server using libmicrohttpd. Package: kamailio-mongodb-modules Description-md5: 58f5fcbe5e3436900cb006c7801b2a3b Description-en: mongodb modules for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the mongodb database driver and non-db connector for Kamailio. Package: kamailio-mqtt-modules Description-md5: 54a4a3f05924c755b672e6ab7fb71880 Description-en: MQTT modules for the Kamailio SIP Server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . MQTT module allows bidirectional publish/subscribe communication by connecting Kamailio to a MQTT Broker. . Messages can be published from any point in the routing script. Also the subscriptions can be fully controlled by scripting commands. Package: kamailio-mysql-modules Description-md5: e5dd14628ca6789f21ca41a164f8564a Description-en: MySQL database connectivity module for Kamailio Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the MySQL database driver for Kamailio. Package: kamailio-nats-modules Description-md5: 98fadf1e6efe7d33f5087da03212f3e6 Description-en: Nats module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package contains the nats module, which provides a NATS consumer for Kamailio. NATS is a real time distributed messaging platform, more details about it can be found at nats.io. Package: kamailio-outbound-modules Description-md5: 5e14e36508e7f1a32376829e888acef5 Description-en: SIP Outbound module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package contains the "outbound" module implementing SIP outbound extension Package: kamailio-perl-modules Description-md5: cfe9d19e4e30f4e71986827ded62b2ab Description-en: Perl extensions and database driver for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides an interface for Kamailio to write Perl extensions and the perlvdb database driver for Kamailio. Package: kamailio-phonenum-modules Description-md5: 28e6546f656f4fa8735fbba63db8bf4a Description-en: phonenum modules for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides real-time queries against the libphonenumber to be performed directly from the Kamailio configuration and routing scripts. Package: kamailio-postgres-modules Description-md5: 8352e89f5d321aac333965c2b466bead Description-en: PostgreSQL database connectivity module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the PostgreSQL database driver for Kamailio. Package: kamailio-presence-modules Description-md5: c1834ec77d4cce2de4cb832201049c17 Description-en: SIP presence modules for Kamailio Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides several Kamailio modules for implementing a presence server and presence user agent for rich presence, registrar-based presence, external triggered presence with SIMPLE and XCAP support, as well as a set of other SIP event packages.. Package: kamailio-python3-modules Description-md5: 5bd97b896aa3add6a41b618dc7ba976b Description-en: app_python3 module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the app_python3 module, an extension allowing to execute embedded Python applications within the Kamailio SIP routing script. Package: kamailio-rabbitmq-modules Description-md5: 291676c921cf99398a1ab3d788565fb9 Description-en: RabbitMQ and AMQP integration modules for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the RabbitMQ module for Kamailio, enabling AMQP integration into the SIP routing scripts for third party service support. Package: kamailio-radius-modules Description-md5: 5aa030dd29538d295aa0cf0940e5b5d0 Description-en: RADIUS modules for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides a set of RADIUS modules for Kamailio, for authentication, peering, group membership and messages URIs checking against a RADIUS server. Package: kamailio-redis-modules Description-md5: 2a2e0163eb31c5413dfc1f2ff9e82735 Description-en: Redis database connectivity module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the Redis NOSQL database driver for Kamailio. Package: kamailio-ruby-modules Description-md5: 9950deeb75bcae73dad9ccfb78da8bc5 Description-en: app_ruby module for Kamailio Ruby support Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the app_ruby module, an extension allowing to execute embedded Ruby applications within the Kamailio SIP routing script. Package: kamailio-sctp-modules Description-md5: 23c1bcafb8b49b3df80140f632fd9d8d Description-en: SCTP SIP transport module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the SCTP SIP transport module for Kamailio. Package: kamailio-secsipid-modules Description-md5: 22714923bc20b2934a0ebc9c7f654a58 Description-en: secsipid module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package contains the secsipid module, witch provides STIR and SHAKEN (RFC8224, RFC8588). Package: kamailio-snmpstats-modules Description-md5: 3f19e2de7dc27a4ef75f936a91e17402 Description-en: SNMP AgentX subagent module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the snmpstats module for Kamailio. This module acts as an AgentX subagent which connects to a master agent. The Kamailio MIBS are included. Package: kamailio-sqlite-modules Description-md5: b4f67430b14343d98efac6caaf86fe43 Description-en: SQLite database connectivity module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the SQLite database driver for Kamailio. Package: kamailio-systemd-modules Description-md5: b03a3ec6dcec09ef8291bc5e46f57fcf Description-en: systemd logging modules for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides logging to systemd journal directly from the Kamailio configuration and routing scripts. Package: kamailio-tls-modules Description-md5: 36c06a49af2355c47ed5760d80991cd8 Description-en: TLS support for the Kamailio SIP server (authentication, transport) Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides TLS support for encrypted and authenticated SIP connections as well as generic TLS support for many Kamailio modules. Package: kamailio-tls-wolfssl-modules Description-md5: dcf9a62b41e7ba20efa7042fd946d09d Description-en: TLS support for the Kamailio SIP server (authentication, transport) Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides TLS support for encrypted and authenticated using wolfssl SIP connections as well as generic TLS support for many Kamailio modules. Package: kamailio-unixodbc-modules Description-md5: 1f7c22f422b0111b09d4f9a872f73763 Description-en: unixODBC database connectivity module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the unixODBC database driver for Kamailio. Package: kamailio-utils-modules Description-md5: 10e039d68b43f9d332fe6e38049edc47 Description-en: Utility functions for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides a set of utility functions for Kamailio, as well as modules for restful HTTP API access using the CURL library in the http_client module. Package: kamailio-websocket-modules Description-md5: 14a90490fa55b64ad6cd540ad4dd34b8 Description-en: WebSocket module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package contains the module implementing WebSocket transport layer for use in SIP over WebSockets, in combination with WebRTC media sessions.. Package: kamailio-xml-modules Description-md5: c27d5c0af319dff182dc09dd0da739cb Description-en: XML based extensions for Kamailio's Management Interface Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides: - the XMLRPC transport implementations for Kamailio's Management and Control Interface. - xmlops module for XPath operations in configuration file Package: kamailio-xmpp-modules Description-md5: 5ef95e7d723676af349f49fed944b7b3 Description-en: XMPP gateway module for the Kamailio SIP server Kamailio is a very fast and flexible SIP (RFC3261) server. Written entirely in C, Kamailio can handle thousands calls per second even on low-budget hardware. . This package provides the SIP to XMPP IM translator module for Kamailio. Package: klevernotes Description-md5: e69b4f0e8ab97661c794a02e60ce6a18 Description-en: note taking and management application KleverNotes is a note taking and management application. for your mobile and desktop devices. It uses markdown and allows you to preview your content. . Different versions of Markdown are supported thanks to the md4qt parser. This parser allows text plugins to extend Markdown parsing, enabling the creation of KleverNotes "plugins". Package: ledger Description-md5: e7a7a30673406f7486331b2d6359a532 Description-en: command-line double-entry accounting program Ledger is a powerful and flexible double-entry accounting system run entirely from the command line. Your accounts ledger is stored in one or more plain-text files with a very simple and readable format, and ledger does the hard work of balancing your books and reporting. Package: leela-zero Description-md5: d63f9baa6d6e8d9efc5591d53534d153 Description-en: Go engine with no human-provided knowledge, modeled after the AlphaGo Zero paper A Go program with no human provided knowledge. Using MCTS (but without Monte Carlo playouts) and a deep residual convolutional neural network stack. . This is a fairly faithful reimplementation of the system described in the Alpha Go Zero paper "Mastering the Game of Go without Human Knowledge". For all intents and purposes, it is an open source AlphaGo Zero. . https://deepmind.com/documents/119/agz_unformatted_nature.pdf . No network weights are in this repository. If you manage to obtain the AlphaGo Zero weights, this program will be about as strong, provided you also obtain a few Tensor Processing Units. Lacking those TPUs, the author recommends a top of the line GPU - it's not exactly the same, but the result would still be an engine that is far stronger than the top humans. . Recomputing the AlphaGo Zero weights will take about 1700 years on commodity hardware. Upstream is running a public, distributed effort to repeat this work. Working together, and especially when starting on a smaller scale, it will take less than 1700 years to get a good network (which you can feed into this program, suddenly making it strong). To help with this effort, run the leelaz-autogtp binary provided in this package. The best-known network weights file is at http://zero.sjeng.org/best-network Package: lfortran Description-md5: 2a21f5c81fb9d9e06c0d434684995a02 Description-en: Modern interactive LLVM-based Fortran compiler LFortran is a modern open-source (BSD licensed) interactive Fortran compiler built on top of LLVM. It can execute user’s code interactively to allow exploratory work (much like Python, MATLAB or Julia) as well as compile to binaries with the goal to run user’s code on modern architectures such as multi-core CPUs and GPUs. Package: libadios2-common-c++11-dev Description-md5: 57268e11cbec2150bb3e70d415b21d06 Description-en: Adaptable IO system for simulations - C++11 binding include files (common) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the common C++11 binding include files for ADIOS2. Package: libadios2-common-c-dev Description-md5: 1c2cfa93793b12537fe1be40846cd3cf Description-en: Adaptable IO system for simulations - C binding include files (common) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the common C binding include files for ADIOS2. Package: libadios2-common-core-dev Description-md5: 74653ffb40aec3d346e60ea7ec8352a6 Description-en: Adaptable IO system for simulations - core include files (common) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the common core include files for ADIOS2. Package: libadios2-mpi-auxiliary-2.10 Description-md5: 30833304a2d4fcbec1f2c87c2b972b9b Description-en: ADIOS2 Adaptable IO system for simulations - auxiliary libraries (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the auxiliary thirdparty libraries required by the MPI build of ADIOS2, which are not yet packaged separately: - atl - dill - EVPath - ffs - perfstubs Package: libadios2-mpi-auxiliary-dev Description-md5: 732f3a1490205a811ce4d71ea9c53dcc Description-en: Adaptable IO system for simulations - auxiliary development files (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains binding development files for the auxiliary thirdparty libraryies required by the MPI build of ADIOS2, which are not yet packaged separately: - atl - dill - EVPath - ffs - perfstubs Package: libadios2-mpi-c++11-2.10 Description-md5: 26a287a9eb7df867181236507d979fd5 Description-en: ADIOS2 Adaptable IO system for simulations - C++11 binding libraries (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the C++11 binding libraries for the MPI build of ADIOS2. Package: libadios2-mpi-c++11-dev Description-md5: fed92ce645d3b054fdbd030c6d4ddfac Description-en: Adaptable IO system for simulations - C++11 binding development files (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the C++11 binding development files for the MPI build of ADIOS2. Package: libadios2-mpi-c-2.10 Description-md5: 3335639c8cd8625da1d0df44aced9933 Description-en: ADIOS2 Adaptable IO system for simulations - C binding libraries (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the C binding libraries for the MPI build of ADIOS2. Package: libadios2-mpi-c-dev Description-md5: ee63becc1eaa48a32a3f82bd8ebe87bf Description-en: Adaptable IO system for simulations - C binding development files (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the C binding development files for the MPI build of ADIOS2. Package: libadios2-mpi-core-2.10 Description-md5: 1bbc19a1a7121683f60a5752c4d59d63 Description-en: ADIOS2 Adaptable IO system for simulations - core libraries (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the core libraries for the MPI build of ADIOS2. Package: libadios2-mpi-core-dev Description-md5: a6037597e4b000c827ab3c73bfbafcbe Description-en: Adaptable IO system for simulations - core development files (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the core development files for the MPI build of ADIOS2. Package: libadios2-mpi-fortran-2.10 Description-md5: 2e121c1c338f331b8e3bfdfe6c395233 Description-en: ADIOS2 Adaptable IO system for simulations - Fortran binding libraries (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the Fortran binding libraries for the MPI build of ADIOS2. Package: libadios2-mpi-fortran-dev Description-md5: 6b6c3e9149f62c835e3ea01eff840141 Description-en: Adaptable IO system for simulations - Fortran binding development files (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the Fortran binding development files for the MPI build of ADIOS2. Package: libadios2-mpi-plugins Description-md5: 2b24b7c1463117aa04083ef6ba648d17 Description-en: ADIOS2 Adaptable IO system for simulations - core libraries (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the plugin libraries for the MPI build of ADIOS2. Package: libadios2-serial-auxiliary-2.10 Description-md5: 1e2824419b8e2eb727158b40075f2d67 Description-en: ADIOS2 Adaptable IO system for simulations - auxiliary libraries (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the auxiliary thirdparty libraries required by the serial build of ADIOS2, which are not yet packaged separately: - atl - dill - EVPath - ffs - perfstubs Package: libadios2-serial-auxiliary-dev Description-md5: 76dd37c89f153552a9cb7eb9f4ee418b Description-en: Adaptable IO system for simulations - auxiliary development files (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains binding development files for the auxiliary thirdparty libraryies required by the serial build of ADIOS2, which are not yet packaged separately: - atl - dill - EVPath - ffs - perfstubs Package: libadios2-serial-c++11-2.10 Description-md5: f7df48efa549e8d3cd4caa8eeaa2fc2f Description-en: ADIOS2 Adaptable IO system for simulations - C++11 binding libraries (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the C++11 binding libraries for the serial build of ADIOS2. Package: libadios2-serial-c++11-dev Description-md5: 94e13fa754414b86d3e99465789c09de Description-en: Adaptable IO system for simulations - C++11 binding development files (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the C++11 binding development files for the serial build of ADIOS2. Package: libadios2-serial-c-2.10 Description-md5: 0a984f08514ef8ff007af39c42479f6b Description-en: ADIOS2 Adaptable IO system for simulations - C binding libraries (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the C binding libraries for the serial build of ADIOS2. Package: libadios2-serial-c-dev Description-md5: 5f02efb3076e9459f0f7e7c9d2d74ab8 Description-en: Adaptable IO system for simulations - C binding development files (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the C binding development files for the serial build of ADIOS2. Package: libadios2-serial-core-2.10 Description-md5: 72035af34866f3ebb3a993dfd80dfceb Description-en: ADIOS2 Adaptable IO system for simulations - core libraries (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the core libraries for the serial build of ADIOS2. Package: libadios2-serial-core-dev Description-md5: ffc1edc97476b2841da6afe87c0429e4 Description-en: Adaptable IO system for simulations - core development files (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the core development files for the serial build of ADIOS2. Package: libadios2-serial-fortran-2.10 Description-md5: f9626defe65d0e5d708a8fe1abb7aa49 Description-en: ADIOS2 Adaptable IO system for simulations - Fortran binding libraries (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the Fortran binding libraries for the serial build of ADIOS2. Package: libadios2-serial-fortran-dev Description-md5: 624aa2debe9707be66c00fef6d68c9b6 Description-en: Adaptable IO system for simulations - Fortran binding development files (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the Fortran binding development files for the serial build of ADIOS2. Package: libadios2-serial-plugins Description-md5: 861f06d7fa2b11f235073d61f73b3b8c Description-en: ADIOS2 Adaptable IO system for simulations - core libraries (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the plugin libraries for the serial build of ADIOS2. Package: libalcotest-ocaml-dev Description-md5: 8c969d13c23f0fa6afe3074f886916bc Description-en: lightweight and colourful test framework for OCaml Alcotest exposes simple interface to perform unit tests. It exposes a simple TESTABLE module type, a check function to assert test predicates and a run function to perform a list of unit -> unit test callbacks. . Alcotest provides a quiet and colorful output where only faulty runs are fully displayed at the end of the run (with the full logs ready to inspect), with a simple (yet expressive) query language to select the tests to run. Package: libatd-ocaml Description-md5: d6cc4a5eb0bf6a8e4945516eef4b6271 Description-en: syntax for cross-language data types in OCaml - plugins ATD stands for Adjustable Type Definitions. It is a type definition language designed to accommodate a variety of programming languages and data formats by the means of target-specific annotations. It supports sum types, parametrized types and inheritance. The library provides a parser and other tools useful for manipulating ATD type definitions. . This package contains the shared runtime libraries and plugins. Package: libatd-ocaml-dev Description-md5: cea6e722b02dca73a2b3aa0734febbdd Description-en: syntax for cross-language data types in OCaml - development files ATD stands for Adjustable Type Definitions. It is a type definition language designed to accommodate a variety of programming languages and data formats by the means of target-specific annotations. It supports sum types, parametrized types and inheritance. The library provides a parser and other tools useful for manipulating ATD type definitions. . This package contains the development files needed for programming with the library. Package: libatdgen-ocaml Description-md5: bed5d2871dffaa5c58c8e714fa6a5ada Description-en: OCaml code generator for biniou and JSON - plugins Atdgen is a command-line program that takes as input type definitions in the ATD syntax and produces OCaml code suitable for data serialization and deserialization. Two data formats are currently supported, these are biniou and JSON. . This package contains the shared runtime libraries (plugin). Package: libatdgen-ocaml-dev Description-md5: 4e3a414dceb291c58c8581350f65922a Description-en: OCaml code generator for biniou and JSON - executable and dev files Atdgen is a command-line program that takes as input type definitions in the ATD syntax and produces OCaml code suitable for data serialization and deserialization. Two data formats are currently supported, these are biniou and JSON. . This package contains the adtgen executable and the files necessary for programming with the library. Package: libbase64-ocaml Description-md5: d9c269e6e413f2cd3c47a26a4091b0ed Description-en: Base64 encoding and decoding OCaml library (runtime files) Base64 is a group of similar binary-to-text encoding schemes that represent binary data in an ASCII string format by translating it into a radix-64 representation. It is specified in RFC 2045. . This package contains runtime files. Package: libbase64-ocaml-dev Description-md5: e59bda4cc95ce2fab70259cca123cf67 Description-en: Base64 encoding and decoding OCaml library (dev files) Base64 is a group of similar binary-to-text encoding schemes that represent binary data in an ASCII string format by translating it into a radix-64 representation. It is specified in RFC 2045. . This package contains development files. Package: libbasix-dev Description-md5: ef00ad4fde6f4ceecacc877ab3b3f2f6 Description-en: Finite Element Basis Function Definition Runtime Library (development headers) Computes FE basis functions and derivatives for the following elements: - Lagrange (interval, triangle, tetrahedron, prism, pyramid, quadrilateral, hexahedron) - Nédélec (triangle, tetrahedron) - Nédélec Second Kind (triangle, tetrahedron) - Raviart-Thomas (triangle, tetrahedron) - Regge (triangle, tetrahedron) - Crouzeix-Raviart (triangle, tetrahedron) . Computes quadrature rules on different cell types . Provides reference topology and geometry for reference cells of each type. . Python wrapper provided with pybind11. . This package installs the development files for the shared library. Package: libbasix0.9 Description-md5: d1f7506b70a1a05918534efb2096e744 Description-en: Finite Element Basis Function Definition Runtime Library (Python 3) Computes FE basis functions and derivatives for the following elements: - Lagrange (interval, triangle, tetrahedron, prism, pyramid, quadrilateral, hexahedron) - Nédélec (triangle, tetrahedron) - Nédélec Second Kind (triangle, tetrahedron) - Raviart-Thomas (triangle, tetrahedron) - Regge (triangle, tetrahedron) - Crouzeix-Raviart (triangle, tetrahedron) . Computes quadrature rules on different cell types . Provides reference topology and geometry for reference cells of each type. . Python wrapper provided with pybind11. . This package installs the shared library. Package: libbin-prot-ocaml Description-md5: 63c6e42a9644887f70869a202b1a87b3 Description-en: type-safe binary serialization for OCaml values (runtime) bin-prot provides functionalities for reading and writing OCaml-values in a type-safe binary protocol. . These functions provide a safe way of performing I/O on any extensionally defined data type. Functions, objects, and values whose type is bound through a polymorphic record field are not supported, but everything else is. . There is no support for cyclic or shared values and only little endian computer architectures are supported. . This package contains runtime files. Package: libbin-prot-ocaml-dev Description-md5: e1b4e98b2c3df762ce9168432ebc94ca Description-en: type-safe binary serialization for OCaml values (dev files) bin-prot provides functionalities for reading and writing OCaml-values in a type-safe binary protocol. . These functions provide a safe way of performing I/O on any extensionally defined data type. Functions, objects, and values whose type is bound through a polymorphic record field are not supported, but everything else is. . There is no support for cyclic or shared values and only little endian computer architectures are supported. . This package contains development files. Package: libbisect-ppx-ocaml Description-md5: c26065d6c847788fbd67139db39324ce Description-en: Code coverage for OCaml and ReScript (runtime files) Bisect-ppx helps you test thoroughly. It is a small preprocessor that inserts instrumentation at places in your code, such as if-then-else and match expressions. After you run tests, Bisect_ppx gives a nice HTML report showing which places were visited and which were missed. . This package contains runtime files. Package: libbisect-ppx-ocaml-dev Description-md5: 0738dbb6f6c53a937c8e195e6a86eb9c Description-en: Code coverage for OCaml and ReScript (dev files) Bisect_ppx helps you test thoroughly. It is a small preprocessor that inserts instrumentation at places in your code, such as if-then-else and match expressions. After you run tests, Bisect_ppx gives a nice HTML report showing which places were visited and which were missed. . This package contains development files. Package: libbitstring-ocaml Description-md5: c2b8966f5698181380aea049d9cdbad0 Description-en: Erlang-style bitstrings for OCaml (runtime) Bitstring adds Erlang-style bitstrings and matching over bitstrings as a syntax extension and library for OCaml. . You can use this module to both parse and generate binary formats, files and protocols. . Bitstring handling is added as primitives to the language, making it simple to use. . Bitstring handles integers, strings, sub-bitstrings, big-, little- and native-endianness, signed and unsigned types, variable-width fields, fields with arbitrary bit alignment. . This package contains only the shared runtime stub libraries. Package: libbitstring-ocaml-dev Description-md5: dfe4b5728e3209528abc0e843b171f00 Description-en: Erlang-style bitstrings for OCaml (development files) Bitstring adds Erlang-style bitstrings and matching over bitstrings as a syntax extension and library for OCaml. . You can use this module to both parse and generate binary formats, files and protocols. . Bitstring handling is added as primitives to the language, making it simple to use. . Bitstring handles integers, strings, sub-bitstrings, big-, little- and native-endianness, signed and unsigned types, variable-width fields, fields with arbitrary bit alignment. . This package contains header and OCaml library. Package: libbolt-19-dev Description-md5: a5816535f62942b4fcded9b86fb66840 Description-en: Post-link optimizer It achieves the improvements by optimizing application's code layout based on execution profile gathered by sampling profiler. Package: libbolt-21-dev Description-md5: a5816535f62942b4fcded9b86fb66840 Description-en: Post-link optimizer It achieves the improvements by optimizing application's code layout based on execution profile gathered by sampling profiler. Package: libbolt-22-dev Description-md5: a5816535f62942b4fcded9b86fb66840 Description-en: Post-link optimizer It achieves the improvements by optimizing application's code layout based on execution profile gathered by sampling profiler. Package: libboost-atomic1.83-dev Description-md5: 1aa2477e97733797bec0d32670d4e90e Description-en: atomic data types, operations, and memory ordering constraints This package forms part of the Boost C++ Libraries collection. . Boost.Atomic is a library that provides atomic data types and operations on these data types, as well as memory ordering constraints required for coordinating multiple threads through atomic variables. It implements the interface as defined by the C++11 standard, but makes this feature available for platforms lacking system/compiler support for this particular C++11 feature. . Users of this library should already be familiar with concurrency in general, as well as elementary concepts such as "mutual exclusion". . The implementation makes use of processor-specific instructions where possible (via inline assembler, platform libraries or compiler intrinsics), and falls back to "emulating" atomic operations through locking. Package: libboost-atomic1.83.0 Description-md5: 1aa2477e97733797bec0d32670d4e90e Description-en: atomic data types, operations, and memory ordering constraints This package forms part of the Boost C++ Libraries collection. . Boost.Atomic is a library that provides atomic data types and operations on these data types, as well as memory ordering constraints required for coordinating multiple threads through atomic variables. It implements the interface as defined by the C++11 standard, but makes this feature available for platforms lacking system/compiler support for this particular C++11 feature. . Users of this library should already be familiar with concurrency in general, as well as elementary concepts such as "mutual exclusion". . The implementation makes use of processor-specific instructions where possible (via inline assembler, platform libraries or compiler intrinsics), and falls back to "emulating" atomic operations through locking. Package: libboost-atomic1.88-dev Description-md5: 1aa2477e97733797bec0d32670d4e90e Description-en: atomic data types, operations, and memory ordering constraints This package forms part of the Boost C++ Libraries collection. . Boost.Atomic is a library that provides atomic data types and operations on these data types, as well as memory ordering constraints required for coordinating multiple threads through atomic variables. It implements the interface as defined by the C++11 standard, but makes this feature available for platforms lacking system/compiler support for this particular C++11 feature. . Users of this library should already be familiar with concurrency in general, as well as elementary concepts such as "mutual exclusion". . The implementation makes use of processor-specific instructions where possible (via inline assembler, platform libraries or compiler intrinsics), and falls back to "emulating" atomic operations through locking. Package: libboost-atomic1.88.0 Description-md5: 1aa2477e97733797bec0d32670d4e90e Description-en: atomic data types, operations, and memory ordering constraints This package forms part of the Boost C++ Libraries collection. . Boost.Atomic is a library that provides atomic data types and operations on these data types, as well as memory ordering constraints required for coordinating multiple threads through atomic variables. It implements the interface as defined by the C++11 standard, but makes this feature available for platforms lacking system/compiler support for this particular C++11 feature. . Users of this library should already be familiar with concurrency in general, as well as elementary concepts such as "mutual exclusion". . The implementation makes use of processor-specific instructions where possible (via inline assembler, platform libraries or compiler intrinsics), and falls back to "emulating" atomic operations through locking. Package: libboost-charconv1.88-dev Description-md5: 93598341bc642f974a10722811a33d03 Description-en: high quality implementation of in C++11 converts character buffers to numbers, and numbers to character buffers. It is a small library of two overloaded functions to do the heavy lifting, plus several supporting enums, structures, templates, and constants, with a particular focus on performance and consistency across the supported development environments. . It is a locale-independent, non-allocating1, non-throwing and only requires a minimum of C++ 11. It provides functionality similar to that found in std::printf or std::strtod with substantial performance increases. This library can also be used in place of the standard library if unavailable with your toolchain. Currently only GCC 11+ and MSVC 19.24+ support both integer and floating-point conversions in their implementation of . . The package contains the development files. Package: libboost-charconv1.88.0 Description-md5: 0e1db1820234bacb24de34ffde86df2a Description-en: high quality implementation of in C++11 converts character buffers to numbers, and numbers to character buffers. It is a small library of two overloaded functions to do the heavy lifting, plus several supporting enums, structures, templates, and constants, with a particular focus on performance and consistency across the supported development environments. . It is a locale-independent, non-allocating1, non-throwing and only requires a minimum of C++ 11. It provides functionality similar to that found in std::printf or std::strtod with substantial performance increases. This library can also be used in place of the standard library if unavailable with your toolchain. Currently only GCC 11+ and MSVC 19.24+ support both integer and floating-point conversions in their implementation of . Package: libboost-chrono1.83-dev Description-md5: 885c86b3701dab9982f79d2dcc83515c Description-en: C++ representation of time duration, time point, and clocks This package forms part of the Boost C++ Libraries collection. . The Boost.Chrono library provides: . * A means to represent time durations: managed by the generic duration class . Examples of time durations include days, minutes, seconds and nanoseconds, which can be represented with a fixed number of clock ticks per unit. All of these units of time duration are united with a generic interface by the duration facility. * A type for representing points in time: time_point. A time_point represents an epoch plus or minus a duration. The library leaves epochs unspecified. A time_point is associated with a clock. * Several clocks, some of which may not be available on a particular platform: system_clock, steady_clock and high_resolution_clock. A clock is a pairing of a time_point and duration, and a function which returns a time_point representing now. . To make the timing facilities more generally useful, Boost.Chrono provides a number of clocks that are thin wrappers around the operating system's time APIs, thereby allowing the extraction of wall clock time, user CPU time, system CPU time spent by the process: . * process_real_cpu_clock, captures wall clock CPU time spent by the current process. * process_user_cpu_clock, captures user-CPU time spent by the current process. * process_system_cpu_clock, captures system-CPU time spent by the current process. * A tuple-like class process_cpu_clock, that captures real, user-CPU, and system-CPU process times together. * A thread_clock thread steady clock giving the time spent by the current thread (when supported by a platform). . Lastly, Boost.Chrono includes typeof registration for duration and time_point to permit using emulated auto with C++03 compilers. Package: libboost-chrono1.83.0t64 Description-md5: 48bd785e2e56a406e6dbf1b5ba8ce77e Description-en: C++ representation of time duration, time point, and clocks This package forms part of the Boost C++ Libraries collection. . The Boost.Chrono library provides: . * A means to represent time durations: managed by the generic duration class.Examples of time durations include days, minutes, seconds and nanoseconds, which can be represented with a fixed number of clock ticks per unit. All of these units of time duration are united with a generic interface by the duration facility. * A type for representing points in time: time_point. A time_point represents an epoch plus or minus a duration. The library leaves epochs unspecified. A time_point is associated with a clock. * Several clocks, some of which may not be available on a particular platform: system_clock, steady_clock and high_resolution_clock. A clock is a pairing of a time_point and duration, and a function which returns a time_point representing now. . To make the timing facilities more generally useful, Boost.Chrono provides a number of clocks that are thin wrappers around the operating system's time APIs, thereby allowing the extraction of wall clock time, user CPU time, system CPU time spent by the process: . * process_real_cpu_clock, captures wall clock CPU time spent by the current process. * process_user_cpu_clock, captures user-CPU time spent by the current process. * process_system_cpu_clock, captures system-CPU time spent by the current process. * a tuple-like class process_cpu_clock, that captures real, user-CPU, and system-CPU process times together. * a thread_clock thread steady clock giving the time spent by the current thread (when supported by a platform). . Lastly, Boost.Chrono includes typeof registration for duration and time_point to permit using emulated auto with C++03 compilers. Package: libboost-chrono1.88-dev Description-md5: 885c86b3701dab9982f79d2dcc83515c Description-en: C++ representation of time duration, time point, and clocks This package forms part of the Boost C++ Libraries collection. . The Boost.Chrono library provides: . * A means to represent time durations: managed by the generic duration class . Examples of time durations include days, minutes, seconds and nanoseconds, which can be represented with a fixed number of clock ticks per unit. All of these units of time duration are united with a generic interface by the duration facility. * A type for representing points in time: time_point. A time_point represents an epoch plus or minus a duration. The library leaves epochs unspecified. A time_point is associated with a clock. * Several clocks, some of which may not be available on a particular platform: system_clock, steady_clock and high_resolution_clock. A clock is a pairing of a time_point and duration, and a function which returns a time_point representing now. . To make the timing facilities more generally useful, Boost.Chrono provides a number of clocks that are thin wrappers around the operating system's time APIs, thereby allowing the extraction of wall clock time, user CPU time, system CPU time spent by the process: . * process_real_cpu_clock, captures wall clock CPU time spent by the current process. * process_user_cpu_clock, captures user-CPU time spent by the current process. * process_system_cpu_clock, captures system-CPU time spent by the current process. * A tuple-like class process_cpu_clock, that captures real, user-CPU, and system-CPU process times together. * A thread_clock thread steady clock giving the time spent by the current thread (when supported by a platform). . Lastly, Boost.Chrono includes typeof registration for duration and time_point to permit using emulated auto with C++03 compilers. Package: libboost-chrono1.88.0 Description-md5: 48bd785e2e56a406e6dbf1b5ba8ce77e Description-en: C++ representation of time duration, time point, and clocks This package forms part of the Boost C++ Libraries collection. . The Boost.Chrono library provides: . * A means to represent time durations: managed by the generic duration class.Examples of time durations include days, minutes, seconds and nanoseconds, which can be represented with a fixed number of clock ticks per unit. All of these units of time duration are united with a generic interface by the duration facility. * A type for representing points in time: time_point. A time_point represents an epoch plus or minus a duration. The library leaves epochs unspecified. A time_point is associated with a clock. * Several clocks, some of which may not be available on a particular platform: system_clock, steady_clock and high_resolution_clock. A clock is a pairing of a time_point and duration, and a function which returns a time_point representing now. . To make the timing facilities more generally useful, Boost.Chrono provides a number of clocks that are thin wrappers around the operating system's time APIs, thereby allowing the extraction of wall clock time, user CPU time, system CPU time spent by the process: . * process_real_cpu_clock, captures wall clock CPU time spent by the current process. * process_user_cpu_clock, captures user-CPU time spent by the current process. * process_system_cpu_clock, captures system-CPU time spent by the current process. * a tuple-like class process_cpu_clock, that captures real, user-CPU, and system-CPU process times together. * a thread_clock thread steady clock giving the time spent by the current thread (when supported by a platform). . Lastly, Boost.Chrono includes typeof registration for duration and time_point to permit using emulated auto with C++03 compilers. Package: libboost-container1.83-dev Description-md5: 41cba76db235acb1c7483636f7771fe0 Description-en: C++ library that implements several well-known containers - dev files This package forms part of the Boost C++ Libraries collection. . Boost.Container library implements several well-known containers, including STL containers. The aim of the library is to offers advanced features not present in standard containers or to offer the latest standard draft features for compilers that don't comply with the latest C++ standard. . In short, what does Boost.Container offer? . * Move semantics are implemented, including move emulation for pre-C++11 compilers. * New advanced features (e.g. placement insertion, recursive containers) are present. * Containers support stateful allocators and are compatible with Boost.Interprocess (they can be safely placed in shared memory). * The library offers new useful containers: * flat_map, flat_set, flat_multimap and flat_multiset: drop-in replacements for standard associative containers but more memory friendly and with faster searches. * stable_vector: a std::list and std::vector hybrid container: vector-like random-access iterators and list-like iterator stability in insertions and erasures. * slist: the classic pre-standard singly linked list implementation offering constant-time size(). Note that C++11 forward_list has no size(). Package: libboost-container1.83.0 Description-md5: 4cc3eab0b1f3ec7475cebab0f0d54594 Description-en: C++ library that implements several well-known containers This package forms part of the Boost C++ Libraries collection. . Boost.Container library implements several well-known containers, including STL containers. The aim of the library is to offers advanced features not present in standard containers or to offer the latest standard draft features for compilers that don't comply with the latest C++ standard. . In short, what does Boost.Container offer? . * Move semantics are implemented, including move emulation for pre-C++11 compilers. * New advanced features (e.g. placement insertion, recursive containers) are present. * Containers support stateful allocators and are compatible with Boost.Interprocess (they can be safely placed in shared memory). * The library offers new useful containers: * flat_map, flat_set, flat_multimap and flat_multiset: drop-in replacements for standard associative containers but more memory friendly and with faster searches. * stable_vector: a std::list and std::vector hybrid container: vector-like random-access iterators and list-like iterator stability in insertions and erasures. * slist: the classic pre-standard singly linked list implementation offering constant-time size(). Note that C++11 forward_list has no size(). Package: libboost-container1.88-dev Description-md5: 41cba76db235acb1c7483636f7771fe0 Description-en: C++ library that implements several well-known containers - dev files This package forms part of the Boost C++ Libraries collection. . Boost.Container library implements several well-known containers, including STL containers. The aim of the library is to offers advanced features not present in standard containers or to offer the latest standard draft features for compilers that don't comply with the latest C++ standard. . In short, what does Boost.Container offer? . * Move semantics are implemented, including move emulation for pre-C++11 compilers. * New advanced features (e.g. placement insertion, recursive containers) are present. * Containers support stateful allocators and are compatible with Boost.Interprocess (they can be safely placed in shared memory). * The library offers new useful containers: * flat_map, flat_set, flat_multimap and flat_multiset: drop-in replacements for standard associative containers but more memory friendly and with faster searches. * stable_vector: a std::list and std::vector hybrid container: vector-like random-access iterators and list-like iterator stability in insertions and erasures. * slist: the classic pre-standard singly linked list implementation offering constant-time size(). Note that C++11 forward_list has no size(). Package: libboost-container1.88.0 Description-md5: 4cc3eab0b1f3ec7475cebab0f0d54594 Description-en: C++ library that implements several well-known containers This package forms part of the Boost C++ Libraries collection. . Boost.Container library implements several well-known containers, including STL containers. The aim of the library is to offers advanced features not present in standard containers or to offer the latest standard draft features for compilers that don't comply with the latest C++ standard. . In short, what does Boost.Container offer? . * Move semantics are implemented, including move emulation for pre-C++11 compilers. * New advanced features (e.g. placement insertion, recursive containers) are present. * Containers support stateful allocators and are compatible with Boost.Interprocess (they can be safely placed in shared memory). * The library offers new useful containers: * flat_map, flat_set, flat_multimap and flat_multiset: drop-in replacements for standard associative containers but more memory friendly and with faster searches. * stable_vector: a std::list and std::vector hybrid container: vector-like random-access iterators and list-like iterator stability in insertions and erasures. * slist: the classic pre-standard singly linked list implementation offering constant-time size(). Note that C++11 forward_list has no size(). Package: libboost-context1.83-dev Description-md5: 509bcb267a10afdee403415de2d077bd Description-en: provides a sort of cooperative multitasking on a single thread This package forms part of the Boost C++ Libraries collection. . Boost.Context is a foundational library that provides a sort of cooperative multitasking on a single thread. By providing an abstraction of the current execution state in the current thread, including the stack (with local variables) and stack pointer, all registers and CPU flags, and the instruction pointer, a fcontext_t instance represents a specific point in the application's execution path. This is useful for building higher-level abstractions, like coroutines, cooperative threads (userland threads) or an equivalent to C# keyword yield in C++. Package: libboost-context1.88-dev Description-md5: 509bcb267a10afdee403415de2d077bd Description-en: provides a sort of cooperative multitasking on a single thread This package forms part of the Boost C++ Libraries collection. . Boost.Context is a foundational library that provides a sort of cooperative multitasking on a single thread. By providing an abstraction of the current execution state in the current thread, including the stack (with local variables) and stack pointer, all registers and CPU flags, and the instruction pointer, a fcontext_t instance represents a specific point in the application's execution path. This is useful for building higher-level abstractions, like coroutines, cooperative threads (userland threads) or an equivalent to C# keyword yield in C++. Package: libboost-contract1.83-dev Description-md5: bf0d7e4539ed6d34f89ea7c9286b60e4 Description-en: Contract library for C++ - dev files This package forms part of the Boost C++ Libraries collection. . All contract programming features are supported: Subcontracting, class invariants, postconditions (with old and return values), preconditions, customizable actions on assertion failure (e.g., terminate or throw), optional compilation and checking of assertions, etc. Package: libboost-contract1.83.0 Description-md5: cbd95e0aa2c452e909d5fb8cd5d45bc3 Description-en: Contract library for C++ This package forms part of the Boost C++ Libraries collection. . All contract programming features are supported: Subcontracting, class invariants, postconditions (with old and return values), preconditions, customizable actions on assertion failure (e.g., terminate or throw), optional compilation and checking of assertions, etc. Package: libboost-contract1.88-dev Description-md5: bf0d7e4539ed6d34f89ea7c9286b60e4 Description-en: Contract library for C++ - dev files This package forms part of the Boost C++ Libraries collection. . All contract programming features are supported: Subcontracting, class invariants, postconditions (with old and return values), preconditions, customizable actions on assertion failure (e.g., terminate or throw), optional compilation and checking of assertions, etc. Package: libboost-contract1.88.0 Description-md5: cbd95e0aa2c452e909d5fb8cd5d45bc3 Description-en: Contract library for C++ This package forms part of the Boost C++ Libraries collection. . All contract programming features are supported: Subcontracting, class invariants, postconditions (with old and return values), preconditions, customizable actions on assertion failure (e.g., terminate or throw), optional compilation and checking of assertions, etc. Package: libboost-coroutine1.83-dev Description-md5: 86838fff80fef6efdf92ff95491207e4 Description-en: provides a sort of cooperative multitasking on a single thread This package forms part of the Boost C++ Libraries collection. . Boost.Coroutine provides templates for generalized subroutines which allow multiple entry points for suspending and resuming execution at certain locations. It preserves the local state of execution and allows re-entering subroutines more than once (useful if state must be kept across function calls). . Coroutines can be viewed as a language-level construct providing a special kind of control flow. . In contrast to threads, which are pre-emptive, coroutine switches are cooperative (programmer controls when a switch will happen). The kernel is not involved in the coroutine switches. . The implementation uses Boost.Context for context switching. Package: libboost-coroutine1.83.0 Description-md5: 86838fff80fef6efdf92ff95491207e4 Description-en: provides a sort of cooperative multitasking on a single thread This package forms part of the Boost C++ Libraries collection. . Boost.Coroutine provides templates for generalized subroutines which allow multiple entry points for suspending and resuming execution at certain locations. It preserves the local state of execution and allows re-entering subroutines more than once (useful if state must be kept across function calls). . Coroutines can be viewed as a language-level construct providing a special kind of control flow. . In contrast to threads, which are pre-emptive, coroutine switches are cooperative (programmer controls when a switch will happen). The kernel is not involved in the coroutine switches. . The implementation uses Boost.Context for context switching. Package: libboost-coroutine1.88-dev Description-md5: 86838fff80fef6efdf92ff95491207e4 Description-en: provides a sort of cooperative multitasking on a single thread This package forms part of the Boost C++ Libraries collection. . Boost.Coroutine provides templates for generalized subroutines which allow multiple entry points for suspending and resuming execution at certain locations. It preserves the local state of execution and allows re-entering subroutines more than once (useful if state must be kept across function calls). . Coroutines can be viewed as a language-level construct providing a special kind of control flow. . In contrast to threads, which are pre-emptive, coroutine switches are cooperative (programmer controls when a switch will happen). The kernel is not involved in the coroutine switches. . The implementation uses Boost.Context for context switching. Package: libboost-coroutine1.88.0 Description-md5: 86838fff80fef6efdf92ff95491207e4 Description-en: provides a sort of cooperative multitasking on a single thread This package forms part of the Boost C++ Libraries collection. . Boost.Coroutine provides templates for generalized subroutines which allow multiple entry points for suspending and resuming execution at certain locations. It preserves the local state of execution and allows re-entering subroutines more than once (useful if state must be kept across function calls). . Coroutines can be viewed as a language-level construct providing a special kind of control flow. . In contrast to threads, which are pre-emptive, coroutine switches are cooperative (programmer controls when a switch will happen). The kernel is not involved in the coroutine switches. . The implementation uses Boost.Context for context switching. Package: libboost-date-time1.83-dev Description-md5: fca468edfa68f3723647bff7a2ed63c3 Description-en: set of date-time libraries based on generic programming concepts This package forms part of the Boost C++ Libraries collection. . These libraries are intended to make programming with dates and times almost as simple and natural as programming with strings and integers. Package: libboost-date-time1.83.0 Description-md5: fca468edfa68f3723647bff7a2ed63c3 Description-en: set of date-time libraries based on generic programming concepts This package forms part of the Boost C++ Libraries collection. . These libraries are intended to make programming with dates and times almost as simple and natural as programming with strings and integers. Package: libboost-date-time1.88-dev Description-md5: fca468edfa68f3723647bff7a2ed63c3 Description-en: set of date-time libraries based on generic programming concepts This package forms part of the Boost C++ Libraries collection. . These libraries are intended to make programming with dates and times almost as simple and natural as programming with strings and integers. Package: libboost-date-time1.88.0 Description-md5: fca468edfa68f3723647bff7a2ed63c3 Description-en: set of date-time libraries based on generic programming concepts This package forms part of the Boost C++ Libraries collection. . These libraries are intended to make programming with dates and times almost as simple and natural as programming with strings and integers. Package: libboost-exception1.83-dev Description-md5: 384c2c28f8227e2f185f0778df8c37fc Description-en: library to help write exceptions and handlers This package forms part of the Boost C++ Libraries collection. . The purpose of Boost Exception is to ease the design of exception class hierarchies and to help write exception handling and error reporting code. Package: libboost-exception1.88-dev Description-md5: 384c2c28f8227e2f185f0778df8c37fc Description-en: library to help write exceptions and handlers This package forms part of the Boost C++ Libraries collection. . The purpose of Boost Exception is to ease the design of exception class hierarchies and to help write exception handling and error reporting code. Package: libboost-fiber1.83-dev Description-md5: f7f6013704ff4580caf3394917e3c295 Description-en: cooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time. Package: libboost-fiber1.83.0 Description-md5: f7f6013704ff4580caf3394917e3c295 Description-en: cooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time. Package: libboost-fiber1.88-dev Description-md5: f7f6013704ff4580caf3394917e3c295 Description-en: cooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time. Package: libboost-fiber1.88.0 Description-md5: f7f6013704ff4580caf3394917e3c295 Description-en: cooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time. Package: libboost-filesystem1.83-dev Description-md5: 2491b00e1306a35046eca365dc71ba1d Description-en: filesystem operations (portable paths, iteration over directories, etc) in C++ This package forms part of the Boost C++ Libraries collection. . The Boost Filesystem Library provides portable facilities to query and manipulate paths, files, and directories. The goal is to facilitate portable script-like operations from within C++ programs. Package: libboost-filesystem1.88-dev Description-md5: 2491b00e1306a35046eca365dc71ba1d Description-en: filesystem operations (portable paths, iteration over directories, etc) in C++ This package forms part of the Boost C++ Libraries collection. . The Boost Filesystem Library provides portable facilities to query and manipulate paths, files, and directories. The goal is to facilitate portable script-like operations from within C++ programs. Package: libboost-graph-parallel1.83-dev Description-md5: 4f57c2a6e2a339b83d9c59b83812e4c6 Description-en: generic graph components and algorithms in C++ This package forms part of the Boost C++ Libraries collection. . The Parallel Boost Graph Library is an extension to the Boost Graph Library (BGL) for parallel and distributed computing. It offers distributed graphs and graph algorithms to exploit coarse-grained parallelism along with parallel algorithms that exploit fine-grained parallelism, while retaining the same interfaces as the (sequential) BGL. Code written using the sequential BGL should be easy to parallelize with the parallel BGL. Package: libboost-graph-parallel1.83.0 Description-md5: 4f57c2a6e2a339b83d9c59b83812e4c6 Description-en: generic graph components and algorithms in C++ This package forms part of the Boost C++ Libraries collection. . The Parallel Boost Graph Library is an extension to the Boost Graph Library (BGL) for parallel and distributed computing. It offers distributed graphs and graph algorithms to exploit coarse-grained parallelism along with parallel algorithms that exploit fine-grained parallelism, while retaining the same interfaces as the (sequential) BGL. Code written using the sequential BGL should be easy to parallelize with the parallel BGL. Package: libboost-graph-parallel1.88-dev Description-md5: 4f57c2a6e2a339b83d9c59b83812e4c6 Description-en: generic graph components and algorithms in C++ This package forms part of the Boost C++ Libraries collection. . The Parallel Boost Graph Library is an extension to the Boost Graph Library (BGL) for parallel and distributed computing. It offers distributed graphs and graph algorithms to exploit coarse-grained parallelism along with parallel algorithms that exploit fine-grained parallelism, while retaining the same interfaces as the (sequential) BGL. Code written using the sequential BGL should be easy to parallelize with the parallel BGL. Package: libboost-graph-parallel1.88.0 Description-md5: 4f57c2a6e2a339b83d9c59b83812e4c6 Description-en: generic graph components and algorithms in C++ This package forms part of the Boost C++ Libraries collection. . The Parallel Boost Graph Library is an extension to the Boost Graph Library (BGL) for parallel and distributed computing. It offers distributed graphs and graph algorithms to exploit coarse-grained parallelism along with parallel algorithms that exploit fine-grained parallelism, while retaining the same interfaces as the (sequential) BGL. Code written using the sequential BGL should be easy to parallelize with the parallel BGL. Package: libboost-graph1.83-dev Description-md5: 6dc872164cdff9808536697108f9eecd Description-en: generic graph components and algorithms in C++ This package forms part of the Boost C++ Libraries collection. . Graphs are mathematical abstractions that are useful for solving many types of problems in computer science. Consequently, these abstractions must also be represented in computer programs. A standardized generic interface for traversing graphs is of utmost importance to encourage reuse of graph algorithms and data structures. Package: libboost-graph1.83.0 Description-md5: 6dc872164cdff9808536697108f9eecd Description-en: generic graph components and algorithms in C++ This package forms part of the Boost C++ Libraries collection. . Graphs are mathematical abstractions that are useful for solving many types of problems in computer science. Consequently, these abstractions must also be represented in computer programs. A standardized generic interface for traversing graphs is of utmost importance to encourage reuse of graph algorithms and data structures. Package: libboost-graph1.88-dev Description-md5: 6dc872164cdff9808536697108f9eecd Description-en: generic graph components and algorithms in C++ This package forms part of the Boost C++ Libraries collection. . Graphs are mathematical abstractions that are useful for solving many types of problems in computer science. Consequently, these abstractions must also be represented in computer programs. A standardized generic interface for traversing graphs is of utmost importance to encourage reuse of graph algorithms and data structures. Package: libboost-graph1.88.0 Description-md5: 6dc872164cdff9808536697108f9eecd Description-en: generic graph components and algorithms in C++ This package forms part of the Boost C++ Libraries collection. . Graphs are mathematical abstractions that are useful for solving many types of problems in computer science. Consequently, these abstractions must also be represented in computer programs. A standardized generic interface for traversing graphs is of utmost importance to encourage reuse of graph algorithms and data structures. Package: libboost-iostreams1.83-dev Description-md5: c5f42432b54f040f1daea1900a535e47 Description-en: Boost.Iostreams Library development files This package forms part of the Boost C++ Libraries collection. . Boost.Iostreams are a collection of concepts and a set of templates which turn models of these concepts into C++ standard library streams and stream buffers. Package: libboost-iostreams1.88-dev Description-md5: c5f42432b54f040f1daea1900a535e47 Description-en: Boost.Iostreams Library development files This package forms part of the Boost C++ Libraries collection. . Boost.Iostreams are a collection of concepts and a set of templates which turn models of these concepts into C++ standard library streams and stream buffers. Package: libboost-json1.83-dev Description-md5: 8c42e611a8780e1908b6e82825870214 Description-en: C++ containers and algorithms that implement JSON This library focuses on a common and popular use-case: parsing and serializing to and from a container called value which holds JSON types. . Any value which you build can be serialized and then deserialized, guaranteeing that the result will be equal to the original value. Whatever JSON output you produce with this library will be readable by most common JSON implementations in any language. Package: libboost-json1.83.0 Description-md5: 8c42e611a8780e1908b6e82825870214 Description-en: C++ containers and algorithms that implement JSON This library focuses on a common and popular use-case: parsing and serializing to and from a container called value which holds JSON types. . Any value which you build can be serialized and then deserialized, guaranteeing that the result will be equal to the original value. Whatever JSON output you produce with this library will be readable by most common JSON implementations in any language. Package: libboost-json1.88-dev Description-md5: 8c42e611a8780e1908b6e82825870214 Description-en: C++ containers and algorithms that implement JSON This library focuses on a common and popular use-case: parsing and serializing to and from a container called value which holds JSON types. . Any value which you build can be serialized and then deserialized, guaranteeing that the result will be equal to the original value. Whatever JSON output you produce with this library will be readable by most common JSON implementations in any language. Package: libboost-json1.88.0 Description-md5: 8c42e611a8780e1908b6e82825870214 Description-en: C++ containers and algorithms that implement JSON This library focuses on a common and popular use-case: parsing and serializing to and from a container called value which holds JSON types. . Any value which you build can be serialized and then deserialized, guaranteeing that the result will be equal to the original value. Whatever JSON output you produce with this library will be readable by most common JSON implementations in any language. Package: libboost-locale1.83-dev Description-md5: 38eb5c1dcd3b37527a010d985b7c8018 Description-en: C++ facilities for localization This package forms part of the Boost C++ Libraries collection. . Boost.Locale gives powerful tools for development of cross platform localized software - the software that talks to user in its language. . * Correct case conversion, case folding and normalization. * Collation (sorting), including support for 4 Unicode collation levels. * Date, time, timezone and calendar manipulations, formatting and parsing, including transparent support for calendars other than Gregorian. * Boundary analysis for characters, words, sentences and line-breaks. * Number formatting, spelling and parsing. * Monetary formatting and parsing. * Powerful message formatting (string translation) including support for plural forms, using GNU catalogs. * Character set conversion. * Transparent support for 8-bit character sets like Latin1 * Support for char and wchar_t * Experimental support for C++0x char16_t and char32_t strings and streams. Package: libboost-locale1.83.0 Description-md5: 38eb5c1dcd3b37527a010d985b7c8018 Description-en: C++ facilities for localization This package forms part of the Boost C++ Libraries collection. . Boost.Locale gives powerful tools for development of cross platform localized software - the software that talks to user in its language. . * Correct case conversion, case folding and normalization. * Collation (sorting), including support for 4 Unicode collation levels. * Date, time, timezone and calendar manipulations, formatting and parsing, including transparent support for calendars other than Gregorian. * Boundary analysis for characters, words, sentences and line-breaks. * Number formatting, spelling and parsing. * Monetary formatting and parsing. * Powerful message formatting (string translation) including support for plural forms, using GNU catalogs. * Character set conversion. * Transparent support for 8-bit character sets like Latin1 * Support for char and wchar_t * Experimental support for C++0x char16_t and char32_t strings and streams. Package: libboost-locale1.88-dev Description-md5: 38eb5c1dcd3b37527a010d985b7c8018 Description-en: C++ facilities for localization This package forms part of the Boost C++ Libraries collection. . Boost.Locale gives powerful tools for development of cross platform localized software - the software that talks to user in its language. . * Correct case conversion, case folding and normalization. * Collation (sorting), including support for 4 Unicode collation levels. * Date, time, timezone and calendar manipulations, formatting and parsing, including transparent support for calendars other than Gregorian. * Boundary analysis for characters, words, sentences and line-breaks. * Number formatting, spelling and parsing. * Monetary formatting and parsing. * Powerful message formatting (string translation) including support for plural forms, using GNU catalogs. * Character set conversion. * Transparent support for 8-bit character sets like Latin1 * Support for char and wchar_t * Experimental support for C++0x char16_t and char32_t strings and streams. Package: libboost-log1.83-dev Description-md5: 35804ca45b526f128dc2dc545fd3dbf6 Description-en: C++ logging library This package forms part of the Boost C++ Libraries collection. . This library aims to make logging significantly easier for the application developer. It provides a wide range of out-of-the-box tools along with public interfaces for extending the library. The main goals of the library are: . * Simplicity. A small example code snippet should be enough to get the feel of the library and be ready to use its basic features. * Extensibility. A user should be able to extend functionality of the library for collecting and storing information into logs. * Performance. The library should have as little performance impact on the user's application as possible. Package: libboost-log1.83.0 Description-md5: 35804ca45b526f128dc2dc545fd3dbf6 Description-en: C++ logging library This package forms part of the Boost C++ Libraries collection. . This library aims to make logging significantly easier for the application developer. It provides a wide range of out-of-the-box tools along with public interfaces for extending the library. The main goals of the library are: . * Simplicity. A small example code snippet should be enough to get the feel of the library and be ready to use its basic features. * Extensibility. A user should be able to extend functionality of the library for collecting and storing information into logs. * Performance. The library should have as little performance impact on the user's application as possible. Package: libboost-log1.88-dev Description-md5: 35804ca45b526f128dc2dc545fd3dbf6 Description-en: C++ logging library This package forms part of the Boost C++ Libraries collection. . This library aims to make logging significantly easier for the application developer. It provides a wide range of out-of-the-box tools along with public interfaces for extending the library. The main goals of the library are: . * Simplicity. A small example code snippet should be enough to get the feel of the library and be ready to use its basic features. * Extensibility. A user should be able to extend functionality of the library for collecting and storing information into logs. * Performance. The library should have as little performance impact on the user's application as possible. Package: libboost-math1.83-dev Description-md5: ef3334f7fe3b30cab4c2d25557dbaaa3 Description-en: Boost.Math Library development files This package forms part of the Boost C++ Libraries collection. . This library is divided into three interconnected parts: * Statistical Distributions: Provides a reasonably comprehensive set of statistical distributions, upon which higher level statistical tests can be built. * Mathematical Special Functions: Provides a small number of high quality special functions, initially these were concentrated on functions used in statistical applications along with those in the Technical Report on C++ Library Extensions. * Implementation Toolkit: Provides many of the tools required to implement mathematical special functions. Package: libboost-math1.83.0 Description-md5: 23f6f4e3877dda6577301cc1999a87b1 Description-en: Boost.Math Library This package forms part of the Boost C++ Libraries collection. . This library is divided into three interconnected parts: * Statistical Distributions: Provides a reasonably comprehensive set of statistical distributions, upon which higher level statistical tests can be built. * Mathematical Special Functions: Provides a small number of high quality special functions, initially these were concentrated on functions used in statistical applications along with those in the Technical Report on C++ Library Extensions. * Implementation Toolkit: Provides many of the tools required to implement mathematical special functions. Package: libboost-math1.88-dev Description-md5: ef3334f7fe3b30cab4c2d25557dbaaa3 Description-en: Boost.Math Library development files This package forms part of the Boost C++ Libraries collection. . This library is divided into three interconnected parts: * Statistical Distributions: Provides a reasonably comprehensive set of statistical distributions, upon which higher level statistical tests can be built. * Mathematical Special Functions: Provides a small number of high quality special functions, initially these were concentrated on functions used in statistical applications along with those in the Technical Report on C++ Library Extensions. * Implementation Toolkit: Provides many of the tools required to implement mathematical special functions. Package: libboost-math1.88.0 Description-md5: 23f6f4e3877dda6577301cc1999a87b1 Description-en: Boost.Math Library This package forms part of the Boost C++ Libraries collection. . This library is divided into three interconnected parts: * Statistical Distributions: Provides a reasonably comprehensive set of statistical distributions, upon which higher level statistical tests can be built. * Mathematical Special Functions: Provides a small number of high quality special functions, initially these were concentrated on functions used in statistical applications along with those in the Technical Report on C++ Library Extensions. * Implementation Toolkit: Provides many of the tools required to implement mathematical special functions. Package: libboost-mpi-python1.83-dev Description-md5: f4aa2213bbcbac6016ed67ed252a2cb4 Description-en: C++ interface to the Message Passing Interface (MPI), Python Bindings This package forms part of the Boost C++ Libraries collection. . The Boost.MPI library provides a C++ interface to MPI that supports modern C++ development styles, including complete support for user-defined data types and C++ Standard Library types, arbitrary function objects for collective algorithms, and the use of modern C++ library techniques to maintain maximal efficiency. . This package provides Python Bindings to the C++ interface. Package: libboost-mpi-python1.83.0 Description-md5: 3aacb014fd455aab00e9bc4e91c51677 Description-en: C++ interface to the Message Passing Interface (MPI), Python Bindings This package forms part of the Boost C++ Libraries collection. . The Boost.MPI library provides a C++ interface to MPI that supports modern C++ development styles, including complete support for user-defined data types and C++ Standard Library types, arbitrary function objects for collective algorithms, and the use of modern C++ library techniques to maintain maximal efficiency. . This package provides Python Bindings to the C++ interface. . One of the python interpreter packages is required to use the bindings. Package: libboost-mpi-python1.88-dev Description-md5: f4aa2213bbcbac6016ed67ed252a2cb4 Description-en: C++ interface to the Message Passing Interface (MPI), Python Bindings This package forms part of the Boost C++ Libraries collection. . The Boost.MPI library provides a C++ interface to MPI that supports modern C++ development styles, including complete support for user-defined data types and C++ Standard Library types, arbitrary function objects for collective algorithms, and the use of modern C++ library techniques to maintain maximal efficiency. . This package provides Python Bindings to the C++ interface. Package: libboost-mpi-python1.88.0 Description-md5: 3aacb014fd455aab00e9bc4e91c51677 Description-en: C++ interface to the Message Passing Interface (MPI), Python Bindings This package forms part of the Boost C++ Libraries collection. . The Boost.MPI library provides a C++ interface to MPI that supports modern C++ development styles, including complete support for user-defined data types and C++ Standard Library types, arbitrary function objects for collective algorithms, and the use of modern C++ library techniques to maintain maximal efficiency. . This package provides Python Bindings to the C++ interface. . One of the python interpreter packages is required to use the bindings. Package: libboost-mpi1.83-dev Description-md5: 6766b51a84b1e0bf3fc6b1ccf0d4bbf2 Description-en: C++ interface to the Message Passing Interface (MPI) This package forms part of the Boost C++ Libraries collection. . The Boost.MPI library provides a C++ interface to MPI that supports modern C++ development styles, including complete support for user-defined data types and C++ Standard Library types, arbitrary function objects for collective algorithms, and the use of modern C++ library techniques to maintain maximal efficiency. Package: libboost-mpi1.83.0 Description-md5: 6766b51a84b1e0bf3fc6b1ccf0d4bbf2 Description-en: C++ interface to the Message Passing Interface (MPI) This package forms part of the Boost C++ Libraries collection. . The Boost.MPI library provides a C++ interface to MPI that supports modern C++ development styles, including complete support for user-defined data types and C++ Standard Library types, arbitrary function objects for collective algorithms, and the use of modern C++ library techniques to maintain maximal efficiency. Package: libboost-mpi1.88-dev Description-md5: 6766b51a84b1e0bf3fc6b1ccf0d4bbf2 Description-en: C++ interface to the Message Passing Interface (MPI) This package forms part of the Boost C++ Libraries collection. . The Boost.MPI library provides a C++ interface to MPI that supports modern C++ development styles, including complete support for user-defined data types and C++ Standard Library types, arbitrary function objects for collective algorithms, and the use of modern C++ library techniques to maintain maximal efficiency. Package: libboost-mpi1.88.0 Description-md5: 6766b51a84b1e0bf3fc6b1ccf0d4bbf2 Description-en: C++ interface to the Message Passing Interface (MPI) This package forms part of the Boost C++ Libraries collection. . The Boost.MPI library provides a C++ interface to MPI that supports modern C++ development styles, including complete support for user-defined data types and C++ Standard Library types, arbitrary function objects for collective algorithms, and the use of modern C++ library techniques to maintain maximal efficiency. Package: libboost-nowide1.83-dev Description-md5: b9afa86bce7e3278c8490ff95c937693 Description-en: Standard library functions with UTF-8 API on Windows development files This package forms part of the Boost C++ Libraries collection. . The library provides an implementation of standard C and C++ library functions which are UTF-8 aware on Windows without requiring to use the Wipe API. . On POSIX platforms, where UTF-8 is already commonly used, the calls in Nowide just alias to their standard counterparts. Package: libboost-nowide1.83.0 Description-md5: 3af43843053722a5bec4ac1ad1187bcf Description-en: Standard library functions with UTF-8 API on Windows This package forms part of the Boost C++ Libraries collection. . The library provides an implementation of standard C and C++ library functions which are UTF-8 aware on Windows without requiring to use the Wipe API. . On POSIX platforms, where UTF-8 is already commonly used, the calls in Nowide just alias to their standard counterparts. Package: libboost-nowide1.88-dev Description-md5: b9afa86bce7e3278c8490ff95c937693 Description-en: Standard library functions with UTF-8 API on Windows development files This package forms part of the Boost C++ Libraries collection. . The library provides an implementation of standard C and C++ library functions which are UTF-8 aware on Windows without requiring to use the Wipe API. . On POSIX platforms, where UTF-8 is already commonly used, the calls in Nowide just alias to their standard counterparts. Package: libboost-nowide1.88.0 Description-md5: 3af43843053722a5bec4ac1ad1187bcf Description-en: Standard library functions with UTF-8 API on Windows This package forms part of the Boost C++ Libraries collection. . The library provides an implementation of standard C and C++ library functions which are UTF-8 aware on Windows without requiring to use the Wipe API. . On POSIX platforms, where UTF-8 is already commonly used, the calls in Nowide just alias to their standard counterparts. Package: libboost-numpy1.83-dev Description-md5: 0cd697d06e4f050674a72a97968e8c0c Description-en: Boost.Python NumPy extensions development files This package forms part of the Boost C++ Libraries collection. . The Boost Python library enables exporting a C++ library to Python. The NumPy extensions lets the C++ code interact with NumPy types. . This package allows development of a Python interface for all current versions of Python in Debian. Code using this library will need also one of the Python development packages. Package: libboost-numpy1.83.0 Description-md5: f9652c47c704cb13fd7973b1d9eed5c1 Description-en: Boost.Python NumPy extensions This package forms part of the Boost C++ Libraries collection. . The Boost Python library enables exporting a C++ library to Python. The NumPy extensions lets the C++ code interact with NumPy types. . One of the python interpreter packages is required to use the created extensions. Package: libboost-numpy1.88-dev Description-md5: 0cd697d06e4f050674a72a97968e8c0c Description-en: Boost.Python NumPy extensions development files This package forms part of the Boost C++ Libraries collection. . The Boost Python library enables exporting a C++ library to Python. The NumPy extensions lets the C++ code interact with NumPy types. . This package allows development of a Python interface for all current versions of Python in Debian. Code using this library will need also one of the Python development packages. Package: libboost-numpy1.88.0 Description-md5: f9652c47c704cb13fd7973b1d9eed5c1 Description-en: Boost.Python NumPy extensions This package forms part of the Boost C++ Libraries collection. . The Boost Python library enables exporting a C++ library to Python. The NumPy extensions lets the C++ code interact with NumPy types. . One of the python interpreter packages is required to use the created extensions. Package: libboost-process1.88-dev Description-md5: 1e9bbcd111ea7177c6609325cbecc1a6 Description-en: library to create processes in a portable way Boost.process is a library for comfortable management of processes, first released with boost 1.64.0. . The package contains the development files. Package: libboost-program-options1.83-dev Description-md5: 9ab9e15257fa51221c16c7f0a9e40597 Description-en: program options library for C++ This package forms part of the Boost C++ Libraries collection. . Library to let program developers obtain program options, that is (name, value) pairs from the user, via conventional methods such as command line and config file. Package: libboost-python1.83-dev Description-md5: 4073b19bab34408d8c56b2db9718bb71 Description-en: Boost.Python Library development files This package forms part of the Boost C++ Libraries collection. . The Boost Python Library is used to quickly and easily export a C++ library to Python such that the Python interface is very similar to the C++ interface. It is designed to be minimally intrusive on your C++ design. In most cases, you should not have to alter your C++ classes in any way in order to use them with Boost.Python. The system should simply "reflect" your C++ classes and functions into Python. The major features of Boost.Python include support for: Subclassing extension types in Python, Overriding virtual functions in Python, Member function Overloading, Automatic wrapping of numeric operators among others. . This package allows development of a Python interface for all current versions of Python in Debian. Code using this library will need also one of the Python development packages. Package: libboost-python1.88-dev Description-md5: 4073b19bab34408d8c56b2db9718bb71 Description-en: Boost.Python Library development files This package forms part of the Boost C++ Libraries collection. . The Boost Python Library is used to quickly and easily export a C++ library to Python such that the Python interface is very similar to the C++ interface. It is designed to be minimally intrusive on your C++ design. In most cases, you should not have to alter your C++ classes in any way in order to use them with Boost.Python. The system should simply "reflect" your C++ classes and functions into Python. The major features of Boost.Python include support for: Subclassing extension types in Python, Overriding virtual functions in Python, Member function Overloading, Automatic wrapping of numeric operators among others. . This package allows development of a Python interface for all current versions of Python in Debian. Code using this library will need also one of the Python development packages. Package: libboost-random1.83-dev Description-md5: 7ed20e15c02905e3feecfa31084222f4 Description-en: Boost Random Number Library This package forms part of the Boost C++ Libraries collection. . The Boost Random Number Library (Boost.Random for short) provides a variety of generators and distributions to produce random numbers having useful properties, such as uniform distribution. Package: libboost-random1.83.0 Description-md5: 7ed20e15c02905e3feecfa31084222f4 Description-en: Boost Random Number Library This package forms part of the Boost C++ Libraries collection. . The Boost Random Number Library (Boost.Random for short) provides a variety of generators and distributions to produce random numbers having useful properties, such as uniform distribution. Package: libboost-random1.88-dev Description-md5: 7ed20e15c02905e3feecfa31084222f4 Description-en: Boost Random Number Library This package forms part of the Boost C++ Libraries collection. . The Boost Random Number Library (Boost.Random for short) provides a variety of generators and distributions to produce random numbers having useful properties, such as uniform distribution. Package: libboost-random1.88.0 Description-md5: 7ed20e15c02905e3feecfa31084222f4 Description-en: Boost Random Number Library This package forms part of the Boost C++ Libraries collection. . The Boost Random Number Library (Boost.Random for short) provides a variety of generators and distributions to produce random numbers having useful properties, such as uniform distribution. Package: libboost-regex1.83-dev Description-md5: 798250c772fac56d605e432dcc6fe14f Description-en: regular expression library for C++ This package forms part of the Boost C++ Libraries collection. . Regular expressions are a form of pattern-matching that are often used in text processing; many users will be familiar with the Unix utilities grep, sed and awk, and the programming language perl, each of which make extensive use of regular expressions. Traditionally C++ users have been limited to the POSIX C APIs for manipulating regular expressions, and while regex does provide these APIs, they do not represent the best way to use the library. For example regex can cope with wide character strings, or search and replace operations (in a manner analogous to either sed or perl), something that traditional C libraries can not do. Package: libboost-regex1.83.0 Description-md5: 798250c772fac56d605e432dcc6fe14f Description-en: regular expression library for C++ This package forms part of the Boost C++ Libraries collection. . Regular expressions are a form of pattern-matching that are often used in text processing; many users will be familiar with the Unix utilities grep, sed and awk, and the programming language perl, each of which make extensive use of regular expressions. Traditionally C++ users have been limited to the POSIX C APIs for manipulating regular expressions, and while regex does provide these APIs, they do not represent the best way to use the library. For example regex can cope with wide character strings, or search and replace operations (in a manner analogous to either sed or perl), something that traditional C libraries can not do. Package: libboost-serialization1.83-dev Description-md5: 94da985e07c2397fc71a3f86ec4da7dd Description-en: serialization library for C++ This package forms part of the Boost C++ Libraries collection, containing the following functionalities: . * proper restoration of pointers to shared data * serialization of STL containers and other commonly used templates * data portability - streams of bytes created on one platform should be readable on any other * archive interface must be rich enough to permit the creation of an archive that presents serialized data as XML in a useful manner . Here, "serialization" means the reversible deconstruction of an arbitrary set of C++ data structures to a sequence of bytes. archive: to refer to a specific rendering of this stream of bytes. Package: libboost-serialization1.83.0 Description-md5: 94da985e07c2397fc71a3f86ec4da7dd Description-en: serialization library for C++ This package forms part of the Boost C++ Libraries collection, containing the following functionalities: . * proper restoration of pointers to shared data * serialization of STL containers and other commonly used templates * data portability - streams of bytes created on one platform should be readable on any other * archive interface must be rich enough to permit the creation of an archive that presents serialized data as XML in a useful manner . Here, "serialization" means the reversible deconstruction of an arbitrary set of C++ data structures to a sequence of bytes. archive: to refer to a specific rendering of this stream of bytes. Package: libboost-serialization1.88-dev Description-md5: 94da985e07c2397fc71a3f86ec4da7dd Description-en: serialization library for C++ This package forms part of the Boost C++ Libraries collection, containing the following functionalities: . * proper restoration of pointers to shared data * serialization of STL containers and other commonly used templates * data portability - streams of bytes created on one platform should be readable on any other * archive interface must be rich enough to permit the creation of an archive that presents serialized data as XML in a useful manner . Here, "serialization" means the reversible deconstruction of an arbitrary set of C++ data structures to a sequence of bytes. archive: to refer to a specific rendering of this stream of bytes. Package: libboost-serialization1.88.0 Description-md5: 94da985e07c2397fc71a3f86ec4da7dd Description-en: serialization library for C++ This package forms part of the Boost C++ Libraries collection, containing the following functionalities: . * proper restoration of pointers to shared data * serialization of STL containers and other commonly used templates * data portability - streams of bytes created on one platform should be readable on any other * archive interface must be rich enough to permit the creation of an archive that presents serialized data as XML in a useful manner . Here, "serialization" means the reversible deconstruction of an arbitrary set of C++ data structures to a sequence of bytes. archive: to refer to a specific rendering of this stream of bytes. Package: libboost-stacktrace1.83-dev Description-md5: 54146e5655935cff00889b9b265f7df3 Description-en: library to capture and print stack traces - development files This package forms part of the Boost C++ Libraries collection. . Boost.Stacktrace library is a simple C++03 library that provides information about call sequence in a human-readable form. Package: libboost-stacktrace1.83.0 Description-md5: 111fa2da3db5649074e55bfb276b056e Description-en: library to capture and print stack traces This package forms part of the Boost C++ Libraries collection. . Boost.Stacktrace library is a simple C++03 library that provides information about call sequence in a human-readable form. Package: libboost-stacktrace1.88-dev Description-md5: 54146e5655935cff00889b9b265f7df3 Description-en: library to capture and print stack traces - development files This package forms part of the Boost C++ Libraries collection. . Boost.Stacktrace library is a simple C++03 library that provides information about call sequence in a human-readable form. Package: libboost-stacktrace1.88.0 Description-md5: 111fa2da3db5649074e55bfb276b056e Description-en: library to capture and print stack traces This package forms part of the Boost C++ Libraries collection. . Boost.Stacktrace library is a simple C++03 library that provides information about call sequence in a human-readable form. Package: libboost-system1.83-dev Description-md5: 1197eb2ee52a77c28d5e31e8e74c41eb Description-en: Operating system (e.g. diagnostics support) library This package forms part of the Boost C++ Libraries collection. . The Boost System library provides simple, light-weight error_code objects that encapsulate system-specific error code values, yet also provide access to more abstract and portable error conditions via error_condition objects. Because error_code objects can represent errors from sources other than the operating system, including user-defined sources, each error_code and error_condition has an associated error_category. Package: libboost-system1.83.0 Description-md5: 1197eb2ee52a77c28d5e31e8e74c41eb Description-en: Operating system (e.g. diagnostics support) library This package forms part of the Boost C++ Libraries collection. . The Boost System library provides simple, light-weight error_code objects that encapsulate system-specific error code values, yet also provide access to more abstract and portable error conditions via error_condition objects. Because error_code objects can represent errors from sources other than the operating system, including user-defined sources, each error_code and error_condition has an associated error_category. Package: libboost-system1.88-dev Description-md5: 1197eb2ee52a77c28d5e31e8e74c41eb Description-en: Operating system (e.g. diagnostics support) library This package forms part of the Boost C++ Libraries collection. . The Boost System library provides simple, light-weight error_code objects that encapsulate system-specific error code values, yet also provide access to more abstract and portable error conditions via error_condition objects. Because error_code objects can represent errors from sources other than the operating system, including user-defined sources, each error_code and error_condition has an associated error_category. Package: libboost-system1.88.0 Description-md5: 1197eb2ee52a77c28d5e31e8e74c41eb Description-en: Operating system (e.g. diagnostics support) library This package forms part of the Boost C++ Libraries collection. . The Boost System library provides simple, light-weight error_code objects that encapsulate system-specific error code values, yet also provide access to more abstract and portable error conditions via error_condition objects. Because error_code objects can represent errors from sources other than the operating system, including user-defined sources, each error_code and error_condition has an associated error_category. Package: libboost-test1.83-dev Description-md5: 73a9e2027ebac32df5b898db3154448b Description-en: components for writing and executing test suites This package forms part of the Boost C++ Libraries collection. The library contains several components. . * Basic execution, error detection, and reporting facility. * Facilities to monitor program execution and produce error reports. * Unit test framework to simplify writing test cases. Package: libboost-test1.83.0 Description-md5: 73a9e2027ebac32df5b898db3154448b Description-en: components for writing and executing test suites This package forms part of the Boost C++ Libraries collection. The library contains several components. . * Basic execution, error detection, and reporting facility. * Facilities to monitor program execution and produce error reports. * Unit test framework to simplify writing test cases. Package: libboost-test1.88-dev Description-md5: 73a9e2027ebac32df5b898db3154448b Description-en: components for writing and executing test suites This package forms part of the Boost C++ Libraries collection. The library contains several components. . * Basic execution, error detection, and reporting facility. * Facilities to monitor program execution and produce error reports. * Unit test framework to simplify writing test cases. Package: libboost-test1.88.0 Description-md5: 73a9e2027ebac32df5b898db3154448b Description-en: components for writing and executing test suites This package forms part of the Boost C++ Libraries collection. The library contains several components. . * Basic execution, error detection, and reporting facility. * Facilities to monitor program execution and produce error reports. * Unit test framework to simplify writing test cases. Package: libboost-thread1.83-dev Description-md5: d19954bb99722597efd2b9b392158287 Description-en: portable C++ multi-threading This package forms part of the Boost C++ Libraries collection. . Toolkit for writing C++ programs that execute as multiple, asynchronous, independent, threads-of-execution. Each thread has its own machine state including program instruction counter and registers. Package: libboost-thread1.88-dev Description-md5: d19954bb99722597efd2b9b392158287 Description-en: portable C++ multi-threading This package forms part of the Boost C++ Libraries collection. . Toolkit for writing C++ programs that execute as multiple, asynchronous, independent, threads-of-execution. Each thread has its own machine state including program instruction counter and registers. Package: libboost-timer1.83-dev Description-md5: 3800da07b3dc08efcf3c762480b53231 Description-en: C++ wall clock and CPU process timers This package forms part of the Boost C++ Libraries collection. . Portable C++ timer classes that answer the question "How long does my C++ code take to run?" with as little as one #include and one additional line of code. . Class cpu_timer measures wall clock time, user CPU process time, and system CPU process time. Class auto_cpu_timer is a refinement of cpu_timer that automatically reports the elapsed times when an auto_cpu_timer object is destroyed. Package: libboost-timer1.83.0 Description-md5: 3800da07b3dc08efcf3c762480b53231 Description-en: C++ wall clock and CPU process timers This package forms part of the Boost C++ Libraries collection. . Portable C++ timer classes that answer the question "How long does my C++ code take to run?" with as little as one #include and one additional line of code. . Class cpu_timer measures wall clock time, user CPU process time, and system CPU process time. Class auto_cpu_timer is a refinement of cpu_timer that automatically reports the elapsed times when an auto_cpu_timer object is destroyed. Package: libboost-timer1.88-dev Description-md5: 3800da07b3dc08efcf3c762480b53231 Description-en: C++ wall clock and CPU process timers This package forms part of the Boost C++ Libraries collection. . Portable C++ timer classes that answer the question "How long does my C++ code take to run?" with as little as one #include and one additional line of code. . Class cpu_timer measures wall clock time, user CPU process time, and system CPU process time. Class auto_cpu_timer is a refinement of cpu_timer that automatically reports the elapsed times when an auto_cpu_timer object is destroyed. Package: libboost-timer1.88.0 Description-md5: 3800da07b3dc08efcf3c762480b53231 Description-en: C++ wall clock and CPU process timers This package forms part of the Boost C++ Libraries collection. . Portable C++ timer classes that answer the question "How long does my C++ code take to run?" with as little as one #include and one additional line of code. . Class cpu_timer measures wall clock time, user CPU process time, and system CPU process time. Class auto_cpu_timer is a refinement of cpu_timer that automatically reports the elapsed times when an auto_cpu_timer object is destroyed. Package: libboost-type-erasure1.83-dev Description-md5: c5bcc1bc341ce6b96d3a0f9a07fb2221 Description-en: C++ runtime polymorphism based on concepts This package forms part of the Boost C++ Libraries collection. . C++ has two distinct kinds of polymorphism, virtual functions and templates, each of which has its own advantages and disadvantages. The Boost.TypeErasure library combines the superior abstraction capabilities of templates, with the runtime flexibility of virtual functions. Package: libboost-type-erasure1.83.0 Description-md5: c5bcc1bc341ce6b96d3a0f9a07fb2221 Description-en: C++ runtime polymorphism based on concepts This package forms part of the Boost C++ Libraries collection. . C++ has two distinct kinds of polymorphism, virtual functions and templates, each of which has its own advantages and disadvantages. The Boost.TypeErasure library combines the superior abstraction capabilities of templates, with the runtime flexibility of virtual functions. Package: libboost-type-erasure1.88-dev Description-md5: c5bcc1bc341ce6b96d3a0f9a07fb2221 Description-en: C++ runtime polymorphism based on concepts This package forms part of the Boost C++ Libraries collection. . C++ has two distinct kinds of polymorphism, virtual functions and templates, each of which has its own advantages and disadvantages. The Boost.TypeErasure library combines the superior abstraction capabilities of templates, with the runtime flexibility of virtual functions. Package: libboost-type-erasure1.88.0 Description-md5: c5bcc1bc341ce6b96d3a0f9a07fb2221 Description-en: C++ runtime polymorphism based on concepts This package forms part of the Boost C++ Libraries collection. . C++ has two distinct kinds of polymorphism, virtual functions and templates, each of which has its own advantages and disadvantages. The Boost.TypeErasure library combines the superior abstraction capabilities of templates, with the runtime flexibility of virtual functions. Package: libboost-url1.83-dev Description-md5: 35fe57ff170f6ab465e37db29c2609d9 Description-en: C++ library that implements "URL" C++ library which provides containers and algorithms which model a "URL," the Uniform Resource Identifier (URI) specification (henceforth referred to as rfc3986). . A URL is a compact sequence of characters that identifies an abstract or physical resource. . This library understands the grammars related to URLs and provides functionality to validate, parse, examine, and modify urls, and apply normalization or resolution algorithms. Package: libboost-url1.88-dev Description-md5: 35fe57ff170f6ab465e37db29c2609d9 Description-en: C++ library that implements "URL" C++ library which provides containers and algorithms which model a "URL," the Uniform Resource Identifier (URI) specification (henceforth referred to as rfc3986). . A URL is a compact sequence of characters that identifies an abstract or physical resource. . This library understands the grammars related to URLs and provides functionality to validate, parse, examine, and modify urls, and apply normalization or resolution algorithms. Package: libboost-wave1.83-dev Description-md5: 793667709ca25994c0a09d26633460ba Description-en: C99/C++ preprocessor library This package forms part of the Boost C++ Libraries collection. . The Wave C++ preprocessor library is a Standards conformant implementation of the mandated C99/C++ preprocessor functionality packed behind a simple to use interface, which integrates well with the well known idioms of the Standard Template Library (STL). Package: libboost-wave1.83.0 Description-md5: 793667709ca25994c0a09d26633460ba Description-en: C99/C++ preprocessor library This package forms part of the Boost C++ Libraries collection. . The Wave C++ preprocessor library is a Standards conformant implementation of the mandated C99/C++ preprocessor functionality packed behind a simple to use interface, which integrates well with the well known idioms of the Standard Template Library (STL). Package: libboost-wave1.88-dev Description-md5: 793667709ca25994c0a09d26633460ba Description-en: C99/C++ preprocessor library This package forms part of the Boost C++ Libraries collection. . The Wave C++ preprocessor library is a Standards conformant implementation of the mandated C99/C++ preprocessor functionality packed behind a simple to use interface, which integrates well with the well known idioms of the Standard Template Library (STL). Package: libboost-wave1.88.0 Description-md5: 793667709ca25994c0a09d26633460ba Description-en: C99/C++ preprocessor library This package forms part of the Boost C++ Libraries collection. . The Wave C++ preprocessor library is a Standards conformant implementation of the mandated C99/C++ preprocessor functionality packed behind a simple to use interface, which integrates well with the well known idioms of the Standard Template Library (STL). Package: libboost1.83-all-dev Description-md5: abd1c54975e8940f5fbd0921c61d01f1 Description-en: Boost C++ Libraries development files (ALL) The Boost web site provides free, peer-reviewed, portable C++ source libraries. The emphasis is on libraries which work well with the C++ Standard Library. One goal is to establish "existing practice" and provide reference implementations so that the Boost libraries are suitable for eventual standardization. Some of the libraries have already been proposed for inclusion in the C++ Standards Committee's upcoming C++ Standard Library Technical Report. . This metapackage provides the complete Boost development environment, including all separately-packaged libraries. Package: libboost1.83-doc Description-md5: 0047dca3fe8d493c8010ac9a1b558493 Description-en: Boost.org libraries documentation placeholder This package originally provided documentation, but has since fallen into disrepair and presently provides no documentation. Please use documentation at www.boost.org. Package: libboost1.88-all-dev Description-md5: abd1c54975e8940f5fbd0921c61d01f1 Description-en: Boost C++ Libraries development files (ALL) The Boost web site provides free, peer-reviewed, portable C++ source libraries. The emphasis is on libraries which work well with the C++ Standard Library. One goal is to establish "existing practice" and provide reference implementations so that the Boost libraries are suitable for eventual standardization. Some of the libraries have already been proposed for inclusion in the C++ Standards Committee's upcoming C++ Standard Library Technical Report. . This metapackage provides the complete Boost development environment, including all separately-packaged libraries. Package: libboost1.88-doc Description-md5: 0047dca3fe8d493c8010ac9a1b558493 Description-en: Boost.org libraries documentation placeholder This package originally provided documentation, but has since fallen into disrepair and presently provides no documentation. Please use documentation at www.boost.org. Package: libbrial-dev Description-md5: c2626fcf7fcb606f5ba4966ffc1b51a2 Description-en: polynomials over Boolean Rings, core development files The core of BRiAl is a C++ library, which provides high-level data types for Boolean polynomials and monomials, exponent vectors, as well as for the underlying polynomial rings and subsets of the powerset of the Boolean variables. As a unique approach, binary decision diagrams are used as internal storage type for polynomial structures. On top of this C++-library a Python interface is provided. This allows parsing of complex polynomial systems, as well as sophisticated and extendable strategies for Groebner base computation. BRiAl features a powerful reference implementation for Groebner basis computation. . This package contains the BRiAl core development files. Package: libbrial-groebner-dev Description-md5: 06b76f7f1667b2f0b3f088ab64c02c58 Description-en: development files for libbrial-groebner The core of BRiAl is a C++ library, which provides high-level data types for Boolean polynomials and monomials, exponent vectors, as well as for the underlying polynomial rings and subsets of the powerset of the Boolean variables. As a unique approach, binary decision diagrams are used as internal storage type for polynomial structures. On top of this C++-library a Python interface is provided. This allows parsing of complex polynomial systems, as well as sophisticated and extendable strategies for Groebner base computation. BRiAl features a powerful reference implementation for Groebner basis computation. . This package contains the development files for libbrial-groebner. Package: libbrial-groebner3t64 Description-md5: c85b9b23bc19cfbcd1c4f6095e22ba7e Description-en: computer algebra routines of BRiAl The core of BRiAl is a C++ library, which provides high-level data types for Boolean polynomials and monomials, exponent vectors, as well as for the underlying polynomial rings and subsets of the powerset of the Boolean variables. As a unique approach, binary decision diagrams are used as internal storage type for polynomial structures. On top of this C++-library a Python interface is provided. This allows parsing of complex polynomial systems, as well as sophisticated and extendable strategies for Groebner base computation. BRiAl features a powerful reference implementation for Groebner basis computation. . This package contains the BRiAl shared library libbrial_groebner. Package: libbrial3t64 Description-md5: 25d1c5e76291f633e89aa1da852af7cd Description-en: polynomials over Boolean Rings, shared library The core of BRiAl is a C++ library, which provides high-level data types for Boolean polynomials and monomials, exponent vectors, as well as for the underlying polynomial rings and subsets of the powerset of the Boolean variables. As a unique approach, binary decision diagrams are used as internal storage type for polynomial structures. On top of this C++-library a Python interface is provided. This allows parsing of complex polynomial systems, as well as sophisticated and extendable strategies for Groebner base computation. BRiAl features a powerful reference implementation for Groebner basis computation. . This package contains the BRiAl shared library libbrial. Package: libc++-19-dev Description-md5: 8cd44d2ae4969ab1c95a30917ddc69e7 Description-en: LLVM C++ Standard library (development files) libc++ is another implementation of the C++ standard library . Features and Goals . * Correctness as defined by the C++ standards. * Fast execution. * Minimal memory use. * Fast compile times. * ABI compatibility with gcc's libstdc++ for some low-level features such as exception objects, rtti and memory allocation. * Extensive unit tests. Package: libc++-19-dev-wasm32 Description-md5: 21e20e19acf2a499a9e194408e3990d7 Description-en: LLVM C++ Standard library (WASI) libc++ is another implementation of the C++ standard library . Features and Goals . * Correctness as defined by the C++ standards. * Fast execution. * Minimal memory use. * Fast compile times. * ABI compatibility with gcc's libstdc++ for some low-level features such as exception objects, rtti and memory allocation. * Extensive unit tests. . This package provides a version for the 32-bit WebAssembly System Interface. Package: libc++-21-dev Description-md5: 8cd44d2ae4969ab1c95a30917ddc69e7 Description-en: LLVM C++ Standard library (development files) libc++ is another implementation of the C++ standard library . Features and Goals . * Correctness as defined by the C++ standards. * Fast execution. * Minimal memory use. * Fast compile times. * ABI compatibility with gcc's libstdc++ for some low-level features such as exception objects, rtti and memory allocation. * Extensive unit tests. Package: libc++-21-dev-wasm32 Description-md5: 21e20e19acf2a499a9e194408e3990d7 Description-en: LLVM C++ Standard library (WASI) libc++ is another implementation of the C++ standard library . Features and Goals . * Correctness as defined by the C++ standards. * Fast execution. * Minimal memory use. * Fast compile times. * ABI compatibility with gcc's libstdc++ for some low-level features such as exception objects, rtti and memory allocation. * Extensive unit tests. . This package provides a version for the 32-bit WebAssembly System Interface. Package: libc++-22-dev Description-md5: 8cd44d2ae4969ab1c95a30917ddc69e7 Description-en: LLVM C++ Standard library (development files) libc++ is another implementation of the C++ standard library . Features and Goals . * Correctness as defined by the C++ standards. * Fast execution. * Minimal memory use. * Fast compile times. * ABI compatibility with gcc's libstdc++ for some low-level features such as exception objects, rtti and memory allocation. * Extensive unit tests. Package: libc++-22-dev-wasm32 Description-md5: 21e20e19acf2a499a9e194408e3990d7 Description-en: LLVM C++ Standard library (WASI) libc++ is another implementation of the C++ standard library . Features and Goals . * Correctness as defined by the C++ standards. * Fast execution. * Minimal memory use. * Fast compile times. * ABI compatibility with gcc's libstdc++ for some low-level features such as exception objects, rtti and memory allocation. * Extensive unit tests. . This package provides a version for the 32-bit WebAssembly System Interface. Package: libc++1-19 Description-md5: 3e11b80d657dd5ed05ee027e3cba65ca Description-en: LLVM C++ Standard library libc++ is another implementation of the C++ standard library. . Features and Goals . * Correctness as defined by the C++ standards. * Fast execution. * Minimal memory use. * Fast compile times. * ABI compatibility with gcc's libstdc++ for some low-level features such as exception objects, rtti and memory allocation. * Extensive unit tests. Package: libc++1-21 Description-md5: 3e11b80d657dd5ed05ee027e3cba65ca Description-en: LLVM C++ Standard library libc++ is another implementation of the C++ standard library. . Features and Goals . * Correctness as defined by the C++ standards. * Fast execution. * Minimal memory use. * Fast compile times. * ABI compatibility with gcc's libstdc++ for some low-level features such as exception objects, rtti and memory allocation. * Extensive unit tests. Package: libc++1-22 Description-md5: 3e11b80d657dd5ed05ee027e3cba65ca Description-en: LLVM C++ Standard library libc++ is another implementation of the C++ standard library. . Features and Goals . * Correctness as defined by the C++ standards. * Fast execution. * Minimal memory use. * Fast compile times. * ABI compatibility with gcc's libstdc++ for some low-level features such as exception objects, rtti and memory allocation. * Extensive unit tests. Package: libc++abi-19-dev Description-md5: 364169ef5dcd81ea07cbcba49d061676 Description-en: LLVM low level support for a standard C++ library (development files) libc++abi is another implementation of low level support for a standard C++ library. . Features and Goals . * Correctness as defined by the C++ standards. * Provide a portable sublayer to ease the porting of libc++ Package: libc++abi-19-dev-wasm32 Description-md5: 9a34398f2ed6518894f52de69f57d517 Description-en: LLVM low level support for a standard C++ library (WASI) libc++abi is another implementation of low level support for a standard C++ library. . Features and Goals . * Correctness as defined by the C++ standards. * Provide a portable sublayer to ease the porting of libc++ . This package provides a version for the 32-bit WebAssembly System Interface. Package: libc++abi-21-dev Description-md5: 364169ef5dcd81ea07cbcba49d061676 Description-en: LLVM low level support for a standard C++ library (development files) libc++abi is another implementation of low level support for a standard C++ library. . Features and Goals . * Correctness as defined by the C++ standards. * Provide a portable sublayer to ease the porting of libc++ Package: libc++abi-21-dev-wasm32 Description-md5: 9a34398f2ed6518894f52de69f57d517 Description-en: LLVM low level support for a standard C++ library (WASI) libc++abi is another implementation of low level support for a standard C++ library. . Features and Goals . * Correctness as defined by the C++ standards. * Provide a portable sublayer to ease the porting of libc++ . This package provides a version for the 32-bit WebAssembly System Interface. Package: libc++abi-22-dev Description-md5: 364169ef5dcd81ea07cbcba49d061676 Description-en: LLVM low level support for a standard C++ library (development files) libc++abi is another implementation of low level support for a standard C++ library. . Features and Goals . * Correctness as defined by the C++ standards. * Provide a portable sublayer to ease the porting of libc++ Package: libc++abi-22-dev-wasm32 Description-md5: 9a34398f2ed6518894f52de69f57d517 Description-en: LLVM low level support for a standard C++ library (WASI) libc++abi is another implementation of low level support for a standard C++ library. . Features and Goals . * Correctness as defined by the C++ standards. * Provide a portable sublayer to ease the porting of libc++ . This package provides a version for the 32-bit WebAssembly System Interface. Package: libc++abi1-19 Description-md5: 6a197f8a8ae8385e801b369ea97886ce Description-en: LLVM low level support for a standard C++ library libc++abi is another implementation of low level support for a standard C++ library. . Features and Goals . * Correctness as defined by the C++ standards. * Provide a portable sublayer to ease the porting of libc++ Package: libc++abi1-21 Description-md5: 6a197f8a8ae8385e801b369ea97886ce Description-en: LLVM low level support for a standard C++ library libc++abi is another implementation of low level support for a standard C++ library. . Features and Goals . * Correctness as defined by the C++ standards. * Provide a portable sublayer to ease the porting of libc++ Package: libc++abi1-22 Description-md5: 6a197f8a8ae8385e801b369ea97886ce Description-en: LLVM low level support for a standard C++ library libc++abi is another implementation of low level support for a standard C++ library. . Features and Goals . * Correctness as defined by the C++ standards. * Provide a portable sublayer to ease the porting of libc++ Package: libc-devtools Description-md5: 20d92638e9360ec19e7290046eb0d8f7 Description-en: GNU C Library: Development tools This package contains development tools shipped by the GNU C Library. . * memusage, memusagestat: profile a program's memory usage * mtrace: interpret the malloc trace log * sotruss: trace shared library calls * sprof: display shared object profiling data Package: libcalendar-ocaml Description-md5: 7b728538bee9dbffe6525216437d8f02 Description-en: OCaml library providing operations over dates and times (runtime) OCaml library implementing common date/time operations with timezones and pretty printing support. . This package contains the shared runtime libraries. Package: libcalendar-ocaml-dev Description-md5: e97e275bf447506b868de3fab16d1567 Description-en: OCaml library providing operations over dates and times (dev files) OCaml library implementing common date/time operations with timezones and pretty printing support. Package: libcalendar-ocaml-doc Description-md5: 14b74073efa634a2645683ce4fa2ec05 Description-en: OCaml library providing operations over dates and times (doc) OCaml library implementing common date/time operations with timezones and pretty printing support. . This package contains the library documentation. Package: libcamomile-ocaml-data Description-md5: 5b9a5bec5bcd07beb55454ff36c7c5ee Description-en: Unicode data for OCaml Camomile is a comprehensive Unicode library for objective caml language. The library is currently designed to conform Unicode Standard 3.2. . This package contains the data needed by camomile. Package: libcamomile-ocaml-dev Description-md5: 0e0fe980c309cb01a10cbb193370d5ec Description-en: Unicode library for OCaml Camomile is a comprehensive Unicode library for objective caml language. The library is currently designed to conform Unicode Standard 3.2. . Normalisers (NFD, NFKD, NFC, NFKC) and collator (string comparison) pass the conformance tests defined Unicode Technical Reports. Collator is also tested to Canadian, Thai and Japanese standards with their locales. Package: libcctbx-dev Description-md5: 80927143262a36c2492844dcd04ad8bd Description-en: Computational Crystallography Toolbox - headers Computational Crystallography Toolbox contains following modules: - annlib_adaptbx: - boost_adaptbx: wrappers for Boost functionality in CCTBX - cbflib_adaptbx: - ccp4io_adaptbx: - cctbx: Libraries for general crystallographic applications, useful for both small-molecule and macro-molecular crystallography. - cma_es: - crys3d: Modules for the display of molecules, electron density, and reciprocal space data. - dxtbx: The Diffraction Image Toolbox, a library for handling X-ray detector data of arbitrary complexity from a variety of standard formats. - fable: Fortran EMulation library for porting Fortran77 to C++. - gltbx: Python bindings for OpenGL - iotbx: Working with common crystallographic file formats. - libtbx: The build system common to all other modules. This includes a very thin wrapper around the SCons software construction tool. It also contains many useful frameworks and utilities to simplify application development, including tools for regression testing, parallelization across multiprocessor systems and managed clusters, and a flexible, modular configuration syntax called PHIL (Python Hierarchial Interface Language) used throughout the CCTBX. - mmtbx: Functionality specific to macromolecular crystallography. This includes all of the machinery required for setup of geometry restraints, bulk solvent correction and scaling, analysis of macromolecular diffraction data, calculation of weighted map coefficients, and most of the methods implemented in phenix.refine. The majority of infrastructure for the MolProbity validation server (and Phenix equivalent) is also located here. - omptbx: OpenMP interface. - rstbx: A reciprocal space toolbox to autoindex small molecule Bragg diffraction, given the reciprocal space vectors. - scitbx: General scientific calculations. his includes a family of high-level C++ array types, a fast Fourier transform library, and a C++ port of the popular L-BFGS quasi-Newton minimizer. - smtbx: Small-Molecule crystallography. - spotfinder: - tbxx: - wxtbx: wxPython controls used in the Phenix GUI and various utilities . This package provide everythings needed to link against the cctbx libraries. Package: libcctbx0 Description-md5: 1f470ab3421adb53b943b6c9907def61 Description-en: Computational Crystallography Toolbox - runtime libraries Computational Crystallography Toolbox contains following modules: - annlib_adaptbx: - boost_adaptbx: wrappers for Boost functionality in CCTBX - cbflib_adaptbx: - ccp4io_adaptbx: - cctbx: Libraries for general crystallographic applications, useful for both small-molecule and macro-molecular crystallography. - cma_es: - crys3d: Modules for the display of molecules, electron density, and reciprocal space data. - dxtbx: The Diffraction Image Toolbox, a library for handling X-ray detector data of arbitrary complexity from a variety of standard formats. - fable: Fortran EMulation library for porting Fortran77 to C++. - gltbx: Python bindings for OpenGL - iotbx: Working with common crystallographic file formats. - libtbx: The build system common to all other modules. This includes a very thin wrapper around the SCons software construction tool. It also contains many useful frameworks and utilities to simplify application development, including tools for regression testing, parallelization across multiprocessor systems and managed clusters, and a flexible, modular configuration syntax called PHIL (Python Hierarchial Interface Language) used throughout the CCTBX. - mmtbx: Functionality specific to macromolecular crystallography. This includes all of the machinery required for setup of geometry restraints, bulk solvent correction and scaling, analysis of macromolecular diffraction data, calculation of weighted map coefficients, and most of the methods implemented in phenix.refine. The majority of infrastructure for the MolProbity validation server (and Phenix equivalent) is also located here. - omptbx: OpenMP interface. - rstbx: A reciprocal space toolbox to autoindex small molecule Bragg diffraction, given the reciprocal space vectors. - scitbx: General scientific calculations. his includes a family of high-level C++ array types, a fast Fourier transform library, and a C++ port of the popular L-BFGS quasi-Newton minimizer. - smtbx: Small-Molecule crystallography. - spotfinder: - tbxx: - wxtbx: wxPython controls used in the Phenix GUI and various utilities . This package provide the cctbx runtime libraries. Package: libcephfs-java Description-md5: 7a7c6b551a3013f6e45ab66cc7b89b22 Description-en: Java library for the Ceph File System Ceph is a distributed storage system designed to provide excellent performance, reliability, and scalability. . This package contains the Java library for interacting with the Ceph File System. Package: libcephfs-jni Description-md5: eeccae7ad4653bc059b325a5ec4ddd58 Description-en: Java Native Interface library for CephFS Java bindings Ceph is a distributed storage system designed to provide excellent performance, reliability, and scalability. . This package contains the Java Native Interface library for interacting with the Ceph File System. Package: libclang-19-dev Description-md5: ae144ace7105bacb6cceb4728ea7abf2 Description-en: Clang library - Development package Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang headers to develop extensions over libclang1-19. Package: libclang-21-dev Description-md5: 7cb1680ccacb561deb44a94504954b37 Description-en: Clang library - Development package Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang headers to develop extensions over libclang1-21. Package: libclang-22-dev Description-md5: 2913d96deb7536b7b59b7b10e996a469 Description-en: Clang library - Development package Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang headers to develop extensions over libclang1-22. Package: libclang-common-19-dev Description-md5: c70051d53e23270c29353f55183e81aa Description-en: Clang library - Common development package Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang generic headers. Package: libclang-common-21-dev Description-md5: c70051d53e23270c29353f55183e81aa Description-en: Clang library - Common development package Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang generic headers. Package: libclang-common-22-dev Description-md5: c70051d53e23270c29353f55183e81aa Description-en: Clang library - Common development package Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang generic headers. Package: libclang-cpp19 Description-md5: 8acc7c5b41666c14f1ef5e79310225e6 Description-en: C++ interface to the Clang library Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang C++ library. . The C++ Interface to Clang provides an API that exposes facilities for parsing source code into an abstract syntax tree (AST), loading already-parsed ASTs, traversing the AST, associating physical source locations with elements within the AST, and other facilities that support Clang-based development tools. Package: libclang-cpp19-dev Description-md5: f5afea2f6b71ba0705e995aaab21eef9 Description-en: C++ interface to the Clang library Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang C++ library. . The C++ Interface to Clang provides an API that exposes facilities for parsing source code into an abstract syntax tree (AST), loading already-parsed ASTs, traversing the AST, associating physical source locations with elements within the AST, and other facilities that support Clang-based development tools. . This package contains symlinks without a version number, which needed by linker at build time. Package: libclang-cpp21 Description-md5: 8acc7c5b41666c14f1ef5e79310225e6 Description-en: C++ interface to the Clang library Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang C++ library. . The C++ Interface to Clang provides an API that exposes facilities for parsing source code into an abstract syntax tree (AST), loading already-parsed ASTs, traversing the AST, associating physical source locations with elements within the AST, and other facilities that support Clang-based development tools. Package: libclang-cpp21-dev Description-md5: f5afea2f6b71ba0705e995aaab21eef9 Description-en: C++ interface to the Clang library Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang C++ library. . The C++ Interface to Clang provides an API that exposes facilities for parsing source code into an abstract syntax tree (AST), loading already-parsed ASTs, traversing the AST, associating physical source locations with elements within the AST, and other facilities that support Clang-based development tools. . This package contains symlinks without a version number, which needed by linker at build time. Package: libclang-cpp22 Description-md5: 8acc7c5b41666c14f1ef5e79310225e6 Description-en: C++ interface to the Clang library Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang C++ library. . The C++ Interface to Clang provides an API that exposes facilities for parsing source code into an abstract syntax tree (AST), loading already-parsed ASTs, traversing the AST, associating physical source locations with elements within the AST, and other facilities that support Clang-based development tools. Package: libclang-cpp22-dev Description-md5: f5afea2f6b71ba0705e995aaab21eef9 Description-en: C++ interface to the Clang library Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang C++ library. . The C++ Interface to Clang provides an API that exposes facilities for parsing source code into an abstract syntax tree (AST), loading already-parsed ASTs, traversing the AST, associating physical source locations with elements within the AST, and other facilities that support Clang-based development tools. . This package contains symlinks without a version number, which needed by linker at build time. Package: libclang-rt-19-dev Description-md5: 2aaff3e893bfd063ceaf38e310dc3055 Description-en: Compiler-rt - development package This package provides various libraries: . * builtins - Simple libraries that provide implementation of the low-level target-specific hooks required by code generation and other runtime components. * sanitizer runtimes - AddressSanitizer, ThreadSanitizer, UndefinedBehaviorSanitizer, MemorySanitizer, LeakSanitizer DataFlowSanitizer, etc * profile - Library which is used to collect coverage information. Package: libclang-rt-19-dev-wasm32 Description-md5: 0a3a8bf20b284a6b0fb9f63d5541c217 Description-en: Compiler-rt - wasm32 builtins Provides the compiler-rt builtins for WebAssembly 32 bits Package: libclang-rt-19-dev-wasm64 Description-md5: f6fba666aadae95050bf103b52358363 Description-en: Compiler-rt - wasm64 builtins Provides the compiler-rt builtins for WebAssembly 64 bits Package: libclang-rt-21-dev Description-md5: 2aaff3e893bfd063ceaf38e310dc3055 Description-en: Compiler-rt - development package This package provides various libraries: . * builtins - Simple libraries that provide implementation of the low-level target-specific hooks required by code generation and other runtime components. * sanitizer runtimes - AddressSanitizer, ThreadSanitizer, UndefinedBehaviorSanitizer, MemorySanitizer, LeakSanitizer DataFlowSanitizer, etc * profile - Library which is used to collect coverage information. Package: libclang-rt-21-dev-wasm32 Description-md5: 0a3a8bf20b284a6b0fb9f63d5541c217 Description-en: Compiler-rt - wasm32 builtins Provides the compiler-rt builtins for WebAssembly 32 bits Package: libclang-rt-21-dev-wasm64 Description-md5: f6fba666aadae95050bf103b52358363 Description-en: Compiler-rt - wasm64 builtins Provides the compiler-rt builtins for WebAssembly 64 bits Package: libclang-rt-22-dev Description-md5: 2aaff3e893bfd063ceaf38e310dc3055 Description-en: Compiler-rt - development package This package provides various libraries: . * builtins - Simple libraries that provide implementation of the low-level target-specific hooks required by code generation and other runtime components. * sanitizer runtimes - AddressSanitizer, ThreadSanitizer, UndefinedBehaviorSanitizer, MemorySanitizer, LeakSanitizer DataFlowSanitizer, etc * profile - Library which is used to collect coverage information. Package: libclang-rt-22-dev-wasm32 Description-md5: 0a3a8bf20b284a6b0fb9f63d5541c217 Description-en: Compiler-rt - wasm32 builtins Provides the compiler-rt builtins for WebAssembly 32 bits Package: libclang-rt-22-dev-wasm64 Description-md5: f6fba666aadae95050bf103b52358363 Description-en: Compiler-rt - wasm64 builtins Provides the compiler-rt builtins for WebAssembly 64 bits Package: libclang1-19 Description-md5: 6fbabc5fd121a4ff6b254de59627b6de Description-en: C interface to the Clang library Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang library. . The C Interface to Clang provides a relatively small API that exposes facilities for parsing source code into an abstract syntax tree (AST), loading already-parsed ASTs, traversing the AST, associating physical source locations with elements within the AST, and other facilities that support Clang-based development tools. Package: libclang1-21 Description-md5: 6fbabc5fd121a4ff6b254de59627b6de Description-en: C interface to the Clang library Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang library. . The C Interface to Clang provides a relatively small API that exposes facilities for parsing source code into an abstract syntax tree (AST), loading already-parsed ASTs, traversing the AST, associating physical source locations with elements within the AST, and other facilities that support Clang-based development tools. Package: libclang1-22 Description-md5: 6fbabc5fd121a4ff6b254de59627b6de Description-en: C interface to the Clang library Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This package contains the Clang library. . The C Interface to Clang provides a relatively small API that exposes facilities for parsing source code into an abstract syntax tree (AST), loading already-parsed ASTs, traversing the AST, associating physical source locations with elements within the AST, and other facilities that support Clang-based development tools. Package: libclc-19 Description-md5: 73bf1c1e61845108c59b363de4fd901a Description-en: OpenCL C language implementation - platform support libclc is an open implementation of the OpenCL C programming language, as specified by the OpenCL 1.1 Specification. . This package contains support for the amdgcn (AMD GPU), PTX and r600 platforms. Package: libclc-19-dev Description-md5: af42cc63b204a8c47b782398389a6170 Description-en: OpenCL C language implementation - development files libclc is an open implementation of the OpenCL C programming language, as specified by the OpenCL 1.1 Specification. . This package contains development header files. Package: libclc-21 Description-md5: 73bf1c1e61845108c59b363de4fd901a Description-en: OpenCL C language implementation - platform support libclc is an open implementation of the OpenCL C programming language, as specified by the OpenCL 1.1 Specification. . This package contains support for the amdgcn (AMD GPU), PTX and r600 platforms. Package: libclc-21-dev Description-md5: af42cc63b204a8c47b782398389a6170 Description-en: OpenCL C language implementation - development files libclc is an open implementation of the OpenCL C programming language, as specified by the OpenCL 1.1 Specification. . This package contains development header files. Package: libclc-22 Description-md5: 73bf1c1e61845108c59b363de4fd901a Description-en: OpenCL C language implementation - platform support libclc is an open implementation of the OpenCL C programming language, as specified by the OpenCL 1.1 Specification. . This package contains support for the amdgcn (AMD GPU), PTX and r600 platforms. Package: libclc-22-dev Description-md5: af42cc63b204a8c47b782398389a6170 Description-en: OpenCL C language implementation - development files libclc is an open implementation of the OpenCL C programming language, as specified by the OpenCL 1.1 Specification. . This package contains development header files. Package: libcmor-dev Description-md5: 3cf8ecee61701b3ad4b60a28c9373fe3 Description-en: Development files for Climate Model Output Rewriter The "Climate Model Output Rewriter" (CMOR, pronounced "Seymour") comprises a set of C-based functions, with bindings to both Python and FORTRAN 90, that can be used to produce CF-compliant netCDF files. that fulfill the requirements of many of the climate community's standard model experiments. . This package contains files needed to build and link against the CMOR library. Package: libcmor2t64 Description-md5: 3e7f8551dfbcda9ec257e71c4fcae795 Description-en: Climate Model Output Rewriter library The "Climate Model Output Rewriter" (CMOR, pronounced "Seymour") comprises a set of C-based functions, with bindings to both Python and FORTRAN 90, that can be used to produce CF-compliant netCDF files that fulfill the requirements of many of the climate community's standard model experiments. These experiments are collectively referred to as MIP's and include, for example, AMIP, CMIP, CFMIP, PMIP, APE, and IPCC scenario runs. The output resulting from CMOR is "self-describing" and facilitates analysis of results across models. Package: libcogl-common Description-md5: d546b96c6a3a291dcdcc684916b2a0c0 Description-en: Object oriented GL/GLES Abstraction/Utility Layer (common files) Cogl is a small open source library for using 3D graphics hardware to draw pretty pictures. The API departs from the flat state machine style of OpenGL and is designed to make it easy to write orthogonal components that can render without stepping on each others toes. . This package contains the common files, such as translations. Package: libcogl-dev Description-md5: be3115f4a0115636a1065d55d8a70f4a Description-en: Object oriented GL/GLES Abstraction/Utility Layer (development files) Cogl is a small open source library for using 3D graphics hardware to draw pretty pictures. The API departs from the flat state machine style of OpenGL and is designed to make it easy to write orthogonal components that can render without stepping on each others toes. . This package contains the development files for libcogl. Package: libcogl-doc Description-md5: 6b316c36c70b839fe5274cc7bbbd7eaa Description-en: Object oriented GL/GLES Abstraction/Utility Layer (documentation) Cogl is a small open source library for using 3D graphics hardware to draw pretty pictures. The API departs from the flat state machine style of OpenGL and is designed to make it easy to write orthogonal components that can render without stepping on each others toes. . This package contains the documentation. Package: libcogl-pango-dev Description-md5: 5c4e7ce27e624192d91d8d0db6688471 Description-en: Object oriented GL/GLES Abstraction/Utility Layer (development files) Cogl is a small open source library for using 3D graphics hardware to draw pretty pictures. The API departs from the flat state machine style of OpenGL and is designed to make it easy to write orthogonal components that can render without stepping on each others toes. . This package contains the development files for libcogl-pango. Package: libcogl-pango20 Description-md5: 8c0fee75492f726194fa0be454f54661 Description-en: Object oriented GL/GLES Abstraction/Utility Layer Cogl is a small open source library for using 3D graphics hardware to draw pretty pictures. The API departs from the flat state machine style of OpenGL and is designed to make it easy to write orthogonal components that can render without stepping on each others toes. Package: libcogl-path-dev Description-md5: 2e20efef9b615c0cbb5717e31e6c92c8 Description-en: Object oriented GL/GLES Abstraction/Utility Layer (development files) Cogl is a small open source library for using 3D graphics hardware to draw pretty pictures. The API departs from the flat state machine style of OpenGL and is designed to make it easy to write orthogonal components that can render without stepping on each others toes. . This package should be used as a build-dependency by programs that use the cogl-path API, but is currently an empty package that depends on libcogl-dev due to circular dependencies between the base cogl API and the cogl-path API. Package: libcogl-path20 Description-md5: 8c0fee75492f726194fa0be454f54661 Description-en: Object oriented GL/GLES Abstraction/Utility Layer Cogl is a small open source library for using 3D graphics hardware to draw pretty pictures. The API departs from the flat state machine style of OpenGL and is designed to make it easy to write orthogonal components that can render without stepping on each others toes. Package: libcogl20 Description-md5: 8c0fee75492f726194fa0be454f54661 Description-en: Object oriented GL/GLES Abstraction/Utility Layer Cogl is a small open source library for using 3D graphics hardware to draw pretty pictures. The API departs from the flat state machine style of OpenGL and is designed to make it easy to write orthogonal components that can render without stepping on each others toes. Package: libcollada-dom-dev Description-md5: 9f8f5dc81b2b08002f9e2853c76c0920 Description-en: collada-dom 2.5.0 C++ headers and build tools The COLLADA Document Object Model (DOM) is an application programming interface (API) that provides a C++ object representation of a COLLADA XML instance document. . This package contains C++ headers and build tools. The library is built using double precision. Package: libcollada-dom2.4-dp-dev Description-md5: 218522b5c426f906ceea5ab227a2aeb6 Description-en: Transitional package This is a transitional package. It can safely be removed. The package name has been changed from libcollada-dom2.4-dp-dev to libcollada-dom-dev. Package: libcollada-dom2.5-dp0 Description-md5: 8c5c18593f0ecd1461adbe620bd426aa Description-en: collada-dom 2.5.0 - COLLADA using double precision The COLLADA Document Object Model (DOM) is an application programming interface (API) that provides a C++ object representation of a COLLADA XML instance document. Package: libcontainers-data-ocaml-dev Description-md5: 871185d5c981aa82ee171ad5889a058f Description-en: extension to OCaml's standard data structures An extension to the standard library docused on data structures, combinators and iterators, without dependencies on unix, str or num. . This package includes data structures that do not have equivalents in the standard library. These may not be as well maintained. Package: libcontainers-ocaml-dev Description-md5: 04d8d952af594696c069892d62aa3c76 Description-en: extension to OCaml's standard data structures and iterators An extension to the standard library docused on data structures, combinators and iterators, without dependencies on unix, str or num. . This package includes data structures that have equivalents in the standard library. Package: libcoq-mathcomp-abel Description-md5: 3adc2407c3df0e5de782fe2f159ef52b Description-en: Abel-Galois and Abel-Ruffini theorems for Mathematical Components This package provides proofs of the Abel-Galois (solvability by radicals and solvability of the Galois group) and of the Abel-Ruffini theorem (general unsolvability of the quintic equations) using the Mathematical Components library. . The Mathematical Components library is a coherent repository of general-purpose formalized mathematical theories for the Coq proof assistant. Package: libcourier-unicode-dev Description-md5: 0a66f8714157440b9993bfe1b7e2a2cb Description-en: Courier Unicode library (development files and headers) This library implements several algorithms related to the Unicode Standard: - Look up uppercase, lowercase, and titlecase equivalents of a unicode character. - Implementation of grapheme and work breaking rules. - Implementation of line breaking rules. - Several ancillary functions, like looking up the unicode character that corresponds to some HTML 4.0 entity (such as “&”, for example), and determining the normal width or a double-width status of a unicode character. Also, an adaptation of the iconv(3) API for this unicode library. - Look up Unicode script property. . This package contains the development files and headers. Package: libcourier-unicode8 Description-md5: 550220e9e8944087bcba9ab32c1d15e7 Description-en: Courier Unicode library (shared runtime library) This library implements several algorithms related to the Unicode Standard: - Look up uppercase, lowercase, and titlecase equivalents of a unicode character. - Implementation of grapheme and work breaking rules. - Implementation of line breaking rules. - Several ancillary functions, like looking up the unicode character that corresponds to some HTML 4.0 entity (such as “&”, for example), and determining the normal width or a double-width status of a unicode character. Also, an adaptation of the iconv(3) API for this unicode library. - Look up Unicode script property. . This package contains the shared runtime library. Package: libcstruct-ocaml Description-md5: 8472b161eb7b819ac5f29a0d0689fd84 Description-en: access C-like structures directly from OCaml (runtime) Cstruct is a library and syntax extension to make it easier to access C-like structures directly from OCaml. It supports both reading and writing to these structures, and they are accessed via the Bigarray module. . This package contains the runtime libraries for programs using cstruct. Package: libcstruct-ocaml-dev Description-md5: 301b7e8fc1ef3d5b10d0310948f31f46 Description-en: access C-like structures directly from OCaml (dev) Cstruct is a library and syntax extension to make it easier to access C-like structures directly from OCaml. It supports both reading and writing to these structures, and they are accessed via the Bigarray module. . This package contains the development stuff needed to use the cstruct library in your programs. Package: libcurl-ocaml Description-md5: f8bf1d59757cbdc7a624e0bc956f5b75 Description-en: OCaml curl bindings (Runtime Library) This Objective Caml library provides multi-protocol file transfer facilities based on the curl library. . This package contains only the shared runtime stub libraries. Package: libcurl-ocaml-dev Description-md5: cfa14f39c85cc80ff110c3ce9a2a6617 Description-en: OCaml libcurl bindings (Development package) This Objective Caml library provides multi-protocol file transfer facilities based on the curl library. . This package contains the development part of the OCaml curl package. Package: libdart-all-dev Description-md5: a3a40c8ce9ad2cd0867ebd3045bf3783 Description-en: Kinematics Dynamics and Optimization Library - All Development Files DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package does not contain any file but install all development packages. . Metapackage for all development files. Package: libdart-collision-bullet-dev Description-md5: 12119eeda619237f0ca20a36078c01c0 Description-en: Kinematics Dynamics and Optimization Library - Bullet Collision Dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. Package: libdart-collision-bullet6.13 Description-md5: 66073bdaa72101da6f2c788df7195a6c Description-en: Kinematics Dynamics and Optimization Library - Bullet Collision Library DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the collision library with Bullet backend. Package: libdart-collision-ode-dev Description-md5: 685c81a6e6fc03032e62d6b48ee8dc23 Description-en: Kinematics Dynamics and Optimization Library - ODE Collision Dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the collision ode headers and other tools for development. Package: libdart-collision-ode6.13 Description-md5: 7b3604f65d7db00f617e4d6e4b5917f4 Description-en: Kinematics Dynamics and Optimization Library - ODE Collision Library DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the collision library with ODE backend. Package: libdart-dev Description-md5: a855efe479dd66f490a577bede58ba87 Description-en: Kinematics Dynamics and Optimization Library - development files DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains main headers and other tools for development. Package: libdart-external-convhull-3d-dev Description-md5: e82fe00b2d411a43bc239a8c0a22946d Description-en: Kinematics Dynamics and Optimization Library - convhull-3d dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . A header only C implementation of the 3-D quickhull algorithm. Package: libdart-external-ikfast-dev Description-md5: 20ecb7b34e5354db804d89ef873dbe3f Description-en: Kinematics Dynamics and Optimization Library - ikfast dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains ikfast headers and other useful tools for development. Package: libdart-external-imgui-dev Description-md5: 683b72af26fa1393cba7b04f06ba54a9 Description-en: Kinematics Dynamics and Optimization Library - imgui dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains imgui headers and other useful tools for development. Package: libdart-external-imgui6.13 Description-md5: 2a68fcf06c47f362a2428cec4e3be564 Description-en: Kinematics Dynamics and Optimization Library - imgui lib DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the imgui library. Package: libdart-external-lodepng-dev Description-md5: bb6598306aca868dd74bb78b1c76ec3f Description-en: Kinematics Dynamics and Optimization Library - lodepng dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains lodepng headers and other useful tools for development. Package: libdart-external-lodepng6.13 Description-md5: b6d3ac25e7dc46366fdfb0f70ccb4771 Description-en: Kinematics Dynamics and Optimization Library - lodepng lib DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the lodepng library. Package: libdart-external-odelcpsolver-dev Description-md5: 6391cb6b875aedef7500b21a1c3d40d8 Description-en: Kinematics Dynamics and Optimization Library - odelcpsolver dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains odelcpsolver headers and other useful tools for development. Package: libdart-external-odelcpsolver6.13 Description-md5: 80089089ad82c03306f633b9f8c73d92 Description-en: Kinematics Dynamics and Optimization Library - odelcpsolver lib DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the odelcpsolver library. Package: libdart-gui-dev Description-md5: f398433a0d5e536c034bd732200c4ec9 Description-en: Kinematics Dynamics and Optimization Library - gui dev files DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains GUI headers and other useful tools for GUI development. Package: libdart-gui-osg-dev Description-md5: 555980738b92953f5d7ae00102812c41 Description-en: Kinematics Dynamics and Optimization Library - gui-osg dev files DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains GUI OpenSceneGraph headers and other useful tools for GUI OpenSceneGraph development. Package: libdart-gui-osg6.13 Description-md5: 742bca636e101ed6c13089509d7a0101 Description-en: Kinematics Dynamics and Optimization Library - gui-osg library DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the GUI OpenSceneGraph optimizer library. Package: libdart-gui6.13 Description-md5: b40afdb20548d5be1ba1253861fbb6d9 Description-en: Kinematics Dynamics and Optimization Library - gui library DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the GUI library. Package: libdart-optimizer-ipopt-dev Description-md5: 7aae825794f0146dc689dd4a9fc0cee7 Description-en: Kinematics Dynamics and Optimization Library - ipopt optimizer dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains IPOPT optimizer headers and other useful tools for development. Package: libdart-optimizer-ipopt6.13 Description-md5: 65115b66f44cf88813f67626c549ee56 Description-en: Kinematics Dynamics and Optimization Library - ipopt optimizer lib DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the ipopt optimizer library. Package: libdart-optimizer-nlopt-dev Description-md5: ecef27b7cf96e3276d415933392121be Description-en: Kinematics Dynamics and Optimization Library - nlopt optimizer dev DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains NLOPT optimizer headers and other useful tools for development. Package: libdart-optimizer-nlopt6.13 Description-md5: d1310216dfa2bda835639959dc64ec89 Description-en: Kinematics Dynamics and Optimization Library - nlopt optimizer lib DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the NLOPT optimizer library. Package: libdart-utils-dev Description-md5: b1737860fbde50cc7c64b2e7e321e527 Description-en: Kinematics Dynamics and Optimization Library - utils dev files DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains headers and other useful tools for development. Package: libdart-utils-urdf-dev Description-md5: e6d637fd6174bf738a889d4538e47c22 Description-en: Kinematics Dynamics and Optimization Library - URDF Component Development Files DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains urdf utils headers and other useful tools for development. Package: libdart-utils-urdf6.13 Description-md5: 63593f8e76ccb03f13fb89be5be96a21 Description-en: Kinematics Dynamics and Optimization Library - Utils URDF Library DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the Utils URDF library. Package: libdart-utils6.13 Description-md5: 79c31e402a6a337f1add05ba48d14be1 Description-en: Kinematics Dynamics and Optimization Library - utils library DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the DART utils library. Package: libdart6.13 Description-md5: f6432e84cd49e7ac9691cbb4bb35c181 Description-en: Kinematics Dynamics and Optimization Library - main library DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package contains the main library of DART. Package: libdbus-cpp-dev Description-md5: d2ec7695c149eeedc0e937b6149296c9 Description-en: header-only dbus-binding leveraging C++-11 (development files) A header-only dbus-binding leveraging C++-11, relying on compile-time polymorphism to integrate with arbitrary type systems. . D-Bus is a message bus used for sending messages between applications. Package: libdbus-cpp5 Description-md5: 62f1a1fd4dd892dd7249cd053e3981cd Description-en: header-only dbus-binding leveraging C++-11 (runtime libraries) A header-only dbus-binding leveraging C++-11, relying on compile-time polymorphism to integrate with arbitrary type systems. Runtime portions to bind to different event loops. Package: libdecimal-ocaml Description-md5: 3b34a66a7e4dfd45d2964296ee77dfe7 Description-en: arbitrary-precision floating-point decimal library (runtime) Arbitrary-precision floating-point decimal library ported from the Python decimal module. . This package contains the runtime libraries for programs using the decimal library. Package: libdecimal-ocaml-dev Description-md5: 8afaa826d816519e1319d3123d0734c9 Description-en: arbitrary-precision floating-point decimal library (dev) Arbitrary-precision floating-point decimal library ported from the Python decimal module. . This package contains the development stuff needed to use the decimal library in your programs. Package: libdomain-name-ocaml Description-md5: 9c5037889209840478ff8bcec0ffe55f Description-en: RFC 1035 Internet domain names (runtime) This module provides an abstract type for domain names, as defined by RFC 1035. It provides useful functions that operate on domain names while guaranteeing invariants such as the length limit. . This package contains the shared runtime libraries. Package: libdomain-name-ocaml-dev Description-md5: 3aba80fe901abcb3a494429d3376c2c1 Description-en: RFC 1035 Internet domain names (dev) This module provides an abstract type for domain names, as defined by RFC 1035. It provides useful functions that operate on domain names while guaranteeing invariants such as the length limit. . This package contains the development files needed for programming with the library. Package: libdose3-ocaml-dev Description-md5: 51505242f01986878ed08b98befde9b2 Description-en: OCaml libraries for package dependencies (development files) Dose3 is a framework consisting of several OCaml libraries for analysing the metadata of software packages (like Packages files of Debian suites). . Though not tied to any particular distribution, Dose3 constitutes a pool of libraries which enable analyzing packages coming from various distributions. . Besides basic functionalities for querying and setting package properties, dose3 also implements algorithms for solving more complex problems (monitoring package evolutions, correct and complete dependency resolution, repository-wide uninstallability checks). . This package contains the development stuff you need to use dose3 for the development of programs. Package: libdovi-dev Description-md5: 56d1cfdef6dbd24e2a30a373f6509a6b Description-en: read and write Dolby Vision metadata (development files) Dolby Vision is a format for high dynamic range (HDR) video. The libdovi library provides functonality to read and write Dolby Vision metadata. . This package contains the development files. Package: libdovi3 Description-md5: b45d18877b74d0eda1d9e92583084d2e Description-en: read and write Dolby Vision metadata (shared library) Dolby Vision is a format for high dynamic range (HDR) video. The libdovi library provides functonality to read and write Dolby Vision metadata. . This package contains the shared library. Package: libdune-ocaml-dev Description-md5: 0ab489395979797001fc7accc624ca08 Description-en: composable build system for OCaml projects (libraries) Dune is a build system designed for OCaml/Reason projects only. It focuses on providing the user with a consistent experience and takes care of most of the low-level details of OCaml compilation. All you have to do is provide a description of your project and Dune will do the rest. . This package contains libraries provided by the ocaml-dune source package. Package: libduppy-ocaml Description-md5: 7ca87182108638381eb3100822a6749e Description-en: Advanced scheduler for OCaml (Runtime library) Duppy is an event scheduler written for OCaml. It allows the user to execute tasks according to some events on unix sockets, or a given delay. . Several threaded queues can proceed tasks in parallel. Tasks are processed according to an abstract notion of priority. . This package contains only the shared runtime stub libraries. Package: libduppy-ocaml-dev Description-md5: 6acd193ab98544720006c42c1e442100 Description-en: Advanced scheduler for OCaml (Development package) Duppy is an event scheduler written for OCaml. It allows the user to execute tasks according to some events on unix sockets, or a given delay. . Several threaded queues can proceed tasks in parallel. Tasks are processed according to an abstract notion of priority. . This package contains all the development stuff you need to use ocaml-duppy in your programs. Package: libestools-dev Description-md5: 7c688489cdc9ec52a96e79fd264de880 Description-en: Edinburgh Speech Tools Library - developer's libraries The Edinburgh Speech Tools Library is a collection of C++ class, functions and related programs for manipulating the sorts of objects used in speech processing. . This package contains the header files and static libraries. Package: libestools2.5 Description-md5: a497575e6bd37f8599ee3ca1b9a00775 Description-en: Edinburgh Speech Tools Library The Edinburgh Speech Tools Library is a collection of C++ class, functions and related programs for manipulating the sorts of objects used in speech processing. Package: libflang-19-dev Description-md5: 3328d45b650afee35fe8b6da0b9b1e49 Description-en: Flang library - Development package Ground-up implementation of a Fortran front end written in modern C++. . While it is capable of generating executables for a number of examples, some functionalities are still missing. . This package contains the flang libraries and headers. Package: libflang-21-dev Description-md5: 3328d45b650afee35fe8b6da0b9b1e49 Description-en: Flang library - Development package Ground-up implementation of a Fortran front end written in modern C++. . While it is capable of generating executables for a number of examples, some functionalities are still missing. . This package contains the flang libraries and headers. Package: libflang-22-dev Description-md5: 3328d45b650afee35fe8b6da0b9b1e49 Description-en: Flang library - Development package Ground-up implementation of a Fortran front end written in modern C++. . While it is capable of generating executables for a number of examples, some functionalities are still missing. . This package contains the flang libraries and headers. Package: libfuzzer-19-dev Description-md5: bc55cd127b8dab148b78e61e5e475b8e Description-en: Library for coverage-guided fuzz testing LibFuzzer is a library for in-process, coverage-guided, evolutionary fuzzing of other libraries. . LibFuzzer is similar in concept to American Fuzzy Lop (AFL), but it performs all of its fuzzing inside a single process. This in-process fuzzing can be more restrictive and fragile, but is potentially much faster as there is no overhead for process start-up. . The fuzzer is linked with the library under test, and feeds fuzzed inputs to the library via a specific fuzzing entrypoint (aka 'target function'); the fuzzer then tracks which areas of the code are reached, and generates mutations on the corpus of input data in order to maximize the code coverage. The code coverage information for libFuzzer is provided by LLVM's SanitizerCoverage instrumentation. Package: libfuzzer-21-dev Description-md5: bc55cd127b8dab148b78e61e5e475b8e Description-en: Library for coverage-guided fuzz testing LibFuzzer is a library for in-process, coverage-guided, evolutionary fuzzing of other libraries. . LibFuzzer is similar in concept to American Fuzzy Lop (AFL), but it performs all of its fuzzing inside a single process. This in-process fuzzing can be more restrictive and fragile, but is potentially much faster as there is no overhead for process start-up. . The fuzzer is linked with the library under test, and feeds fuzzed inputs to the library via a specific fuzzing entrypoint (aka 'target function'); the fuzzer then tracks which areas of the code are reached, and generates mutations on the corpus of input data in order to maximize the code coverage. The code coverage information for libFuzzer is provided by LLVM's SanitizerCoverage instrumentation. Package: libfuzzer-22-dev Description-md5: bc55cd127b8dab148b78e61e5e475b8e Description-en: Library for coverage-guided fuzz testing LibFuzzer is a library for in-process, coverage-guided, evolutionary fuzzing of other libraries. . LibFuzzer is similar in concept to American Fuzzy Lop (AFL), but it performs all of its fuzzing inside a single process. This in-process fuzzing can be more restrictive and fragile, but is potentially much faster as there is no overhead for process start-up. . The fuzzer is linked with the library under test, and feeds fuzzed inputs to the library via a specific fuzzing entrypoint (aka 'target function'); the fuzzer then tracks which areas of the code are reached, and generates mutations on the corpus of input data in order to maximize the code coverage. The code coverage information for libFuzzer is provided by LLVM's SanitizerCoverage instrumentation. Package: libgdal-dev Description-md5: fe1355584b1a93438b3699e1581cff4b Description-en: Geospatial Data Abstraction Library - Development files GDAL is a translator library for raster geospatial data formats. As a library, it presents a single abstract data model to the calling application for all supported formats. The related OGR library (which lives within the GDAL source tree) provides a similar capability for simple features vector data. . GDAL supports many popular data formats, including commonly used ones (GeoTIFF, JPEG, PNG and more) as well as the ones used in GIS and remote sensing software packages (ERDAS Imagine, ESRI Arc/Info, ENVI, PCI Geomatics). Also supported many remote sensing and scientific data distribution formats such as HDF, EOS FAST, NOAA L1B, NetCDF, FITS. . OGR library supports popular vector formats like ESRI Shapefile, TIGER data, S57, MapInfo File, DGN, GML and more. . This package contains the files needed to develop a software that will use the GDAL/OGR (headers, static objects, configuration script). Package: libgdal36 Description-md5: bd1887dd27736e16667e84bf0102d226 Description-en: Geospatial Data Abstraction Library GDAL is a translator library for raster geospatial data formats. As a library, it presents a single abstract data model to the calling application for all supported formats. The related OGR library (which lives within the GDAL source tree) provides a similar capability for simple features vector data. . GDAL supports many popular data formats, including commonly used ones (GeoTIFF, JPEG, PNG and more) as well as the ones used in GIS and remote sensing software packages (ERDAS Imagine, ESRI Arc/Info, ENVI, PCI Geomatics). Also supported many remote sensing and scientific data distribution formats such as HDF, EOS FAST, NOAA L1B, NetCDF, FITS. . OGR library supports popular vector formats like ESRI Shapefile, TIGER data, S57, MapInfo File, DGN, GML and more. . This package contains the shared library. Package: libgraphite2-utils Description-md5: 109a01973ba1063dc1ec4c471d88b064 Description-en: Font rendering engine for Complex Scripts -- utilities Graphite is a system that can be used to create and use "smart fonts" capable of displaying writing systems with various complex behaviors, such as: contextual shaping, ligatures, reordering, split glyphs, bidirectionality, stacking diacritics and complex positioning. . This package contains gr2fonttest. Package: libgudhi-dev Description-md5: faf19d8da7a0aa41db0500f1fb33400f Description-en: Generic open source C++ library for topological data analysis The GUDHI library is a generic open source C++ library for Topological Data Analysis (TDA) and Higher Dimensional Geometry Understanding. The library offers state-of-the-art data structures and algorithms to construct simplicial complexes and compute persistent homology. . This package contains the header files. See the libgudhi-examples package for example programs using the library. Package: libgudhi-doc Description-md5: ebe9b1d5ef60496dcfc2a92b9524fcd6 Description-en: Documentation for the GUDHI library The GUDHI library is a generic open source C++ library for Topological Data Analysis (TDA) and Higher Dimensional Geometry Understanding. The library offers state-of-the-art data structures and algorithms to construct simplicial complexes and compute persistent homology. . This package contains documentation. Package: libgudhi-examples Description-md5: 9d29a2b4457b1ffa5f5c3f4737176c8f Description-en: Example programs for the GUDHI library The GUDHI library is a generic open source C++ library for Topological Data Analysis (TDA) and Higher Dimensional Geometry Understanding. The library offers state-of-the-art data structures and algorithms to construct simplicial complexes and compute persistent homology. . This package contains some source code examples. Package: libhsa-runtime-dev Description-md5: a43df1a7a825b65ac5f03fb39ff420b1 Description-en: HSA Runtime API and runtime for ROCm - development files This library provides user-mode API interfaces necessary for host applications to launch compute kernels to available HSA ROCm kernel agents. . This package contains the development headers. Package: libhsa-runtime64-1 Description-md5: 3b6dc07958d486a817a5f2ac17827c4a Description-en: HSA Runtime API and runtime for ROCm This library provides user-mode API interfaces necessary for host applications to launch compute kernels to available HSA ROCm kernel agents. Package: libhsakmt-dev Description-md5: 7206aef6339b557669fd61b2c4ccb72f Description-en: Thunk library for AMD KFD (dev) This package includes the user-mode API interfaces used to interact with the ROCk driver. . This package contains the development files. Package: libhsakmt1 Description-md5: cad20c7a0db349265356ab5bbc60e4cf Description-en: Thunk library for AMD KFD (shlib) This package includes the user-mode API interfaces used to interact with the ROCk driver. . This package contains the shared object. Package: libinifiles-ocaml Description-md5: 3bde107611ce90bdc03508f2ea085c36 Description-en: read and write .ini files for OCaml (runtime) This library allows one to read and write .ini files. It features an object oriented interface to manipulate inifiles. It allows sections listing and operation on several inifiles grouped in a directory. . This package contains the shared runtime libraries. Package: libinifiles-ocaml-dev Description-md5: 74825759e1b4f6b7dd150e4a20082c5e Description-en: read and write .ini files for OCaml This library allows one to read and write .ini files. It features an object oriented interface to manipulate inifiles. It allows sections listing and operation on several inifiles grouped in a directory. Package: libinotify-ocaml Description-md5: d99ff02128e3b2ab0ed774b9a117bda1 Description-en: OCaml bindings for the inotify API This library provides OCaml bindings for using inotify. . Inotify is a Linux kernel subsystem, that notice changes to the filesystem, and report those changes to applications. . This package contains shared library. Package: libinotify-ocaml-dev Description-md5: cdfa745781cafa314adb73004a226cde Description-en: OCaml bindings for the inotify API This library provides OCaml bindings for using inotify. . Inotify is a Linux kernel subsystem, that notice changes to the filesystem, and report those changes to applications. . This package contains header and OCaml library. Package: libjs-of-ocaml Description-md5: 1a5371bc67a83169a2d60423d3c62697 Description-en: OCaml bytecode to JavaScript compiler (runtime) Js_of_ocaml is a compiler of OCaml bytecode to JavaScript. It makes it possible to run OCaml programs in a web browser. Its key features are the following: * the whole language, and most of the standard library are supported; * the generated code can be used with any web server and browser; * you can use a standard installation of OCaml to compile your programs. In particular, you do not have to recompile a library to use it with Js_of_ocaml. You just have to link your program with a specific library to interface with the browser APIs. . This package contains runtime libraries that may be needed by server-side programs communicating with clients compiled with Js_of_ocaml using JSON. Package: libjs-of-ocaml-dev Description-md5: abe95895ab2f33a3262f1c3beb98b8cf Description-en: OCaml bytecode to JavaScript compiler (development files) Js_of_ocaml is a compiler of OCaml bytecode to JavaScript. It makes it possible to run OCaml programs in a web browser. Its key features are the following: * the whole language, and most of the standard library are supported; * the generated code can be used with any web server and browser; * you can use a standard installation of OCaml to compile your programs. In particular, you do not have to recompile a library to use it with Js_of_ocaml. You just have to link your program with a specific library to interface with the browser APIs. . This package contains development files needed to compile server-side (using regular OCaml compiler) and client-side (using Js_of_ocaml) programs. Package: libjs-of-ocaml-doc Description-md5: 154f370d4fd407c09642220e12f79204 Description-en: OCaml bytecode to JavaScript compiler (documentation) Js_of_ocaml is a compiler of OCaml bytecode to JavaScript. It makes it possible to run OCaml programs in a web browser. . This package contains the API reference and examples. Package: libjuh-java Description-md5: 9e017c19c2cbf8cab7b83a1ee17e6890 Description-en: transitional package for LibreOffice UNO runtime environment LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This has now been merged into liblibreoffice-java and this package thus can be safely removed once installed. Package: libjurt-java Description-md5: 9e017c19c2cbf8cab7b83a1ee17e6890 Description-en: transitional package for LibreOffice UNO runtime environment LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This has now been merged into liblibreoffice-java and this package thus can be safely removed once installed. Package: libkate-dev Description-md5: ea7955d0abccb5259d206e2cfde3252c Description-en: Codec for karaoke and text encapsulation (dev) Kate is meant to be used for karaoke alongside audio/video streams (typically Vorbis and Theora), movie subtitles, song lyrics, and anything that needs text data at arbitrary time intervals. . libkate provides an API for the encoding and decoding of kate files. This package contains the development libraries. Package: libkate-tools Description-md5: c771130173d36e2f7c329fd922edcb38 Description-en: Utilities for mangling kate Ogg files Kate is meant to be used for karaoke alongside audio/video streams (typically Vorbis and Theora), movie subtitles, song lyrics, and anything that needs text data at arbitrary time intervals. . This package contains some utilities useful for debugging and tweaking Kate files, using libkate. Package: libkate1 Description-md5: 39ec13ea5c59b0ac8acc76b3db8228c2 Description-en: Codec for karaoke and text encapsulation Kate is meant to be used for karaoke alongside audio/video streams (typically Vorbis and Theora), movie subtitles, song lyrics, and anything that needs text data at arbitrary time intervals. . libkate provides an API for the encoding and decoding of kate files. Package: libkolabxml-dev Description-md5: 9a7130a6d4160c839654528eb4e4caa9 Description-en: Development files for libkolabxml Libkolabxml is the reference implementation of the Kolab XML format. For more information see the libkolabxml package. . This package provides development files libkolabxml. Package: libkolabxml1v5 Description-md5: 01546898c4418aefac0ceaf3d5324602 Description-en: Kolab XML format (shared library) Libkolabxml is the reference implementation of the Kolab XML format. . The Kolab 3.0 XML format is defined in . . This package provides serialization/deserialization from/to in-memory representations for all Kolab Objects, including input validation. Package: liblastfm-ocaml-dev Description-md5: 28afaa38941186bd4fceea063400e4b6 Description-en: OCaml interface to audioscrobbler and lastfm radios This OCaml module provides an API to audioscrobbler, the lastfm submission protocol, as well as the radio API, which allows one to listen to lastfm streams/radios. Package: liblfortran-dev Description-md5: a643a92d9e9a3654638ff6a774cd2d08 Description-en: flang library - Development package. LFortran is a modern open-source (BSD licensed) interactive Fortran compiler built on top of LLVM. It can execute user’s code interactively to allow exploratory work (much like Python, MATLAB or Julia) as well as compile to binaries with the goal to run user’s code on modern architectures such as multi-core CPUs and GPUs. . This provides the static libraries and development files. Package: liblfortran-runtime0 Description-md5: 6ad21e393761b8fa15fc18b08d55bfaf Description-en: Runtime libraries for the lfortran compiler LFortran is a modern open-source (BSD licensed) interactive Fortran compiler built on top of LLVM. It can execute user’s code interactively to allow exploratory work (much like Python, MATLAB or Julia) as well as compile to binaries with the goal to run user’s code on modern architectures such as multi-core CPUs and GPUs. . This provides the lfortran runtime libraries. Package: liblld-19 Description-md5: edabea654ba7a6bd671515adc0fffdd2 Description-en: LLVM-based linker, library LLD is a new, high-performance linker. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project. . This package contains the LLD runtime library. Package: liblld-19-dev Description-md5: d5f91d89aa80d28cd4d98b74563f075b Description-en: LLVM-based linker, header files LLD is a new, high-performance linker. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project. . This package provides the header files to build extension over lld. Package: liblld-21 Description-md5: edabea654ba7a6bd671515adc0fffdd2 Description-en: LLVM-based linker, library LLD is a new, high-performance linker. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project. . This package contains the LLD runtime library. Package: liblld-21-dev Description-md5: d5f91d89aa80d28cd4d98b74563f075b Description-en: LLVM-based linker, header files LLD is a new, high-performance linker. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project. . This package provides the header files to build extension over lld. Package: liblld-22 Description-md5: edabea654ba7a6bd671515adc0fffdd2 Description-en: LLVM-based linker, library LLD is a new, high-performance linker. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project. . This package contains the LLD runtime library. Package: liblld-22-dev Description-md5: d5f91d89aa80d28cd4d98b74563f075b Description-en: LLVM-based linker, header files LLD is a new, high-performance linker. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project. . This package provides the header files to build extension over lld. Package: liblldb-19 Description-md5: 88542bb8337de28344a74df10ce94f4e Description-en: Next generation, high-performance debugger, library LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. . This package contains the LLDB runtime library. Package: liblldb-19-dev Description-md5: 8f3dc7f570ba958d1f7496e3e5195498 Description-en: Next generation, high-performance debugger, header files LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. . This package provides the header files to build extension over lldb. Package: liblldb-21 Description-md5: 88542bb8337de28344a74df10ce94f4e Description-en: Next generation, high-performance debugger, library LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. . This package contains the LLDB runtime library. Package: liblldb-21-dev Description-md5: 8f3dc7f570ba958d1f7496e3e5195498 Description-en: Next generation, high-performance debugger, header files LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. . This package provides the header files to build extension over lldb. Package: liblldb-22 Description-md5: 88542bb8337de28344a74df10ce94f4e Description-en: Next generation, high-performance debugger, library LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. . This package contains the LLDB runtime library. Package: liblldb-22-dev Description-md5: 8f3dc7f570ba958d1f7496e3e5195498 Description-en: Next generation, high-performance debugger, header files LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. . This package provides the header files to build extension over lldb. Package: libllvm-19-ocaml-dev Description-md5: 7727e410aa3baa784cb47a4afb95f4e8 Description-en: Modular compiler and toolchain technologies, OCaml bindings LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides the OCaml bindings to develop applications using llvm. Package: libllvm-21-ocaml-dev Description-md5: 7727e410aa3baa784cb47a4afb95f4e8 Description-en: Modular compiler and toolchain technologies, OCaml bindings LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides the OCaml bindings to develop applications using llvm. Package: libllvm-22-ocaml-dev Description-md5: 7727e410aa3baa784cb47a4afb95f4e8 Description-en: Modular compiler and toolchain technologies, OCaml bindings LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides the OCaml bindings to develop applications using llvm. Package: libllvm21 Description-md5: a8854f4edf76a8c14ce34dc209bd1d11 Description-en: Modular compiler and toolchain technologies, runtime library LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . This package contains the LLVM runtime library. Package: libllvm22 Description-md5: a8854f4edf76a8c14ce34dc209bd1d11 Description-en: Modular compiler and toolchain technologies, runtime library LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . This package contains the LLVM runtime library. Package: libllvmlibc-21-dev Description-md5: b678725717171e9f1656f9727ef63f83 Description-en: LLVM C Library - dev package Implementation of the C standard library targeting C17 and above. . This is an experimental project. Don't use in production. Package: libllvmlibc-22-dev Description-md5: b678725717171e9f1656f9727ef63f83 Description-en: LLVM C Library - dev package Implementation of the C standard library targeting C17 and above. . This is an experimental project. Don't use in production. Package: libllvmspirvlib-17-dev Description-md5: fcddd340f01c10dfca707c1e80606070 Description-en: bi-directional translator for LLVM/SPIRV -- development files SPIRV-LLVM-translator is a LLVM/SPIRV bi-directional translator. This package includes a library and a tool for translation between LLVM IR and SPIR-V. . This package includes static libs and headers for development. Package: libllvmspirvlib-18-dev Description-md5: fcddd340f01c10dfca707c1e80606070 Description-en: bi-directional translator for LLVM/SPIRV -- development files SPIRV-LLVM-translator is a LLVM/SPIRV bi-directional translator. This package includes a library and a tool for translation between LLVM IR and SPIR-V. . This package includes static libs and headers for development. Package: libllvmspirvlib17 Description-md5: 4658473b768e76c3b2f17ecbd52f8807 Description-en: bi-directional translator for LLVM/SPIRV -- shared library SPIRV-LLVM-translator is a LLVM/SPIRV bi-directional translator. This package includes a library and a tool for translation between LLVM IR and SPIR-V. . This package includes the shared library. Package: libllvmspirvlib18.1 Description-md5: 4658473b768e76c3b2f17ecbd52f8807 Description-en: bi-directional translator for LLVM/SPIRV -- shared library SPIRV-LLVM-translator is a LLVM/SPIRV bi-directional translator. This package includes a library and a tool for translation between LLVM IR and SPIR-V. . This package includes the shared library. Package: liblomiri-location-service-dev Description-md5: 5b8d02736bfd1468ac1b0c191600d92a Description-en: Lomiri Location Service (development files) Aggregates position/velocity/heading updates and exports them over DBus. . This package contains header files required to develop clients talking to the Lomiri Location Service. Package: liblomiri-location-service3 Description-md5: c6cb991b42765105f7d9b9c6d77ac099 Description-en: Lomiri Location Service client library Aggregates position/velocity/heading updates and exports them over DBus. . This package contains the shared library needed by client applications. Package: liblwt-log-ocaml Description-md5: bd007b69ca5fd9052a018c510d5256c9 Description-en: optimised functions to read and write int16/32/64 (runtime) Lwt_log is a Lwt-friendly logging library. The library is split into two ocamlfind packages. The "basic" lwt_log includes Unix log destination support, such as files and syslog, and Lwt_daemon. lwt_log.core is the pure-OCaml part of lwt_log, suitable for targeting JavaScript in the browser, or elsewhere where Unix is not available. . This package contains the runtime files. Package: liblwt-log-ocaml-dev Description-md5: 319ff0c1a2833f92ed6387c90bb61690 Description-en: Lwt-friendly logging library (development) Lwt_log is a Lwt-friendly logging library. The library is split into two ocamlfind packages. The "basic" lwt_log includes Unix log destination support, such as files and syslog, and Lwt_daemon. lwt_log.core is the pure-OCaml part of lwt_log, suitable for targeting JavaScript in the browser, or elsewhere where Unix is not available. . This package contains the development files. Package: liblwt-ocaml Description-md5: 9a92aa1fd4c0739e2b6697cf09b27b72 Description-en: cooperative light-weight thread library for OCaml (runtime) Lwt is a library for cooperative threads implemented in a monadic style. Unlike preemptive threads, cooperative threads do not use a scheduler to distribute processor time between threads. Instead, each thread must announce that it wants to let the others run. . This package contains runtime libraries for programs using core Lwt. Package: liblwt-ocaml-dev Description-md5: 9cc00ecb2977eef354c4cc4a3b7427ea Description-en: cooperative light-weight thread library for OCaml Lwt is a library for cooperative threads implemented in a monadic style. Unlike preemptive threads, cooperative threads do not use a scheduler to distribute processor time between threads. Instead, each thread must announce that it wants to let the others run. . This package contains all the development stuff you need to use the core Lwt OCaml library in your programs. Package: libmarkup-lwt-ocaml Description-md5: 0106c905300889b917ae24c2c6522c1d Description-en: adapter between Markup.ml and Lwt (runtime) Markup.ml provides an HTML parser and an XML parser. The parsers are wrapped in a simple interface: they are functions that transform byte streams to parsing signal streams. Streams can be manipulated in various ways, such as processing by fold, filter, and map, assembly into DOM tree structures, or serialization back to HTML or XML. . Both parsers are based on their respective standards. The HTML parser, in particular, is based on the state machines defined in HTML5. . The parsers are error-recovering by default, and accept fragments. This makes it very easy to get a best-effort parse of some input. The parsers can, however, be easily configured to be strict, and to accept only full documents. . Apart from this, the parsers are streaming (do not build up a document in memory), non-blocking (can be used with threading libraries), lazy (do not consume input unless the signal stream is being read), and process the input in a single pass. They automatically detect the character encoding of the input stream, and convert everything to UTF-8. . This package contains the adapter between Markup.ml and Lwt. . This package contains runtime files. Package: libmarkup-lwt-ocaml-dev Description-md5: e8c5ac64363e2a4c362454d030606ef7 Description-en: adapter between Markup.ml and Lwt (dev files) Markup.ml provides an HTML parser and an XML parser. The parsers are wrapped in a simple interface: they are functions that transform byte streams to parsing signal streams. Streams can be manipulated in various ways, such as processing by fold, filter, and map, assembly into DOM tree structures, or serialization back to HTML or XML. . Both parsers are based on their respective standards. The HTML parser, in particular, is based on the state machines defined in HTML5. . The parsers are error-recovering by default, and accept fragments. This makes it very easy to get a best-effort parse of some input. The parsers can, however, be easily configured to be strict, and to accept only full documents. . Apart from this, the parsers are streaming (do not build up a document in memory), non-blocking (can be used with threading libraries), lazy (do not consume input unless the signal stream is being read), and process the input in a single pass. They automatically detect the character encoding of the input stream, and convert everything to UTF-8. . This package contains the adapter between Markup.ml and Lwt. . This package contains development files. Package: libmarkup-ocaml Description-md5: 3694c8b1244565400b83095ac37bf6c0 Description-en: error-recovering functional HTML5 and XML parsers and writers (runtime) Markup.ml provides an HTML parser and an XML parser. The parsers are wrapped in a simple interface: they are functions that transform byte streams to parsing signal streams. Streams can be manipulated in various ways, such as processing by fold, filter, and map, assembly into DOM tree structures, or serialization back to HTML or XML. . Both parsers are based on their respective standards. The HTML parser, in particular, is based on the state machines defined in HTML5. . The parsers are error-recovering by default, and accept fragments. This makes it very easy to get a best-effort parse of some input. The parsers can, however, be easily configured to be strict, and to accept only full documents. . Apart from this, the parsers are streaming (do not build up a document in memory), non-blocking (can be used with threading libraries), lazy (do not consume input unless the signal stream is being read), and process the input in a single pass. They automatically detect the character encoding of the input stream, and convert everything to UTF-8. . This package contains runtime files. Package: libmarkup-ocaml-dev Description-md5: 13e4e7296f23acaf08aa8a390c1e8b77 Description-en: error-recovering functional HTML5 and XML parsers and writers (dev files) Markup.ml provides an HTML parser and an XML parser. The parsers are wrapped in a simple interface: they are functions that transform byte streams to parsing signal streams. Streams can be manipulated in various ways, such as processing by fold, filter, and map, assembly into DOM tree structures, or serialization back to HTML or XML. . Both parsers are based on their respective standards. The HTML parser, in particular, is based on the state machines defined in HTML5. . The parsers are error-recovering by default, and accept fragments. This makes it very easy to get a best-effort parse of some input. The parsers can, however, be easily configured to be strict, and to accept only full documents. . Apart from this, the parsers are streaming (do not build up a document in memory), non-blocking (can be used with threading libraries), lazy (do not consume input unless the signal stream is being read), and process the input in a single pass. They automatically detect the character encoding of the input stream, and convert everything to UTF-8. . This package contains development files. Package: libmems-dev Description-md5: d69753138606636bd9743d8705e86fd7 Description-en: development library to support DNA string matching and comparative genomics libMems is a freely available software development library to support DNA string matching and comparative genomics. Among other things, libMems implements an algorithm to perform approximate multi-MUM and multi-MEM identification. The algorithm uses spaced seed patterns in conjunction with a seed-and-extend style hashing method to identify matches. The method is efficient, requiring a maximum of only 16 bytes per base of the largest input sequence, and this data can be stored externally (i.e. on disk) to further reduce memory requirements. . This is the development package containing the statically linked library and the header files. Package: libmems1t64 Description-md5: c60c05b4ca212f4f7c319570e75ba1d3 Description-en: library to support DNA string matching and comparative genomics libMems is a freely available software development library to support DNA string matching and comparative genomics. Among other things, libMems implements an algorithm to perform approximate multi-MUM and multi-MEM identification. The algorithm uses spaced seed patterns in conjunction with a seed-and-extend style hashing method to identify matches. The method is efficient, requiring a maximum of only 16 bytes per base of the largest input sequence, and this data can be stored externally (i.e. on disk) to further reduce memory requirements. . This package contains the dynamic library. Package: libmenhir-ocaml-dev Description-md5: 477c47ea99fa9e825953cf0002c2609d Description-en: Menhir library for OCaml Menhir is a LR(1) parser generator for the OCaml programming language. It is mostly compatible with the ocamlyacc parser generator provided with OCaml, and has a number of enhancements over ocamlyacc. . This package contains the Menhir library for the OCaml programming language. It gives access to, among others, the following modules: * InfiniteArray: implements infinite arrays, that is, arrays that grow transparently upon demand. * RowDisplacement: compresses a two-dimensional table, where some values are considered insignificant, via row displacement. * Engine: LR parsing engine. Package: libmicrohttpd-dev Description-md5: 086a03adbfa00b9ffca631a67418ab82 Description-en: library embedding HTTP server functionality (development) GNU libmicrohttpd is a small C library that is supposed to make it easy to run an HTTP server as part of another application. . This package contains the development files. Package: libmicrohttpd12t64 Description-md5: d303341b1bf70eb61d7c833dbe882057 Description-en: library embedding HTTP server functionality GNU libmicrohttpd is a small C library that is supposed to make it easy to run an HTTP server as part of another application. Key features that distinguish GNU Libmicrohttpd from other projects are: . * C library: fast and small * API is simple, expressive and fully reentrant * Implementation is HTTP 1.1 compliant * HTTP server can listen on multiple ports * Four different threading models (select, poll, pthread, thread pool) * Support for IPv6 * Support for SHOUTcast * Support for incremental processing of POST data (optional) * Support for basic and digest authentication (optional) * Support for SSL3 and TLS Package: libmirage-crypto-ocaml Description-md5: 592614841e50dec730bb2ce61f97fe48 Description-en: simple symmetric cryptography for the modern age (runtime) Mirage-crypto provides symmetric ciphers (DES, AES, RC4, ChaCha20/Poly1305), and hashes (MD5, SHA-1, SHA-2). . Mirage-crypto-rng provides a random number generator interface, and implementations: Fortuna, HMAC-DRBG, getrandom/getentropy based (in the unix sublibrary). . Mirage-crypto-pk provides public-key cryptography (RSA, DSA, DH). . Mirage-crypto-ec provides an implementation of key exchange (ECDH) and digital signature (ECDSA/EdDSA) algorithms using code from Fiat (https://github.com/mit-plv/fiat-crypto). The curves P224 (SECP224R1), P256 (SECP256R1), P384 (SECP384R1), P521 (SECP521R1), and 25519 (X25519, Ed25519) are implemented by this package. . This package contains the shared runtime libraries. Package: libmirage-crypto-ocaml-dev Description-md5: eeb78e422b88d8f8bed2e34e22d2eb9b Description-en: cryptography in OCaml for the modern age (dev) Mirage-crypto provides symmetric ciphers (DES, AES, RC4, ChaCha20/Poly1305), and hashes (MD5, SHA-1, SHA-2). . Mirage-crypto-rng provides a random number generator interface, and implementations: Fortuna, HMAC-DRBG, getrandom/getentropy based (in the unix sublibrary). . Mirage-crypto-pk provides public-key cryptography (RSA, DSA, DH). . Mirage-crypto-ec provides an implementation of key exchange (ECDH) and digital signature (ECDSA/EdDSA) algorithms using code from Fiat (https://github.com/mit-plv/fiat-crypto). The curves P224 (SECP224R1), P256 (SECP256R1), P384 (SECP384R1), P521 (SECP521R1), and 25519 (X25519, Ed25519) are implemented by this package. . This package contains development files. Package: libmirage-kv-mem-ocaml Description-md5: c57b9783e23fa505c117fd8329953b16 Description-en: in-memory key value store for MirageOS (runtime) Implements the mirage-kv interface, but does not provide a persistent data storage. Use for testing or amnesia. . This package contains the shared runtime libraries. Package: libmirage-kv-mem-ocaml-dev Description-md5: fc4beb961c789ed8a0cb2fa321956148 Description-en: in-memory key value store for MirageOS (dev) Implements the mirage-kv interface, but does not provide a persistent data storage. Use for testing or amnesia. . This package contains development files. Package: libmirage-kv-ocaml Description-md5: 08add48189b10e3d9ba3ad922da68136 Description-en: MirageOS signatures for key/value devices (runtime) mirage-kv provides the Mirage_kv.RO and Mirage_kv.RW signatures the MirageOS key/value devices should implement. . This package contains the shared runtime libraries. Package: libmirage-kv-ocaml-dev Description-md5: dd01809123654fadcdcc3e105a0f08d8 Description-en: MirageOS signatures for key/value devices (dev) mirage-kv provides the Mirage_kv.RO and Mirage_kv.RW signatures the MirageOS key/value devices should implement. . This package contains development files. Package: libmirage-ptime-ocaml Description-md5: 7fb26a8cd113a5191d607fd98f2c971d Description-en: libraries and module types for portable clocks (runtime) This library implements portable support for an operating system timesource that is compatible with the MirageOS library interfaces found in: https://github.com/mirage/mirage . It implements a POSIX clock which counts time since the Unix epoch. . This package contains runtime files. Package: libmirage-ptime-ocaml-dev Description-md5: 423bb8d48af8f4d42493fb6a1d0a9bc4 Description-en: libraries and module types for portable clocks (development) This library implements portable support for an operating system timesource that is compatible with the MirageOS library interfaces found in: https://github.com/mirage/mirage . It implements a POSIX clock which counts time since the Unix epoch. . This package contains development files. Package: libmlir-19 Description-md5: b2671453793175bc5bd7c93d05c96c40 Description-en: Multi-Level Intermediate Representation library Novel approach to building reusable and extensible compiler infrastructure. MLIR aims to address software fragmentation, improve compilation for heterogeneous hardware, significantly reduce the cost of building domain specific compilers, and aid in connecting existing compilers together. Package: libmlir-19-dev Description-md5: b2671453793175bc5bd7c93d05c96c40 Description-en: Multi-Level Intermediate Representation library Novel approach to building reusable and extensible compiler infrastructure. MLIR aims to address software fragmentation, improve compilation for heterogeneous hardware, significantly reduce the cost of building domain specific compilers, and aid in connecting existing compilers together. Package: libmlir-21 Description-md5: b2671453793175bc5bd7c93d05c96c40 Description-en: Multi-Level Intermediate Representation library Novel approach to building reusable and extensible compiler infrastructure. MLIR aims to address software fragmentation, improve compilation for heterogeneous hardware, significantly reduce the cost of building domain specific compilers, and aid in connecting existing compilers together. Package: libmlir-21-dev Description-md5: b2671453793175bc5bd7c93d05c96c40 Description-en: Multi-Level Intermediate Representation library Novel approach to building reusable and extensible compiler infrastructure. MLIR aims to address software fragmentation, improve compilation for heterogeneous hardware, significantly reduce the cost of building domain specific compilers, and aid in connecting existing compilers together. Package: libmlir-22 Description-md5: b2671453793175bc5bd7c93d05c96c40 Description-en: Multi-Level Intermediate Representation library Novel approach to building reusable and extensible compiler infrastructure. MLIR aims to address software fragmentation, improve compilation for heterogeneous hardware, significantly reduce the cost of building domain specific compilers, and aid in connecting existing compilers together. Package: libmlir-22-dev Description-md5: b2671453793175bc5bd7c93d05c96c40 Description-en: Multi-Level Intermediate Representation library Novel approach to building reusable and extensible compiler infrastructure. MLIR aims to address software fragmentation, improve compilation for heterogeneous hardware, significantly reduce the cost of building domain specific compilers, and aid in connecting existing compilers together. Package: libmrcal-dev Description-md5: ddd1af42771f0decc52cf7c6cad7bf08 Description-en: Calibration and SFM library A photogrammetry toolkit that provides improved methods for making and using camera models (calibration, tracking, mapping, etc). The focus is on calibration and uncertainty propagation to produce the most accurate models possible. This package provides the development C libraries Package: libmrcal4 Description-md5: ed7f5030d267d9a7bfdc75af000a2344 Description-en: Calibration and SFM library A photogrammetry toolkit that provides improved methods for making and using camera models (calibration, tracking, mapping, etc). The focus is on calibration and uncertainty propagation to produce the most accurate models possible. This package provides the runtime C libraries Package: libmulticoretests-ocaml-dev Description-md5: a126d67889dc59b2b86710e69ca34dec Description-en: randomized test suite of the OCaml standard library Property-based tests of parts of the OCaml multicore compiler and run time. Package: libnetpbm-dev Description-md5: 79e6c450cdf1b6e25cc7f14d625db16c Description-en: Graphics conversion tools development libraries and header files Netpbm is a toolkit for manipulation of graphic images, including conversion of images between a variety of different formats. There are over 220 separate tools in the package including converters for more than 80 graphics formats. . This development package contains the library and header files for the pbm, pgm, pnm, and ppm graphics formats. Package: libnetpbm11t64 Description-md5: 3636fad4e9228905a1bd589e452e1335 Description-en: Graphics conversion tools shared libraries Netpbm is a toolkit for manipulation of graphic images, including conversion of images between a variety of different formats. There are over 220 separate tools in the package including converters for more than 80 graphics formats. . This package contains the shared libraries used by netpbm. Package: libnode-dev Description-md5: 75974f1c9f5486fb656a060b83cecc2d Description-en: evented I/O for V8 javascript (development files) Node.js is a platform built on Chrome's JavaScript runtime for easily building fast, scalable network applications. Node.js uses an event-driven, non-blocking I/O model that makes it lightweight and efficient, perfect for data-intensive real-time applications that run across distributed devices. . This package provides development headers for libnode115 Package: libnode115 Description-md5: aa09cb3413d563f4b3b5a9d6a7723845 Description-en: evented I/O for V8 javascript - runtime library Node.js is a platform built on Chrome's JavaScript runtime for easily building fast, scalable network applications. Node.js uses an event-driven, non-blocking I/O model that makes it lightweight and efficient, perfect for data-intensive real-time applications that run across distributed devices. . Node.js is bundled with several useful libraries to handle server tasks: . System, Events, Standard I/O, Modules, Timers, Child Processes, POSIX, HTTP, Multipart Parsing, TCP, DNS, Assert, Path, URL, Query Strings. . This package provides the dynamic library for Node.js. Package: libnproc-ocaml-dev Description-md5: d7c1d7c761b371acc9516ecb27ee85b6 Description-en: process pool implementation for OCaml Nproc is a process pool implementation for OCaml. A process pool is a fixed set of processes that perform arbitrary computations for a master process, in parallel and without blocking the master. Master and workers communicate by message-passing. Nproc relies on fork, pipes, Marshal and Lwt. . This package contains the development modules you need to use Nproc in your programs. Package: libnss-libvirt Description-md5: c74cf9f1252c4873853aa409030d9c12 Description-en: virtualization library - NSS plugins libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains two NSS plugins: the 'libvirt_guests' plugin resolves the name of the domain to its IP address, while the 'libvirt' plugin looks at the hostname configured inside the guest OS instead. Both can be enabled at the same time. Package: libntruprime-dev Description-md5: 16ad1f2b72d56409f2c7a0d7f460b7c5 Description-en: microlibrary for Streamlined NTRU Prime - development files libntruprime is an implementation of the Streamlined NTRU Prime cryptosystem as a microlibrary. . Development files. Package: libntruprime1 Description-md5: fe1be32ff948bfca6e9718009bcf16a2 Description-en: microlibrary for Streamlined NTRU Prime - shared library libntruprime is an implementation of the Streamlined NTRU Prime cryptosystem as a microlibrary. . Streamlined NTRU Prime (sntrup) is a lattice-based cryptosystem with the following features: . - Stability: Almost all details of sntrup match a May 2016 publication. The only exceptions are small changes to encoding and hashing published in April 2019. . - Patent-freeness: April 2019 predates almost all post-quantum patents. Analyses of various lattice patents filed before April 2019 indicate no problems for sntrup. . - Deployment: The popular OpenSSH tool switched to sntrup761 by default in April 2022, following initial integration of sntrup into TinySSH. . - Affordability: Keys and ciphertexts are about 1KB for sntrup761, and computations are fast. . - Careful design: Subject to the requirement of being a small lattice-based cryptosystem, sntrup is systematically designed to eliminate unnecessary complications in security review. It eliminates decryption failures, for example, and eliminates cyclotomics. The cryptosystem has never needed a security patch. . - Risk management: A much higher sntrup1277 security level is fully supported, and is recommended whenever 2KB keys and ciphertexts are affordable, to reduce risks from improvements in lattice attacks. . - Flexibility: The sntrup design allows a full spectrum of tradeoffs between size and security level, so applications with intermediate size limits aren't forced into much lower security levels. Six different sizes have been selected for support. . libntruprime has a very simple stateless API based on the SUPERCOP API, with wire-format inputs and outputs, providing functions that directly match the KEM operations provided by the sntrup specification, such as functions . sntrup1277_keypair sntrup1277_enc sntrup1277_dec . for the sntrup1277 KEM. . Internally, libntruprime includes implementations designed to work portably across CPUs, and implementations designed for higher performance on Intel/AMD CPUs with AVX2 instructions. libntruprime includes automatic run-time selection of implementations. . libntruprime is intended to be called by larger multi-function libraries (such as traditional cryptographic libraries), including libraries in other languages via FFI. The idea is that libntruprime takes responsibility for the details of sntrup computation, including optimization, timing-attack protection, and (in ongoing work) verification, freeing up the calling libraries to concentrate on application-specific needs such as protocol integration. Applications can also call libntruprime directly. . Shared library. Package: libobs-dev Description-md5: 225773aeb3e625b11d710d9b8c43c078 Description-en: recorder and streamer for live video content (development files) OBS Studio is designed for efficiently recording and streaming live video content. It supports live RTP streaming to various streaming sites. . This package contains the development files. Package: libobs0t64 Description-md5: e656b9704323c8e11d168b672bfabb94 Description-en: recorder and streamer for live video content (shared library) OBS Studio is designed for efficiently recording and streaming live video content. It supports live RTP streaming to various streaming sites. . This package contains the shared library libobs. Package: libobus-ocaml Description-md5: 6f2a20757691a18a1b983ef212a31a3c Description-en: pure OCaml implementation of D-Bus (runtime) OBus is a pure OCaml implementation of D-Bus. It aims to provide a clean and easy way for OCaml programmers to access and provide D-Bus services. . This package contains dynamically loadable plugins of OBus. Package: libobus-ocaml-bin Description-md5: a8bf004ef9dfcd573ccb84376066a1dc Description-en: pure OCaml implementation of D-Bus (command-line tools) OBus is a pure OCaml implementation of D-Bus. It aims to provide a clean and easy way for OCaml programmers to access and provide D-Bus services. . This package contains command-line tools useful for using OBus. Package: libobus-ocaml-dev Description-md5: e72147b0cd345487307857daceca669c Description-en: pure OCaml implementation of D-Bus (development files) OBus is a pure OCaml implementation of D-Bus. It aims to provide a clean and easy way for OCaml programmers to access and provide D-Bus services. . D-Bus is a message bus, used for sending messages between applications. It supports broadcast messages, asynchronous messages (thus decreasing latency), authentication, and more. It is designed to be low-overhead. D-Bus also supports a method call mapping for its messages. . This package contains development files of OBus. Package: libocaml-version-ocaml Description-md5: c4df8c2f2aece531879ea7285a828a8c Description-en: handle OCaml compiler version strings (runtime) This library provides facilities to parse version numbers of the OCaml compiler, and enumerates the various official OCaml releases and configuration variants. . This package contains runtime files. Package: libocaml-version-ocaml-dev Description-md5: c688a66ba19bdb2d7ea1d17078e10e79 Description-en: handle OCaml compiler version strings (dev) This library provides facilities to parse version numbers of the OCaml compiler, and enumerates the various official OCaml releases and configuration variants. . This package contains development files. Package: libocp-indent-ocaml Description-md5: d3852e0bb1bcaa46b117432658960a42 Description-en: OCaml indentation tool for emacs and vim - libraries ocp-indent is a command-line tool that allows one to indent a whole OCaml source code file (or parts of it) either to standard output or in-place. A configuration file allows user defaults as well as per-project parameters. The ratio of correctly indented lines is comparable with emacs tuareg mode while being an order of magnitude faster. . This package includes the shared libraries. Package: libocp-indent-ocaml-dev Description-md5: 5fde9882f06552f949cafe81fc719a8d Description-en: OCaml indentation tool for emacs and vim - development libraries ocp-indent is a command-line tool that allows one to indent a whole OCaml source code file (or parts of it) either to standard output or in-place. A configuration file allows user defaults as well as per-project parameters. The ratio of correctly indented lines is comparable with emacs tuareg mode while being an order of magnitude faster. . This package includes the development libraries. Package: libodil-dev Description-md5: 60a3d1b088d03e7c5d9517e072327c9b Description-en: C++11 library for the DICOM standard (development files) Odil leverages C++ constructs to provide a user-friendly API of the different parts of the DICOM standard. Included in Odil are exception-based error handling, generic access to datasets elements, standard JSON and XML representation of datasets, and generic implementation of messages, clients and servers for the various DICOM protocols. . This package contains the development files. Package: libodil-doc Description-md5: e170551c412c074db16012936c15516c Description-en: C++11 library for the DICOM standard (documentation) Odil leverages C++ constructs to provide a user-friendly API of the different parts of the DICOM standard. Included in Odil are exception-based error handling, generic access to datasets elements, standard JSON and XML representation of datasets, and generic implementation of messages, clients and servers for the various DICOM protocols. . This package contains the documentation files. Package: libodil0t64 Description-md5: e2d4d5529d9b8f2f8199d67a281dfb8e Description-en: C++11 library for the DICOM standard Odil leverages C++ constructs to provide a user-friendly API of the different parts of the DICOM standard. Included in Odil are exception-based error handling, generic access to datasets elements, standard JSON and XML representation of datasets, and generic implementation of messages, clients and servers for the various DICOM protocols. . Odil also provides conversion to and from DCMTK data structures. . This package contains the shared library. Package: libodoc-ocaml Description-md5: c335bf33ba137a409ce130f6b46f3777 Description-en: documentation generator for OCaml (runtime libraries) Odoc is a documentation generator for the OCaml programming language. It reads doc comments contained in OCaml source code, delimited with (** ... *), and produces HTML. . Odoc's main advantage over ocamldoc is an accurate cross-referencer, which handles the complexity of the OCaml module system. Odoc also offers a good opportunity to improve HTML output compared to ocamldoc. . Furthermore, odoc can be used by dune to generate documentation of OCaml projects using dune as a build-system. . This package contains the runtime files. Package: libodoc-ocaml-dev Description-md5: 28311ef57783319966135be82ce8f6c9 Description-en: documentation generator for OCaml (development libraries) Odoc is a documentation generator for the OCaml programming language. It reads doc comments contained in OCaml source code, delimited with (** ... *), and produces HTML. . Odoc's main advantage over ocamldoc is an accurate cross-referencer, which handles the complexity of the OCaml module system. Odoc also offers a good opportunity to improve HTML output compared to ocamldoc. . Furthermore, odoc can be used by dune to generate documentation of OCaml projects using dune as a build-system. . This package contains the development files. Package: libodoc-parser-ocaml Description-md5: 5045ce3e5215810caa2488c52a3e4c1a Description-en: parser for OCaml documentation comments (runtime files) Odoc_parser is a library for parsing the contents of OCaml documentation comments, formatted using 'odoc' syntax, an extension of the language understood by ocamldoc. . This package contains runtime files. Package: libodoc-parser-ocaml-dev Description-md5: a0b73de42ea945fd0138474ce757944d Description-en: parser for OCaml documentation comments (dev files) Odoc_parser is a library for parsing the contents of OCaml documentation comments, formatted using 'odoc' syntax, an extension of the language understood by ocamldoc. . This package contains development files. Package: liboffload-21 Description-md5: 841bdc20a27b40722e37c7b2d0838a75 Description-en: Offload Library The offload library facilitates efficient task distribution by offloading specific computational tasks from the CPU to alternative hardware accelerators such as GPUs or FPGAs. Package: liboffload-21-dev Description-md5: 352e5b2eb6f0446d5039b547a7bc6d17 Description-en: Offload Library - Development Package The offload library facilitates efficient task distribution by offloading specific computational tasks from the CPU to alternative hardware accelerators such as GPUs or FPGAs. . This development package includes headers and other resources needed for building applications that utilize the offload runtime. Package: liboffload-22 Description-md5: 841bdc20a27b40722e37c7b2d0838a75 Description-en: Offload Library The offload library facilitates efficient task distribution by offloading specific computational tasks from the CPU to alternative hardware accelerators such as GPUs or FPGAs. Package: liboffload-22-dev Description-md5: 352e5b2eb6f0446d5039b547a7bc6d17 Description-en: Offload Library - Development Package The offload library facilitates efficient task distribution by offloading specific computational tasks from the CPU to alternative hardware accelerators such as GPUs or FPGAs. . This development package includes headers and other resources needed for building applications that utilize the offload runtime. Package: liboggkate-dev Description-md5: 42fbab643f09b4832020479a1b182cfe Description-en: Codec for karaoke and text encapsulation for Ogg (dev) Kate is meant to be used for karaoke alongside audio/video streams (typically Vorbis and Theora), movie subtitles, song lyrics, and anything that needs text data at arbitrary time intervals. . liboggkate provides an API for the encapsulation of kate streams into Ogg. This package contains the development libraries. Package: liboggkate1 Description-md5: 23431caff7d267e36d535589d0523848 Description-en: Codec for karaoke and text encapsulation for Ogg Kate is meant to be used for karaoke alongside audio/video streams (typically Vorbis and Theora), movie subtitles, song lyrics, and anything that needs text data at arbitrary time intervals. . liboggkate provides an API for the encapsulation of kate streams into Ogg. Package: libomp-19-dev Description-md5: 6f692a0e089a2d4587b533b4f246db62 Description-en: LLVM OpenMP runtime - dev package The runtime is the part of the OpenMP implementation that your code is linked against, and that manages the multiple threads in an OpenMP program while it is executing. Package: libomp-19-doc Description-md5: 55ecafb377674896611f496b3a8a1433 Description-en: LLVM OpenMP runtime - Documentation The runtime is the part of the OpenMP implementation that your code is linked against, and that manages the multiple threads in an OpenMP program while it is executing. . This package contains the documentation of this package. Package: libomp-21-dev Description-md5: 6f692a0e089a2d4587b533b4f246db62 Description-en: LLVM OpenMP runtime - dev package The runtime is the part of the OpenMP implementation that your code is linked against, and that manages the multiple threads in an OpenMP program while it is executing. Package: libomp-21-doc Description-md5: 55ecafb377674896611f496b3a8a1433 Description-en: LLVM OpenMP runtime - Documentation The runtime is the part of the OpenMP implementation that your code is linked against, and that manages the multiple threads in an OpenMP program while it is executing. . This package contains the documentation of this package. Package: libomp-22-dev Description-md5: 6f692a0e089a2d4587b533b4f246db62 Description-en: LLVM OpenMP runtime - dev package The runtime is the part of the OpenMP implementation that your code is linked against, and that manages the multiple threads in an OpenMP program while it is executing. Package: libomp-22-doc Description-md5: 55ecafb377674896611f496b3a8a1433 Description-en: LLVM OpenMP runtime - Documentation The runtime is the part of the OpenMP implementation that your code is linked against, and that manages the multiple threads in an OpenMP program while it is executing. . This package contains the documentation of this package. Package: libomp5-19 Description-md5: e28f50eb4beb8e316b69da2c1c0194c3 Description-en: LLVM OpenMP runtime The runtime is the part of the OpenMP implementation that your code is linked against, and that manages the multiple threads in an OpenMP program while it is executing. Package: libomp5-21 Description-md5: e28f50eb4beb8e316b69da2c1c0194c3 Description-en: LLVM OpenMP runtime The runtime is the part of the OpenMP implementation that your code is linked against, and that manages the multiple threads in an OpenMP program while it is executing. Package: libomp5-22 Description-md5: e28f50eb4beb8e316b69da2c1c0194c3 Description-en: LLVM OpenMP runtime The runtime is the part of the OpenMP implementation that your code is linked against, and that manages the multiple threads in an OpenMP program while it is executing. Package: libonnxruntime-dev Description-md5: d144454e52fb87ef69f028500671d13a Description-en: cross-platform inference and training ML accelerator (dev files) ONNX Runtime is a performance-focused complete scoring engine for Open Neural Network Exchange (ONNX) models, with an open extensible architecture to continually address the latest developments in AI and Deep Learning. ONNX Runtime stays up to date with the ONNX standard with complete implementation of all ONNX operators, and supports all ONNX releases (1.2+) with both future and backwards compatibility. Please refer to this page for ONNX opset compatibility details. . This package provides the development files for libonnxruntime. Package: libonnxruntime-providers Description-md5: 73e5becef1aeaeacfa7bb0a1f617ef14 Description-en: cross-platform inference and training ML accelerator (providers) ONNX Runtime is a performance-focused complete scoring engine for Open Neural Network Exchange (ONNX) models, with an open extensible architecture to continually address the latest developments in AI and Deep Learning. ONNX Runtime stays up to date with the ONNX standard with complete implementation of all ONNX operators, and supports all ONNX releases (1.2+) with both future and backwards compatibility. Please refer to this page for ONNX opset compatibility details. . This package provides the providers. Package: libonnxruntime1.21 Description-md5: 552d4cb5b759776d4c1e450cf6be2235 Description-en: cross-platform inference and training ML accelerator (shared lib) ONNX Runtime is a performance-focused complete scoring engine for Open Neural Network Exchange (ONNX) models, with an open extensible architecture to continually address the latest developments in AI and Deep Learning. ONNX Runtime stays up to date with the ONNX standard with complete implementation of all ONNX operators, and supports all ONNX releases (1.2+) with both future and backwards compatibility. Please refer to this page for ONNX opset compatibility details. . This package provides the shared library. Package: liborcus-bin Description-md5: 459b163b4324efaf7f2729fc752e1b84 Description-en: library for processing spreadsheet documents - binaries Orcus is a library that provides a collection of standalone file processing filters. It is currently focused on providing filters for spreadsheet documents, but filters for other productivity application types (such as wordprocessor and presentation) are in consideration. . The library currently includes filters for xlsx, ods, csv, and generic XML formats. . This package contains the command-line applications for converting documents. Package: libost-base-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-base2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-bindings-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-bindings2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-conop-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-conop2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-db-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-db2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-geom-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-geom2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-gfx-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-gfx2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-gui-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-gui2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-img-alg-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-img-alg2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-img-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-img2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-info-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-info2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-io-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-io2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-mol-alg-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-mol-alg2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-mol-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-mol-mm-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-mol-mm2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-mol2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-seq-alg-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-seq-alg2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-seq-dev Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libost-seq2.9 Description-md5: dca57137a22804cb104324183b5003cd Description-en: Open-Source Computational Structural Biology Framework OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: libpolly-19-dev Description-md5: 840a80a0b2b70b4ddca3d4d6f53126e7 Description-en: High-level loop and data-locality optimizer Uses an abstract mathematical representation based on integer polyhedra to analyze and optimize the memory access pattern of a program Package: libpolly-21-dev Description-md5: 840a80a0b2b70b4ddca3d4d6f53126e7 Description-en: High-level loop and data-locality optimizer Uses an abstract mathematical representation based on integer polyhedra to analyze and optimize the memory access pattern of a program Package: libpolly-22-dev Description-md5: 840a80a0b2b70b4ddca3d4d6f53126e7 Description-en: High-level loop and data-locality optimizer Uses an abstract mathematical representation based on integer polyhedra to analyze and optimize the memory access pattern of a program Package: libppx-assert-ocaml Description-md5: ad4136b56fceda86891156861c11fc06 Description-en: provide assertions in OCaml (runtime files) This package provides extension nodes to compare values and raise useful errors if they differ. . This package contains runtime files. Package: libppx-assert-ocaml-dev Description-md5: 0bd6986610ebe757d8ebb5f79e17c2c4 Description-en: provide assertions in OCaml (dev files) This package provides extension nodes to compare values and raise useful errors if they differ. . This package contains development files. Package: libppx-bin-prot-ocaml Description-md5: 4897be9d7a13546e54c4ade605b07315 Description-en: generation of bin_prot readers and writers from types (runtime) This package provides a ppx rewriter that generates binary serialization and deserialization functions from type definitions, using Jane Street's bin_prot library. . This package contains runtime files. Package: libppx-bin-prot-ocaml-dev Description-md5: f74af02f6013f9a6f3e82a147bc18603 Description-en: generation of bin_prot readers and writers from types (development) This package provides a ppx rewriter that generates binary serialization and deserialization functions from type definitions, using Jane Street's bin_prot library. . This package contains development files. Package: libppx-cold-ocaml Description-md5: b86fa7443711f557de82fe1cc770bb57 Description-en: provide the @cold annotation for OCaml (runtime files) This package provides the @cold annotation to program in OCaml to disable a closure optimisation. . This package contains runtime files. Package: libppx-cold-ocaml-dev Description-md5: 659edc78b6846840db3f7072ede466c2 Description-en: provide the @cold annotation for OCaml (dev files) This package provides the @cold annotation to program in OCaml to disable a closure optimisation. . This package contains development files. Package: libppx-compare-ocaml Description-md5: 3f17cb47e6da3ca3e7b90d4c68df765c Description-en: generation of comparison functions from OCaml types (runtime) Ppx_compare is a ppx rewriter that derives comparison and equality functions from type representations. The scaffolded functions are usually much faster than ocaml's Pervasives.compare and Pervasives.(=). Scaffolding functions also gives you more flexibility by allowing you to override them for a specific type and more safety by making sure that you only compare comparable values. . This package contains runtime files. Package: libppx-compare-ocaml-dev Description-md5: 806b25c8a40645f87dec90f4ee28dac4 Description-en: generation of comparison functions from OCaml types (development) Ppx_compare is a ppx rewriter that derives comparison and equality functions from type representations. The scaffolded functions are usually much faster than ocaml's Pervasives.compare and Pervasives.(=). Scaffolding functions also gives you more flexibility by allowing you to override them for a specific type and more safety by making sure that you only compare comparable values. . This package contains development files. Package: libppx-custom-printf-ocaml Description-md5: 2ab5185e4d0c30d2b7b5525607659bc9 Description-en: printf-style format-strings for user-defined string conversion (runtime) ppx_custom_printf is a ppx rewriter that allows the use of user-defined string conversion functions in format strings (that is, strings passed to printf, sprintf, etc.). . No new syntax is introduced. Instead a previously ill-typed use of the ! operator is re-purposed. . This package contains runtime files. Package: libppx-custom-printf-ocaml-dev Description-md5: fd363fe67f50a2dcc3969e0c4029b640 Description-en: printf-style format-strings for user-defined string conversion (dev) ppx_custom_printf is a ppx rewriter that allows the use of user-defined string conversion functions in format strings (that is, strings passed to printf, sprintf, etc.). . No new syntax is introduced. Instead a previously ill-typed use of the ! operator is re-purposed. . This package contains development files. Package: libppx-deriving-ocaml Description-md5: 78e04260955cc64c48f886d479237c56 Description-en: type-driven code generation for OCaml (runtime files) Ppx_deriving provides common infrastructure for generating code based on type definitions, and a set of useful plugins for common tasks. . This package contains runtime files. Package: libppx-deriving-ocaml-dev Description-md5: edb671db6b10ed6c0cce6f7f80f75a61 Description-en: type-driven code generation for OCaml (dev files) Ppx_deriving provides common infrastructure for generating code based on type definitions, and a set of useful plugins for common tasks. . This package contains development files. Package: libppx-deriving-yojson-ocaml-dev Description-md5: 6ea76790282bcf2c08342200a25522a3 Description-en: OCaml syntax extension for JSON serialization Ppx-deriving-yojson is a syntax extension for the OCaml programming language. It allows you to annotate your type definitions, such that functions for serialization to JSON, and for deserialization from JSON, are automatically derived. Package: libppx-enumerate-ocaml Description-md5: 662945793d708e813b47d0201e8e7ab9 Description-en: list all values of a finite type (runtime files) This package generates a list with all possible values of a finite type. . This package contains runtime files. Package: libppx-enumerate-ocaml-dev Description-md5: 38e3f765a2e39fd6210c2f8be0379def Description-en: list all values of a finite type (dev files) This package generates a list with all possible values of a finite type. . This package contains development files. Package: libppx-expect-ocaml Description-md5: be9074fcadd2ae297e5c47dddf9a5529 Description-en: testing framework for OCaml (runtime files) This package provides a testing framework similar to Python's cram framework for OCaml programming. . This package contains runtime files. Package: libppx-expect-ocaml-dev Description-md5: b369f5322a66253ea7e2e9b9909e64cc Description-en: testing framework for OCaml (dev files) This package provides a testing framework similar to Python's cram framework for OCaml programming. . This package contains development files. Package: libppx-fields-conv-ocaml Description-md5: 80945b1cda76e83930aa161dec93ddaa Description-en: generation of accessor and iteration functions for OCaml records (runtime) ppx_fields_conv is a ppx rewriter that can be used to define first class values representing record fields, and additional routines, to get and set record fields, iterate and fold over all fields of a record and create new record values. . This package contains runtime files. Package: libppx-fields-conv-ocaml-dev Description-md5: 656bfd81649f55026933dec85d8f1b8c Description-en: generation of accessor and iteration functions for OCaml records (dev) ppx_fields_conv is a ppx rewriter that can be used to define first class values representing record fields, and additional routines, to get and set record fields, iterate and fold over all fields of a record and create new record values. . This package contains development files. Package: libppx-globalize-ocaml Description-md5: 862a6763f3e835d638e66985c670b9d6 Description-en: copy local values to the global heap (runtime files) This package provides a ppx rewriter to copy local values to the global heap. . This package contains runtime files. Package: libppx-globalize-ocaml-dev Description-md5: 369093f44344c66bfeea8b20157af592 Description-en: copy local values to the global heap (dev files) This package provides a ppx rewriter to copy local values to the global heap. . This package contains development files. Package: libppx-hash-ocaml Description-md5: 36a0837fca90ea4746c94af6f0850cb1 Description-en: ppx writer generating hash functions (runtime) This package provides a ppx writer generating hash functions from type expressions and definitions . This package contains runtime files. Package: libppx-hash-ocaml-dev Description-md5: 716c02f4d66aa89c07ba4aea43666b79 Description-en: ppx writer generating hash functions (development) This package provides a ppx writer generating hash functions from type expressions and definitions . This package contains development files. Package: libppx-here-ocaml Description-md5: 9800a6c317705da5fcb1941143e0c8b6 Description-en: OCaml extension node whose value is its source position (runtime) This package provides a ppx rewriter that defines an extension node whose value is its source position. This is normally used so exceptions can contain better positions. It can also be used in cases where stack traces are useless (for instance in monads with a complicated control flow). . This package contains runtime files. Package: libppx-here-ocaml-dev Description-md5: 65e859aa2515de47c0b598123a3b462c Description-en: OCaml extension node whose value is its source position (development) This package provides a ppx rewriter that defines an extension node whose value is its source position. This is normally used so exceptions can contain better positions. It can also be used in cases where stack traces are useless (for instance in monads with a complicated control flow). . This package contains development files. Package: libppx-import-ocaml Description-md5: f96f7525f882db68c98c579826d5548a Description-en: OCaml extension to import declarations (runtime) This package provides a ppx rewriter to import declarations from interface files. . This package contains runtime files. Package: libppx-import-ocaml-dev Description-md5: 6245a05e2a73ffff223065b65339c03e Description-en: OCaml extension to import declarations (development) This package provides a ppx rewriter to import declarations from interface files. . This package contains development files. Package: libppx-inline-test-ocaml Description-md5: 89a2140884abd69986f82e8fd53fd5ed Description-en: syntax extension for in-line tests in OCaml (runtime files) This package provides a syntax extension to write in-line tests in OCaml code. . This package contains runtime files. Package: libppx-inline-test-ocaml-dev Description-md5: 7411564e95cd755cc331cdf476e233a1 Description-en: syntax extension for in-line tests in OCaml (dev files) This package provides a syntax extension to write in-line tests in OCaml code. . This package contains development files. Package: libppx-js-style-ocaml Description-md5: 9a9eb8f171c8c952c9fa65b9c787962e Description-en: code style checker for Jane Street packages (runtime) Part of the Jane Street's PPX rewriters collection. . This package is a no-op ppx rewriter. It is used as a 'lint' tool to enforce some coding conventions across all Jane Street packages. . This package contains runtime files. Package: libppx-js-style-ocaml-dev Description-md5: 1a22fbd97027f945aa1a1b02b4e2bf9d Description-en: code style checker for Jane Street packages (dev files) Part of the Jane Street's PPX rewriters collection. . This package is a no-op ppx rewriter. It is used as a 'lint' tool to enforce some coding conventions across all Jane Street packages. . This package contains development files. Package: libppx-let-ocaml Description-md5: 65a4ff796d3f00387fa802e7ec243255 Description-en: ppx rewriter for monadic and applicative bindings (runtime files) A ppx rewriter for monadic and applicative let bindings, match expressions, and if expressions. . This package contains runtime files. Package: libppx-let-ocaml-dev Description-md5: fe08b991b568ce6d3661c6b3525b58fa Description-en: ppx rewriter for monadic and applicative bindings (dev files) A ppx rewriter for monadic and applicative let bindings, match expressions, and if expressions. . This package contains development files. Package: libppx-optcomp-ocaml Description-md5: dfb1020181fcc0b7bb913f4c146736dc Description-en: optional compilation for OCaml (runtime files) ppx_optcomp stands for Optional Compilation. It is a tool used to handle optional compilations of pieces of code depending of the word size, the version of the compiler, ... . This package contains runtime files. Package: libppx-optcomp-ocaml-dev Description-md5: 992a4a6997b984aa47e3ef18c16e08f4 Description-en: optional compilation for OCaml (dev files) ppx_optcomp stands for Optional Compilation. It is a tool used to handle optional compilations of pieces of code depending of the word size, the version of the compiler, ... . This package contains development files. Package: libppx-sexp-conv-ocaml Description-md5: 8250a2d8b74e423443b3fceeeb14252f Description-en: generation of S-expressions from type definitions (runtime files) ppx_sexp_conv is a PPX syntax extension that generates code for converting OCaml types to and from S-expressions, as defined in the sexplib library. . This package contains runtime files. Package: libppx-sexp-conv-ocaml-dev Description-md5: 8306bf1b08d1d1dc6c1d6dcff4dfcb1a Description-en: generation of S-expressions from type definitions (dev files) ppx_sexp_conv is a PPX syntax extension that generates code for converting OCaml types to and from S-expressions, as defined in the sexplib library. . This package contains development files. Package: libppx-stable-witness-ocaml Description-md5: 20fa5af7561b2e96663f6a1ecc99f68b Description-en: stable witness derivation (runtime) Ppx extension for deriving a witness that a type is intended to be stable. In this context, stable means that the serialization format will never change. This allows programs running at different versions of the code to safely communicate. . This package contains runtime files. Package: libppx-stable-witness-ocaml-dev Description-md5: 0fb1dc27e4bbeeb9edc4ee7d4b635b15 Description-en: stable witness derivation (development) Ppx extension for deriving a witness that a type is intended to be stable. In this context, stable means that the serialization format will never change. This allows programs running at different versions of the code to safely communicate. . This package contains development files. Package: libppx-string-ocaml Description-md5: cc168273ce2f76e9267fd992bcb20493 Description-en: string interpolation (runtime) Ppx extension for string interpolation. Part of the Jane Street's PPX rewriters collection. . This package contains runtime files. Package: libppx-string-ocaml-dev Description-md5: 270aa35649e732436620f313cea7bee3 Description-en: string interpolation (development) Ppx extension for string interpolation. Part of the Jane Street's PPX rewriters collection. . This package contains development files. Package: libppx-variants-conv-ocaml Description-md5: 113f656b761163041088b6e7243c4d47 Description-en: generation of accessor and iteration functions for OCaml variants (runtime) ppx_variants_conv is a ppx rewriter that can be used to define first class values representing variant constructors, and additional routines to fold, iterate and map over all constructors of a variant type. . This package contains runtime files. Package: libppx-variants-conv-ocaml-dev Description-md5: f77ab6b5924394377e3724e5c33a4c33 Description-en: generation of accessor and iteration functions for OCaml variants (dev) ppx_variants_conv is a ppx rewriter that can be used to define first class values representing variant constructors, and additional routines to fold, iterate and map over all constructors of a variant type. . This package contains development files. Package: libppx-visitors-ocaml-dev Description-md5: b22173fd471aaf707ed2fcb2a3b392dd Description-en: OCaml syntax extension for object-oriented visitors Visitors is a syntax extension for the OCaml programming language. It allows you to annotate your type definitions, such that a visitor class will be automatically generated. This visitor class contains methods for the traversal of your data structure, like iter, map, fold, etc. It is then easy to override these methods for your needs. This is very convenient when programming with complex algebraic data structures. Package: libppx-visitors-ocaml-doc Description-md5: 1f9a0e76214184ea483ad1772f5e5159 Description-en: Documentation of the visitors syntax extension for OCaml This package contains the documentation of the visitors syntax extension for the OCaml programming language. Package: libppx-yojson-conv-ocaml Description-md5: d8f03754c4475aa212a7b3b480683a28 Description-en: [@@deriving] plugin to generate Yojson conversion functions (runtime) [@@deriving] plugin to generate Yojson conversion functions. . Part of the Jane Street's PPX rewriters collection. . This package contains runtime files. Package: libppx-yojson-conv-ocaml-dev Description-md5: ad4f1187928312366050a4ecf29b617d Description-en: [@@deriving] plugin to generate Yojson conversion functions (dev files) [@@deriving] plugin to generate Yojson conversion functions. . Part of the Jane Street's PPX rewriters collection. . This package contains development files. Package: libppxlib-jane-ocaml Description-md5: 516e7b382fbb05325d6489f88fe7e61e Description-en: utilities to work on AST of the Jane Street OCaml compiler (runtime) This library can be used to work with Abstract Syntax Trees corresponding to the augmented parse tree recognized by the Jane Street OCaml compiler. . This package contains runtime files. Package: libppxlib-jane-ocaml-dev Description-md5: 109d985ccfd5be89b5f721e8ac689da6 Description-en: utilities to work on AST of the Jane Street OCaml compiler (development) This library can be used to work with Abstract Syntax Trees corresponding to the augmented parse tree recognized by the Jane Street OCaml compiler. . This package contains development files. Package: libppxlib-ocaml-dev Description-md5: 9263a3fdec1250da537a263f94f513c3 Description-en: meta-programming for OCaml The ppxlib project provides the basis for the ppx system, which is currently the officially supported method for meta-programming in OCaml. It offers a principled way to generate code at compile time in OCaml projects. It features: * OCaml AST / parser / pretty-printer snapshot, to create a full frontend independent of the version of OCaml; * library for ppx rewriters in general, and type-driven code generators in particular; * feature-full driver for OCaml AST transformers; * quotation mechanism allowing to write values representing the OCaml AST in the OCaml syntax; * generator of open recursion classes from type definitions. Package: libprotobuf-java Description-md5: 2ac9477d01e9d2920f1793f9f58f3aa6 Description-en: Java bindings for protocol buffers Protocol buffers are a flexible, efficient, automated mechanism for serializing structured data - similar to XML, but smaller, faster, and simpler. You define how you want your data to be structured once, then you can use special generated source code to easily write and read your structured data to and from a variety of data streams and using a variety of languages. You can even update your data structure without breaking deployed programs that are compiled against the "old" format. . Google uses Protocol Buffers for almost all of its internal RPC protocols and file formats. . This package contains the Java bindings for the protocol buffers. You will need the protoc tool (in the protobuf-compiler package) to compile your definition to Java classes, and then the modules in this package will allow you to use those classes in your programs. Package: libpwizlite-dev Description-md5: 2f89fc19584d28e2c0d8508eb5691034 Description-en: Library to load mzML/mzXML files (dev files) This library is a dumbed-down version of the Proteowizard library. This library only contains the required features to load standard mzML/mzXML mass spectrometry data files. . See http://proteowizard.sourceforge.net/ for the original project. . This package ships the development files. Package: libpwizlite3t64 Description-md5: 012b19a8c79ebdb8399f8d01da8f935c Description-en: Library to load mzML/mzXML files (runtime files) This library is a dumbed-down version of the Proteowizard library. This library only contains the required features to load standard mzML/mzXML mass spectrometry data files. . See http://proteowizard.sourceforge.net/ for the original project. . This package ships the runtime library files. Package: libpython3.14-testsuite Description-md5: b0871b48c3860e7a6ebb3f08408fc7a2 Description-en: Testsuite for the Python standard library (v3.14) The complete testsuite for the Python standard library. Note that a subset is found in the libpython3.14-stdlib package, which should be enough for other packages to use (please do not build-depend on this package, but file a bug report to include additional testsuite files in the libpython3.14-stdlib package). Package: libqcheck-core-ocaml Description-md5: fca259cad1ec93f3f1606be3e7170d79 Description-en: QuickCheck inspired property-based testing for OCaml (Runtime library) This module allows one to check invariants (properties of some types) over randomly generated instances of the type. It provides combinators for generating instances and printing them. Package: libqcheck-core-ocaml-dev Description-md5: 92495d7c40551c5fbaf5cbe629f27d54 Description-en: QuickCheck inspired property-based testing for OCaml (Development package) This module allows one to check invariants (properties of some types) over randomly generated instances of the type. It provides combinators for generating instances and printing them. Package: libqcheck-lin-ocaml-dev Description-md5: bfbd411390a93cad6cbe52273dbaf225 Description-en: QCheck module testing sequential consistency Allows for testing an API for sequential consistency. I.e. it performs a sequence of random commands in parallel, records the results and checks whether the observed results can be liniarized and reconciled with some sequential execution. The library offers an embedded, combinator DSL to describe signatures succinctly. Package: libqcheck-multicoretests-util-ocaml-dev Description-md5: bd65be5d0d1be2bcd13281ce317c3935 Description-en: QCheck helper functions for testing multicore programs a small library of utility functions for QCheck-based testing of multicore programs. Package: libqcheck-ocaml Description-md5: 03b1d439838ed2c58bb0e7c2425b7293 Description-en: QuickCheck inspired property-based testing for OCaml (Runtime library) This module allows one to check invariants (properties of some types) over randomly generated instances of the type. It provides combinators for generating instances and printing them. . This is a compatibility library, depends on libqcheck-ocaml. Package: libqcheck-ocaml-dev Description-md5: e09ed79bba6040b88ff9ff5edf7e52a6 Description-en: QuickCheck inspired property-based testing for OCaml (Development package) This module allows one to check invariants (properties of some types) over randomly generated instances of the type. It provides combinators for generating instances and printing them. . This is a compatibility library, depends on libqcheck-ocaml. Package: libqcheck-ocaml-doc Description-md5: 1ef80994d3ea7567009c0adbf3cd348a Description-en: Documentation for ocaml-qcheck This module allows one to check invariants (properties of some types) over randomly generated instances of the type. It provides combinators for generating instances and printing them. . This package contains documentation for ocaml-qcheck in html format. Package: libqcheck-ounit-ocaml Description-md5: 67d6867edcc76b989bb21ebad586dba7 Description-en: QCheck integration with OUnit (Runtime library) This module provides QCheck integration with OUnit. . QCheck allows one to check invariants (properties of some types) over randomly generated instances of the type. It provides combinators for generating instances and printing them. Package: libqcheck-ounit-ocaml-dev Description-md5: 541dafcfb635ee408291c0652a02f782 Description-en: QCheck integration with OUnit (Development package) This module provides QCheck integration with OUnit. . QCheck allows one to check invariants (properties of some types) over randomly generated instances of the type. It provides combinators for generating instances and printing them. Package: libqcheck-stm-ocaml-dev Description-md5: 54662e03bbbe767cf040d8658473cfa8 Description-en: QCheck module testing parallel state-machines STM contains a revision of qcstm extended to run parallel state-machine tests akin to Erlang QuickCheck, Haskell Hedgehog, ScalaCheck. To do so, the STM library performs a sequence of random operations in parallel and records the results. STM then checks whether the observed results are linearizable by reconciling them with a sequential execution of a model description. The model expresses the intended meaning of each tested command. Package: libqt6concurrent6 Description-md5: 9cec83c0f4093047ba7e32ad593d5a17 Description-en: Qt 6 concurrent module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtConcurrent module contains functionality to support concurrent execution of program code. Package: libqt6core6t64 Description-md5: ed80e594b46abbc607aba1af415d15fe Description-en: Qt 6 core module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtCore module contains core non-GUI functionality. Package: libqt6dbus6 Description-md5: 20382f17c87d23906db49d6aff3e0465 Description-en: Qt 6 D-Bus module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtDBus module is a Unix-only library that you can use to make Inter-Process Communication using the D-Bus protocol. . Applications using the QtDBus module can provide services to other, remote applications by exporting objects, as well as use services exported by those applications by placing calls and accessing properties. Package: libqt6gui6 Description-md5: f07aad264aff41f35affdd7048a48ba2 Description-en: Qt 6 GUI module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtGui module extends QtCore with GUI functionality. Package: libqt6network6 Description-md5: d7dc5b8f2c46f21b15001c31c8361c8a Description-en: Qt 6 network module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtNetwork module offers classes that allow you to write TCP/IP clients and servers. It provides classes to make network programming easier and portable. Package: libqt6opengl6 Description-md5: ab5139665c337d66ad0eee00d9dc3f85 Description-en: Qt 6 OpenGL module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtOpenGL module offers classes that make it easy to use OpenGL in Qt applications. . OpenGL is a standard API for rendering 3D graphics. OpenGL only deals with 3D rendering and provides little or no support for GUI programming issues. Package: libqt6openglwidgets6 Description-md5: fda40a8dcce2f181f56eb4d655f044b5 Description-en: Qt 6 OpenGL widgets module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtOpenGL module offers classes that make it easy to use OpenGL in Qt applications. . OpenGL is a standard API for rendering 3D graphics. OpenGL only deals with 3D rendering and provides little or no support for GUI programming issues. . The OpenGL widgets module provides the widget for rendering OpenGL graphics. Package: libqt6printsupport6 Description-md5: dcb2db28fa663896211cb6e41decc68c Description-en: Qt 6 print support module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtPrintSupport module provides classes to make printing easier and portable. Package: libqt6sql6 Description-md5: 57e79d838a6fcee7447f0e8d47e77121 Description-en: Qt 6 SQL module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtSql module helps you provide seamless database integration to your Qt applications. Package: libqt6sql6-ibase Description-md5: 2115a91d0211d788aae589355ea1607a Description-en: Qt 6 Firebird database driver This package contains the Firebird plugin for Qt 6. . Install it if you intend to use or write Qt programs that are to access a Firebird/InterBase DB. Package: libqt6sql6-mysql Description-md5: 16631a538bfca86f8fd1847b0951a3ca Description-en: Qt 6 MySQL database driver This package contains the MySQL plugin for Qt 6. . Install it if you intend to use or write Qt programs that are to access a MySQL DB. Package: libqt6sql6-odbc Description-md5: 2efb5f41197d91ce21a9548565aeda61 Description-en: Qt 6 ODBC database driver This package contains the ODBC plugin for Qt 6. . Install it if you intend to use or write Qt programs that are to access an ODBC DB. Package: libqt6sql6-psql Description-md5: 99db9d30d2cd0b7c8e26d832434bcf1e Description-en: Qt 6 PostgreSQL database driver This package contains the PostgreSQL plugin for Qt 6. . Install it if you intend to use or write Qt programs that are to access a PostgreSQL DB. Package: libqt6sql6-sqlite Description-md5: e4d133d22563b7455e47e1144e40a2b6 Description-en: Qt 6 SQLite 3 database driver This package contains the SQLite 3 plugin for Qt 6. . Install it if you intend to use or write Qt programs that are to access an SQLite 3 DB. Package: libqt6test6 Description-md5: 04fef6f2638f7e52d1818d6708483554 Description-en: Qt 6 test module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtTest module provides classes for unit testing Qt applications and libraries. Package: libqt6widgets6 Description-md5: dee1fa987803bb779f9789877ed5e2c5 Description-en: Qt 6 widgets module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtWidgets module extends QtGui with C++ widget functionality. Package: libqt6xml6 Description-md5: cc74db0521d7ab3d5dd5db432fb38e34 Description-en: Qt 6 XML module Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . The QtXml module provides a stream reader and writer for XML documents, and C++ implementations of SAX and DOM. Package: libre-ocaml-dev Description-md5: 008d114769c7e657c674191159277a71 Description-en: regular expression library for OCaml RE is regular expression library for OCaml. The following styles of regular expressions are supported: * Perl-style regular expressions (module Re.Perl); * Posix extended regular expressions (module Re.Posix); * Emacs-style regular expressions (module Re.Emacs); * Shell-style file globbing (module Re.Glob); * Compatibility layer for OCaml's built-in Str module (module Re.Str). . It is also possible to build regular expressions by combining simpler regular expressions (module Re) . This package contains the development modules you need to use RE in your programs. Package: libre2-dev Description-md5: 877d8fcb54ca1379d20bacacf044187e Description-en: efficient, principled regular expression library, development kit RE2 is a fast, safe, thread-friendly alternative to backtracking regular expression engines like those used in PCRE, Perl, and Python. It is a C++ library. . RE2 uses automata theory to guarantee that regular expression searches run in time linear in the size of the input. RE2 implements memory limits, so that searches can be constrained to a fixed amount of memory. RE2 is engineered to use a small fixed C++ stack footprint no matter what inputs or regular expressions it must process; thus RE2 is useful in multithreaded environments where thread stacks cannot grow arbitrarily large. . On large inputs, RE2 is often much faster than backtracking engines; its use of automata theory lets it apply optimizations that the others cannot. . This package contains the static library and header files used in development. Package: libreoffice Description-md5: 9614e13c8592ae9a0c81c629137ef53e Description-en: office productivity suite (metapackage) LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This metapackage installs all components of libreoffice: * libreoffice-writer: Word processor * libreoffice-calc: Spreadsheet * libreoffice-impress: Presentation * libreoffice-draw: Drawing * libreoffice-base: Database * libreoffice-math: Equation editor It also recommends additional packages (e.g. fonts) in order to match an upstream LibreOffice install as closely as possible. . You can extend the functionality of LibreOffice by installing these packages: * hunspell-*/myspell-*: Hunspell/Myspell dictionaries for use with LibreOffice * libreoffice-l10n-*: UI interface translation * libreoffice-help-*: User help * mythes-*: Thesauri for the use with LibreOffice * hyphen-*: Hyphenation patterns for LibreOffice * libreoffice-gtk(2|3): Gtk UI Plugin, GNOME File Picker support * libreoffice-gnome: GIO backend * unixodbc: ODBC database support * cups-bsd: Allows LibreOffice to detect your CUPS printer queues automatically * libsane: Use your sane-supported scanner with LibreOffice * libxrender1: Speed up display by using Xrender library * libgl1: OpenGL support * openclipart-libreoffice: Open Clip Art Gallery with LibreOffice index files * firefox-esr | thunderbird | firefox: Mozilla profile with Certificates needed for XML Security... * openjdk-11-jre | openjdk-8-jre | java8-runtime: Java Runtime Environment for use with LibreOffice * pstoedit / imagemagick / ghostscript: helper tools for EPS * gstreamer0.10-plugins-*: GStreamer plugins for use with LibreOffices media backend * libpaper-utils: papersize detection support via paperconf * bluez: Bluetooth support for Impress (slideshow remote control) Package: libreoffice-base Description-md5: 5529fff5c628ca6b70284749063daea4 Description-en: office productivity suite -- database LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the database component for LibreOffice. Package: libreoffice-base-drivers Description-md5: 173080bc24315c0baac30ba492b8de8a Description-en: Database connectivity drivers for LibreOffice LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the database connectivity drivers used by LibreOffices database functionality: - ODBC - JDBC - dBase - Calc - Flat files . You can extend this by installing: . * unixodbc: ODBC database support * libmyodbc | odbc-postgresql | libsqliteodbc | tdsodbc | odbc-mdbtools: ODBC drivers for: - MySQL - PostgreSQL - SQLite - MS SQL / Sybase SQL - *.mdb (JET / MS Access) * libmariadb-java | libpg-java | libjtds-java: JDBC Drivers for: - MySQL/MariaDB - PostgreSQL - MS SQL Server and Sybase * libreoffice-sdbc-hsqldb: embedded HSQLDB SDBC Driver * libreoffice-sdbc-firebird: (embedded) Firebird SDBC Driver * libreoffice-sdbc-postgresql: PostgreSQL SDBC Driver * libreoffice-sdbc-mysql: MySQL/MariaDB SDBC Driver Package: libreoffice-base-nogui Description-md5: e83dd6cdb7c67ccb13c0407fd6a32ebc Description-en: office productivity suite -- database (no GUI variant) LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the database component for LibreOffice. Package: libreoffice-calc-nogui Description-md5: ed9483b973f6b2dd25d568b6ef77d8c4 Description-en: office productivity suite -- spreadsheet (no GUI variant) LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the spreadsheet component for LibreOffice for use with libreoffice-core-nogui. Package: libreoffice-core-nogui Description-md5: d16e9871c20b5b5c8f38d6d74c8dfe8e Description-en: office productivity suite -- arch-dependent files (no GUI variant) LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the architecture-dependent core files of LibreOffice without GUI support for server-based or commandline usage of LibreOffice. Package: libreoffice-dev-gui Description-md5: c7381cdfc5446c44dd4085615626c61e Description-en: office productivity suite -- "GUI" development stuff LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the gengal utility which was moved from libreoffice-dev. Package: libreoffice-draw-nogui Description-md5: c4d7d9707b31ef9344d70e006f7a27af Description-en: office productivity suite -- drawing (no GUI variant) LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the drawing component for LibreOffice. Package: libreoffice-evolution Description-md5: 7d9a6b62e74d5a806f263ecd0d4bed18 Description-en: office productivity suite -- Evolution addressbook support LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package allows LibreOffice to access Evolution address books. You need to install evolution separately. Package: libreoffice-gtk4 Description-md5: 286c3520f994b01929165fe0f5270c87 Description-en: office productivity suite -- GTK 4 integration LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the GTK plugin for drawing LibreOffices widgets with GTK 4 and GTK/GNOMEish print dialog. . You need to enable it manually by export SAL_USE_VCLPLUGIN=gtk4. Package: libreoffice-impress-nogui Description-md5: 10ce2c27d434135cd9308937c1bdb31c Description-en: office productivity suite -- presentation (no GUI variant) LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the presentation component for LibreOffice. Package: libreoffice-kf6 Description-md5: f949c58052050af92a4bb22203028d42 Description-en: office productivity suite -- KDE Frameworks 6 integration LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the KF6 plugin for LibreOffice and a KF6-based File Picker when running under Plasma. Package: libreoffice-librelogo Description-md5: cdaef056eb365a457e28772fa2fd9de6 Description-en: Logo-like programming language for LibreOffice LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains Librelogo, which is a pyuno-based Logo-like programming language with interactive vectorgraphics for education and DTP - basic Logo syntax for back compatibility with educational Logo systems - interactive vectorgraphics in LibreOffice Writer - native commands (easily translatable) - Python data structures (list, tuple, set, dictionary) and other Python features Package: libreoffice-math-nogui Description-md5: e104f51d572d2ee302d3c3550e97e6ff Description-en: office productivity suite -- equation editor (no GUI variant) LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the equation editor component for LibreOffice. Package: libreoffice-nogui Description-md5: b2664061ba9641158b0a41d2c958aa3e Description-en: office productivity suite (metapackage, no GUI) LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This metapackage installs all components of libreoffice: * libreoffice-writer: Word processor * libreoffice-calc: Spreadsheet * libreoffice-impress: Presentation * libreoffice-draw: Drawing * libreoffice-base: Database * libreoffice-math: Equation editor . WITHOUT GUI SUPPORT. . This package is intended mostly for scripting needs. Package: libreoffice-plasma Description-md5: 36a51d062e37f6d96526d1414adef018 Description-en: office productivity suite -- some Plasma integration LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains some minor Plasma integration (like AppData and "Create New..." integration) . Package: libreoffice-qt6 Description-md5: a45aee748dd8cc60d61451e1f7253f31 Description-en: office productivity suite -- Qt 6 integration LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the Qt 6 plugin for drawing LibreOffices widgets with Qt 6 and a Qt File Picker and print dialog. . You need to enable it manually by export SAL_USE_VCLPLUGIN=qt6. Package: libreoffice-report-builder Description-md5: 8239ceaa4ebaf25c2b15325d48eb907c Description-en: LibreOffice component for building database reports LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the report builder: "Create with the Sun Report Builder stylish, smart-looking database reports. The flexible report editor can define group and page headers as well as group and page footers and even calculation fields are available to accomplish complex database reports." Package: libreoffice-report-builder-bin Description-md5: 4de9416ad29a7951be39b95f83055e84 Description-en: LibreOffice component for building database reports -- libraries LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains some architecture-dependent support libraries (librpt*.so) for the report builder component. Package: libreoffice-report-builder-bin-nogui Description-md5: 6d5263ac65fb4d1c4c7caf8eb713944d Description-en: LibreOffice component for building database reports -- libraries (no GUI variant) LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains some architecture-dependent support libraries (librpt*.so) for the report builder component. Package: libreoffice-script-provider-bsh Description-md5: 720bef09745ce9eb4902772fb5c437d8 Description-en: BeanShell script support provider for LibreOffice scripting framework LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . The Scripting Framework allows LibreOffice users to write and run macros in multiple languages including LibreOffice Basic, Python, Java, BeanShell and JavaScript. These macros can then be assigned to menus, toolbars, keyboard shortcuts, events and embedded objects. . This package contains the script provider to support BeanShell. Package: libreoffice-script-provider-js Description-md5: 41b18315e9be2aaa24a28415b907118e Description-en: JavaScript script support provider for LibreOffice scripting framework LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . The Scripting Framework allows LibreOffice users to write and run macros in multiple languages including LibreOffice Basic, Python, Java, BeanShell and JavaScript. These macros can then be assigned to menus, toolbars, keyboard shortcuts, events and embedded objects. . This package contains the script provider to support JavaScript. Package: libreoffice-script-provider-python Description-md5: 019117f2dc708fc6c1179714b81e2076 Description-en: Python script support provider for LibreOffice scripting framework LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . The Scripting Framework allows LibreOffice users to write and run macros in multiple languages including LibreOffice Basic, Python, Java, BeanShell and JavaScript. These macros can then be assigned to menus, toolbars, keyboard shortcuts, events and embedded objects. . This package contains the script provider to support Python. Package: libreoffice-sdbc-firebird Description-md5: 17d206d15f4a6fbda10fa8da477a3e8c Description-en: (embedded) Firebird SDBC driver for LibreOffice LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . The Firebird SDBC Driver allows one to use the Firebird (embedded) database from LibreOffice without any wrapper layer such as ODBC or JDBC. Package: libreoffice-sdbc-hsqldb Description-md5: 6f134726a575672413c47417341a5e32 Description-en: embedded HSQLDB SDBC driver for LibreOffice LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . The HSQLDB SDBC Driver allows one to use the HSQLDB embedded database from LibreOffice without any wrapper layer such as ODBC or JDBC. Package: libreoffice-sdbc-mysql Description-md5: 1022a8fb85f50d65847256d96ae25e4f Description-en: MariaDB/MySQL SDBC driver for LibreOffice LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . The MariaDB/MySQL driver allows one to use the MariaDB or MySQL database from LibreOffice without any wrapper layer such as ODBC or JDBC. Package: libreoffice-sdbc-postgresql Description-md5: 06f71158aa78dbe7201679601bd1279b Description-en: PostgreSQL SDBC driver for LibreOffice LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . The PostgreSQL SDBC Driver allows one to use the PostgreSQL database from LibreOffice without any wrapper layer such as ODBC or JDBC. Package: libreoffice-smoketest-data Description-md5: 7540f40cccbf63cb8381dca8979a0828 Description-en: data files for LibreOffices "smoketest" Data files for the LibreOffice "smoketest". Package: libreoffice-style-breeze Description-md5: b3a725e09462ccaec72c3b8bb964827b Description-en: office productivity suite -- Breeze symbol style LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the "breeze" symbol style, default style for KDE 5. Package: libreoffice-style-karasa-jaga Description-md5: 62dc98488a5247cbad91f4e0ec562bcf Description-en: office productivity suite -- Karasa Jaga symbol style LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the "karasa_jaga" symbol style. Package: libreoffice-style-sifr Description-md5: 0fd5516a8dab8f6841c284edea8786d7 Description-en: office productivity suite -- Sifr symbol style LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the "sifr" symbol style (an adaption of the Gnome symbolic theme), needs to be manually enabled in the LibreOffice option menu. Package: libreoffice-style-sukapura Description-md5: b9dbd94d0660dbc8a05ba918cb3fb897 Description-en: office productivity suite -- Sukapura symbol style LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the "sukapura" symbol style. Package: libreoffice-style-tango Description-md5: aaf8968f6a7dfef93cd3c0082bbe8dbd Description-en: transitional package for Tango symbol style You can safely remove this package. Package: libreoffice-subsequentcheckbase Description-md5: cda482c5487d616e1ae7a228fce1d955 Description-en: LibreOffice java test libraries Java libraries LibreOffice subsequentchecks integration test suite Package: libreoffice-uiconfig-base Description-md5: e6ac75c394251a0c3842ae13e3f9c033 Description-en: UI data ("config") for LibreOffice Base LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains internal "configuration" of various UI components. It is not meant to be editable. It is just split out for dependencies of other packages. . You will usually not need to install this package manually but it should just be pulled in by other packages. Package: libreoffice-uiconfig-report-builder Description-md5: c254f403f0fe84819d9f6437b3755876 Description-en: UI data ("config") for the LibreOffice Report Builder LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains internal "configuration" of various UI components. It is not meant to be editable. It is just split out for dependencies of other packages. . You will usually not need to install this package manually but it should just be pulled in by other packages. Package: libreoffice-wiki-publisher Description-md5: a66aaa282ae4941588a4d314d1ebbf79 Description-en: LibreOffice extension for working with MediaWiki articles LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains an extension to create/edit/publish MediaWiki articles with LibreOffice Package: libreoffice-writer-nogui Description-md5: 963dc225bb14f9e5974345a7995f16a7 Description-en: office productivity suite -- word processor (no GUI variant) LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This package contains the wordprocessor component for LibreOffice. Package: libreofficekit-dev-gtk Description-md5: f21a52a8131048a3b01cbcb1b56afa07 Description-en: LibreOfficeKit -- Gtk header and introspection development LibreOfficeKit can be used for accessing LibreOffice functionality through C/C++, without any need to use UNO. . This package contains the header needed for using LibreOfficeKit with Gtk and for developing stuff using introspection. Package: libridl-java Description-md5: 9e017c19c2cbf8cab7b83a1ee17e6890 Description-en: transitional package for LibreOffice UNO runtime environment LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This has now been merged into liblibreoffice-java and this package thus can be safely removed once installed. Package: librust-async-io-dev Description-md5: a55a5330784046c801561faefce17b45 Description-en: Async I/O and timers - Rust source code Source code for Debianized Rust crate "async-io" Package: librust-async-signal-dev Description-md5: bc96cebf5a76850a7793d66fd21b21d2 Description-en: Async signal handling - Rust source code Source code for Debianized Rust crate "async-signal" Package: librust-bitflags-dev Description-md5: 030f4d114d79da7441c78b445fea5d3d Description-en: Macro to generate structures which behave like bitflags - Rust source code Source code for Debianized Rust crate "bitflags" Package: librust-bitstream-io-dev Description-md5: 8ab33b0872a8874bd969124d1d03e56e Description-en: Reading/writing un-aligned values from/to streams in big-endian and little-endian formats - Rust source code Source code for Debianized Rust crate "bitstream-io" Package: librust-bitvec-helpers-dev Description-md5: ac8e9c5d3b8c93029c7c592d08802aed Description-en: BitVec based bitstream reader and writer - Rust source code Source code for Debianized Rust crate "bitvec_helpers" Package: librust-botan-dev Description-md5: 4ac9be98efec5eacf261545dcdd10435 Description-en: Rust wrapper for Botan cryptography library - Rust source code Source code for Debianized Rust crate "botan" Package: librust-botan-sys-dev Description-md5: 0d00a90b9da9d4af6710a4f18b2e69d5 Description-en: FFI wrapper for Botan cryptography library - Rust source code Source code for Debianized Rust crate "botan-sys" Package: librust-breezyshim-dev Description-md5: e9c71818fbf2d1c3254b7edd221049a8 Description-en: Rust shim around the Breezy Python API - Rust source code Source code for Debianized Rust crate "breezyshim" Package: librust-broot-dev Description-md5: 5974118d3a3c5fb8227c7d48875dfc24 Description-en: File browser and launcher - Rust source code Source code for Debianized Rust crate "broot" Package: librust-bytes-dev Description-md5: 4b8bae13feb060110a23dd3d868ed174 Description-en: Types and traits for working with bytes - Rust source code Source code for Debianized Rust crate "bytes" Package: librust-calloop-dev Description-md5: a3d0f592e2355f07e124f7c762e056bc Description-en: Callback-based event loop - Rust source code Source code for Debianized Rust crate "calloop" Package: librust-calloop-wayland-source-dev Description-md5: 5a6043aa9838803172009b43a25debcc Description-en: Wayland-rs client event source for callloop - Rust source code Source code for Debianized Rust crate "calloop-wayland-source" Package: librust-cddl-dev Description-md5: d4d8b45691939d0f661c79c13eb0a3a5 Description-en: Parser for the Concise data definition language (CDDL) - Rust source code Source code for Debianized Rust crate "cddl" Package: librust-clap-complete-nushell-dev Description-md5: 6e2d619c8e3d1f28afe15bc8136691a3 Description-en: Generator library used with clap for Nushell completion scripts - Rust source code Source code for Debianized Rust crate "clap_complete_nushell" Package: librust-clap-help-dev Description-md5: 54410ce2ff1540f17bbe96bed474a1e1 Description-en: Utility printing help of a clap application - Rust source code Source code for Debianized Rust crate "clap-help" Package: librust-codespan-reporting-dev Description-md5: 3e64b11031b3b0502fc31942d29ba10d Description-en: Beautiful diagnostic reporting for text-based programming languages - Rust source code Source code for Debianized Rust crate "codespan-reporting" Package: librust-comfy-table-dev Description-md5: 2a4580163c077363747a926a3b390510 Description-en: Easy to use library for building beautiful tables with automatic content wrapping - Rust source code Source code for Debianized Rust crate "comfy-table" Package: librust-compact-str-dev Description-md5: bdde72f2e37c848085b1da2e34bf6f7c Description-en: Memory efficient string type - Rust source code Source code for Debianized Rust crate "compact_str" Package: librust-crossterm-dev Description-md5: 3ac7152e5609484408f9896913c45557 Description-en: Crossplatform terminal library for manipulating terminals - Rust source code Source code for Debianized Rust crate "crossterm" Package: librust-csv2svg-dev Description-md5: b224f1bb217bffde43a764e0e3e0b88f Description-en: Take a csv as input and outputs svg - Rust source code Source code for Debianized Rust crate "csv2svg" Package: librust-cursive-dev Description-md5: 694d33818a57779274de34c2462b402b Description-en: TUI (Text User Interface) library focused on ease-of-use - Rust source code Source code for Debianized Rust crate "cursive" Package: librust-cxx-build-dev Description-md5: 8b8f8708b53c577f6b07375c06847325 Description-en: C++ code generator for integrating cxx into a Cargo build - Rust source code Source code for Debianized Rust crate "cxx-build" Package: librust-cxx-gen-dev Description-md5: 59e11fe941a8ba23ab976a921775ed71 Description-en: C++ code generator to integrate cxx into higher level tools - Rust source code Source code for Debianized Rust crate "cxx-gen" Package: librust-deb822-derive-dev Description-md5: eb5f2f2ea5d9464916f4714a88fd2d4a Description-en: Derive macro for deb822 style paragraphs - Rust source code Source code for Debianized Rust crate "deb822-derive" Package: librust-deb822-fast-dev Description-md5: 8f2583c14c17591457e21bee3d0e6096 Description-en: Fast parsing of Debian control files in the deb822 format - Rust source code Source code for Debianized Rust crate "deb822-fast" Package: librust-deb822-lossless-dev Description-md5: 79c586fccc568f3cb9c3a5762d704c79 Description-en: Lossless parser for deb822 files - Rust source code Source code for Debianized Rust crate "deb822-lossless" Package: librust-debian-control-dev Description-md5: e3b5ebe55b5f4770aede06d556c2c418 Description-en: Parser for Debian control files - Rust source code Source code for Debianized Rust crate "debian-control" Package: librust-debian-copyright-dev Description-md5: 057e04906739ade312f610c5a60d7736 Description-en: Parser for Debian copyright files - Rust source code Source code for Debianized Rust crate "debian-copyright" Package: librust-debversion-dev Description-md5: 2065c676f4c00b84d26a31975d2fb72f Description-en: Debian version parsing, manipulation and comparison - Rust source code Source code for Debianized Rust crate "debversion" Package: librust-dep3-dev Description-md5: 6bbb92b998c33d6606e1836ee3566493 Description-en: Parsing and generating DEP-3 headers - Rust source code Source code for Debianized Rust crate "dep3" Package: librust-dirty-tracker-dev Description-md5: dc11f85a0968991ec2aa3cbd2539cf69 Description-en: Track which files have changed - Rust source code Source code for Debianized Rust crate "dirty-tracker" Package: librust-dolby-vision-dev Description-md5: 8057cd20a4b0ce244769ca2ed579d44b Description-en: Dolby Vision metadata parsing and writing - Rust source code Source code for Debianized Rust crate "dolby_vision" Package: librust-drm-dev Description-md5: 31df964d4f34d83a422aa6ba9bd5e2ce Description-en: Safe, low-level bindings to the Direct Rendering Manager API - Rust source code Source code for Debianized Rust crate "drm" Package: librust-drm-ffi-dev Description-md5: 3655045a89e7fbd15e47072454c5605d Description-en: Safe, low-level bindings to the Direct Rendering Manager API - Rust source code Source code for Debianized Rust crate "drm-ffi" Package: librust-dysk-cli-dev Description-md5: 5ec19953e535267bf90fe19cc526efc2 Description-en: Dysk cli as a library - Rust source code Source code for Debianized Rust crate "dysk-cli" Package: librust-env-logger-dev Description-md5: f137377a93493d6d549b858895683036 Description-en: Log implementation configured via environment variable - Rust source code Source code for Debianized Rust crate "env_logger" Package: librust-faster-hex-dev Description-md5: 1b362f6efcc14cc1ac017910448d9f9e Description-en: Fast hex encoding - Rust source code Source code for Debianized Rust crate "faster-hex" Package: librust-fd-lock-dev Description-md5: e53d7e61de272bae867d55e393304537 Description-en: Advisory cross-platform lock on a file using a file descriptor to it - Rust source code Source code for Debianized Rust crate "fd-lock" Package: librust-foldhash-dev Description-md5: e77961fcdbe47f29b91b2dad6e818170 Description-en: Fast, non-cryptographic, minimally DoS-resistant hashing algorithm - Rust source code Source code for Debianized Rust crate "foldhash" Package: librust-gix-prompt-dev Description-md5: 64519def3be6a01f12303d747578e2cf Description-en: The gitoxide project for handling prompts in the terminal - Rust source code Source code for Debianized Rust crate "gix-prompt" Package: librust-grcov-dev Description-md5: 4e64812b6aa08782a5a7da2648d5ac90 Description-en: Collect and aggregate code coverage data for multiple source files - Rust source code Source code for Debianized Rust crate "grcov" Package: librust-hashbrown-dev Description-md5: 6e77304c0557f0e42a74b0a980ee60f3 Description-en: Rust port of Google's SwissTable hash map - Rust source code Source code for Debianized Rust crate "hashbrown" Package: librust-heck-dev Description-md5: 4242e0628fe42a168f65b6a0491a539b Description-en: Case conversion library - Rust source code Source code for Debianized Rust crate "heck" Package: librust-i18n-embed-dev Description-md5: b660dff0acdbb181167d415bb7adf7c6 Description-en: Traits and macros to embed l10n assets to localize - Rust source code Source code for Debianized Rust crate "i18n-embed" Package: librust-indexmap-dev Description-md5: b51e625fe9c71dbf664c3fbc89bf1924 Description-en: Hash table with consistent order and fast iteration - Rust source code Source code for Debianized Rust crate "indexmap" Package: librust-inotify-dev Description-md5: 074c1c8c3770c25a7fc0a5adab3bc1a3 Description-en: Idiomatic wrapper for inotify - Rust source code Source code for Debianized Rust crate "inotify" Package: librust-ivf-dev Description-md5: fd914891dfdbf8773cf0b391e8598bfd Description-en: Simple ivf muxer - Rust source code Source code for Debianized Rust crate "ivf" Package: librust-jiff-dev Description-md5: 6be22ef0e5a72e1c94fd879a20389567 Description-en: Date-time library that encourages you to jump into the pit of success - Rust source code This library is heavily inspired by the Temporal project. . Source code for Debianized Rust crate "jiff" Package: librust-jiter-dev Description-md5: 3536532dc1429a0cc972b7ac5d25d27c Description-en: Fast Iterable JSON parser - Rust source code Source code for Debianized Rust crate "jiter" Package: librust-just-dev Description-md5: 1a2c3e8e91810fc60cd067b3ce2213d0 Description-en: 🤖 Just a command runner - Rust source code Source code for Debianized Rust crate "just" Package: librust-knuffel-derive-dev Description-md5: 70f0114685a4aa80dabdf95a5895d683 Description-en: Derive implementation for knuffel KDL parser - Rust source code Source code for Debianized Rust crate "knuffel-derive" Package: librust-launchpadlib-dev Description-md5: c9da7a65c936c6e87d9a730c727456a5 Description-en: Accessing Launchpad.net - Rust source code Source code for Debianized Rust crate "launchpadlib" Package: librust-lexical-parse-float-dev Description-md5: db996fb9f48b589f7ab63422e767f757 Description-en: Efficient parsing of floats from strings - Rust source code Source code for Debianized Rust crate "lexical-parse-float" Package: librust-lexical-parse-integer-dev Description-md5: 205eba215ee93f19b1298f330966a9c1 Description-en: Efficient parsing of integers from strings - Rust source code Source code for Debianized Rust crate "lexical-parse-integer" Package: librust-lexical-util-dev Description-md5: f74807e6beb4a4d72df139c121551e80 Description-en: Shared utilities for lexical creates - Rust source code Source code for Debianized Rust crate "lexical-util" Package: librust-lfs-core-dev Description-md5: 947da265581361537645792cfaf04a13 Description-en: Give information on mounted disks - Rust source code Source code for Debianized Rust crate "lfs-core" Package: librust-libpulse-binding-dev Description-md5: 7e73d2aa8a9106387b18c8b1676c3173 Description-en: Rust language binding for the PulseAudio libpulse library - Rust source code Source code for Debianized Rust crate "libpulse-binding" Package: librust-libpulse-sys-dev Description-md5: e057652ea8a6e510298d1185f6812d83 Description-en: FFI bindings for the PulseAudio libpulse system library - Rust source code Source code for Debianized Rust crate "libpulse-sys" Package: librust-linux-raw-sys-dev Description-md5: 77f4fe93c4c6545baddd658a320a5a99 Description-en: Generated bindings for Linux's userspace API - Rust source code Source code for Debianized Rust crate "linux-raw-sys" Package: librust-log-dev Description-md5: 0099c3b06817dfec8c92ecfc92d6ce99 Description-en: Lightweight logging facade for Rust - Rust source code Source code for Debianized Rust crate "log" Package: librust-memfd-dev Description-md5: b80239dd6df041e583e2f5049312abef Description-en: Pure-Rust library to work with Linux memfd and sealing - Rust source code Source code for Debianized Rust crate "memfd" Package: librust-nasm-rs-dev Description-md5: 00d7521b407fe7de0bfaf684751b06d7 Description-en: Run NASM during your Cargo build - Rust source code Source code for Debianized Rust crate "nasm-rs" Package: librust-nix-dev Description-md5: 83e13593f82e195b62da1613c846549b Description-en: Rust friendly bindings to *nix APIs - Rust source code Source code for Debianized Rust crate "nix" Package: librust-notify-debouncer-mini-dev Description-md5: 1cd2c632e095942abb3e390834f9c6fa Description-en: Notify mini debouncer for events - Rust source code Tiny debouncer for rust-notify which filters incoming events and emits only one event per timeframe per file. Package: librust-notify-dev Description-md5: ac670886ae132f2b03be346722baba0e Description-en: Cross-platform filesystem notification library - Rust source code Source code for Debianized Rust crate "notify" Package: librust-num-derive-dev Description-md5: 22293bf75887fc5cd6a16a0added74f0 Description-en: Numeric syntax extensions - Rust source code Source code for Debianized Rust crate "num-derive" Package: librust-numbat-dev Description-md5: fb8559e7a9c3292f19d21746e3a75fc9 Description-en: Programming language for scientific computations - Rust source code Source code for Debianized Rust crate "numbat" Package: librust-nusb-dev Description-md5: 41509aa9689b77171b3baac19deddaa8 Description-en: Cross-platform low-level access to USB devices in pure Rust - Rust source code Source code for Debianized Rust crate "nusb" Package: librust-openssh-sftp-protocol-dev Description-md5: a99bf9dd6af61d4c99b8fb693a3f8ab8 Description-en: Data format used to communicate with openssh mux server - Rust source code Source code for Debianized Rust crate "openssh-sftp-protocol" Package: librust-owo-colors-dev Description-md5: ea16da15d49b54a181d99afa13459c7f Description-en: Zero-allocation terminal colors that'll make people go owo - Rust source code Source code for Debianized Rust crate "owo-colors" Package: librust-parsec-interface-dev Description-md5: 8f81c986c6e32e174bd9bdaaf8f83b29 Description-en: Library implementing the Parsec wire protocol - Rust source code Parsec is an abstraction layer that can be used to interact with hardware-backed security facilities such as the Hardware Security Module (HSM), the Trusted Platform Module (TPM), as well as firmware-backed and isolated software services. . This package contains an interface library to be used both by the Parsec service and a Rust Client library. The library contains methods to communicate using the wire protocol. . See https://parallaxsecond.github.io/parsec-book/parsec_client/ wire_protocol.html . Source code for Debianized Rust crate "parsec-interface" Package: librust-polling-dev Description-md5: 83984bc10f1c0e2b5af891c76131d150 Description-en: Portable interface to epoll, kqueue, event ports, and IOCP - Rust source code Source code for Debianized Rust crate "polling" Package: librust-postgres-dev Description-md5: 4b0b34e4b8d22eddb9a3b6a4eba3244d Description-en: Native, synchronous PostgreSQL client - Rust source code Source code for Debianized Rust crate "postgres" Package: librust-postgres-protocol-dev Description-md5: c2de6f5bd4bfaab5791981225a678b24 Description-en: Low level Postgres protocol APIs - Rust source code Source code for Debianized Rust crate "postgres-protocol" Package: librust-postgres-types-dev Description-md5: 5a88ec005a2842633c5a0cd2bb534c32 Description-en: Conversions between Rust and Postgres values - Rust source code Source code for Debianized Rust crate "postgres-types" Package: librust-potential-utf-dev Description-md5: edf613f291b4e8c95df7c7e5cc03e9e5 Description-en: Unvalidated string and character types - Rust source code Source code for Debianized Rust crate "potential_utf" Package: librust-pty-process-dev Description-md5: 50c979c8a30b86dce6656d46d31f708a Description-en: Spawn commands attached to a pty - Rust source code Source code for Debianized Rust crate "pty-process" Package: librust-pulldown-cmark-dev Description-md5: 7a1294d53e73103cf5fc4769930ced42 Description-en: Pull parser for CommonMark - Rust source code Source code for Debianized Rust crate "pulldown-cmark" Package: librust-pulldown-cmark-escape-dev Description-md5: d9b37d8d1b9a07e84fdaaf10b028cc81 Description-en: Escape library for HTML created in the pulldown-cmark project - Rust source code Source code for Debianized Rust crate "pulldown-cmark-escape" Package: librust-pyo3-async-runtimes-dev Description-md5: d2d52da024e567e0c4ed50d7ce383861 Description-en: PyO3 bridges from Rust runtimes to Python's Asyncio library - Rust source code Source code for Debianized Rust crate "pyo3-async-runtimes" Package: librust-pyo3-async-runtimes-macros-dev Description-md5: 77738da798aff4920c1db666ef5b7908 Description-en: Proc Macro Attributes for `pyo3-async-runtimes` - Rust source code Source code for Debianized Rust crate "pyo3-async-runtimes-macros" Package: librust-pyo3-build-config-dev Description-md5: a37674873c9603a57d915fed0d00f721 Description-en: Build configuration for the PyO3 ecosystem - Rust source code Source code for Debianized Rust crate "pyo3-build-config" Package: librust-pyo3-dev Description-md5: e9686b3e5171fe43bd79ca8f552b5c84 Description-en: Bindings to Python interpreter - Rust source code Source code for Debianized Rust crate "pyo3" Package: librust-pyo3-ffi-dev Description-md5: 7416196fdbe2a2ff5e94355a184b4be0 Description-en: Python-API bindings for the PyO3 ecosystem - Rust source code Source code for Debianized Rust crate "pyo3-ffi" Package: librust-pyo3-filelike-dev Description-md5: d188482be56bb7f71b847ae3becdfa21 Description-en: Rust access to Python file-like objects - Rust source code Source code for Debianized Rust crate "pyo3-filelike" Package: librust-pyo3-log-dev Description-md5: 0525cae8434858dcadc5119f4f522b67 Description-en: Logging bridge from pyo3 native extension to python - Rust source code Source code for Debianized Rust crate "pyo3-log" Package: librust-pyo3-macros-backend-dev Description-md5: 1279318fb7f9509b0cbc639f87ca1098 Description-en: Code generation for PyO3 package - Rust source code Source code for Debianized Rust crate "pyo3-macros-backend" Package: librust-pyo3-macros-dev Description-md5: 8ecfc330a7d238499545a2483a0dac44 Description-en: Proc macros for PyO3 package - Rust source code Source code for Debianized Rust crate "pyo3-macros" Package: librust-pythonize-dev Description-md5: 1c646f7b15e9989e7342deb70530cbe1 Description-en: Rust <-> Python interconnect using Serde and PyO3 - Rust source code Source code for Debianized Rust crate "pythonize" Package: librust-qr2term-dev Description-md5: 68f3e9fec46617fa77aafa37ac3117e4 Description-en: Stupidly simple Rust crate to render a QR code in the terminal - Rust source code Source code for Debianized Rust crate "qr2term" Package: librust-r-description-dev Description-md5: 98a09a2229df2af0da1334fc7dd11851 Description-en: Parsing and editor for R DESCRIPTION files - Rust source code Source code for Debianized Rust crate "r-description" Package: librust-reflink-copy-dev Description-md5: 2eb6d8cde9eee484c6de553ccb1a6296 Description-en: Copy-on-write mechanism on supported file systems - Rust source code Source code for Debianized Rust crate "reflink-copy" Package: librust-reis-dev Description-md5: 7f72fa78db5417319ec9be7707f4b91f Description-en: Pure Rust implementation of libei/libeis protocol - Rust source code Source code for Debianized Rust crate "reis" Package: librust-ruma-common-dev Description-md5: 5632d741f701f25be26081650d9863ba Description-en: Common types for other ruma crates - Rust source code Source code for Debianized Rust crate "ruma-common" Package: librust-rustix-dev Description-md5: a4e80b98e3c172d9453f8a19505dda71 Description-en: Safe Rust bindings to POSIX/Unix/Linux/Winsock-like syscalls - Rust source code Source code for Debianized Rust crate "rustix" Package: librust-rustix-openpty-dev Description-md5: f1ef7f91fc7e1cfd18f3b202028615ab Description-en: Safe Rust bindings to `openpty` and related functions - Rust source code Source code for Debianized Rust crate "rustix-openpty" Package: librust-smallvec-dev Description-md5: a04bf9d13682b9b748f4d6d746b21e3c Description-en: Store up to a small number of items on the stack - Rust source code Source code for Debianized Rust crate "smallvec" Package: librust-smithay-client-toolkit-0.16-dev Description-md5: 47c90d3dcc6486e4f00912730ef67244 Description-en: Toolkit for making client wayland applications - Rust source code Source code for Debianized Rust crate "smithay-client-toolkit" Package: librust-smithay-client-toolkit-dev Description-md5: 47c90d3dcc6486e4f00912730ef67244 Description-en: Toolkit for making client wayland applications - Rust source code Source code for Debianized Rust crate "smithay-client-toolkit" Package: librust-speedate-dev Description-md5: c1b9463b8809b1b58d9e0d0bd6f8213a Description-en: Fast and simple datetime, date, time and duration parsing - Rust source code Source code for Debianized Rust crate "speedate" Package: librust-systemd-journal-logger-dev Description-md5: 5eb0b790b9bea1477d448168b1a0cd2c Description-en: Systemd journal logger for the log facade - Rust source code Source code for Debianized Rust crate "systemd-journal-logger" Package: librust-termimad-dev Description-md5: cf55c82d1cb3e3baef7b4f57fa615d43 Description-en: Markdown Renderer for the Terminal - Rust source code Source code for Debianized Rust crate "termimad" Package: librust-terminal-size-dev Description-md5: 8a12ce5d22aad13ddd1604ed0c8363e9 Description-en: Gets the size of your Linux or Windows terminal - Rust source code Source code for Debianized Rust crate "terminal_size" Package: librust-termwiz-dev Description-md5: 7f29b7ffe68dcd13c02c1eec3d5c3f27 Description-en: Terminal Wizardry for Unix and Windows - Rust source code Source code for Debianized Rust crate "termwiz" Package: librust-timerfd-dev Description-md5: a1da201f70757740a0934dffe2451e3d Description-en: Rust interface to the Linux kernel's timerfd API - Rust source code Source code for Debianized Rust crate "timerfd" Package: librust-tokio-postgres-dev Description-md5: 36e5b1a16b006ef2ce18cf182db154b4 Description-en: Native, asynchronous PostgreSQL client - Rust source code Source code for Debianized Rust crate "tokio-postgres" Package: librust-toml-span-dev Description-md5: 7c2204971e7821be9ce527a5751d48c4 Description-en: Toml parser and deserializer that preserves span information - Rust source code Source code for Debianized Rust crate "toml-span" Package: librust-tss-esapi-dev Description-md5: 186b48511cdbfe540be90f1b9d78e140 Description-en: Rust-native wrapper around TSS 2.0 Enhanced System API - Rust source code Source code for Debianized Rust crate "tss-esapi" Package: librust-uuid-dev Description-md5: 1feb0b73f80f1d5c4dca4626ca1e832b Description-en: Generate and parse UUIDs - Rust source code Source code for Debianized Rust crate "uuid" Package: librust-v-frame-dev Description-md5: 8f140457d91d4ec0acbf1efb86efee60 Description-en: Video Frame data structures, originally part of rav1e - Rust source code Source code for Debianized Rust crate "v_frame" Package: librust-wadl-dev Description-md5: 51430761a987b78505c7d0f9aee6891a Description-en: WADL parser for Rust - Rust source code Source code for Debianized Rust crate "wadl" Package: librust-wasm-bindgen-backend-dev Description-md5: b32ddeb24295cdb10833f85b6166162d Description-en: Backend code generation of the wasm-bindgen tool - Rust source code Source code for Debianized Rust crate "wasm-bindgen-backend" Package: librust-wasm-bindgen-macro-dev Description-md5: ef6d13da30bb8d3836b8c6ea18da3ec7 Description-en: Definition of the `#[wasm_bindgen]` attribute - Rust source code Source code for Debianized Rust crate "wasm-bindgen-macro" Package: librust-wasm-bindgen-macro-support-dev Description-md5: e600c22c81d2302d7c65d2d884404796 Description-en: Implementation of the `#[wasm_bindgen]` attribute - Rust source code Source code for Debianized Rust crate "wasm-bindgen-macro-support" Package: librust-wasm-bindgen-shared-dev Description-md5: a456f5c40006893980400d2e56ae3a5b Description-en: Shared support of wasm-bindgen and wasm-bindgen cli - Rust source code Source code for Debianized Rust crate "wasm-bindgen-shared" Package: librust-wayland-backend-dev Description-md5: 0962acc59a00408bf3f7bb5ea3e374a8 Description-en: Low-level bindings to the Wayland protocol - Rust source code Source code for Debianized Rust crate "wayland-backend" Package: librust-wayland-cursor-dev Description-md5: e49f50f3fd9119249dcc77ddce9f3d66 Description-en: Bindings to libwayland-cursor - Rust source code Source code for Debianized Rust crate "wayland-cursor" Package: librust-winit-dev Description-md5: d69a218c11ec24e10680be48e7550326 Description-en: Cross-platform window creation library - Rust source code Source code for Debianized Rust crate "winit" Package: librust-wl-clipboard-rs-dev Description-md5: e3cc29f33afed356870af2a7062b3587 Description-en: Access to the Wayland clipboard for terminal and other window-less applications - Rust source code Source code for Debianized Rust crate "wl-clipboard-rs" Package: librust-x11rb-dev Description-md5: 571a7dbba1ebfa0e335ce23de9838071 Description-en: Rust bindings to X11 - Rust source code Source code for Debianized Rust crate "x11rb" Package: librust-yoke-dev Description-md5: 5dd08a5ef5222277bed4a32655c58ad7 Description-en: Abstraction allowing borrowed data to be carried along with the backing data it borrows from - Rust source code Source code for Debianized Rust crate "yoke" Package: librust-zerovec-dev Description-md5: e9127a2c8e5a30b09b9d90f358057bbe Description-en: Zero-copy vector backed by a byte array - Rust source code Source code for Debianized Rust crate "zerovec" Package: librust-zip-dev Description-md5: 13112f44e1c10ebcde8cdaee72006882 Description-en: Support the reading and writing of zip files - Rust source code Source code for Debianized Rust crate "zip" Package: libsedlex-ocaml Description-md5: 1040c26e3c20fb4142705cc30e740f7d Description-en: Unicode-friendly lexer generator for OCaml (Runtime library) A lexer generator for OCaml, similar to ocamllex, but supporting Unicode. Contrary to ocamllex, lexer specifications for sedlex are embedded in regular OCaml source files. Package: libsedlex-ocaml-dev Description-md5: a1e4113da7a42f3c2896ddf47adb2b4f Description-en: Unicode-friendly lexer generator for OCaml (Development package) A lexer generator for OCaml, similar to ocamllex, but supporting Unicode. Contrary to ocamllex, lexer specifications for sedlex are embedded in regular OCaml source files. Package: libsocl-1.4-1t64 Description-md5: 607f8f9648f71dbaceaaeeaa04f4c6e8 Description-en: Task scheduler for heterogeneous multicore machines StarPU is a runtime system that offers support for heterogeneous multicore machines. While many efforts are devoted to design efficient computation kernels for those architectures (e.g. to implement BLAS kernels on GPUs or on Cell's SPUs), StarPU not only takes care of offloading such kernels (and implementing data coherency across the machine), but it also makes sure the kernels are executed as efficiently as possible. . This package contains an OpenCL-compatible library interface to StarPU. Package: libspglib-f08-2 Description-md5: ec9e99cc09aa61f032f62ec75d87225e Description-en: C library for crystal symmetry determination (Fortran interface) Spglib is a C library for crystal symmetry determination. Symmetry operations, space groups and other data can be obtained using this symmetry finder. . Features include: . * Identify space-group type * Find symmetry operations * Find a primitive cell * Search irreducible k-points * Refine crystal structure * Wyckoff position assignment . This package contains Fortran interface. Package: libspglib-f08-dev Description-md5: 7e1f3d45f667f32cdc798683393fa2bf Description-en: C library for crystal symmetry determination (Fortran development files) Spglib is a C library for crystal symmetry determination. Symmetry operations, space groups and other data can be obtained using this symmetry finder. . Features include: . * Identify space-group type * Find symmetry operations * Find a primitive cell * Search irreducible k-points * Refine crystal structure * Wyckoff position assignment . This package contains development files for Fortran interface. Package: libstarpu-1.4-6 Description-md5: 6e4e8db53b47fb942bef212def2a1e22 Description-en: Task scheduler for heterogeneous multicore machines StarPU is a runtime system that offers support for heterogeneous multicore machines. While many efforts are devoted to design efficient computation kernels for those architectures (e.g. to implement BLAS kernels on GPUs or on Cell's SPUs), StarPU not only takes care of offloading such kernels (and implementing data coherency across the machine), but it also makes sure the kernels are executed as efficiently as possible. . This package contains the main StarPU library Package: libstarpu-dev Description-md5: 967c103c8b3cf3662ee291f422fa5be6 Description-en: Task scheduler for heterogeneous multicore machines - dev StarPU is a runtime system that offers support for heterogeneous multicore machines. While many efforts are devoted to design efficient computation kernels for those architectures (e.g. to implement BLAS kernels on GPUs or on Cell's SPUs), StarPU not only takes care of offloading such kernels (and implementing data coherency across the machine), but it also makes sure the kernels are executed as efficiently as possible. . This package contains development headers and libraries. Package: libstarpu-openmp-llvm-1.4-1t64 Description-md5: fa0db18af8ec5b15b780924363dc10b1 Description-en: Task scheduler for heterogeneous multicore machines StarPU is a runtime system that offers support for heterogeneous multicore machines. While many efforts are devoted to design efficient computation kernels for those architectures (e.g. to implement BLAS kernels on GPUs or on Cell's SPUs), StarPU not only takes care of offloading such kernels (and implementing data coherency across the machine), but it also makes sure the kernels are executed as efficiently as possible. . This package contains the runtime support for LLVM OpenMP. Package: libstarpufft-1.4-1t64 Description-md5: a1e84fcd5b7aa1a04d6c8089b0a0ecef Description-en: Task scheduler for heterogeneous multicore machines StarPU is a runtime system that offers support for heterogeneous multicore machines. While many efforts are devoted to design efficient computation kernels for those architectures (e.g. to implement BLAS kernels on GPUs or on Cell's SPUs), StarPU not only takes care of offloading such kernels (and implementing data coherency across the machine), but it also makes sure the kernels are executed as efficiently as possible. . This package contains a hybrid CPU+GPU FFT library. Package: libstarpumpi-1.4-3t64 Description-md5: a7034f989f1ae2e40b4db1b5bb58bd47 Description-en: Task scheduler for heterogeneous multicore machines StarPU is a runtime system that offers support for heterogeneous multicore machines. While many efforts are devoted to design efficient computation kernels for those architectures (e.g. to implement BLAS kernels on GPUs or on Cell's SPUs), StarPU not only takes care of offloading such kernels (and implementing data coherency across the machine), but it also makes sure the kernels are executed as efficiently as possible. . This package contains MPI extensions for StarPU. Package: libstarpurm-1.4-1t64 Description-md5: 85559acb0db63a97ea4ac811b666f011 Description-en: Task scheduler for heterogeneous multicore machines StarPU is a runtime system that offers support for heterogeneous multicore machines. While many efforts are devoted to design efficient computation kernels for those architectures (e.g. to implement BLAS kernels on GPUs or on Cell's SPUs), StarPU not only takes care of offloading such kernels (and implementing data coherency across the machine), but it also makes sure the kernels are executed as efficiently as possible. . This package contains the resource management library. Package: libsymspg-dev Description-md5: 311000890c3ecb3c4ea3a6e470e6e772 Description-en: C library for crystal symmetry determination (development files) Spglib is a C library for crystal symmetry determination. Symmetry operations, space groups and other data can be obtained using this symmetry finder. . Features include: . * Identify space-group type * Find symmetry operations * Find a primitive cell * Search irreducible k-points * Refine crystal structure * Wyckoff position assignment . This package contains static library and header files. Package: libsymspg2 Description-md5: 645a484e4ecc5cc5fbced1554e727036 Description-en: C library for crystal symmetry determination Spglib is a C library for crystal symmetry determination. Symmetry operations, space groups and other data can be obtained using this symmetry finder. . Features include: . * Identify space-group type * Find symmetry operations * Find a primitive cell * Search irreducible k-points * Refine crystal structure * Wyckoff position assignment Package: libtasmanian-dev Description-md5: 4ba8a5e4d32eb43e43f912d1badc49f5 Description-en: Tasmanian development files The Toolkit for Adaptive Stochastic Modeling and Non-Intrusive ApproximatioN (Tasmanian) is a collection of robust libraries for high dimensional integration and interpolation as well as parameter calibration. . This package provides all the necessary development files to use the Tasmanian modules either from C++, C or Fortran 2003. Package: libtasmaniancaddons8 Description-md5: 3e4b5293529cf139af6ce71084919536 Description-en: Tasmanian add-ons module The Toolkit for Adaptive Stochastic Modeling and Non-Intrusive ApproximatioN (Tasmanian) is a collection of robust libraries for high dimensional integration and interpolation as well as parameter calibration. . This package contains a shared library that provides various additional functionalities not included in the core Tasmanian modules. Package: libtasmaniandream8 Description-md5: fd147c307e32f606c79f3f069e59737f Description-en: Tasmanian module for drawing samples from an arbitrary probability distribution The Toolkit for Adaptive Stochastic Modeling and Non-Intrusive ApproximatioN (Tasmanian) is a collection of robust libraries for high dimensional integration and interpolation as well as parameter calibration. . This package provides a shared library that implements the DiffeRential Evolution Adaptive Metropolis (DREAM), which is a method to draw samples from an arbitrary probability distribution defined by an arbitrary non-negative function. The DREAM approach is similar to the classical Markov Chain Monte Carlo, but it evolves a large number of chains simultaneously which leads to better parallelization and (potentially) faster convergence. In addition, multiple chains allow for better exploration of the probability domain, which is often advantageous when working with multi-modal distributions. . One of the main applications of DREAM is in the field of Bayesian inference, where samples are drawn from a posterior distribution comprised from a data-informed likelihood and an arbitrary model. The DREAM module of Tasmanian can use Tasmanian Sparse Grids approximation to either the model or the likelihood. Package: libtasmanianfortran8 Description-md5: 178a4a5429bdcb6d5f9ec2ef0edd5eef Description-en: Tasmanian sparse grids wrappers for Fortran 2003 The Toolkit for Adaptive Stochastic Modeling and Non-Intrusive ApproximatioN (Tasmanian) is a collection of robust libraries for high dimensional integration and interpolation as well as parameter calibration. . This package provides a SWIG wrapper around the Tasmanian C++ module for sparse grids, making it easy to call it from Fortran 2003. Package: libtasmaniansparsegrid8 Description-md5: fe2549f4da313b306c6571f60fccfb4a Description-en: Tasmanian module for sparse grids The Toolkit for Adaptive Stochastic Modeling and Non-Intrusive ApproximatioN (Tasmanian) is a collection of robust libraries for high dimensional integration and interpolation as well as parameter calibration. . This package provides a shared library that implements a variety of sparse grids, i.e. a family of algorithms for constructing multidimensional quadrature and interpolation rules using multiple tensor products of one dimensional rules with varying degree of precision. . The Tasmanian Sparse Grids Module implements a variety of grids that fall into five major categories: global grids, sequence grids, local polynomial grids, wavelet grids and fourier grids. Package: libtime-now-ocaml Description-md5: c9c4ccf46488eb1e89f082f380427252 Description-en: current time for OCaml (runtime files) This package provides a single function to report the current time in nanoseconds since the start of the Unix epoch. . This package contains runtime files. Package: libtime-now-ocaml-dev Description-md5: 9aff5c4d1b78d83c6dbb691762edd490 Description-en: current time for OCaml (dev files) This package provides a single function to report the current time in nanoseconds since the start of the Unix epoch. . This package contains development files. Package: libtorch-dev Description-md5: f82a036facab80b9cda749c723e0fe6f Description-en: Tensors and Dynamic neural networks in Python (Development Files) PyTorch is a Python package that provides two high-level features: . (1) Tensor computation (like NumPy) with strong GPU acceleration (2) Deep neural networks built on a tape-based autograd system . You can reuse your favorite Python packages such as NumPy, SciPy and Cython to extend PyTorch when needed. . This is the CPU-only version of PyTorch (Development files). Package: libtorch-test Description-md5: 4325c6e2507653d820eb920c5a2ad432 Description-en: Tensors and Dynamic neural networks in Python (Test Binaries) PyTorch is a Python package that provides two high-level features: . (1) Tensor computation (like NumPy) with strong GPU acceleration (2) Deep neural networks built on a tape-based autograd system . You can reuse your favorite Python packages such as NumPy, SciPy and Cython to extend PyTorch when needed. . This is the CPU-only version of PyTorch (Test Binaries). Package: libtorch2.6 Description-md5: 2af9ff00ffc5dab05134d4e047aa0a15 Description-en: Tensors and Dynamic neural networks in Python (Shared Objects) PyTorch is a Python package that provides two high-level features: . (1) Tensor computation (like NumPy) with strong GPU acceleration (2) Deep neural networks built on a tape-based autograd system . You can reuse your favorite Python packages such as NumPy, SciPy and Cython to extend PyTorch when needed. . This is the CPU-only version of PyTorch (Shared Objects). Package: libtyxml-ocaml Description-md5: f858b6b8a0ddf1d9dfc4a3290ee8940a Description-en: typed XML in OCaml (plugins) TyXML allows one to build XML trees whose validity is ensured by the typechecker. It's based on a translation of XML types into polymorphic variants, originally written by Thorsten Ohl. Currently, the transcription has been done for XHTML 1.0 and 1.1, HTML5 and SVG (partial). . TyXML also provides a generic printer and some low-level (and untyped) iterators over XML trees. The printer has options for printing XHTML in more browser-friendly way when served as "text/html" (instead of "text/xml"). HTML5 is always printed with those options. . All modules provided by TyXML are also provided in functorial interface, where every module is parameterised by the underlying XML representation. . A camlp4 extension, named Pa_tyxml, allows one to write HTML pages or HTML fragments with the usual syntax. . This package contains dynamically loadable modules for plugins. Package: libtyxml-ocaml-dev Description-md5: 6822bb8b9cfd04082bcafb6ff4f8a5a3 Description-en: typed XML in OCaml (development files) TyXML allows one to build XML trees whose validity is ensured by the typechecker. It's based on a translation of XML types into polymorphic variants, originally written by Thorsten Ohl. Currently, the transcription has been done for XHTML 1.0 and 1.1, HTML5 and SVG (partial). . TyXML also provides a generic printer and some low-level (and untyped) iterators over XML trees. The printer has options for printing XHTML in more browser-friendly way when served as "text/html" (instead of "text/xml"). HTML5 is always printed with those options. . All modules provided by TyXML are also provided in functorial interface, where every module is parameterised by the underlying XML representation. . A camlp4 extension, named Pa_tyxml, allows one to write HTML pages or HTML fragments with the usual syntax. . This package contains the development files needed to use TyXML. Package: libtyxml-ocaml-doc Description-md5: b4fe7c034b9adb6ca67d4c26c8811c5d Description-en: typed XML in OCaml (documentation) TyXML allows one to build XML trees whose validity is ensured by the typechecker. It's based on a translation of XML types into polymorphic variants, originally written by Thorsten Ohl. Currently, the transcription has been done for XHTML 1.0 and 1.1, HTML5 and SVG (partial). . TyXML also provides a generic printer and some low-level (and untyped) iterators over XML trees. The printer has options for printing XHTML in more browser-friendly way when served as "text/html" (instead of "text/xml"). HTML5 is always printed with those options. . All modules provided by TyXML are also provided in functorial interface, where every module is parameterised by the underlying XML representation. . A camlp4 extension, named Pa_tyxml, allows one to write HTML pages or HTML fragments with the usual syntax. . This package contains the documentation of TyXML. Package: libunoil-java Description-md5: 9e017c19c2cbf8cab7b83a1ee17e6890 Description-en: transitional package for LibreOffice UNO runtime environment LibreOffice is a full-featured office productivity suite that provides a near drop-in replacement for Microsoft(R) Office. . This has now been merged into liblibreoffice-java and this package thus can be safely removed once installed. Package: libunwind-19 Description-md5: 70dd0c847cdef69a0ce9c2191d54b77e Description-en: production-quality unwinder libunwind is a production-quality unwinder, with platform support for DWARF unwind info, SjLj, and ARM EHABI. . The low level libunwind API was designed to work either in-process (aka local) or to operate on another process (aka remote), but only the local path has been implemented. Remote unwinding remains as future work. Package: libunwind-19-dev Description-md5: 70dd0c847cdef69a0ce9c2191d54b77e Description-en: production-quality unwinder libunwind is a production-quality unwinder, with platform support for DWARF unwind info, SjLj, and ARM EHABI. . The low level libunwind API was designed to work either in-process (aka local) or to operate on another process (aka remote), but only the local path has been implemented. Remote unwinding remains as future work. Package: libunwind-21 Description-md5: 70dd0c847cdef69a0ce9c2191d54b77e Description-en: production-quality unwinder libunwind is a production-quality unwinder, with platform support for DWARF unwind info, SjLj, and ARM EHABI. . The low level libunwind API was designed to work either in-process (aka local) or to operate on another process (aka remote), but only the local path has been implemented. Remote unwinding remains as future work. Package: libunwind-21-dev Description-md5: 70dd0c847cdef69a0ce9c2191d54b77e Description-en: production-quality unwinder libunwind is a production-quality unwinder, with platform support for DWARF unwind info, SjLj, and ARM EHABI. . The low level libunwind API was designed to work either in-process (aka local) or to operate on another process (aka remote), but only the local path has been implemented. Remote unwinding remains as future work. Package: libunwind-22 Description-md5: 70dd0c847cdef69a0ce9c2191d54b77e Description-en: production-quality unwinder libunwind is a production-quality unwinder, with platform support for DWARF unwind info, SjLj, and ARM EHABI. . The low level libunwind API was designed to work either in-process (aka local) or to operate on another process (aka remote), but only the local path has been implemented. Remote unwinding remains as future work. Package: libunwind-22-dev Description-md5: 70dd0c847cdef69a0ce9c2191d54b77e Description-en: production-quality unwinder libunwind is a production-quality unwinder, with platform support for DWARF unwind info, SjLj, and ARM EHABI. . The low level libunwind API was designed to work either in-process (aka local) or to operate on another process (aka remote), but only the local path has been implemented. Remote unwinding remains as future work. Package: libusb-ocaml Description-md5: 21b44918e271ba69391cf36d8bc77883 Description-en: OCaml bindings to libusb-1.0 (runtime) OCaml-USB is a binding to libusb-1.0, a userspace USB programming library. It uses Lwt to ease use of asynchronous IO features of libusb-1.0. . This package contains the runtime libraries for OCaml-USB. Package: libusb-ocaml-dev Description-md5: 023b491c31d22274d979468eb2a148fc Description-en: OCaml bindings to libusb-1.0 OCaml-USB is a binding to libusb-1.0, a userspace USB programming library. It uses Lwt to ease use of asynchronous IO features of libusb-1.0. . This package contains development files for OCaml-USB. Package: libuucp-ocaml Description-md5: dd511ba3a2bb5aea54e6269a4da5a303 Description-en: access properties of Unicode characters (runtime files) This low-deps library gives access to properties of Unicode characters of the Unicode character database. . This package provides the runtime files. Package: libuucp-ocaml-dev Description-md5: dc5c8c285648923bba3d87915b1d3f57 Description-en: access properties of Unicode characters (dev files) This low-deps library gives access to properties of Unicode characters of the Unicode character database. . This package provides the dev files. Package: libuuseg-ocaml Description-md5: bcc675bca5b9bd248bdca33a654f8248 Description-en: unicode text segmentation for OCaml (plugins) Uuseg is an OCaml library for segmenting Unicode text. It implements the locale independent Unicode text segmentation algorithms to detect grapheme cluster, word and sentence boundaries and the Unicode line breaking algorithm to detect line break opportunities. . The library is independent from any IO mechanism or Unicode text data structure and it can process text without a complete in-memory representation. . This package contains dynamically loadable modules for plugins. Package: libuuseg-ocaml-dev Description-md5: 41eaefbd3d8f170c29430685c9164d3e Description-en: unicode text segmentation for OCaml (development files) Uuseg is an OCaml library for segmenting Unicode text. It implements the locale independent Unicode text segmentation algorithms to detect grapheme cluster, word and sentence boundaries and the Unicode line breaking algorithm to detect line break opportunities. . The library is independent from any IO mechanism or Unicode text data structure and it can process text without a complete in-memory representation. . This package contains the development modules you need to use Uuseg in your programs. Package: libvirt-clients-qemu Description-md5: d79e49830cf742392368297f08d036ea Description-en: virtualization library - clients (QEMU specific) libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains a number of clients that are specifically for use with the QEMU connection driver, e.g. a proxy for the QMP protocol. Package: libvirt-daemon-driver-lxc Description-md5: ca2e42014970d5eaf7e708d06d6e1491 Description-en: virtualization daemon - LXC connection driver libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the LXC connection driver. Package: libvirt-daemon-driver-storage-gluster Description-md5: 831227ba22b9f406fcc3cbaacc04d783 Description-en: virtualization daemon - GlusterFS storage driver libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the storage driver for GlusterFS. Package: libvirt-daemon-driver-storage-iscsi-direct Description-md5: 350b7fb146846229fad16f440c36c84a Description-en: virtualization daemon - iSCSI (libiscsi) storage driver libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the storage driver for iSCSI volumes, implemented using libiscsi. Package: libvirt-daemon-driver-storage-rbd Description-md5: 9824e3e02521a6e0c03d94b6fd75e3f0 Description-en: virtualization daemon - RBD/RADOS/Ceph storage driver libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the storage driver for RBD/RADOS/Ceph. Package: libvirt-daemon-driver-storage-zfs Description-md5: f1b67fd0d6ee2b797f3f2cc162c99eaa Description-en: virtualization daemon - ZFS storage driver libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the storage driver for ZFS. Package: libvirt-daemon-driver-vbox Description-md5: 6cac742650055375a02afb889b5f3acc Description-en: virtualization daemon - VirtualBox connection driver libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the VirtualBox connection driver. Package: libvirt-daemon-driver-xen Description-md5: e9a0dc3639475356c140a07820252356 Description-en: virtualization daemon - Xen connection driver libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the Xen connection driver. Package: libvirt-daemon-plugin-sanlock Description-md5: f627862f19b542c7c85ec382f95e254c Description-en: virtualization daemon - locking plugin (sanlock) libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the plugin that implements disk locking using sanlock. Package: libvirt-daemon-system-systemd Description-md5: c7d1a0b80f4325b34d72942a87dea1cd Description-en: transitional dummy package This is a transitional dummy package and can be safely removed. Package: libvirt-daemon-system-sysv Description-md5: c7d1a0b80f4325b34d72942a87dea1cd Description-en: transitional dummy package This is a transitional dummy package and can be safely removed. Package: libvirt-dev Description-md5: 5480a0e0c0772ebb4cb4b40e4a16ea6b Description-en: virtualization library - development files libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the header files and other supporting files that are needed when developing applications that use libvirt. Package: libvirt-login-shell Description-md5: bbcadac8e7091588a5aa9bd02c3bea4b Description-en: isolate user sessions using LXC containers libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the virt-login-shell tool, which can be set as a user's login shell to isolate their sessions using LXC containers. Package: libvirt-sanlock Description-md5: c7d1a0b80f4325b34d72942a87dea1cd Description-en: transitional dummy package This is a transitional dummy package and can be safely removed. Package: libvirt-ssh-proxy Description-md5: fa86a12fad044173f36151b437fa21f9 Description-en: virtualization library - SSH proxy libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . When this package is installed, ssh will be able to connect to locally running libvirt domains via VSOCK. Package: libvirt-wireshark Description-md5: fad70ce533be6046e9bd327ca164215d Description-en: virtualization library - Wireshark dissector libvirt exposes a long-term stable API that can be used to interact with various hypervisors. Its architecture is highly modular, with most features implemented as optional drivers. It can be used from C as well as several other programming languages, and it forms the basis of virtualization solutions tailored for a range of use cases. . This package contains the Wireshark dissector. Package: libwireshark-data Description-md5: c97c84748e457d000a383c101c74e67e Description-en: network packet dissection library -- data files The libwireshark library provides the network packet dissection services developed by the Wireshark project. . This package contains the platform independent files. Package: libwireshark-dev Description-md5: 25ccc1e5a9f0de13127d7669433e7838 Description-en: network packet dissection library -- development files The "libwireshark" library provides the network packet dissection services developed by the Wireshark project. . This package contains the static library and the C header files that are needed for applications to use libwireshark services. Package: libwireshark19 Description-md5: ab8eca3dff7b66974ed95f1142899d51 Description-en: network packet dissection library -- shared library The libwireshark library provides the network packet dissection services developed by the Wireshark project. Package: libwiretap-dev Description-md5: a4b3626aeba85265e850e80dbf470c9e Description-en: network packet capture library -- development files Wiretap, part of the Wireshark project, is a library that allows one to read and write several packet capture file formats. . Supported formats are: * Libpcap * Sniffer * LANalyzer * Network Monitor * "snoop" * "iptrace" * Sniffer Basic (NetXRay)/Windows Sniffer Pro * RADCOM WAN/LAN Analyzers * Lucent/Ascend access products * HP-UX nettl * Toshiba ISDN Router * ISDN4BSD "i4btrace" utility * Cisco Secure Intrusion Detection System iplogging facility * pppd logs (pppdump-format files) * VMS TCPTRACE * DBS Etherwatch (text format) * Catapult DCT2000 (.out files) . Wiretap's shortcomings are: no filter capability and no support for packet capture. . This package contains the static library and the C header files. Package: libwiretap16 Description-md5: c47b22d9617f547351ca36c045296943 Description-en: network packet capture library -- shared library Wiretap, part of the Wireshark project, is a library that allows one to read and write several packet capture file formats. . Supported formats are: * Libpcap * Sniffer * LANalyzer * Network Monitor * "snoop" * "iptrace" * Sniffer Basic (NetXRay)/Windows Sniffer Pro * RADCOM WAN/LAN Analyzers * Lucent/Ascend access products * HP-UX nettl * Toshiba ISDN Router * ISDN4BSD "i4btrace" utility * Cisco Secure Intrusion Detection System iplogging facility * pppd logs (pppdump-format files) * VMS TCPTRACE * DBS Etherwatch (text format) * Catapult DCT2000 (.out files) . Wiretap's shortcomings are: no filter capability and no support for packet capture. Package: libwsutil-dev Description-md5: f642aa8c8c475deb8f126c3c3f9e5490 Description-en: network packet dissection utilities library -- development files The libwsutil library provides utility functions for Wireshark and related binaries and shared libraries. . This package contains the static library and the C header files that are needed for applications to use the libwsutil library. Package: libwsutil17 Description-md5: befab528fca2338a8aee2ed1554c7893 Description-en: network packet dissection utilities library -- shared library The libwsutil library provides utility functions for Wireshark and related binaries and shared libraries. Package: libxdmf-dev Description-md5: b71cbe04372ed29c372ce47fa72cc1db Description-en: eXtensible Data Model and Format development tools This package contains the headers and development tools needed to build against the Xdmf libraries. Package: libxdmf3t64 Description-md5: c8c6de8d1a10cb7c1a8ac2e6afb0dbfc Description-en: eXtensible Data Model and Format library The need for a standardized method to exchange scientific data between High Performance Computing codes and tools lead to the development of the eXtensible Data Model and Format (XDMF) . Uses for XDMF range from a standard format used by HPC codes to take advantage of widely used visualization programs like ParaView and VisIt, to a mechanism for performing coupled calculations using multiple, previously stand alone codes. . XDMF uses XML to store Light data and to describe the data Model. HDF5 is used to store Heavy data. The data Format is stored redundantly in both XML and HDF5. This allows tools to parse XML to determine the resources that will be required to access the Heavy data. . This package provides a version built on the serial version of HDF5. Package: lld-19 Description-md5: 39b52f07f105b329dd7852cce89ebb7d Description-en: LLVM-based linker LLD is a new, high-performance linker. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project. Package: lld-21 Description-md5: 39b52f07f105b329dd7852cce89ebb7d Description-en: LLVM-based linker LLD is a new, high-performance linker. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project. Package: lld-22 Description-md5: 39b52f07f105b329dd7852cce89ebb7d Description-en: LLVM-based linker LLD is a new, high-performance linker. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project. Package: lldb-19 Description-md5: 45d52d0209cd7953d2f2bc4d1a99170f Description-en: Next generation, high-performance debugger LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. Package: lldb-21 Description-md5: 45d52d0209cd7953d2f2bc4d1a99170f Description-en: Next generation, high-performance debugger LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. Package: lldb-22 Description-md5: 45d52d0209cd7953d2f2bc4d1a99170f Description-en: Next generation, high-performance debugger LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. Package: llvm-19 Description-md5: 07d463911771b9679a5f0131f40992d4 Description-en: Modular compiler and toolchain technologies LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . The strengths of the LLVM infrastructure are its extremely simple design (which makes it easy to understand and use), source-language independence, powerful mid-level optimizer, automated compiler debugging support, extensibility, and its stability and reliability. LLVM is currently being used to host a wide variety of academic research projects and commercial projects. LLVM includes C and C++ front-ends, a front-end for a Forth-like language (Stacker), a young scheme front-end, and Java support is in development. LLVM can generate code for X96, SparcV10, PowerPC or many other architectures. Package: llvm-19-dev Description-md5: 29f654aa391c01f742a2023c872d7a49 Description-en: Modular compiler and toolchain technologies, libraries and headers LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides the libraries and headers to develop applications using llvm. Package: llvm-19-doc Description-md5: 19896d0a63f9911e3a7a7b85ecfac407 Description-en: Modular compiler and toolchain technologies, documentation LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package contains all documentation (extensive). Package: llvm-19-examples Description-md5: 61fee537b751bf39ce1ac5bf27ca3806 Description-en: Modular compiler and toolchain technologies, examples LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package contains examples for using LLVM, both in developing extensions to LLVM and in using it to compile code. Package: llvm-19-linker-tools Description-md5: 34d6480db2d150315f7bca6065772d03 Description-en: Modular compiler and toolchain technologies - Plugins LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . This package contains the LLVMgold and LLVMPolly linker plugins. Package: llvm-19-runtime Description-md5: a2e425ebfc2fcd56b539f44a28559b4a Description-en: Modular compiler and toolchain technologies, IR interpreter LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides the minimal required to execute programs in LLVM format. Package: llvm-19-tools Description-md5: 709eba32627c3c079585c05fc5963fe8 Description-en: Modular compiler and toolchain technologies, tools LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides tools for testing. Package: llvm-21 Description-md5: 07d463911771b9679a5f0131f40992d4 Description-en: Modular compiler and toolchain technologies LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . The strengths of the LLVM infrastructure are its extremely simple design (which makes it easy to understand and use), source-language independence, powerful mid-level optimizer, automated compiler debugging support, extensibility, and its stability and reliability. LLVM is currently being used to host a wide variety of academic research projects and commercial projects. LLVM includes C and C++ front-ends, a front-end for a Forth-like language (Stacker), a young scheme front-end, and Java support is in development. LLVM can generate code for X96, SparcV10, PowerPC or many other architectures. Package: llvm-21-dev Description-md5: 29f654aa391c01f742a2023c872d7a49 Description-en: Modular compiler and toolchain technologies, libraries and headers LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides the libraries and headers to develop applications using llvm. Package: llvm-21-doc Description-md5: 19896d0a63f9911e3a7a7b85ecfac407 Description-en: Modular compiler and toolchain technologies, documentation LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package contains all documentation (extensive). Package: llvm-21-examples Description-md5: 61fee537b751bf39ce1ac5bf27ca3806 Description-en: Modular compiler and toolchain technologies, examples LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package contains examples for using LLVM, both in developing extensions to LLVM and in using it to compile code. Package: llvm-21-linker-tools Description-md5: 34d6480db2d150315f7bca6065772d03 Description-en: Modular compiler and toolchain technologies - Plugins LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . This package contains the LLVMgold and LLVMPolly linker plugins. Package: llvm-21-runtime Description-md5: a2e425ebfc2fcd56b539f44a28559b4a Description-en: Modular compiler and toolchain technologies, IR interpreter LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides the minimal required to execute programs in LLVM format. Package: llvm-21-tools Description-md5: 709eba32627c3c079585c05fc5963fe8 Description-en: Modular compiler and toolchain technologies, tools LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides tools for testing. Package: llvm-22 Description-md5: 07d463911771b9679a5f0131f40992d4 Description-en: Modular compiler and toolchain technologies LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . The strengths of the LLVM infrastructure are its extremely simple design (which makes it easy to understand and use), source-language independence, powerful mid-level optimizer, automated compiler debugging support, extensibility, and its stability and reliability. LLVM is currently being used to host a wide variety of academic research projects and commercial projects. LLVM includes C and C++ front-ends, a front-end for a Forth-like language (Stacker), a young scheme front-end, and Java support is in development. LLVM can generate code for X96, SparcV10, PowerPC or many other architectures. Package: llvm-22-dev Description-md5: 29f654aa391c01f742a2023c872d7a49 Description-en: Modular compiler and toolchain technologies, libraries and headers LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides the libraries and headers to develop applications using llvm. Package: llvm-22-doc Description-md5: 19896d0a63f9911e3a7a7b85ecfac407 Description-en: Modular compiler and toolchain technologies, documentation LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package contains all documentation (extensive). Package: llvm-22-examples Description-md5: 61fee537b751bf39ce1ac5bf27ca3806 Description-en: Modular compiler and toolchain technologies, examples LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package contains examples for using LLVM, both in developing extensions to LLVM and in using it to compile code. Package: llvm-22-linker-tools Description-md5: 34d6480db2d150315f7bca6065772d03 Description-en: Modular compiler and toolchain technologies - Plugins LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . This package contains the LLVMgold and LLVMPolly linker plugins. Package: llvm-22-runtime Description-md5: a2e425ebfc2fcd56b539f44a28559b4a Description-en: Modular compiler and toolchain technologies, IR interpreter LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides the minimal required to execute programs in LLVM format. Package: llvm-22-tools Description-md5: 709eba32627c3c079585c05fc5963fe8 Description-en: Modular compiler and toolchain technologies, tools LLVM is a collection of libraries and tools that make it easy to build compilers, optimizers, just-in-time code generators, and many other compiler-related programs. . LLVM uses a single, language-independent virtual instruction set both as an offline code representation (to communicate code between compiler phases and to run-time systems) and as the compiler internal representation (to analyze and transform programs). This persistent code representation allows a common set of sophisticated compiler techniques to be applied at compile-time, link-time, install-time, run-time, or "idle-time" (between program runs). . This package provides tools for testing. Package: llvm-spirv-17 Description-md5: 33288f7a7442b761527a01539254f77d Description-en: bi-directional translator for LLVM/SPIRV SPIRV-LLVM-translator is a LLVM/SPIRV bi-directional translator. This package includes a library and a tool for translation between LLVM IR and SPIR-V. . This package includes the llvm-spirv-17 binary. Package: llvm-spirv-18 Description-md5: 3a43542533b5b6d31357c8f81a685103 Description-en: bi-directional translator for LLVM/SPIRV SPIRV-LLVM-translator is a LLVM/SPIRV bi-directional translator. This package includes a library and a tool for translation between LLVM IR and SPIR-V. . This package includes the llvm-spirv-18 binary. Package: lomiri-location-service-bin Description-md5: 2ad6838162f2a388bb373dd7e0bb00e9 Description-en: Lomiri Location Service binaries Aggregates position/velocity/heading updates and exports them over DBus. . This package contains the service executable and man pages. Package: lomiri-location-service-doc Description-md5: 3eef17a9a65a8a9aaffca0be7d7790f5 Description-en: Lomiri Location Service documentation Aggregates position/velocity/heading updates and exports them over DBus. . This package contains documentation for the service and client. Package: lomiri-location-service-tests Description-md5: 32b4f30a78bc734a539b06626a32bb39 Description-en: Lomiri Location Service test executables Aggregates position/velocity/heading updates and exports them over DBus. . This package contains all test executables. Package: looking-glass-client Description-md5: 30345d7917221fbfe91d8bec18f2c2d6 Description-en: Low latency KVM FrameRelay implementation for VGA Passthrough LookingGlass enables you to use shared memory to pass rendered frames from a virtual machine back to the host system. . A LookingGlass Host implementation is required to run on the guest virtual machine. It is recommended that the client and host versions match. See the README.Debian for more information. Package: lua-busted Description-md5: a9c0a5f4f7a1779e49ed6e40aaf8bfde Description-en: Lua unit testing framework focused on ease of use busted test specs read naturally without being too verbose. You can even chain asserts and negations, such as assert.not.equals. Nest blocks of tests with contextual descriptions using describe, and add tags to blocks so you can run arbitrary groups of tests. . An extensible assert library allows you to extend and craft your own assert functions specific to your case with method chaining. A modular output library lets you add on your own output format, along with the default pretty and plain terminal output, JSON with and without streaming, and TAP-compatible output that allows you to run busted specs within most CI servers. You can even register phrases for internationaliation with custom or built-in language packs. Package: luametatex Description-md5: 23eadb965d7e98ba08ddf10d8ce50a7c Description-en: Next generation ConTeXt processing engine The LuaMetaTeX program is a light weight variant of LuaTeX. This program finds its origin in parts of TeX (the original program, eTeX (some extensions), pdfTeX (more extensions) Aleph (based on Omega, directions) and of course LuaTeX (lots of things). . This is a follow up on the LuaTeX project. The source is considered part of the ConTeXt distribution and managed by the ConTeXt development team and the ConTeXt user group. That way it can be guaranteed that the engine and this TeX macro package work together as expected. The idea is that users can easily compile the source themselves and that way have a guaranteed long term (minimal) TeX based installation. Because the management scripts are in Lua, only one binary is needed to serve the ConTeXt distribution. . In the source code it was tried to stay close to the ancestors, LuaTeX, pdfTeX, eTeX and TeX, but in the meantime due to additions there is quite some diverge. There are new primitives and submechanisms, there is more control over the inner workings, font handling is mostly delegated to Lua and there is no built-in backend. The code base is all-inclusive and has no (nor will have) dependencies on external libraries. Performance and memory consumption have been optimized and the additions (compared to LuaTeX) don’t have a negative impact. Package: lyricue Description-md5: de7205151a71a3fbaf16eafef408bd83 Description-en: The GNU Lyric Display System This application is used to edit/display song lyrics on a second screen/projector for use at singing events such as church services. Features * User access controls * Networkable (ie run interface and server on different machines) * Multiple Playlists * Copyright info for songs * Automatic Page advance * Re-orderable playlist * Playlist entries to change background * All songs kept in a database and so screens are dynamically generated, allowing you to easily change the backdrop, font etc without having to change all the songs * Can automatically create screens for bible verses * Quick searching for songs Package: menhir Description-md5: eb72870474ecd3a5b03e7e1f8f3c8a41 Description-en: Parser generator for OCaml Menhir is a LR(1) parser generator for the OCaml programming language. It is mostly compatible with the ocamlyacc parser generator provided with the OCaml system, and has the following enhancements over ocamlyacc: * it accepts LR(1) grammars, * it offers parameterized nonterminal symbols as well as a library of standard definitions, * it explains conflicts in terms of the grammar, * it allows grammar specifications to be split over multiple files and parametrized by OCaml modules, * it produces reentrant parsers. Package: menhir-doc Description-md5: 91dbeecec9865908a9e2366645d8e7b8 Description-en: Documentation of the Menhir parser generator for OCaml Menhir is a LR(1) parser generator for the OCaml programming language. It is mostly compatible with the ocamlyacc parser generator provided with OCaml, and has a number of enhancements over ocamlyacc. . This package contains the Menhir manual as a pdf file, and the collection of Menhir examples. Package: mlir-19-tools Description-md5: d0b5aeb3d29bd335ae224dda484fdc7a Description-en: Multi-Level Intermediate Representation tools Novel approach to building reusable and extensible compiler infrastructure. MLIR aims to address software fragmentation, improve compilation for heterogeneous hardware, significantly reduce the cost of building domain specific compilers, and aid in connecting existing compilers together. . This package provides tools. Package: mlir-21-tools Description-md5: d0b5aeb3d29bd335ae224dda484fdc7a Description-en: Multi-Level Intermediate Representation tools Novel approach to building reusable and extensible compiler infrastructure. MLIR aims to address software fragmentation, improve compilation for heterogeneous hardware, significantly reduce the cost of building domain specific compilers, and aid in connecting existing compilers together. . This package provides tools. Package: mlir-22-tools Description-md5: d0b5aeb3d29bd335ae224dda484fdc7a Description-en: Multi-Level Intermediate Representation tools Novel approach to building reusable and extensible compiler infrastructure. MLIR aims to address software fragmentation, improve compilation for heterogeneous hardware, significantly reduce the cost of building domain specific compilers, and aid in connecting existing compilers together. . This package provides tools. Package: mrcal Description-md5: 59ad469638ccc6ec3a5a333baeb036c8 Description-en: Calibration and SFM library A photogrammetry toolkit that provides improved methods for making and using camera models (calibration, tracking, mapping, etc). The focus is on calibration and uncertainty propagation to produce the most accurate models possible. This package provides the user-facing tools Package: mypy Description-md5: d3e201c7c5775a9d8fc37033fa52a4bb Description-en: optional static typing for Python Add type annotations to your Python programs, and use mypy to type check them. Mypy is essentially a Python linter on steroids, and it can catch many programming errors by analyzing your program, without actually having to run it. Mypy has a powerful type system with features such as type inference, gradual typing, generics and union types. . This package provides the command-line interface. Package: mypy-doc Description-md5: 90ecb0fecb59e09596684d6f30a5022c Description-en: documentation for mypy Add type annotations to your Python programs, and use mypy to type check them. Mypy is essentially a Python linter on steroids, and it can catch many programming errors by analyzing your program, without actually having to run it. Mypy has a powerful type system with features such as type inference, gradual typing, generics and union types. . This package provides the documentation. Package: netpbm Description-md5: 4d025b52e6499467b1af0bf4e4a44e07 Description-en: Graphics conversion tools between image formats Netpbm is a toolkit for manipulation of graphic images, including conversion of images between a variety of different formats. There are over 220 separate tools in the package including converters for more than 80 graphics formats. Package: node-body-parser Description-md5: 8793b6180a714d5f98c8a711e4d38330 Description-en: body parsing middleware - Node.js module body-parser is a Node.js module which provides connect middleware for parsing HTTP request bodies. It supports JSON and urlencoded formats and does not support multipart requests. . Node.js is an event-based server-side JavaScript engine. Package: node-browserslist Description-md5: 5a3167af92a0a4242572a8ba2cc801a9 Description-en: Share browsers list between different front-end tools This module can be used to share browsers list between different front-end tools, like Autoprefixer, Stylelint and babel-env-preset. . Developers set browsers list in queries like 'last 2 version' to be free from updating browser versions manually. Browserslist will use 'Can I Use' data for this queries. . Node.js is an event-based server-side JavaScript engine. Package: node-buble Description-md5: e4a9f069782f79ae20e81974f3cee405 Description-en: Fast ES2015 compiler for Node.js Bublé is a ES2015 compiler : it will turn ES6 javascript code into Javascript that can run in older ES5 environments. Notice that not all of ES6 is supported, either because they give size or performance issues or because they can't be transpiled to ES5. . ES6 (or ES2015) is ECMAScript version 6 released in 2015 and is supported for instance by Firefox 55. The older ES5 released in 2011 was supported for instance by Firefox 4. . Node.js is an event-based server-side JavaScript engine. Package: node-jquery Description-md5: b256542cea92f157d1b6de9b25c69ab9 Description-en: NodeJS wrapper for jQuery jQuery is a fast, concise, JavaScript Library that simplifies how you traverse HTML documents, handle events, perform animations, and add Ajax interactions to your web pages. jQuery is designed to change the way that you write JavaScript. . This package contains the NodeJS module. Package: node-reinterval Description-md5: e7b8469a00113d80ec3b4bc1b4d85e1d Description-en: reschedulable setInterval for node.js This library provides a way to reschedule a callback with assigned interval. . Node.js is an event-based server-side JavaScript engine. Package: nodejs Description-md5: 0d0bbaed314d7d26588d112ee4ede074 Description-en: evented I/O for V8 javascript - runtime executable Node.js is a platform built on Chrome's JavaScript runtime for easily building fast, scalable network applications. Node.js uses an event-driven, non-blocking I/O model that makes it lightweight and efficient, perfect for data-intensive real-time applications that run across distributed devices. . Node.js is bundled with several useful libraries to handle server tasks: . System, Events, Standard I/O, Modules, Timers, Child Processes, POSIX, HTTP, Multipart Parsing, TCP, DNS, Assert, Path, URL, Query Strings. Package: nodejs-doc Description-md5: f6ac623e9b900beab3517ba17914bb07 Description-en: API documentation for Node.js, the javascript platform Node.js is a platform built on Chrome's JavaScript runtime for easily building fast, scalable network applications. Node.js uses an event-driven, non-blocking I/O model that makes it lightweight and efficient, perfect for data-intensive real-time applications that run across distributed devices. . Node.js is bundled with several useful libraries to handle server tasks: . System, Events, Standard I/O, Modules, Timers, Child Processes, POSIX, HTTP, Multipart Parsing, TCP, DNS, Assert, Path, URL, Query Strings. . This package contains API documentation for Node.js. Package: nscd Description-md5: e8172254ec0df735a3e44c0f557100bc Description-en: GNU C Library: Name Service Cache Daemon A daemon which handles passwd, group and host lookups for running programs and caches the results for the next query. You should install this package only if you use slow services like LDAP, NIS or NIS+. Package: ntruprime Description-md5: 755f27b1c673b04ecce895958fd79cb6 Description-en: microlibrary for Streamlined NTRU Prime - command line tools libntruprime is an implementation of the Streamlined NTRU Prime cryptosystem as a microlibrary. . The command-line interface for libntruprime provides the following command-line tools: . sntrup653-keypair sntrup761-keypair sntrup857-keypair sntrup953-keypair sntrup1013-keypair sntrup1277-keypair sntrup653-enc sntrup761-enc sntrup857-enc sntrup953-enc sntrup1013-enc sntrup1277-enc sntrup653-dec sntrup761-dec sntrup857-dec sntrup953-dec sntrup1013-dec sntrup1277-dec ntruprime-fulltest ntruprime-speed ntruprime-test . Each tool exits 0 on success, nonzero on failure. . These tools allow libntruprime to be easily used from shell scripts. Other languages can also use libntruprime via these tools, but languages typically have good support for FFI and can use the C interface directly. . Key generation (for, e.g., sntrup1277): sntrup1277-keypair 5>publickey 9>secretkey . Encapsulation (for, e.g., sntrup1277): sntrup1277-enc >ciphertext 7>sessionkey 4sessionkey >> from yarl import URL >>> url = URL('https://www.python.org/~guido?arg=1#frag') >>> url URL('https://www.python.org/~guido?arg=1#frag') . All URL parts: scheme, user, passsword, host, port, path, query and fragment are accessible by properties: . >>> url.scheme 'https' >>> url.host 'www.python.org' >>> url.path '/~guido' >>> url.query_string 'arg=1' >>> url.query >>> url.fragment 'frag' . All URL manipulations produces a new URL object: . >>> url.parent / 'downloads/source' URL('https://www.python.org/downloads/source') . Strings passed to constructor and modification methods are automatically encoded giving canonical representation as result:: . >>> url = URL('https://www.python.org/путь') >>> url URL('https://www.python.org/%D0%BF%D1%83%D1%82%D1%8C') . Regular properties are percent-decoded, use `raw_` versions for getting encoded strings: . >>> url.path '/путь' . >>> url.raw_path '/%D0%BF%D1%83%D1%82%D1%8C' . Human readable representation of URL is available as `.human_repr()`: . >>> url.human_repr() 'https://www.python.org/путь' . This package provides documentation for yarl Package: python-zstandard-doc Description-md5: 889015d4f93463fb32c0e694c2251e06 Description-en: Python bindings for interfacing with Zstandard library (docs) This project provides Python bindings for interfacing with the Zstandard compression library. A C extension and CFFI interface are provided. . The primary goal of the project is to provide a rich interface to the underlying C API through a Pythonic interface while not sacrificing performance. This means exposing most of the features and flexibility of the C API while not sacrificing usability or safety that Python provides. . Zstandard, or zstd as short version, is a fast lossless compression algorithm, targeting real-time compression scenarios at zlib-level and better compression ratios. . This package provides the documentation for python-zstandard. Package: python3-access2base Description-md5: 62049593c5d96b74959809148594af38 Description-en: interface between Python and the LibreOffice Access2Base library Access2Base is a LibreOffice/OpenOffice Basic library of macros for (business or personal) application developers and advanced users. . Their syntax and their meaning are directly inspired by MSAccess. The macros are callable from - a LibreOffice / OpenOffice Base application, - any LibreOffice / OpenOffice document wanting to access data stored in databases. . This package contains an interface between Python (user) scripts and Access2Base. Package: python3-adios2 Description-md5: cff0fa3850423e44b9a37de72f9865f5 Description-en: ADIOS2 Adaptable IO system for simulations - Python bindings The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This is a dependency package raquiring either the serial or MPI build of the ADIOS2 Python bindings. Package: python3-adios2-mpi Description-md5: d9139203cc98934b023fd627c0087a56 Description-en: ADIOS2 Adaptable IO system for simulations - Python bindings (MPI) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the Python bindings for the MPI build of ADIOS2. Package: python3-adios2-serial Description-md5: d4fc795a93c344b90d1b9a6b21f36b90 Description-en: ADIOS2 Adaptable IO system for simulations - Python bindings (serial) The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists to describe the data in their code that may need to be written, read, or processed outside of the running simulation. By providing an external to the code XML file describing the various elements, their types, and how you wish to process them this run, the routines in the host code (either Fortran or C) can transparently change how they process the data. . This package contains the Python bindings for the serial build of ADIOS2. Package: python3-all-venv Description-md5: 8a2fe6ee6e82b64a7456952558ea7b2e Description-en: package depending on all supported Python 3 venv modules The package currently depends on python3.13-venv and python3.14-venv. In the future, dependencies on jython (Python for a JVM) and ironpython (Python for Mono) may be added. . This package is a dependency package used as a build dependency for other packages to avoid hardcoded dependencies on specific Python 3 venv packages. Package: python3-anndata Description-md5: 9846d1a2d0cd52a553b124fa581a832a Description-en: annotated gene by sample numpy matrix AnnData provides a scalable way of keeping track of data together with learned annotations. It is used within Scanpy, for which it was initially developed. Both packages have been introduced in Genome Biology (2018). Package: python3-anyio Description-md5: 6e28a85cc775375a7a6047094b0faf77 Description-en: Asynchronous compatibility layer This module provides a bridge to run the same sources unmodified on asyncio, curio and trio. . It bridges the following features: - task groups - cancellation - threads - signal handling - asynchronous file operations - subprocesses - inter-task synchronization and communication - high-level networking Package: python3-autodocsumm Description-md5: 04a43a2892422539696863183b6031e6 Description-en: Extended sphinx autodoc including automatic autosummaries (Python 3) This sphinx extension provides some useful extensions to the Sphinxs autodoc extension. Those are * It creates a Table of Contents in the style of the autosummary extension with methods, classes, functions and attributes * As you can include the __init__ method documentation for via the autoclass_content configuration value, it provides the autodata_content configuration value to include the documentation from the __call__ method. * You can exclude the string representation of specific objects. E.g. if you have a large dictionary using the not_document_data configuration value. . This package contains the Python 3 version. Package: python3-basix Description-md5: a1e3538433bc3ecb969f0f2161b29bdc Description-en: Finite Element Basis Function Definition Runtime Library (Python 3) Computes FE basis functions and derivatives for the following elements: - Lagrange (interval, triangle, tetrahedron, prism, pyramid, quadrilateral, hexahedron) - Nédélec (triangle, tetrahedron) - Nédélec Second Kind (triangle, tetrahedron) - Raviart-Thomas (triangle, tetrahedron) - Regge (triangle, tetrahedron) - Crouzeix-Raviart (triangle, tetrahedron) . Computes quadrature rules on different cell types . Provides reference topology and geometry for reference cells of each type. . Python wrapper provided with pybind11. . This package installs the library for Python 3. Package: python3-beanie Description-md5: 63e5e245fb82b5c3de23784fa14bb2fd Description-en: Asynchronous Python object-document mapper (ODM) for MongoDB (Python 3) When using Beanie each database collection has a corresponding Document that is used to interact with that collection. In addition to retrieving data, Beanie allows you to add, update, or delete documents from the collection as well. . Beanie saves you time by removing boilerplate code, and it helps you focus on the parts of your app that actually matter. . This package installs the library for Python 3. Package: python3-bitarray Description-md5: 75477cdb36ae1e7cd63e2a3b80fb641a Description-en: Python3 module for efficient boolean array handling The bitarry module provides an object type which efficiently represents an array of booleans. Bitarrays are sequence types and behave very much like usual lists. Eight bits are represented by one byte in contiguous block of memory. The user can select between two representations; little-endian and big-endian. . Most of the functionality is implemented in C. Methods for accessing the machine representation are provided. This can be useful when bit level access to binary files is required, such as portable bitmap image files (.pbm). Also, when dealing with compressed data which uses variable bit length encoding, you may find this module useful. . This package provides the Python3 version of the module. Package: python3-bitstring Description-md5: 8f98aa2ae4f347a6953d146a0a213b3d Description-en: Python module for manipulation of binary data (Python 3) Bitstring is a pure Python module designed to help make the creation and analysis of binary data as simple and natural as possible. . Bitstrings can be constructed from integers (big and little endian), hex, octal, binary, strings or files. They can be sliced, joined, reversed, inserted into, overwritten, etc. with simple functions or slice notation. They can also be read from, searched and replaced, and navigated in, similar to a file or stream. . This package provides the Python 3 version of the module. Package: python3-bonsai Description-md5: 0e177770936382d71a013d4a8c801edf Description-en: Asyncio/gevent/tornado-compatible LDAP library Bonsai is library for handling LDAP operations in Python. LDAP entries are mapped to a special Python case-insensitive dictionary, tracking the changes of the dictionary to modify the entry on the server easily. . Supports only Python 3.6 or newer, and LDAPv3. . Uses LDAP libraries written in C for faster processing. . Simple pythonic design. . Implements an own dictionary-like object for mapping LDAP entries that makes easier to add and modify them. . Works with various asynchronous libraries (like asyncio, gevent). Package: python3-bonsai-doc Description-md5: a8fd558cfc6b2e9439ed320aa341fa88 Description-en: Asyncio/gevent/tornado-compatible LDAP library (documentation) Bonsai is library for handling LDAP operations in Python. LDAP entries are mapped to a special Python case-insensitive dictionary, tracking the changes of the dictionary to modify the entry on the server easily. . Supports only Python 3.6 or newer, and LDAPv3. . Uses LDAP libraries written in C for faster processing. . Simple pythonic design. . Implements an own dictionary-like object for mapping LDAP entries that makes easier to add and modify them. . Works with various asynchronous libraries (like asyncio, gevent). . This package contains the HTML documentation. Package: python3-borghash Description-md5: fd9d67875445d698b1ba72e9f96ca39d Description-en: Memory-efficient hash table (implemented in Cython) Memory-efficient hashtable implementations as a Python library, implemented in Cython. Package: python3-brial Description-md5: c156f962c6f2314f9f45be4d5ac79611 Description-en: polynomials over Boolean Rings, Python 3 module The core of BRiAl is a C++ library, which provides high-level data types for Boolean polynomials and monomials, exponent vectors, as well as for the underlying polynomial rings and subsets of the powerset of the Boolean variables. As a unique approach, binary decision diagrams are used as internal storage type for polynomial structures. On top of this C++-library a Python interface is provided. This allows parsing of complex polynomial systems, as well as sophisticated and extendable strategies for Groebner base computation. BRiAl features a powerful reference implementation for Groebner basis computation. . This package contains the BRiAl Python 3 module. Package: python3-cctbx Description-md5: 82495d7385342d38e22c572566893a2d Description-en: Python Toolbox for crystallography Computational Crystallography Toolbox contains following modules: - annlib_adaptbx: - boost_adaptbx: wrappers for Boost functionality in CCTBX - cbflib_adaptbx: - ccp4io_adaptbx: - cctbx: Libraries for general crystallographic applications, useful for both small-molecule and macro-molecular crystallography. - cma_es: - crys3d: Modules for the display of molecules, electron density, and reciprocal space data. - dxtbx: The Diffraction Image Toolbox, a library for handling X-ray detector data of arbitrary complexity from a variety of standard formats. - fable: Fortran EMulation library for porting Fortran77 to C++. - gltbx: Python bindings for OpenGL - iotbx: Working with common crystallographic file formats. - libtbx: The build system common to all other modules. This includes a very thin wrapper around the SCons software construction tool. It also contains many useful frameworks and utilities to simplify application development, including tools for regression testing, parallelization across multiprocessor systems and managed clusters, and a flexible, modular configuration syntax called PHIL (Python Hierarchial Interface Language) used throughout the CCTBX. - mmtbx: Functionality specific to macromolecular crystallography. This includes all of the machinery required for setup of geometry restraints, bulk solvent correction and scaling, analysis of macromolecular diffraction data, calculation of weighted map coefficients, and most of the methods implemented in phenix.refine. The majority of infrastructure for the MolProbity validation server (and Phenix equivalent) is also located here. - omptbx: OpenMP interface. - rstbx: A reciprocal space toolbox to autoindex small molecule Bragg diffraction, given the reciprocal space vectors. - scitbx: General scientific calculations. his includes a family of high-level C++ array types, a fast Fourier transform library, and a C++ port of the popular L-BFGS quasi-Newton minimizer. - smtbx: Small-Molecule crystallography. - spotfinder: - tbxx: - wxtbx: wxPython controls used in the Phenix GUI and various utilities . This package provide a selected collection of python modules from the cctbx project. Package: python3-ceph Description-md5: 73168f4688e222dd80dcdae1068a35d8 Description-en: Meta-package for all Python 3.x modules for the Ceph libraries Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package is a metapackage for all Ceph Python 3.x bindings. Package: python3-channels-redis Description-md5: 5ed689f59028f135ec53ece7920b048b Description-en: Redis channel layer backend for Django Channels (Python3 version) A Django Channels channel layer that uses Redis as its backing store, and supports both a single-server and sharded configurations, as well as group support. . This package contains the Python 3 version of the library. Package: python3-charset-normalizer Description-md5: 1f9f31eb84af5078b7deb269243fb6ea Description-en: charset, encoding and language detection (Python 3) charset-normalizer is a library for detection of charsets, encodings, and languages in Python programs. It can be compared to chardet, with a different approach, which intends to make it faster and more reliable. charset-normalizer can also detect natural languages. . All IANA character set names for which the Python core library provides codecs are supported. . This package installs the library for Python 3. Package: python3-check-jsonschema Description-md5: d6bc59d333e7556602e22a49eb523743 Description-en: JSON Schema CLI and pre-commit hook built on jsonschema A JSON Schema CLI and pre-commit hook built on jsonschema. The schema may be specified as a local or remote (HTTP or HTTPS) file. . Remote files are automatically downloaded and cached if possible. . This package installs the library for Python 3. Package: python3-clang-19 Description-md5: 2c9b6237594ba364f2afb9b0458f2f14 Description-en: Clang Python Bindings Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This binding package provides access to the Clang compiler and libraries. Package: python3-clang-21 Description-md5: 2c9b6237594ba364f2afb9b0458f2f14 Description-en: Clang Python Bindings Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This binding package provides access to the Clang compiler and libraries. Package: python3-clang-22 Description-md5: 2c9b6237594ba364f2afb9b0458f2f14 Description-en: Clang Python Bindings Clang project is a C, C++, Objective C and Objective C++ front-end based on the LLVM compiler. Its goal is to offer a replacement to the GNU Compiler Collection (GCC). . Clang implements all of the ISO C++ 1998, 11, 14 and 17 standards and also provides most of the support of C++20. . This binding package provides access to the Clang compiler and libraries. Package: python3-cmor Description-md5: 4742222c510fa64639379b47b73623b3 Description-en: Python3 interface to CMOR This is a Python3 interface to CMOR, the Climate Model Output Rewriter. Package: python3-cogent3 Description-md5: 7f66bef045873462e2411adbafa6b365 Description-en: framework for genomic biology PyCogent is a software library for genomic biology. It is a fully integrated and thoroughly tested framework for: * controlling third-party applications, * devising workflows; querying databases, * conducting novel probabilistic analyses of biological sequence evolution, and * generating publication quality graphics. It is distinguished by many unique built-in capabilities (such as true codon alignment) and the frequent addition of entirely new methods for the analysis of genomic data. Package: python3-coincidence Description-md5: 472145f0f68c166605d90b2a04efb2d4 Description-en: helper functions for pytest The package provides fixtures and decorators for Pytest, making it easier configure test environments and parameterize tests. The module also enables specific utilities for regression testing and Pytest Decorators for selective test execution. . Some of the key features include: - fixed_datetime: Allows you to set the current date and time to facilitate tests that depend on timestamps. - path_separator: Returns the current file system path separator, useful for dealing with cross-platform differences. - tmp_pathplus: Provides a unique temporary directory for each test invocation as a PathPlus object. - count: generates a parameterized list of numbers between a specified range. - whitespace_perms: Generates permutations of whitespace characters to test space-related behaviors. - testing_boolean_values: Generates a parameterized list of strings, integers and booleans, facilitating the testing of boolean values - param: specifies parameters in pytest.mark.parametrize calls or in parameterized fixtures. - parametrized_versions: Provides a parameterized list of Python versions to test in different environments. Package: python3-cutadapt Description-md5: 4a50c15e19d8a8c7675b15eb31fda489 Description-en: Clean biological sequences from high-throughput sequencing reads (Python 3) Cutadapt helps with biological sequence clean tasks by finding the adapter or primer sequences in an error-tolerant way. It can also modify and filter reads in various ways. Adapter sequences can contain IUPAC wildcard characters. Also, paired-end reads and even colorspace data is supported. If you want, you can also just demultiplex your input data, without removing adapter sequences at all. . This package contains the Python 3 module. Package: python3-cyarray Description-md5: 98c02a17a9b78eda31a76d105f9bf235 Description-en: Fast, typed, resizable, Cython array The cyarray package provides a fast, typed, re-sizable, Cython array. . It currently provides the following arrays: ``IntArray, UIntArray, LongArray, FloatArray, DoubleArray``. . All arrays provide for the following operations: . - access by indexing. - access through get/set function. - resizing the array. - appending values at the end of the array. - reserving space for future appends. - access to internal data through a numpy array. . If you are writing Cython code this is a convenient array to use as it exposes the raw underlying pointer to the data. For example if you use a ``FloatArray`` and access its ``data`` attribute it will be a ``float*``. . Each array also provides an interface to its data through a numpy array. This is done through the ``get_npy_array`` function. The returned numpy array can be used just like any other numpy array but for the following restrictions: . - the array may not be resized. - references of this array should not be kept. - slices of this array may not be made. . The numpy array may however be copied and used in any manner. Package: python3-dartpy Description-md5: 64a32f32278e7e5bf1372c5df4e66c49 Description-en: Kinematics Dynamics and Optimization Library - DART Python bindings DART is a collaborative, cross-platform, open source library created by the Georgia Tech Graphics Lab and Humanoid Robotics Lab. The library provides data structures and algorithms for kinematic and dynamic applications in robotics and computer animation. DART is distinguished by it's accuracy and stability due to its use of generalized coordinates to represent articulated rigid body systems and computation of Lagrange's equations derived from D.Alembert's principle to describe the dynamics of motion. For developers, in contrast to many popular physics engines which view the simulator as a black box, DART gives full access to internal kinematic and dynamic quantities, such as the mass matrix, Coriolis and centrifugal forces, transformation matrices and their derivatives. DART also provides efficient computation of Jacobian matrices for arbitrary body points and coordinate frames. Contact and collision are handled using an implicit time-stepping, velocity-based LCP (linear-complementarity problem) to guarantee non-penetration, directional friction, and approximated Coulomb friction cone conditions. For collision detection, DART uses FCL developed by Willow Garage and the UNC Gamma Lab. DART has applications in robotics and computer animation because it features a multibody dynamic simulator and tools for control and motion planning. Multibody dynamic simulation in DART is an extension of RTQL8, an open source software created by the Georgia Tech Graphics Lab. . This package does not contain any file but install all development packages. . DART Python bindings. Package: python3-datrie Description-md5: e633bd737133d7dce3420f1c9dad8f4e Description-en: Super-fast, efficiently stored Trie for Python 3 trie variable is a dict-like object that can have unicode keys of certain ranges and Python objects as values. . In addition to implementing the mapping interface, tries facilitate finding the items for a given prefix, and vice versa, finding the items whose keys are prefixes of a given string. As a common special case, finding the longest-prefix item is also supported. . This package installs the library for Python 3. Package: python3-dbus.mainloop.pyqt6 Description-md5: e87796da3c9a74fe89b21369c8f8e0f1 Description-en: D-Bus Qt main loop support for Python The dbus.mainloop.pyqt6 module provides support for Qt main loop for applications that use dbus-python. By default Qt uses main loop from GLib on UNIX-like systems, not its own one. Package: python3-dials Description-md5: a26aaa4d772b165678054abbbefca9ba Description-en: Diffraction Integration for Advanced Light Sources - Python3 The DIALS software is developed in a fully open-source, collaborative environment. The main development teams are based at Diamond Light Source and CCP4, in the UK, and at Lawrence Berkeley National Laboratory, USA. However, in the spirit of the open source movement, we welcome collaboration from anyone who wishes to contribute to the project. . To avoid “reinventing the wheel” as much as possible, the DIALS project builds on knowledge accumulated over many decades in the field of crystallographic data processing. We benefit greatly from the altruism of experts who contribute their ideas and advice, either directly or via their detailed publications on existing algorithms and packages such as XDS [2] and MOSFLM [3]. At the heart of the DIALS framework lies a design philosophy of hardware abstraction and a generalised model of the experiment that is inspired directly by material published on the seminal workshops on position sensitive detector software [1]. Continuing in the spirit of these workshops we held our own series of meetings, with talks from invited speakers, and code camps in which specific problems are addressed by intensive effort across the collaboration. Summaries of these meetings and copies of slides given as presentations are available here. . DIALS is written using Python and C++, making heavy use of the cctbx [4] for core crystallographic calculations and much infrastructure including a complete build system. Seamless interaction between the C++ and Python components of this hybrid system is enabled by Boost.Python. Python provides a useful ground for rapid prototyping, after which core algorithms and data structures may be transferred over to C++ for speed. High level interfaces of the hybrid system remain in Python, facilitating further development and code reuse both within DIALS and by third parties. . This is the Python 3 version of the package. Package: python3-dns Description-md5: 32eaa5f6103e3bc4f5c85cabfab90328 Description-en: DNS client module for Python 3 This Python 3 module provides an DNS API for looking up DNS entries from within Python 3 modules and applications. This module is a simple, lightweight implementation. It is not as complete as python-dnspython, but is useful for many common applications. It does not support async. Package: python3-dulwich Description-md5: 0e652fa6210d2be4be4c8bcbadddd180 Description-en: Python Git library - Python3 module Dulwich is a Python implementation of the file formats and protocols used by the Git version control system. It can currently read from and write to existing Git repositories and implements the protocol for pushing and receiving packs from remote servers. . All functionality is available in pure Python, but for improved performance replacements of some modules written in C are also available. This package includes the high performance versions. . This package contains the module built for Python version 3.x. Package: python3-fastparquet Description-md5: 3651548d1250fb7492d5ab338ef6fdd3 Description-en: python implementation of the parquet format This is a python implementation of the parquet format, aiming integrate into python-based big data work-flows. It is used implicitly by the projects Dask, Pandas and intake-parquet. . This module offers a high degree of support for the features of the parquet format, and very competitive performance, in a small install size and codebase. Package: python3-freecontact Description-md5: cff3ff1f1e4977970446ae50e7cd5aad Description-en: fast protein contact predictor - binding for Python3 FreeContact is a protein residue contact predictor optimized for speed. Its input is a multiple sequence alignment. FreeContact can function as an accelerated drop-in for the published contact predictors EVfold-mfDCA of DS. Marks (2011) and PSICOV of D. Jones (2011). . FreeContact is accelerated by a combination of vector instructions, multiple threads, and faster implementation of key parts. Depending on the alignment, 8-fold or higher speedups are possible. . A sufficiently large alignment is required for meaningful results. As a minimum, an alignment with an effective (after-weighting) sequence count bigger than the length of the query sequence should be used. Alignments with tens of thousands of (effective) sequences are considered good input. . jackhmmer(1) from the hmmer package, or hhblits(1) from hhsuite can be used to generate the alignments, for example. . This package contains the Python3 binding. Package: python3-full Description-md5: afcc8c0cdbd5f789f3f673bfe8c60249 Description-en: Default Python Interpreter with complete class library Python, the high-level, interactive object oriented language, includes an extensive class library with lots of goodies for network programming, system administration, sounds and graphics. . This package is a dependency package, which depends on the full standard library of Python for Python developers. Including modules used only at build-time, such as venv, and modules with complex dependencies, such as tk and IDLE. All batteries included. . This package depends on Debian's default python 3 version's full standard library (currently v3.13). . According to the Debian Python policy, this package must not be used in build dependencies, dependencies and recommendations. Package: python3-gattlib Description-md5: 16d3f3a7cf39404ecb2c3fa419b48a47 Description-en: Bluetooth LE GATT library for Python 3 This is a Python library to use the GATT Protocol for Bluetooth LE devices. It is a wrapper around the implementation used by gatttool in bluez package. Package: python3-gdal Description-md5: 202849247dbe86b8eaf9fbe133b4dc09 Description-en: Python 3 bindings to the Geospatial Data Abstraction Library GDAL is a translator library for raster geospatial data formats. As a library, it presents a single abstract data model to the calling application for all supported formats. The related OGR library (which lives within the GDAL source tree) provides a similar capability for simple features vector data. . GDAL supports 40+ popular data formats, including commonly used ones (GeoTIFF, JPEG, PNG and more) as well as the ones used in GIS and remote sensing software packages (ERDAS Imagine, ESRI Arc/Info, ENVI, PCI Geomatics). Also supported many remote sensing and scientific data distribution formats such as HDF, EOS FAST, NOAA L1B, NetCDF, FITS. . OGR library supports popular vector formats like ESRI Shapefile, TIGER data, S57, MapInfo File, DGN, GML and more. . This package contains Python 3 bindings for the GDAL/OGR library. Package: python3-gmpy2 Description-md5: fc39a0694e0a8cad53d3140dbb59bf62 Description-en: interfaces GMP to Python 3 for fast, unbound-precision computations gmpy is a C-coded Python extension module that wraps the GMP library to provide to Python code fast multiprecision arithmetic (integer, rational, and float), random number generation, advanced number-theoretical functions, and more. . This package installs Python 3 support for gmpy2. Package: python3-graphite2 Description-md5: b98c89ed7aa7617f435289d8bf699294 Description-en: Python bindings for libgraphite2 Graphite is a system that can be used to create and use "smart fonts" capable of displaying writing systems with various complex behaviors, such as: contextual shaping, ligatures, reordering, split glyphs, bidirectionality, stacking diacritics and complex positioning. . This library was designed and developed by the NRSI (Non-Roman Script Initiative) within SIL International (www.sil.org) to act as a complement to other smart font rendering technologies with limited practical local extensibility. Its purpose is to help meet the needs of a very large number of "minority language" communities for local extensibility of complex script behaviors. . The behavior of the rendering engine for a given writing system is specified through extra tables added to a TrueType font. These tables are generated by compiling a GDL (Graphite Description Language) source file into a font using grcompiler. . This package contains the Python 3 bindings for libgraphite2. Package: python3-grib Description-md5: 914b7563eb5a65791173632367a72e64 Description-en: Python 3 module for reading and writing GRIB files Python 3 module for reading and writing GRIB (editions 1 and 2) files. GRIB is the World Meterological Organization standard for distributing gridded data. The module is a Python 3 interface to the GRIB API C library from the European Centre for Medium-Range Weather Forecasts (ECMWF). . This package also contains the cnvgrib1to2, grib_list, grib_repack, and cnvgrib2to1 scripts. Package: python3-gudhi Description-md5: b39f3d9ab87d9093df507f36ea74ed65 Description-en: Python 3 interface to the GUDHI library The GUDHI library is a generic open source C++ library for Topological Data Analysis (TDA) and Higher Dimensional Geometry Understanding. The library offers state-of-the-art data structures and algorithms to construct simplicial complexes and compute persistent homology. . This package contains GUDHI's Python (3) interface. Package: python3-jpype Description-md5: 8fd1626e6144d9b2c9b037af7c1e3fd7 Description-en: Binding the worlds of Java and Python (for Python 3) JPype is an effort to allow Python programs full access to java class libraries. This is achieved not through re-implementing Python, as Jython/JPython has done, but rather through interfacing at the native level in both Virtual Machines. . Eventually, it should be possible to replace Java with Python in many, though not all, situations. JSP, Servlets, RMI servers and IDE plugins are good candidates. . This package for Python 3. Package: python3-kolabformat Description-md5: 17d4838c16d967ecf3fe20ed979b8078 Description-en: Python 3 bindings for Kolab Format 3.0 XML parsing Libkolabxml is the reference implementation of the Kolab XML format. For more information see the libkolabxml package. . This package provides Python 3 bindings for libkolabxml. Package: python3-lark Description-md5: bb659c939f2a1bcf7ca96805566a80ff Description-en: Parsing library for Python (Python 3) lark is a parsing library for Python which allows one to parse any context-free grammar. It has implemented the following parsing algorithms: Earley, LALR(1) and CYK. . This package installs the library for Python 3. Package: python3-ledger Description-md5: 834f8089c3510ce816f41ab3f5b70270 Description-en: command-line double-entry accounting program (python3 extension) Ledger is a powerful and flexible double-entry accounting system run entirely from the command line. Your accounts ledger is stored in one or more plain-text files with a very simple and readable format, and ledger does the hard work of balancing your books and reporting. . This package provides the python3 module Package: python3-litestar-htmx Description-md5: 85aadc464bedf17015293d1c6e5095ba Description-en: HTMX Integration for Litestar The Litestar framework supports Plugins, ships with dependency injection, security primitives, OpenAPI schema generation, MessagePack, middlewares, a great CLI experience, and much more. . HTMX is a JavaScript library that gives you access to AJAX, CSS Transitions, WebSockets and Server Sent Events directly in HTML, using attributes, so you can build modern user interfaces with the simplicity and power of hypertext. . This package provides Python bindings for the Litestar package to interact with the HTMX functionalities. Package: python3-lldb-19 Description-md5: 0185ffb3cdaadce7edcc313c1e68ae92 Description-en: Next generation, high-performance debugger, python3 lib LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. . This binding package provides access to lldb. Package: python3-lldb-21 Description-md5: 0185ffb3cdaadce7edcc313c1e68ae92 Description-en: Next generation, high-performance debugger, python3 lib LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. . This binding package provides access to lldb. Package: python3-lldb-22 Description-md5: 0185ffb3cdaadce7edcc313c1e68ae92 Description-en: Next generation, high-performance debugger, python3 lib LLDB is a next generation, high-performance debugger. It is built as a set of reusable components which highly leverage existing libraries in the larger LLVM Project, such as the Clang expression parser and LLVM disassembler. . This binding package provides access to lldb. Package: python3-lua Description-md5: 2e9048b984520db6bdb5af9c4b004c3e Description-en: library for using Lua scripts from Python This module provides an interface for using Lua scripts from Python. From Python, it allows complete access to all Lua variables and function. From Lua, it allows access to Python variables and functions that were passed to it by Python. . By default, Lua contains several insecure features, such as access to the host's file system. This module disables all such features by default. They are only enabled if the user passes the corresponding parameters when instantiating the Lua class. Package: python3-m2crypto Description-md5: 473d704fb2f024bef4632a823a541382 Description-en: Python wrapper for the OpenSSL library m2crypto features the following: * RSA, DSA, DH, HMACs, message digests, symmetric ciphers (including AES). * SSL functionality to implement clients and servers. * HTTPS extensions to Python's httplib, urllib, and xmlrpclib. * Unforgeable HMAC'ing AuthCookies for web session management. * FTP/TLS client and server. * S/MIME. * ZServerSSL: A HTTPS server for Zope. * ZSmime: An S/MIME messenger for Zope. Package: python3-mapnik Description-md5: 694098027e7b1d2cef137bba1917d013 Description-en: Python 3 interface to the mapnik library Mapnik is an OpenSource C++ toolkit for developing GIS (Geographic Information Systems) applications. At the core is a C++ shared library providing algorithms/patterns for spatial data access and visualization. . Essentially a collection of geographic objects (map, layer, datasource, feature, geometry), the library doesn't rely on "windowing systems" and is intended to work in multi-threaded environments . This package contains the bindings for Python 3. Package: python3-matplotlib Description-md5: 2fece2cb7cd156344f82cc6d7070bac0 Description-en: Python based plotting system in a style similar to Matlab Matplotlib is a pure Python plotting library designed to bring publication quality plotting to Python with a syntax familiar to Matlab users. All of the plotting commands in the pylab interface can be accessed either via a functional interface familiar to Matlab users or an object oriented interface familiar to Python users. Package: python3-metview Description-md5: d7374649cdfda22352a154130b3c46df Description-en: Python3 support for Metview Metview is the Visualization system from the European Centre for Medium Range Forecasts. It is scriptable, allowing auotmated generation of weather and climate graphics. . This package provides Python3 support for the Metview package Package: python3-minieigen Description-md5: 875bfc6ff6d51a184a596fea72ae298a Description-en: Wrapper of parts of the Eigen library (Python 3) Small wrapper for core parts of Eigen, c++ library for linear algebra. It is mainly useful for inspecting c++ code which already uses eigen and boost::python. Supported types are Vectors (2,3,6 and dynamic-sized with integer and floating-point values), Matrices (3x3, 6x6 and dynamic-sized with floating-point values) and Quaternions. Numerous methods are wrapped and the original API of Eigen is followed. . This is the Python 3 version of the package. Package: python3-mpi4py Description-md5: df56770de9e33454460005eda8d75b21 Description-en: bindings of the Message Passing Interface (MPI) standard MPI for Python (mpi4py) provides bindings of the Message Passing Interface (MPI) standard for the Python programming language, allowing any Python program to exploit multiple processors. . mpi4py is constructed on top of the MPI-1/MPI-2 specification and provides an object oriented interface which closely follows MPI-2 C++ bindings. It supports point-to-point (sends, receives) and collective (broadcasts, scatters, gathers) communications of any picklable Python object as well as optimized communications of Python object exposing the single-segment buffer interface (NumPy arrays, builtin bytes/string/array objects). Package: python3-mrcal Description-md5: 6620c59c9f8c2c17c7b2070511ecec31 Description-en: Calibration and SFM library A photogrammetry toolkit that provides improved methods for making and using camera models (calibration, tracking, mapping, etc). The focus is on calibration and uncertainty propagation to produce the most accurate models possible. This package provides the Python interfaces Package: python3-mypy Description-md5: d098e93d00ac49e756bebaf5ec34a6ca Description-en: public modules for mypy (Python 3) Add type annotations to your Python programs, and use mypy to type check them. Mypy is essentially a Python linter on steroids, and it can catch many programming errors by analyzing your program, without actually having to run it. Mypy has a powerful type system with features such as type inference, gradual typing, generics and union types. . This package provides the modules for Python 3. Package: python3-netcdf4 Description-md5: e34b73949ef3966b0f0ba92d68733944 Description-en: Python 3 interface to the netCDF4 (network Common Data Form) library NetCDF version 4 has many features not found in earlier versions of the library and is implemented on top of HDF5. This module can read and write files in both the new netCDF 4 and the old netCDF 3 format, and can create files that are readable by HDF5 clients. The API is modelled after Scientific.IO.NetCDF, and should be familiar to users of that module. . Most new features of netCDF 4 are implemented, such as multiple unlimited dimensions, groups and zlib data compression. All the new numeric data types (such as 64 bit and unsigned integer types) are implemented. Compound and variable length (vlen) data types are supported, but the enum and opaque data types are not. Mixtures of compound and vlen data types (compound types containing vlens, and vlens containing compound types) are not supported. . This package contains the netCDF 4 module for Python 3. Package: python3-nopie Description-md5: 31e6008ca39ff837e1229d920f443a6b Description-en: Python interpreter linked without PIE (default python3 version) This package contains the interpreter not built as position independent executable. This interpreter is diverting the python3 executable, and making the interpreter built with PIE available as python3-pie. Package: python3-numexpr Description-md5: f7c38818e2bef82d8ea2ebda29e69a9d Description-en: Fast numerical array expression evaluator for Python 3 and NumPy Numexpr package evaluates multiple-operator array expressions many times faster than NumPy can. It accepts the expression as a string, analyzes it, rewrites it more efficiently, and compiles it to faster Python code on the fly. It's the next best thing to writing the expression in C and compiling it with a specialized just-in-time (JIT) compiler, i.e. it does not require a compiler at runtime. Package: python3-odil Description-md5: edb149e886b0c597389ca24fb21a8ca8 Description-en: C++11 library for the DICOM standard (Python 3 wrappers) Odil leverages C++ constructs to provide a user-friendly API of the different parts of the DICOM standard. Included in Odil are exception-based error handling, generic access to datasets elements, standard JSON and XML representation of datasets, and generic implementation of messages, clients and servers for the various DICOM protocols. . This package contains the Python 3 wrappers. Package: python3-onnxruntime Description-md5: 58f261b74707bedca4df71a73a331b9f Description-en: cross-platform inference and training ML accelerator (Python bindings) ONNX Runtime is a performance-focused complete scoring engine for Open Neural Network Exchange (ONNX) models, with an open extensible architecture to continually address the latest developments in AI and Deep Learning. ONNX Runtime stays up to date with the ONNX standard with complete implementation of all ONNX operators, and supports all ONNX releases (1.2+) with both future and backwards compatibility. Please refer to this page for ONNX opset compatibility details. . This package provides the onnxruntime Python bindings. Package: python3-orcus Description-md5: 5ac877554a2345ef8d4a7bfc469cbeed Description-en: library for processing spreadsheet documents - Python bindings Orcus is a library that provides a collection of standalone file processing filters. It is currently focused on providing filters for spreadsheet documents, but filters for other productivity application types (such as wordprocessor and presentation) are in consideration. . The library currently includes filters for xlsx, ods, csv, and generic XML formats. . This package contains the Python bindings for liborcus. Package: python3-orjson Description-md5: 5505d269d65fb8991a5f00998f0b54a0 Description-en: JSON parsing Python library Fast, correct Python JSON library supporting dataclasses, datetimes, and numpy orjson is a fast, correct JSON library for Python. It benchmarks as the fastest Python library for JSON and is more correct than the standard json library or other third-party libraries. It serializes dataclass, datetime, numpy, and UUID instances natively. . Its features and drawbacks compared to other Python JSON libraries: . * serializes `dataclass` instances 40-50x as fast as other libraries * serializes `datetime`, `date`, and `time` instances to RFC 3339 format, e.g., "1970-01-01T00:00:00+00:00" * serializes `numpy.ndarray` instances 4-12x as fast with 0.3x the memory usage of other libraries * pretty prints 10x to 20x as fast as the standard library * serializes to `bytes` rather than `str`, i.e., is not a drop-in replacement * serializes `str` without escaping unicode to ASCII, e.g., "好" rather than "\\\u597d" * serializes `float` 10x as fast and deserializes twice as fast as other libraries * serializes subclasses of `str`, `int`, `list`, and `dict` natively, requiring `default` to specify how to serialize others * serializes arbitrary types using a `default` hook * has strict UTF-8 conformance, more correct than the standard library * has strict JSON conformance in not supporting Nan/Infinity/-Infinity * has an option for strict JSON conformance on 53-bit integers with default support for 64-bit * does not provide `load()` or `dump()` functions for reading from/writing to file-like objects Package: python3-ost Description-md5: 9e9464d2fe8358febf528598cddb115f Description-en: Open-Source Computational Structural Biology Framework - Python 3 package OpenStructure aims to provide an open-source, modular, flexible, molecular modelling and visualization environment. It is targeted at interested method developers in the field of structural bioinformatics. Package: python3-pairtools Description-md5: a340132b5467a45fa9b90e04ece3e5c1 Description-en: Framework to process sequencing data from a Hi-C experiment Simple and fast command-line framework to process sequencing data from a Hi-C experiment. . Process pair-end sequence alignments and perform the following operations: . - Detect ligation junctions (a.k.a. Hi-C pairs) in aligned paired-end sequences of Hi-C DNA molecules - Sort .pairs files for downstream analyses - Detect, tag and remove PCR/optical duplicates - Generate extensive statistics of Hi-C datasets - Select Hi-C pairs given flexibly defined criteria - Restore .sam alignments from Hi-C pairs Package: python3-pairtools-examples Description-md5: 0bc2db9c7432c013a1027c1d55ed239f Description-en: Process sequencing data from a Hi-C experiment (examples) Simple and fast command-line framework to process sequencing data from a Hi-C experiment. . Process pair-end sequence alignments and perform the following operations: . - Detect ligation junctions (a.k.a. Hi-C pairs) in aligned paired-end sequences of Hi-C DNA molecules - Sort .pairs files for downstream analyses - Detect, tag and remove PCR/optical duplicates - Generate extensive statistics of Hi-C datasets - Select Hi-C pairs given flexibly defined criteria - Restore .sam alignments from Hi-C pairs . This package contains some examples Package: python3-pandas Description-md5: cebad5283eae2d4545bd561b1c18aa4e Description-en: data structures for "relational" or "labeled" data pandas is a Python package providing fast, flexible, and expressive data structures designed to make working with "relational" or "labeled" data both easy and intuitive. It aims to be the fundamental high-level building block for doing practical, real world data analysis in Python. pandas is well suited for many different kinds of data: . - Tabular data with heterogeneously-typed columns, as in an SQL table or Excel spreadsheet - Ordered and unordered (not necessarily fixed-frequency) time series data. - Arbitrary matrix data (homogeneously typed or heterogeneous) with row and column labels - Any other form of observational / statistical data sets. The data actually need not be labeled at all to be placed into a pandas data structure . This package contains the Python 3 version. Package: python3-pandas-lib Description-md5: b329f4ac7b25b8b49b6f051c081f5999 Description-en: low-level implementations and bindings for pandas This is a low-level package for python3-pandas providing architecture-dependent extensions. . Users should not need to install it directly. Package: python3-petsc4py Description-md5: 4be396cadcd62636fbd56a3a342ddcf6 Description-en: Python 3 bindings for PETSc libraries PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This is a base package that depends on the python3 petsc4py package with either real or complex number support. It provides the path to petsc4py for the system's default PETSc version set in /usr/lib/petsc. Export environment variable PETSC_DIR to use other versions. Package: python3-petsc4py-64-complex Description-md5: 46438fc210192da5d7d02b54d1fb48be Description-en: Python 3 bindings for 64-bit PETSc libraries (complex numbers) PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This is a dummy package depending on the petsc4py build for the latest version of PETSc with complex number support and 64-bit indexing. Package: python3-petsc4py-64-complex3.22 Description-md5: efec3d631886b39bdc5ef3a5c2b4f30b Description-en: Python 3 bindings for 64-bit PETSc 3.22 libraries (complex numbers) PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This package provides Python 3 bindings to almost all functions of PETSc 3.22 with complex number support and 64-bit indexing. Package: python3-petsc4py-64-real Description-md5: 2bd7b2c1999e4f8c4b82f937e1886759 Description-en: Python 3 bindings for 64-bit PETSc libraries (real numbers) PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This is a dummy package depending on the petsc4py build for the latest version of PETSc with real number support and 64-bit indexing. Package: python3-petsc4py-64-real3.22 Description-md5: fa2b3936ef21752a5300e63908e1d3ef Description-en: Python 3 bindings for 64-bit PETSc 3.22 libraries (real numbers) PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This package provides Python 3 bindings to almost all functions of PETSc 3.22 with real number support and 64-bit indexing. Package: python3-petsc4py-complex Description-md5: 4a6a4f27e733a85a688506f9f9eee348 Description-en: Python 3 bindings for PETSc libraries (complex numbers) PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This is a dummy package depending on the petsc4py build for the latest version of PETSc with complex number support. Package: python3-petsc4py-complex3.22 Description-md5: 1eb3bfa2753c71aa40b2cb22ced38fff Description-en: Python 3 bindings for PETSc 3.22 libraries (complex numbers) PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This package provides Python 3 bindings to almost all functions of PETSc 3.22 with complex number support. Package: python3-petsc4py-real Description-md5: a5e28f79b38b9a9f99e19343bc051b77 Description-en: Python 3 bindings for PETSc libraries (real numbers) PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This is a dummy package depending on the petsc4py build for the latest version of PETSc with real number support. Package: python3-petsc4py-real3.22 Description-md5: e1abda9efea5dafedd6326335604e8d8 Description-en: Python 3 bindings for PETSc 3.22 libraries (real numbers) PETSc is a suite of data structures and routines for the scalable (parallel) solution of scientific applications modeled by partial differential equations. It employs the MPI standard for all message-passing communication. . This package provides Python 3 bindings to almost all functions of PETSc 3.22 with real number support. Package: python3-pivy Description-md5: acd59ae2d4e96323354e05654f8cc4b6 Description-en: Coin binding for Python 3 Pivy is a Coin binding for Python. Coin is a high-level 3D graphics library with a C++ API. Coin uses scene-graph data structures to render real-time graphics suitable for mostly all kinds of scientific and engineering visualization applications. Pivy allows: . * Development of Coin applications and extensions in Python * Interactive modification of Coin programs from within the Python interpreter at runtime * Incorporation of Scripting Nodes into the scene graph which are capable of executing Python code and callbacks * Use of Coin within PyQt4 applications with the quarter module . This package contains the Python 3 bindings. Package: python3-ppl Description-md5: c71497d6fb9ecac1dd40e0de2f63b7ba Description-en: Python interface to PPL -- Python 3 A Python interface to the C++ Parma Polyhedra Library (PPL), which allows computations with polyhedra and grids, like mixed integer linear programming. . This package installs the library for Python 3. Package: python3-protobuf Description-md5: ba8b2ff5479f775cf8451dd587d3fee9 Description-en: Python 3 bindings for protocol buffers Protocol buffers are a flexible, efficient, automated mechanism for serializing structured data - similar to XML, but smaller, faster, and simpler. You define how you want your data to be structured once, then you can use special generated source code to easily write and read your structured data to and from a variety of data streams and using a variety of languages. You can even update your data structure without breaking deployed programs that are compiled against the "old" format. . Google uses Protocol Buffers for almost all of its internal RPC protocols and file formats. . This package contains the Python 3 bindings for the protocol buffers. You will need the protoc tool (in the protobuf-compiler package) to compile your definition to Python classes, and then the modules in this package will allow you to use those classes in your programs. Package: python3-psycopg Description-md5: dfbf319cedcd850f42759456feb3a31c Description-en: PostgreSQL database adapter for Python 3 Psycopg 3 is a newly designed PostgreSQL database adapter for the Python programming language. . Psycopg 3 is a complete rewrite of Psycopg 2, maintaining the same fundamental libpq wrapper architecture and DB-API interface design, but exposing new features to better work with the newer versions of Python and PostgreSQL. . On the Python side, Psycopg 3 allows the use of asyncio-based concurrency and static typing. Many improvement to the Python interface make the library much simpler and more idiomatic to use, . On the PostgreSQL side, Psycopg 3 makes use of server-side parameters, prepared statements, binary parameters, and great support for COPY operations. . Psycopg 3 presents a familiar interface for everyone who has used Psycopg 2 or any other `DB-API 2.0` database adapter, but allows one to use more modern PostgreSQL and Python features, such as: - Strict Strong Typing - asynchronous support - server-side parameters binding - binary communication - a great integration of the COPY support - direct access to the libpq functionalities Package: python3-psycopg-c Description-md5: cace942f4928ea1843792cadf65e340e Description-en: PostgreSQL database adapter for Python 3 - binary module Psycopg 3 is a newly designed PostgreSQL database adapter for the Python programming language. . Psycopg 3 is a complete rewrite of Psycopg 2, maintaining the same fundamental libpq wrapper architecture and DB-API interface design, but exposing new features to better work with the newer versions of Python and PostgreSQL. . On the Python side, Psycopg 3 allows the use of asyncio-based concurrency and static typing. Many improvement to the Python interface make the library much simpler and more idiomatic to use, . On the PostgreSQL side, Psycopg 3 makes use of server-side parameters, prepared statements, binary parameters, and great support for COPY operations. . Psycopg 3 presents a familiar interface for everyone who has used Psycopg 2 or any other `DB-API 2.0` database adapter, but allows one to use more modern PostgreSQL and Python features, such as: - Strict Strong Typing - asynchronous support - server-side parameters binding - binary communication - a great integration of the COPY support - direct access to the libpq functionalities . This package contains binary module, increasing performance of operations Package: python3-psycopg-pool Description-md5: 9d80d11b74935a87e1986f03c3a54406 Description-en: PostgreSQL database adapter for Python 3: connection pool Psycopg 3 is a newly designed PostgreSQL database adapter for the Python programming language. . Psycopg 3 is a complete rewrite of Psycopg 2, maintaining the same fundamental libpq wrapper architecture and DB-API interface design, but exposing new features to better work with the newer versions of Python and PostgreSQL. . On the Python side, Psycopg 3 allows the use of asyncio-based concurrency and static typing. Many improvement to the Python interface make the library much simpler and more idiomatic to use, . On the PostgreSQL side, Psycopg 3 makes use of server-side parameters, prepared statements, binary parameters, and great support for COPY operations. . Psycopg 3 presents a familiar interface for everyone who has used Psycopg 2 or any other `DB-API 2.0` database adapter, but allows one to use more modern PostgreSQL and Python features, such as: - Strict Strong Typing - asynchronous support - server-side parameters binding - binary communication - a great integration of the COPY support - direct access to the libpq functionalities . This package contains two connection pool implementations Package: python3-py3exiv2 Description-md5: 77f21e8b7b427225a0a30fa044099467 Description-en: Binding to the library exiv2 Is a Python 3 binding to exiv2, the C++ library for manipulation of EXIF, IPTC and XMP image metadata. It is a Python 3 module that allows your scripts to read and write metadata (EXIF, IPTC, XMP, thumbnails) embedded in image files (JPEG, TIFF, …). Package: python3-pybtex Description-md5: 3d79f26c1d7196aafec4b39eaccf5626 Description-en: BibTeX-compatible bibliography processor - Python 3 module Pybtex reads citation information from a file and produces a formatted bibliography. BibTeX style files are supported. Alternatively it is possible to write styles in Python. . Pybtex currently understands the following bibliography formats: * BibTeX * BibTeXML * YAML-based format . The resulting bibliography may be output in one of the following formats: * LaTeX * HTML * plain text . This package provides the modules for Python 3. Package: python3-pyftpdlib Description-md5: 79e934db53bdc7ed59f0b363d1be4d33 Description-en: Python FTP server library (Python 3) Python FTP server library provides a high-level portable interface to easily write asynchronous FTP servers with Python. . pyftpdlib is currently the most complete RFC-959 FTP server implementation available for Python programming language. It is used in projects like Google Chromium and Bazaar. . This package provides the Python 3.x module. Package: python3-pyldap Description-md5: 52d4343746d9edab9e1273ee6eda96fc Description-en: LDAP interface module for Python 3.x - transition package This module provides a Python3 interface to the OpenLDAP client library (LDAP is the Lightweight Directory Access Protocol). . This transition dummy package for Python 3.x can be safely removed, since the ldap module has merged changes in the pyldap fork. Package: python3-pynpoint Description-md5: 0192b271bdb8c291e1df6cd310b7f866 Description-en: Pipeline for processing and analysis of high-contrast imaging data This is a generic, end-to-end pipeline for the data reduction and analysis of high-contrast imaging data of planetary and substellar companions, as well as circumstellar disks in scattered light. . The pipeline has a modular architecture with a central data storage in which all results are stored by the processing modules. These modules have specific tasks such as the subtraction of the thermal background emission, frame selection, centering, PSF subtraction, and photometric and astrometric measurements. The tags from the central data storage can be written to FITS, HDF5, and text files with the available I/O modules. Package: python3-pyobjcryst Description-md5: 48c6a1bac20c643b9ffa2109581dcdfc Description-en: Object-Oriented Crystallographic Library bindings (Python 3) Python bindings to ObjCryst++, the Object-Oriented Crystallographic Library. . Some examples offer 3D support which can use python3-ipywidgets. . This package installs the library for Python 3. Package: python3-pyqt6 Description-md5: 23232b5989429e3958f385f59188e22c Description-en: Python bindings for Qt 6 PyQt6 exposes the Qt 6 API to Python. This package contains the following modules: * QtCore * QtDBus * QtGui * QtNetwork * QtOpenGL * QtOpenGLWidgets * QtPrintSupport * QtSql * QtTest * QtWidgets * QtXml Package: python3-pyqt6.qtbluetooth Description-md5: 3a0c433c185ed50638c293ab2a2f2a84 Description-en: Python bindings for Qt 6 Bluetooth module Qt Bluetooth API provides connectivity between Bluetooth enabled devices. . This package contains the QtBluetooth module of PyQt6. Package: python3-pyqt6.qtdesigner Description-md5: d8b7474134d2a70338b49df4eaf965cc Description-en: Python bindings for Qt 6 Designer module Qt Designer API provides the possibility of constructing user interfaces from UI files at run-time. . This package contains the QtDesigner module of PyQt6 and the pyqt6 plugin for Qt Designer. Package: python3-pyqt6.qthelp Description-md5: eaddbb73fae08e42a023a17a8e6699dc Description-en: Python bindings for Qt 6 Help module Qt Help API provides classes for accessing help contents programmatically to be able to integrate online help into Qt applications. . This package contains the QtHelp module of PyQt6. Package: python3-pyqt6.qtmultimedia Description-md5: c05c1ec5938e7b1f4111bd424572c41b Description-en: Python bindings for Qt 6 Multimedia module Qt Multimedia API provides a rich set of classes to handle multimedia content. . This package contains the QtMultimedia, QtMultimediaWidgets and QtSpatialAudio modules of PyQt6. Package: python3-pyqt6.qtnfc Description-md5: d061ac70da688b97ef29789b898fbd10 Description-en: Python bindings for Qt 6 NFC module Qt NFC API provides connectivity between NFC enabled devices. . This package contains the QtNfc module of PyQt6. Package: python3-pyqt6.qtpdf Description-md5: 48f3ded4a44439c29525c76e0a45a368 Description-en: Python bindings for Qt 6 PDF module Qt PDF API contains classes and functions for rendering PDF documents. . This package contains the QtPdf and QtPdfWidgets modules of PyQt6. Package: python3-pyqt6.qtpositioning Description-md5: 9b22f5b451fc1abaf2d91a4e5ac56dcf Description-en: Python bindings for Qt 6 Positioning module Qt Positioning API provides positioning information. . This package contains the QtPositioning module of PyQt6. Package: python3-pyqt6.qtqml Description-md5: edefe7ecab7e5b07b5632c71f048ba2f Description-en: Python bindings for Qt 6 QML module Qt QML API provides a framework for developing applications and libraries with the QML language. . This package contains the QtQml module of PyQt6 and the qmlscene plugin that collects all the Python plugins it can find. Package: python3-pyqt6.qtquick Description-md5: 979c99300088e6e5238296fdc92a768e Description-en: Python bindings for Qt 6 Quick module Qt Quick API is the standard library for writing QML applications. . This package contains the QtQuick and QtQuickWidgets modules of PyQt6. Package: python3-pyqt6.qtquick3d Description-md5: 1cbdd2cb11ab9f02acb6de9b8852a457 Description-en: Python bindings for Qt 6 Quick 3D module Qt Quick 3D provides a high-level API for creating 3D content and 3D user interfaces based on Qt Quick. . This package contains the QtQuick3D module of PyQt6. Package: python3-pyqt6.qtremoteobjects Description-md5: 8873d6ba381165c264727618d7f775ce Description-en: Python bindings for Qt 6 Remote Objects module Qt Remote Objects API is an Inter-Process Communication (IPC) module developed for Qt. . This package contains the QtRemoteObjects module of PyQt6. Package: python3-pyqt6.qtsensors Description-md5: dcc0bdb2c16a0d722770d0ac04bbf9b4 Description-en: Python bindings for Qt 6 Sensors module Qt Sensors API provides access to sensor hardware via QML and C++ interfaces. . This package contains the QtSensors module of PyQt6. Package: python3-pyqt6.qtserialport Description-md5: 546d638fddbfc0e96c9976f005427e78 Description-en: Python bindings for Qt 6 Serial Port module Qt Serial Port API provides the basic functionality, which includes configuring, I/O operations, getting and setting the control signals of the RS-232 pinouts. . This package contains the QtSerialPort module of PyQt6. Package: python3-pyqt6.qtstatemachine Description-md5: dd26779d76d8195fcd66631c3218da9e Description-en: Python bindings for Qt 6 StateMachine module Qt State Machine API provides functionality to create state machines from SCXML files. It also contains functionality to support data models and executable content. . This package contains the QtStateMachine module of PyQt6. Package: python3-pyqt6.qtsvg Description-md5: ed04c58635f37eac558fc5ee0cfe6733 Description-en: Python bindings for Qt 6 SVG module Qt SVG API provides classes for rendering and displaying SVG drawings in widgets and on other paint devices. . This package contains the QtSvg and QtSvgWidgets modules of PyQt6. Package: python3-pyqt6.qttexttospeech Description-md5: 4665777e2a34fc9e2e02c1a3ab8204e5 Description-en: Python bindings for Qt 6 TextToSpeech module Qt TextToSpeech API enables a Qt application to read out text by using speech synthesis. . This package contains the QtTextToSpeech module of PyQt6. Package: python3-pyqt6.qtwebchannel Description-md5: 2b3fa1cd5f54a0c3c03b9de1e2465907 Description-en: Python bindings for Qt 6 WebChannel module Qt WebChannel API enables peer-to-peer communication between a server and a client (HTML/JavaScript or QML application). . This package contains the QtWebChannel module of PyQt6. Package: python3-pyqt6.qtwebsockets Description-md5: 6bd787b70ec6569558b4ad33d66482c5 Description-en: Python bindings for Qt 6 WebSockets module Qt WebSockets API provides C++ and QML interfaces that enable Qt applications to act as a server that can process WebSocket requests, or a client that can consume data received from the server, or both. . This package contains the QtWebSockets module of PyQt6. Package: python3-pysam Description-md5: ddcf8881460e7b674dae90cff6210680 Description-en: interface for the SAM/BAM sequence alignment and mapping format (Python 3) Pysam is a Python module for reading and manipulating Samfiles. It's a lightweight wrapper of the samtools C-API. Pysam also includes an interface for tabix. . This package installs the module for Python 3. Package: python3-pyshp Description-md5: 9dc8c96c6839b86509936e3cbf1082a7 Description-en: read/write support for ESRI Shapefile format - Python 3.x PySHP provides read and write support for the ESRI Shapefile format. The Shapefile format is a popular Geographic Information System vector data format created by ESRI. . This package contains the module for Python 3.x. Package: python3-pysnmp Description-md5: 5fd88b060088336483b955d1530c78fe Description-en: Python SNMP library for agents and managers This is a Python implementation of SNMP v.1/v.2c/v.3 engine. Its general functionality is to assemble/disassemble SNMP messages from/into given SNMP Object IDs along with associated values. PySNMP also provides a few transport methods specific to TCP/IP networking. . PySNMP is written entirely in Python and is self-sufficient in terms that it does not rely on any third party tool (it isn't a wrapper). Package: python3-pysnmp4 Description-md5: c45182f9961550f0d3357a5dfd33a873 Description-en: Python SNMP library for agents and managers - transition empty package This is a Python implementation of SNMP v.1/v.2c/v.3 engine. Its general functionality is to assemble/disassemble SNMP messages from/into given SNMP Object IDs along with associated values. PySNMP also provides a few transport methods specific to TCP/IP networking. . PySNMP is written entirely in Python and is self-sufficient in terms that it does not rely on any third party tool (it isn't a wrapper). . This package provides a dependency package (empty package) to transition to python3-pysnmp, and can be safely removed. Package: python3-pytest Description-md5: a5dad4d5b22160c775ca39b2d4780244 Description-en: Simple, powerful testing in Python3 This testing tool has for objective to allow the developers to limit the boilerplate code around the tests, promoting the use of built-in mechanisms such as the `assert` keyword. . This package provides the Python 3 module and the py.test-3 script. Package: python3-pytest-asyncio Description-md5: 742eddc371ba1e81bc235a1523e7720f Description-en: pytest support for asyncio. pytest-asyncio is a ibrary for testing asyncio code with pytest. . asyncio code is usually written in the form of coroutines, which makes it slightly more difficult to test using normal testing tools. pytest-asyncio provides useful fixtures and markers to make testing easier. Package: python3-pytest-django Description-md5: 6715cd6f7db9d8351b18b7663f161774 Description-en: Django plugin for Pytest Running your test suite with pytest-django allows you to access features of pytest that wouldn't normally be available with the Django’s manage.py test command. . This package contains the Python 3 version. Package: python3-pytest-timeout Description-md5: 7334d9af8c710b068e8a5ed092cbafcc Description-en: Pytest plugin to abort hanging tests - Python 3.X This is a plugin which will terminate tests after a certain timeout. When doing so it will show a stack dump of all threads running at the time. This is useful when running tests under a continuous integration server or simply if you don’t know why the test suite hangs. . Note that while by default on POSIX systems py.test will continue to execute the tests after a test has timed, out this is not always possible. Often the only sure way to interrupt a hanging test is by terminating the entire process. As this is a hard termination (os._exit()) it will result in no teardown, JUnit XML output etc. But the plugin will ensure you will have the debugging output on stderr nevertheless, which is the most important part at this stage. See below for detailed information on the timeout methods and their side-effects. . The pytest-timeout plugin has been tested on CPython and pypy. . This package provides support for Python 3.X. Package: python3-pythonmagick Description-md5: 8c634d34420423ecf1541e504f1c41f7 Description-en: Object-oriented Python 3 interface to ImageMagick PythonMagick an interface to ImageMagick to give all the functionality of ImageMagick++ into Python 3. . ImageMagick is a software suite to create, edit, and compose bitmap images. It can read, convert and write images in a variety of formats (over 100) including DPX, EXR, GIF, JPEG, JPEG-2000, PDF, PhotoCD, PNG, Postscript, SVG, and TIFF. Use ImageMagick to translate, flip, mirror, rotate, scale, shear and transform images, adjust image colors, apply various special effects, or draw text, lines, polygons, ellipses and Bézier curves. All manipulations can be achieved through shell commands as well as through an X11 graphical interface (display). Package: python3-pytibber Description-md5: 44e2c9c498016706a517bdd47e0be41b Description-en: Library for interacting with Tibber to access electricity data This library facilitates communication with Tibber, allowing users to retrieve electricity price and consumption data. It supports real-time consumption tracking if you have a Tibber Pulse or Watty device. The library connects to Tibber's API, enabling users to access detailed energy statistics and insights. By providing an interface to automate interactions, the library simplifies energy monitoring and management through Tibber's platform. Package: python3-re2 Description-md5: 03b7baf521e7c7fb4832a91d42757868 Description-en: efficient, principled regular expression library, Python bindings RE2 is a fast, safe, thread-friendly alternative to backtracking regular expression engines like those used in PCRE, Perl, and Python. It is a C++ library. . RE2 uses automata theory to guarantee that regular expression searches run in time linear in the size of the input. RE2 implements memory limits, so that searches can be constrained to a fixed amount of memory. RE2 is engineered to use a small fixed C++ stack footprint no matter what inputs or regular expressions it must process; thus RE2 is useful in multithreaded environments where thread stacks cannot grow arbitrarily large. . On large inputs, RE2 is often much faster than backtracking engines; its use of automata theory lets it apply optimizations that the others cannot. . This package contains the Python bindings, providing a module (re2) which is a drop-in replacement for the standard library re module. Package: python3-recurring-ical-events Description-md5: 7a7e46a8d0d55bbbb561a36058f4e5fa Description-en: Recurring ICal events for Python (Python 3) ICal has some complexity to it: Events can be repeated, removed from the feed and edited later on. This tool takes care of these circumstances. . This package installs the library for Python 3. Package: python3-resolvelib Description-md5: 4f7b44cb52b8e69639d4e95c941d4b52 Description-en: module to resolve abstract dependencies into concrete ones python3-resolvelib provides a `Resolver` class that includes dependency resolution logic. You give it some things, and a little information on how it should interact with them, and it will spit out a resolution result. . This is the Python 3 version of the package. Package: python3-rgw Description-md5: 06f6fa39d546967387c6ab7f058abce7 Description-en: Python 3 libraries for the Ceph librgw library Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. . This package contains Python 3 libraries for interacting with Ceph's RGW library. Package: python3-ruyaml Description-md5: 21d53b3778796e068f0ecde8cf584ba7 Description-en: YAML 1.2 loader/dumper package for Python The ruyaml package is a fork of ruamel.yaml aimed to made in order to secure the future of the library, mainly by having a pool of maintainers and can be used as a drop-in replacement for python3-ruamel.yaml. . This package contains the Python 3 version of the library. Package: python3-scipy Description-md5: 10a513a129149372e732d5540d7328d0 Description-en: scientific tools for Python 3 SciPy supplements the popular NumPy module (python-numpy package), gathering a variety of high level science and engineering modules together as a single package. . SciPy is a set of Open Source scientific and numeric tools for Python. It currently supports special functions, integration, ordinary differential equation (ODE) solvers, gradient optimization, genetic algorithms, parallel programming tools, an expression-to-C++ compiler for fast execution, and others. Package: python3-scriptforge Description-md5: 97e0d75f97d05ddf0ead3ba75f99a8fb Description-en: interface between Python and the LibreOffice ScriptForge library ScriptForge libraries build up an extensible collection of macro scripting resources for LibreOffice to be invoked from Basic macros or Python scripts. . This package contains the public scriptforge python library. Package: python3-shtab Description-md5: cffd6e1be09a788f750c5341570b22fb Description-en: Automagic shell tab completion for Python CLI applications Automatically generate shell tab completion scripts for Python CLI apps. shtab processes an argparse.ArgumentParser object to generate a tab completion script for your shell. . This package contains the Python 3 version of the library. Package: python3-sklearn Description-md5: 9cf0eb4ed22f5e5bc313b1554c9d5c58 Description-en: Python modules for machine learning and data mining - Python 3 scikit-learn is a collection of Python modules relevant to machine/statistical learning and data mining. Non-exhaustive list of included functionality: - Gaussian Mixture Models - Manifold learning - kNN - SVM (via LIBSVM) . This package contains the Python 3 version. Package: python3-sklearn-lib Description-md5: 81900007286d0bc4d155e1022943f0f5 Description-en: low-level implementations and bindings for scikit-learn - Python 3 This is an add-on package for python-sklearn. It provides low-level implementations and custom Python bindings for the LIBSVM library. . This package contains the Python 3 version. Package: python3-slepc4py Description-md5: 8f366f3655ee6c34ba2bbde774dd0dc1 Description-en: Python 3 bindings for SLEPc libraries SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This is a base package that depends on (Recommends) the python3 slepc4py package with either real or complex number support. It provides the path to slepc4py for the system's default SLEPc version set in /usr/lib/slepc. Export environment variable SLEPC_DIR to use other versions. Package: python3-slepc4py-64-complex Description-md5: 58a44066c33cd288fd6772f6d79dd109 Description-en: Python 3 bindings for 64-bit SLEPc libraries (complex numbers) SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This is a dummy package that depends on slepc4py for the latest version of SLEPc with complex number support and 64-bit indexing. . Access by setting environment variable SLEPC_DIR if the system default version of SLEPc is not already set to the 64-bit complex build. Package: python3-slepc4py-64-complex3.22 Description-md5: 79120f93d95541166dfe744b2918b078 Description-en: Python 3 bindings for 64-bit SLEPc 3.22 libraries (complex numbers) SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This package provides Python 3 bindings to almost all functions of SLEPc 3.22 with complex number support and 64-bit indexing. . Access by setting environment variable SLEPC_DIR if the system default version of SLEPc is not already set to the 64-bit complex build. Package: python3-slepc4py-64-real Description-md5: fd35d216aad554be34b41095913284f6 Description-en: Python 3 bindings for SLEPc 64-bit libraries (real numbers) SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This is a dummy package that depends on slepc4py for the latest version of SLEPc with real number support and 64-bit indexing. . Access by setting environment variable SLEPC_DIR if the system default version of SLEPc is not already set to the 64-bit build. Package: python3-slepc4py-64-real3.22 Description-md5: d1083fd16b9e107be48490773b1c3b7c Description-en: Python 3 bindings for 64-bit SLEPc 3.22 libraries (real numbers) SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This package provides Python 3 bindings to almost all functions of SLEPc 3.22 with real number support and 64-bit indexing. . Access by setting environment variable SLEPC_DIR if the system default version of SLEPc is not already set to the 64-bit build. Package: python3-slepc4py-complex Description-md5: 7495cf451c8d4792cc758858844b56ee Description-en: Python 3 bindings for SLEPc libraries (complex numbers) SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This is a dummy package that depends on slepc4py for the latest version of SLEPc with complex number support. . Access by setting environment variable SLEPC_DIR if the system default version of SLEPc is not already set to the complex build. Package: python3-slepc4py-complex3.22 Description-md5: 6e0a006e81dd311c801a41a5c7a1107f Description-en: Python 3 bindings for SLEPc 3.22 libraries (complex numbers) SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This package provides Python 3 bindings to almost all functions of SLEPc 3.22 with complex number support. . Access by setting environment variable SLEPC_DIR if the system default version of SLEPc is not already set to the complex build. Package: python3-slepc4py-real Description-md5: df766489efc2543c5b944139b6ff3799 Description-en: Python 3 bindings for SLEPc libraries (real numbers) SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This is a dummy package that depends on slepc4py for the latest version of SLEPc with real number support. Package: python3-slepc4py-real3.22 Description-md5: bc01c243ec56cb357df202a9e3567ce7 Description-en: Python 3 bindings for SLEPc 3.22 libraries (real numbers) SLEPc is the Scalable Library for Eigenvalue Problem Computations. . It is based on PETSc and employs the MPI standard for all message-passing communication. . This package provides Python 3 bindings to almost all functions of SLEPc 3.22 with real number support. Package: python3-spglib Description-md5: 436e34035462634fac747b0b17acd827 Description-en: C library for crystal symmetry determination - Python3 bindings Spglib is a C library for crystal symmetry determination. Symmetry operations, space groups and other data can be obtained using this symmetry finder. . Features include: . * Identify space-group type * Find symmetry operations * Find a primitive cell * Search irreducible k-points * Refine crystal structure * Wyckoff position assignment . This package contains the Python3 bindings. Package: python3-sphinx-tabs Description-md5: 10514d1240d801d8c2138625c1128bbe Description-en: Tabbed views for Sphinx Sphinx Tabs is a Sphinx extension that allows one to create tabbed content in a Sphinx documentation built in HTML. The current features are: - Simple tabs - Groupped tabs (synchronize the tabs between multiple areas of the page) - Code tabs . This package contains the Python3 library for sphinx-tabs Package: python3-sphinx-tabs-doc Description-md5: 6a3ddeb4b20e8eb72f25276c19a91074 Description-en: Tabbed views for Sphinx - Documentation Sphinx Tabs is a Sphinx extension that allows one to create tabbed content in a Sphinx documentation built in HTML. The current features are: - Simple tabs - Groupped tabs (synchronize the tabs between multiple areas of the page) - Code tabs . This package contains the documentation for sphinx-tabs Package: python3-sqt Description-md5: af37cd01facb2305c25529d7be11e4b3 Description-en: SeQuencing Tools for biological DNA/RNA high-throughput data sqt is a collection of command-line tools for working with high-throughput sequencing data. Conceptionally not fixed to use any particular language, many sqt subcommands are currently implemented in Python. For them, a Python package is available with functions for reading and writing FASTA/FASTQ files, computing alignments, quality trimming, etc. . The following tools are offered: * sqt-coverage -- Compute per-reference statistics such as coverage and GC content * sqt-fastqmod -- FASTQ modifications: shorten, subset, reverse complement, quality trimming. * sqt-fastastats -- Compute N50, min/max length, GC content etc. of a FASTA file * sqt-qualityguess -- Guess quality encoding of one or more FASTA files. * sqt-globalalign -- Compute a global or semiglobal alignment of two strings. * sqt-chars -- Count length of the first word given on the command line. * sqt-sam-cscq -- Add the CS and CQ tags to a SAM file with colorspace reads. * sqt-fastamutate -- Add substitutions and indels to sequences in a FASTA file. * sqt-fastaextract -- Efficiently extract one or more regions from an indexed FASTA file. * sqt-translate -- Replace characters in FASTA files (like the 'tr' command). * sqt-sam-fixn -- Replace all non-ACGT characters within reads in a SAM file. * sqt-sam-insertsize -- Mean and standard deviation of paired-end insert sizes. * sqt-sam-set-op -- Set operations (union, intersection, ...) on SAM/BAM files. * sqt-bam-eof -- Check for the End-Of-File marker in compressed BAM files. * sqt-checkfastqpe -- Check whether two FASTQ files contain correctly paired paired-end data. Package: python3-tagpy Description-md5: bf6a8660233225c746e108ec179b3214 Description-en: Python 3 module for manipulating tags in music files Binds Python to Scott Wheeler's TagLib. Makes it easy to read ID3 tags from MP3 files, Xiph Comments from Ogg Vorbis and FLAC files, and APE tags from MusePack files. Package: python3-tango Description-md5: 61b09160772b50d23c891ebab80dd8ec Description-en: API for the TANGO control system (Python 3) TANGO is an object oriented distributed control system using CORBA, mainly developed by the Controls Section of the ALBA Synchrotron. PyTango provides bindings for its client- and server-side C++ APIs. With PyTango, you can write TANGO device servers and TANGO applications (scripts, CLIs, GUIs) that access TANGO device servers in pure Python. . This is the Python 3 version of the package. Package: python3-tasmanian Description-md5: 50c0f78b6ee31e11641e9f2af72c1f91 Description-en: Python interface to the Tasmanian sparse grids and DREAM modules The Toolkit for Adaptive Stochastic Modeling and Non-Intrusive ApproximatioN (Tasmanian) is a collection of robust libraries for high dimensional integration and interpolation as well as parameter calibration. . This package provides a Python interface to the Tasmanian sparse grids and DREAM modules. Package: python3-tomli Description-md5: b891a75dcd7ed5f197d9791219655b15 Description-en: lil' TOML parser for Python Tomli is a Python library for parsing TOML. https://toml.io/ Tomli is fully compatible with TOML v1.0.0. https://toml.io/en/v1.0.0 . A version of Tomli, the `tomllib` module, was added to the standard library in Python 3.11 via PEP 680 (https://www.python.org/dev/peps/pep-0680/). . Tomli uses [mypyc](https://github.com/mypyc/mypyc) to generate binary wheels for most of the widely used platforms, so Python 3.11+ users may prefer it over `tomllib` for improved performance. Package: python3-torch Description-md5: ac52669c2876a105ffa7c8a78826b488 Description-en: Tensors and Dynamic neural networks in Python (Python Interface) PyTorch is a Python package that provides two high-level features: . (1) Tensor computation (like NumPy) with strong GPU acceleration (2) Deep neural networks built on a tape-based autograd system . You can reuse your favorite Python packages such as NumPy, SciPy and Cython to extend PyTorch when needed. . This is the CPU-only version of PyTorch (Python interface). Package: python3-torch-geometric Description-md5: d7218f455026ad6f78c6cc8b8e58215f Description-en: Graph Neural Network Library for PyTorch PyG (PyTorch Geometric) is a library built upon PyTorch to easily write and train Graph Neural Networks (GNNs) for a wide range of applications related to structured data. . It consists of various methods for deep learning on graphs and other irregular structures, also known as geometric deep learning, from a variety of published papers. In addition, it consists of easy-to-use mini-batch loaders for operating on many small and single giant graphs, multi GPU-support, DataPipe support, distributed graph learning via Quiver, a large number of common benchmark datasets (based on simple interfaces to create your own), the GraphGym experiment manager, and helpful transforms, both for learning on arbitrary graphs as well as on 3D meshes or point clouds. Package: python3-venv Description-md5: 5463618244dd95374cfb73cbfdeba67b Description-en: venv module for python3 (default python3 version) This package contains the venv module for the Python language (default python3 version). . The venv module provides support for creating lightweight "virtual environments" with their own site directories, optionally isolated from system site directories. Each virtual environment has its own Python binary (which matches the version of the binary that was used to create this environment) and can have its own independent set of installed Python packages in its site directories. . This package is a dependency package, which depends on Debian's default Python 3 version's venv module (currently v3.13). Package: python3-virtualenv Description-md5: d43e55c033f9a1387627cc1b68a4c764 Description-en: Python virtual environment creator virtualenv is a tool to create isolated Python environments, each invokable with its own Python executable. Each instance can have different sets of modules, installable via pip. Virtual Python instances can also be created without root access. . Since Python 3.3, a subset of it has been integrated into the standard library under the venv module (python3-venv in Debian). The venv module does not offer all features of this library, to name just a few more prominent ones: . * is slower (by not having the app-data seed method), * is not as extendable, * cannot create virtual environments for arbitrarily installed Python versions (and automatically discover these), * does not have as rich programmatic API (describe virtual environments without creating them). . This is the Python 3 version of the library. It includes the command line script. Package: python3-watchfiles Description-md5: 4b2fde8f84c9c3e3bbc86f960617d1ec Description-en: Simple, modern and high performance file watching in Python Simple, modern and high performance file watching and code reload in Python. Underlying file system notifications are handled by the Notify Rust library. . This package is the reincarnation of a previous project named "watchgod". Package: python3-xdmf Description-md5: 9ac2d7f2fb4a5156c63b636aad99edf1 Description-en: Python3 wrappers for the eXtensible Data Model and Format library This package provides python3 wrappers for the libXDMF library. Package: python3-yarl Description-md5: c6ae3a2ef96a4bd5e4dceb9c2d630346 Description-en: yet another URL library for Python URL is constructed from `str`: . >>> from yarl import URL >>> url = URL('https://www.python.org/~guido?arg=1#frag') >>> url URL('https://www.python.org/~guido?arg=1#frag') . All URL parts: scheme, user, passsword, host, port, path, query and fragment are accessible by properties: . >>> url.scheme 'https' >>> url.host 'www.python.org' >>> url.path '/~guido' >>> url.query_string 'arg=1' >>> url.query >>> url.fragment 'frag' . All URL manipulations produces a new URL object: . >>> url.parent / 'downloads/source' URL('https://www.python.org/downloads/source') . Strings passed to constructor and modification methods are automatically encoded giving canonical representation as result:: . >>> url = URL('https://www.python.org/путь') >>> url URL('https://www.python.org/%D0%BF%D1%83%D1%82%D1%8C') . Regular properties are percent-decoded, use `raw_` versions for getting encoded strings: . >>> url.path '/путь' . >>> url.raw_path '/%D0%BF%D1%83%D1%82%D1%8C' . Human readable representation of URL is available as `.human_repr()`: . >>> url.human_repr() 'https://www.python.org/путь' Package: python3-zmq Description-md5: 570ef6b690e7bf53c2950e3ba8ae4cb7 Description-en: Python3 bindings for 0MQ library Python bindings for 0MQ. 0MQ is a small, fast, and free software library that gives you message-passing concurrency for applications in most common languages. . The 0MQ lightweight messaging kernel is a library which extends the standard socket interfaces with features traditionally provided by specialised messaging middleware products. 0MQ sockets provide an abstraction of asynchronous message queues, multiple messaging patterns, message filtering (subscriptions), seamless access to multiple transport protocols and more. . This package contains the extension built for the Python3 interpreter. Package: python3-zstandard Description-md5: a7f22fa2943e8f73604ee5b87887db9f Description-en: Python bindings for interfacing with Zstandard library This project provides Python bindings for interfacing with the Zstandard compression library. A C extension and CFFI interface are provided. . The primary goal of the project is to provide a rich interface to the underlying C API through a Pythonic interface while not sacrificing performance. This means exposing most of the features and flexibility of the C API while not sacrificing usability or safety that Python provides. . Zstandard, or zstd as short version, is a fast lossless compression algorithm, targeting real-time compression scenarios at zlib-level and better compression ratios. Package: python3.14-full Description-md5: a3f83a2c01a14a52b4705f1be466ac2e Description-en: Python Interpreter with complete class library (version 3.14) Python, the high-level, interactive object oriented language, includes an extensive class library with lots of goodies for network programming, system administration, sounds and graphics. . This package is a dependency package, which depends on the full standard library of Python for Python developers. Including modules used only at build-time, such as venv, and modules with complex dependencies, such as tk and IDLE. All batteries included. . According to the Debian Python policy, this package must not be used in build dependencies, dependencies and recommendations. Package: python3.14-gdbm Description-md5: 1b1eb032cfe3bbd69adc7b8690dbb997 Description-en: GNU dbm database support for Python (v3.14) GNU dbm database module for Python. Install this if you want to create or read GNU dbm database files with Python. Package: python3.14-nopie Description-md5: 959d2b40f02580eb9178743caa652c87 Description-en: Python interpreter linked without PIE (version 3.14) This package contains the interpreter not built as position independent executable. This interpreter is diverting the python3.14 executable, and making the interpreter built with PIE available as python3.14-pie. Package: python3.14-tk Description-md5: 4486b80afd0840930ee0b03099afac63 Description-en: Tkinter - Writing Tk applications with Python (v3.14) A module for writing portable GUI applications with Python (v3.14) using Tk. Also known as Tkinter. Package: python3.14-venv Description-md5: ff919d8b4e5b061c91f88716f8fc1629 Description-en: Interactive high-level object-oriented language (pyvenv binary, version 3.14) Python is a high-level, interactive, object-oriented language. Its 3.14 version includes an extensive class library with lots of goodies for network programming, system administration, sounds and graphics. . This package contains the pyvenv-3.14 binary. Package: qmake6 Description-md5: a1a8171d50e63c6336f4e0e02e481f00 Description-en: Qt 6 qmake Makefile generator tool Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package contains the Qt 6 qmake, a tool that helps simplify the build process for development project across different platforms. qmake automates the generation of Makefiles so that only a few lines of information are needed to create each Makefile. qmake can be used for any software project, whether it is written using Qt or not. . Qt 6 qmake requires a platform and a compiler description file which contains many default values used to generate appropriate Makefiles. . This package contains also these platform specifications. Package: qmake6-bin Description-md5: 7bce87133b1389c453ddd624bdcce8f7 Description-en: Qt 6 qmake Makefile generator tool — binary file Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package contains the binary file for the qmake buildsystem. Do not install this package directly, use qmake6 instead. Package: qt6-base-dev Description-md5: 5de122fb49a6530449cd0ff824832a0e Description-en: Qt 6 base development files Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package contains the header development files used for building Qt 6 applications. . If you are interested in packaging Qt 6 stuff please take a look at https://qt-kde-team.pages.debian.net/packagingqtbasedstuff.html Package: qt6-base-dev-tools Description-md5: 03c8816affbc4104348354220270f2af Description-en: Qt 6 base development programs Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package contains the development programs used for building Qt 6 applications, such as moc, qdbuscpp2xml, qdbusxml2cpp, rcc, syncqt and uic. . We do not recommend depending on this package directly. Please depend on qt6-base-dev instead. Package: qt6-base-doc Description-md5: 76107c1190520417580e10be9f4e45dd Description-en: Qt 6 base documentation Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package contains the documentation for the Qt 6 base libraries. Package: qt6-base-doc-dev Description-md5: b180c0f10e4c9efc1ca628f3b6e41399 Description-en: Qt 6 base tags files Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package contains the doxygen tags files for the qtbase documentation. Package: qt6-base-doc-html Description-md5: f37b5cc6b38c704f84079a36718f1441 Description-en: Qt 6 base HTML documentation Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package contains the HTML documentation for the Qt 6 base libraries. Package: qt6-base-examples Description-md5: 4b5e726afe2ac264c3297e7686da6c78 Description-en: Qt 6 base examples Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package contains the examples for the Qt base submodule. Package: qt6-base-private-dev Description-md5: 9c080a5ddebf3c0e2f58a5440a9ec5dc Description-en: Qt 6 base private development files Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package contains the private header development files for building some Qt 6 applications like the Qt Creator QML Designer plugin. . Use at your own risk. Package: qt6-gtk-platformtheme Description-md5: d29e94f2ccff167a87b09a3efec61ae5 Description-en: Qt 6 GTK+ 3 platform theme Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package provides the GTK+ 3 platform theme, which makes Qt use native icon themes, fonts, and dialogs on GTK-based environments. Package: qt6-qpa-plugins Description-md5: 9fe363e9294190c67fdee748c29adca2 Description-en: Qt 6 QPA plugins Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package contains the following plugins: * uioTouch Plugin * VNC Plugin Package: qt6-xdgdesktopportal-platformtheme Description-md5: 70b7a21f40d6760f8c17fc0359260b87 Description-en: Qt 6 XDG Desktop Portal platform theme Qt is a cross-platform C++ application framework. Qt's primary feature is its rich set of widgets that provide standard GUI functionality. . This package provides the XDG Desktop portal platform theme, which makes Qt use native file dialogs on Flatpak/Snap based environments. Package: r-cran-gbm Description-md5: bb38159ea69aa73da1340c69243cf5cd Description-en: GNU R package providing Generalized Boosted Regression Models This package implements extensions to Freund and Schapire's AdaBoost algorithm and Friedman's gradient boosting machine. Includes regression methods for least squares, absolute loss, t-distribution loss, quantile regression, logistic, multinomial logistic, Poisson, Cox proportional hazards partial likelihood, AdaBoost exponential loss, Huberized hinge loss, and Learning to Rank measures (LambdaMart). Package: rbd-fuse Description-md5: 15cf24eaec74387c1ae6ddef87cdb866 Description-en: FUSE-based rbd client for the Ceph distributed file system Ceph is a distributed network file system designed to provide excellent performance, reliability, and scalability. This is a FUSE-based client that allows one to map Ceph rbd images as files. Package: rbd-mirror Description-md5: 1d710ddd4d105de6cfd76d4ca18a79b3 Description-en: Ceph daemon for mirroring RBD images Ceph is a distributed storage system designed to provide excellent performance, reliability, and scalability. . This package provides a daemon for mirroring RBD images between Ceph clusters, streaming changes asynchronously. Package: rbd-nbd Description-md5: 7780c9ecf943aeed38e3b3d394062e74 Description-en: NBD-based rbd client for the Ceph distributed file system Ceph is a massively scalable, open-source, distributed storage system that runs on commodity hardware and delivers object, block and file system storage. This is a NBD-based client that allows one to map Ceph rbd images as local block device. . NBD base client that allows one to map Ceph rbd images as local block device. Package: redmine Description-md5: 3a216a1439e1b07aad3aecd0c613d53b Description-en: flexible project management web application Redmine is a flexible project management web application. Written using Ruby on Rails framework, it is cross-platform and cross-database. . Dependencies for database support are provided by these metapackages: redmine-mysql, redmine-pgsql, redmine-sqlite. . Features * Multiple projects support * Flexible role based access control * Flexible issue tracking system * Gantt chart and calendar * News, documents & files management * Feeds & email notifications * Per project wiki * Per project forums * Time tracking * Custom fields for issues, time-entries, projects and users * SCM integration (SVN, CVS, Git, Mercurial, Bazaar and Darcs) * Issue creation via email * Multiple LDAP authentication support * User self-registration support * Multilanguage support Package: redmine-mysql Description-md5: 5334d370ac0b467914273b70a17e9522 Description-en: metapackage providing MySQL dependencies for Redmine This package only provides MySQL dependencies for Redmine, a flexible project management web application. Install this one if you want to use a MySQL database with Redmine. . Redmine package should be installed along with this package. Package: redmine-pgsql Description-md5: f308cd100ee4983a5adb6ff3370520bf Description-en: metapackage providing PostgreSQL dependencies for Redmine This package provides PostgreSQL dependencies for Redmine, a flexible project management web application. Install this one if you want to use a PostgreSQL database with Redmine. . Redmine package should be installed along with this package. Package: redmine-sqlite Description-md5: 92a51359a57c7c0c86638eb96a7a1e4e Description-en: metapackage providing sqlite dependencies for Redmine This package provides sqlite dependencies for Redmine, a flexible project management web application. Install this one if you want to use a sqlite database with Redmine. . Redmine package should be installed along with this package. Package: reform-desktop-full Description-md5: 9dca7acbac5b56569628d69da8ebdc8e Description-en: MNT Reform Desktop Environment -- graphical desktop The MNT Reform suite of open hardware computers comes with a default Debian installation. This metapackage includes all packages required for a full graphical desktop. Package: reform-desktop-minimal Description-md5: 4d432406fe814f72b4f160bfdedda511 Description-en: MNT Reform Desktop Environment -- essential components The MNT Reform suite of open hardware computers comes with a default Debian installation. This metapackage includes all packages required for a minimal non-graphical terminal based installation. Package: reform-tools Description-md5: a753980269e0b522dfedf3b67f516966 Description-en: MNT System Tools for MNT Reform and MNT Pocket Reform Utilities, scripts and configurations for the MNT Reform and MNT Pocket Reform open hardware laptops with either i.MX8MQ, i.MX8MPlus, Banana PI CM4, LS1028A or RK3588. . Contains system utilities to manage your installation as well as configuration files for initramfs, flash-kernel, pulseaudio, alsa, u-boot-menu, udev and NetworkManager. Package: reform2-lpc-dkms Description-md5: 68075fae3138a8f5a03575a7677c426c Description-en: dkms driver sources for Reform 2 LPC11U24 The reform2_lpc kernel module allows for interaction with the NXP LPC11U24 Cortex-M0 MCU system controller in the Reform 2 open hardware laptop. It controls an analog monitor chip for the eight battery cells as well as the charger. It is connected to the Processor Module via SPI, and has GPIO lines to the main power rail switchers in the system. It has a UART (SYSCTL) that the keyboard can talk to directly for issuing power on/off commands and battery status queries. . The reform2_lpc module provides battery status information and is necessary to completely shut down the system when powering it off via userspace. . This package provides sources for the reform2_lpc kernel module for use with the Dynamic Kernel Module Support (dkms) framework. Package: ruby-cutest Description-md5: 51faf0d5bb2168b940b5a43826dc58e7 Description-en: Run ruby tests independantly Cutest run tests in separate processes to avoid shared state. Once a failure is found, you get a report detailing what failed and how to locate the error and the rest of the file is skipped. Package: ruby-google-protobuf Description-md5: 317c79699eb4b3c57bdf9bcdb8761c55 Description-en: Protocol Buffers Protocol Buffers are Google's data interchange format. . This library contains the Ruby extension that implements Protocol Buffers functionality in Ruby. . The Ruby extension makes use of generated Ruby code that defines message and enum types in a Ruby DSL. You may write definitions in this DSL directly, but we recommend using protoc's Ruby generation support with .proto files. The build process in this directory only installs the extension; you need to install protoc as well to have Ruby code generation functionality. Package: sip-tester Description-md5: 8d39c35e106162e00a88993af42aa149 Description-en: Performance testing tool for the SIP protocol sip-tester is a test tool and traffic generator for the SIP protocol. It can be used to test SIP equipment like SIP proxies, SIP media servers, etc. and to emulate user agents calling a SIP system. . Its features are: * a few basic SipStone user agent scenarios included * custom XML scenario files even for complex call flows * comprehensive set of real-time statistics * TCP and UDP transport * dynamically adjustable call rates - send RTP traffic . This software is distributed as SIPp by its authors. . SIP is the Session Initiation Protocol, a standard signalling protocol for initiating, modifying, and terminating Internet conferencing, telephony (VoIP - Voice over IP), video, and instant messaging. . This package has been built for distributed pauses with the GNU Scientific Libraries and without openssl due licenses incompatibilities, so authentication is not supported. Package: slapd-contrib Description-md5: ff6e572efbbb94ce9953af67807dabd9 Description-en: contributed plugins for OpenLDAP slapd This package contains a number of slapd overlays and plugins contributed by the OpenLDAP community. While distributed as part of OpenLDAP Software, they are not necessarily supported by the OpenLDAP Project. Package: snap-confine Description-md5: 3223c275ff89224fda1b277eec5e7ffe Description-en: Transitional package for snapd This is a transitional dummy package. It can safely be removed. Package: snapd-xdg-open Description-md5: ba6c49ad1a4e739a75a7e8d0fde06a77 Description-en: Transitional package for snapd-xdg-open This is a transitional dummy package. It can safely be removed. Package: sopv-doc Description-md5: ec602c9c500e26405f8df032343c4e2a Description-en: OpenPGP verification manuals and examples sopv is the verification-only subset of the Stateless OpenPGP Command Line Interface. . It is used to verify OpenPGP signatures. Several different implementations of this interface are present in Debian, and it is possible to use the alternatives system to choose between them. . This package provides generic documentation for users of sopv in the form of manpages, and example test scripts that can be used to confirm the conformance of a sopv implementation to the specification. . See https://datatracker.ietf.org/doc/draft-dkg-openpgp-stateless-cli/ for more information. Package: sopv-gpgv Description-md5: b1739dc80f7825668d26c43cd384d43e Description-en: Stateless OpenPGP CLI Verification-only Subset backed by gpgv The Stateless OpenPGP Command-Line Interface Verification-only Subset (or `sopv`) is a simple, standard interface for verifying OpenPGP cryptographic signatures. . This package provides an implementation of `sopv` backed by the minimal, verification-only `gpgv` tool from g10code. . `sopv` is defined in https://datatracker.ietf.org/doc/draft-dkg-openpgp-stateless-cli/ `gpgv` https://www.gnupg.org/documentation/manuals/gnupg/gpgv.html Package: speech-tools Description-md5: 23bbb81e2e55bcc1d07ccd37a4f11944 Description-en: Edinburgh Speech Tools - user binaries This package contains the various highly useful utility programs that use and accompany the Edinburgh Speech Tools Library. Audio software and some basic signal processing software is included in this package. . The following programs are available: na_play: generic playback program for use with net_audio and CSTR ao. ch_wave: Waveform file conversion program. ch_lab: label file conversion program. ch_track: Track file conversion program. wagon: a CART tree build and test program . See /usr/share/doc/speech-tools/README for detail list of programs available. Package: speech-tools-doc Description-md5: 7bc9ef5c11ff30efddc6d989c050d300 Description-en: Documentation for the Edinburgh Speech Tools This package contains the HTML and Postscript versions of the documentation for the Edinburgh Speech Tools. . Documentation also contains examples and tutorials on how to use Speech Tools library with your programs. Package: starpu-examples Description-md5: 601fd3c318d53962421cdbdd364f312b Description-en: Task scheduler for heterogeneous multicore machines - exs StarPU is a runtime system that offers support for heterogeneous multicore machines. While many efforts are devoted to design efficient computation kernels for those architectures (e.g. to implement BLAS kernels on GPUs or on Cell's SPUs), StarPU not only takes care of offloading such kernels (and implementing data coherency across the machine), but it also makes sure the kernels are executed as efficiently as possible. . This package contains application examples. Package: starpu-tools Description-md5: eb2ba87d4cd88833bc91b0cf6b977279 Description-en: Task scheduler for heterogeneous multicore machines - tools StarPU is a runtime system that offers support for heterogeneous multicore machines. While many efforts are devoted to design efficient computation kernels for those architectures (e.g. to implement BLAS kernels on GPUs or on Cell's SPUs), StarPU not only takes care of offloading such kernels (and implementing data coherency across the machine), but it also makes sure the kernels are executed as efficiently as possible. . This package contains StarPU tools. Package: stegseek Description-md5: d9f05293df6f247b054d1d97cbea8541 Description-en: Worlds fastest steghide cracker Stegseek is a lightning fast steghide cracker that can be used to extract hidden data from files. It is built as a fork of the original steghide project and, as a result, it is thousands of times faster than other crackers and can run through millions of passwords per second. . Stegseek can also be used to extract steghide metadata without a password, which can be used to test whether a file contains steghide data. Package: stratoshark Description-md5: ba27e1de101084f35137945feefe69ca Description-en: system call and log analyzer - graphical and console interfaces Stratoshark is a system call and log analyzer. It can capture and analyze system calls on Linux and capture and analyze log data from other sources. . The package provides stratoshark as the graphical interface and strato as the console interface. Package: tasgrid Description-md5: c00b421318720c42ae2338386ad35820 Description-en: command-line interface to the Tasmanian sparse grids library The Toolkit for Adaptive Stochastic Modeling and Non-Intrusive ApproximatioN (Tasmanian) is a collection of robust libraries for high dimensional integration and interpolation as well as parameter calibration. . This package contains an executable that provides a command-line interface to the Tasmanian Sparse Grids module. It provides the ability to create and manipulate sparse grids, save and load them into files and optionally interface with another program via text files. Package: tshark Description-md5: 17aa46d351c7c1a5aa0e49637765c939 Description-en: network traffic analyzer - console version Wireshark is a network "sniffer" - a tool that captures and analyzes packets off the wire. Wireshark can decode too many protocols to list here. . This package provides the console version of wireshark, named "tshark". Package: tzdata-icu Description-md5: a5c3f50b1819a84102de7f4c1903524f Description-en: ICU time zone and daylight-saving time data This package contains data required for the implementation of standard local time for many representative locations around the globe. It is updated periodically to reflect changes made by political bodies to time zone boundaries, UTC offsets, and daylight-saving rules. . This package contains the time zone data in the format used by International Components for Unicode (ICU). Package: ubuntu-core-launcher Description-md5: 3223c275ff89224fda1b277eec5e7ffe Description-en: Transitional package for snapd This is a transitional dummy package. It can safely be removed. Package: ubuntu-core-snapd-units Description-md5: 1f317b04f78374dba7d1e14def0b7f80 Description-en: transitional dummy package This is a transitional dummy package. It can safely be removed. Package: ubuntu-snappy Description-md5: 1f317b04f78374dba7d1e14def0b7f80 Description-en: transitional dummy package This is a transitional dummy package. It can safely be removed. Package: ubuntu-snappy-cli Description-md5: 1f317b04f78374dba7d1e14def0b7f80 Description-en: transitional dummy package This is a transitional dummy package. It can safely be removed. Package: userv Description-md5: cdfd24a760e90973fadb5fa934bf8a3a Description-en: `user services' - program call across trust boundaries userv allows one program to invoke another when only limited trust exists between them. It is a tool which can be used to avoid having to give other system services root privilege, and which allows users to more securely have programs provide services to others. . userv can be useful as `glue' for system administrators; there are not many full-blown userv-using applications yet. Package: valentina Description-md5: d1f6828fe9ae1850efe03b8497b0a811 Description-en: pattern making program Valentina is a pattern drafting software tool for small-batch and custom-sized clothing manufacturing. . Valentina allows designers to create and model patterns of clothing, using either standard sizing tables or an individual’s set of measurements. It blends new technologies with traditional methods to create a unique pattern making tool. . The "tape" executable is provided as "valentina-tape", and the "puzzle" executable is provided as "valentina-puzzle". Package: valentina-l10n Description-md5: 0989bbfb518e26b0a8f84c64384bf969 Description-en: pattern making program - locale data Valentina is a pattern drafting software tool for small-batch and custom-sized clothing manufacturing. . Valentina allows designers to create and model patterns of clothing, using either standard sizing tables or an individual’s set of measurements. It blends new technologies with traditional methods to create a unique pattern making tool. . This package provides locale data for Valentina. Package: virtualenv Description-md5: c3c6956741f193d2b90d9dc161c7660f Description-en: Python virtual environment creator (Dependency package) The virtualenv utility creates virtual Python instances, each invokable with its own Python executable. Each instance can have different sets of modules, installable via pip. Virtual Python instances can also be created without root access. . This is a dependency package and may be safely removed. Package: wapiti Description-md5: b13c5cbe215f396866461fbe6e26610d Description-en: web application vulnerability scanner Wapiti allows you to audit the security of your web applications. It performs "black-box" scans, i.e. it does not study the source code of the application but will scan the web pages of the deployed web applications, looking for scripts and forms where it can inject data. Once it gets this list, Wapiti acts like a fuzzer, injecting payloads to see if a script is vulnerable. . Wapiti can detect the following vulnerabilities: - Database Injection (PHP/ASP/JSP SQL Injections and XPath Injections) - Cross Site Scripting (XSS) reflected and permanent - File disclosure detection (local and remote include, require, fopen, readfile...) - Command Execution detection (eval(), system(), passtru()...) - XXE (Xml eXternal Entity) injection - CRLF Injection - Search for potentially dangerous files on the server (thank to the Nikto db) - Bypass of weak htaccess configurations - Search for copies (backup) of scripts on the server - Shellshock - DirBuster like - Server Side Request Forgery (through use of an external Wapiti website) Package: wireplumber-system-services Description-md5: aac251fc3a16235d9ad216daaacd4d2d Description-en: modular session / policy manager for PipeWire (system services) WirePlumber is a modular session / policy manager for PipeWire and a GObject-based high-level library that wraps PipeWire's API, providing convenience for writing the daemon's modules as well as external tools for managing PipeWire. . This package contains the systemd system services. NOTE: This is NOT the recommended way to use WirePlumber, but these services are provided for specific use cases like embedded and accessibility. Package: wireshark Description-md5: 1bd0e02c3e760c49351c9f2bd07e1757 Description-en: network traffic analyzer - graphical interface Wireshark is a network "sniffer" - a tool that captures and analyzes packets off the wire. Wireshark can decode too many protocols to list here. Package: wireshark-common Description-md5: b1c29e0c6a4eee149d83574a64f12c2b Description-en: network traffic analyzer - common files Wireshark is a network "sniffer" - a tool that captures and analyzes packets off the wire. Wireshark can decode too many protocols to list here. . This package provides files common to both wireshark and tshark (the console version). Package: wireshark-dev Description-md5: 7a344f6feb13aa3b18ede52debae4fe2 Description-en: network traffic analyzer - development tools Wireshark is a network "sniffer" - a tool that captures and analyzes packets off the wire. Wireshark can decode too many protocols to list here. . This package provides idl2wrs and other files necessary for developing new packet dissectors. Package: wireshark-doc Description-md5: ed8b1896882405b928131b74c90e0b57 Description-en: network traffic analyzer - documentation Wireshark is a network "sniffer" - a tool that captures and analyzes packets off the wire. Wireshark can decode too many protocols to list here. . This package contains Wireshark User's guide, Wireshark Developer's Guide and the Lua Reference. Package: bochs Description-md5: bc053c9a3065af52a73668b7866a2e07 Description-en: IA-32 PC emulator Bochs is a highly portable free IA-32 (x86) PC emulator written in C++, that runs on most popular platforms. It includes emulation of the Intel x86 CPU, common I/O devices, and a custom BIOS. . Bochs is capable of running most operating systems inside the emulation including GNU, GNU/Linux, *BSD, FreeDOS, MSDOS and Windows 95/NT. Package: bochs-sdl Description-md5: c1de9e8924d4d41e5077c82fed4d22e9 Description-en: SDL plugin for Bochs Bochs is a highly portable free IA-32 (x86) PC emulator written in C++, that runs on most popular platforms. It includes emulation of the Intel x86 CPU, common I/O devices, and a custom BIOS. . This package contains an SDL GUI plugin for Bochs. . Use Scroll-Lock key for full screen. Package: bochs-term Description-md5: 6e4769512394248d4595633871dc05ef Description-en: Terminal (ncurses-based) plugin for Bochs Bochs is a highly portable free IA-32 (x86) PC emulator written in C++, that runs on most popular platforms. It includes emulation of the Intel x86 CPU, common I/O devices, and a custom BIOS. . This package contains a Terminal (ncurses-based) GUI plugin for Bochs. Package: bochs-wx Description-md5: 173269ea6b13541db917fabb97fa5bcc Description-en: WxWindows plugin for Bochs Bochs is a highly portable free IA-32 (x86) PC emulator written in C++, that runs on most popular platforms. It includes emulation of the Intel x86 CPU, common I/O devices, and a custom BIOS. . This package contains a WxWindows GUI plugin for Bochs. Package: bochs-x Description-md5: d05bd802b2729b64a9ea369b90b87f71 Description-en: X11 plugin for Bochs Bochs is a highly portable free IA-32 (x86) PC emulator written in C++, that runs on most popular platforms. It includes emulation of the Intel x86 CPU, common I/O devices, and a custom BIOS. . This package contains an X11 GUI plugin for Bochs. Package: bximage Description-md5: 8deff38bdaf35413e0eddc6a244bcd1c Description-en: Disk Image Creation Tool for Bochs This tool is part of the Bochs project. Its purpose is to generate disk images that are used to allocate the guest operating system in Bochs environment. Package: libowfat-dev Description-md5: 3c1183c210647b93d17990f2c3d56bb0 Description-en: Reimplementation of libdjb, development files This library is a reimplementation of libdjb, which means that it provides Daniel Bernstein's interfaces (with some extensions). . It contains wrappers around memory allocation, buffered I/O, routines for formatting and scanning, a full DNS resolver, several socket routines, wrappers for socket functions, wait, and an abstraction around errno. It also includes wrappers for Unix signal functions and a layer of mmap and sendfile. . This package contains the libowfat development files and man pages. Package: libowfat0t64 Description-md5: 557370088ad8ec1211a633c6b3341988 Description-en: Reimplementation of libdjb, shared library This library is a reimplementation of libdjb, which means that it provides Daniel Bernstein's interfaces (with some extensions). . It contains wrappers around memory allocation, buffered I/O, routines for formatting and scanning, a full DNS resolver, several socket routines, wrappers for socket functions, wait, and an abstraction around errno. It also includes wrappers for Unix signal functions and a layer of mmap and sendfile. Package: mingw-w64-tools Description-md5: e51ae65009b54dc317e276561f73ef47 Description-en: Development tools for 32- and 64-bit Windows MinGW-w64 provides a development and runtime environment for 32- and 64-bit (x86 and x64) Windows applications using the Windows API and the GNU Compiler Collection (gcc). . This package contains: * gendef, which extracts DLL exports from Windows executables; * genidl, which extracts IDL information from Windows executables; * genpeimg, which manipulates PE flags in Windows executables; * widl, which generates build files from IDL descriptions; * pkg-config symlinks to allow .pc-based libraries to be used. Package: python3-vispy Description-md5: 55d7d61f130348be9ddefff91d07509e Description-en: interactive visualization in Python 3 Vispy is a high-performance interactive 2D/3D data visualization library. . Vispy leverages the computational power of modern Graphics Processing Units (GPUs) through the OpenGL library to display very large datasets. . This package provides VisPy for the Python 3 interpreter. Package: clickhouse-client Description-md5: 6dceda8938e33615fa36694310e1e0cc Description-en: column-oriented database system (cli client) ClickHouse is a column-oriented database management system that allows generating analytical data reports in real time. . This package provides ClickHouse CLI client. Package: clickhouse-common Description-md5: dafc4f101c8118146cf2903a05dfe5ed Description-en: column-oriented database system (common files) ClickHouse is a column-oriented database management system that allows generating analytical data reports in real time. . This package provides common files for both ClickHouse server and client. Package: clickhouse-server Description-md5: 40ffe1390c0d529d732668d8ed763668 Description-en: column-oriented database system (server runner) ClickHouse is a column-oriented database management system that allows generating analytical data reports in real time. . This package provides ClickHouse server runner. Package: clickhouse-tools Description-md5: 25307a8fa689f823bd361f1d7b95d91a Description-en: column-oriented database system (tools) ClickHouse is a column-oriented database management system that allows generating analytical data reports in real time. . This package provides various ClickHouse tools: - clickhouse-performance-test - clickhouse-benchmark - clickhouse-compressor - clickhouse-copier and some others. Package: ignition-launch-cli Description-md5: 58a5b2679542ab03c37010d229be92d2 Description-en: Ignition Robotics Launch Library - Launch cli Ignition Launch, a component of Ignition Robotics, provides a command line interface to run and manager application and plugins. . Package contains the ignition launch cli application Package: libignition-gazebo-dev Description-md5: 8ba4d9f9a00527803ae38cb007410427 Description-en: Ignition Gazebo classes and functions for robot apps - Development files Ignition Gazebo is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files Package: libignition-gazebo-plugins Description-md5: ed75f85997875eff7f6d998c9eef28e9 Description-en: Ignition Gazebo classes and functions for robot apps - Plugins Ignition Gazebo is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Plugins collection Package: libignition-gazebo6-6 Description-md5: 5f37a7f9f59985df65ec850277bd2285 Description-en: Ignition Gazebo classes and functions for robot apps - Shared library Ignition Gazebo is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Main shared library Package: libignition-launch-dev Description-md5: 980577ac8b37422a77b797e25a67db00 Description-en: Ignition Robotics Launch Library - Development files Ignition Launch, a component of Ignition Robotics, provides a command line interface to run and manager application and plugins. . Package contains the ignition launch development files Package: libignition-launch5-5 Description-md5: b1c4132c18a7f9ea2480e3a2dcb9fdc6 Description-en: Ignition Robotics Launch Library - Launch libraries Ignition Launch, a component of Ignition Robotics, provides a command line interface to run and manager application and plugins. . Package contains the ignition launch libraries Package: liblomiri-thumbnailer-qt-dev Description-md5: d3cdc549ede6550f492d0b9cdd41894c Description-en: Qt/C++ API to obtain thumbnails (development files) Lomiri Thumbnailer is an API for the Lomiri operating environment to create and cache image thumbnails for local and remote media. . Library providing a client API for obtaining thumbnails from the DBus service. . This package provides the development files for the library. Package: liblomiri-thumbnailer-qt1.0 Description-md5: 118a884cdf727986556c0a172cff49da Description-en: Qt/C++ API to obtain thumbnails Lomiri Thumbnailer is an API for the Lomiri operating environment to create and cache image thumbnails for local and remote media. . Library providing a client API for obtaining thumbnails from the DBus service. Package: libregfi-dev Description-md5: 2aed8bca746e6c7f0c3aadaeb08a57c0 Description-en: utility to analysis for Windows NT-based registry (devel files) RegLookup is a system to direct analysis of Windows NT-based registry files providing command line tools, a C API, and a Python module for accessing registry data structures. The project has a focus on providing tools for digital forensics investigations (though is useful for many purposes), and includes algorithms for retrieving deleted data structures from registry hives. . Currently the program allows one to read an entire registry and output it in a (mostly) standardized, quoted format. It also provides features for filtering of results based on registry path and data type. . This package provides the development files. Package: libregfi1t64 Description-md5: 166686126ff450d9d34a781f46c10fba Description-en: utility to analysis for Windows NT-based registry (shared library) RegLookup is a system to direct analysis of Windows NT-based registry files providing command line tools, a C API, and a Python module for accessing registry data structures. The project has a focus on providing tools for digital forensics investigations (though is useful for many purposes), and includes algorithms for retrieving deleted data structures from registry hives. . Currently the program allows one to read an entire registry and output it in a (mostly) standardized, quoted format. It also provides features for filtering of results based on registry path and data type. . This package provides the runtime library. Package: linux-lowlatency-headers-6.8.0-20 Description-md5: dc19fa6de3cae9aa833d00daf7dfb93f Description-en: Header files related to Linux kernel version 6.8.0 This package provides kernel header files for version 6.8.0, for sites that want the latest kernel headers. Please read /usr/share/doc/linux-lowlatency-headers-6.8.0-20/debian.README.gz for details Package: lomiri-thumbnailer-service Description-md5: 8a6bfd248ce60644880fa594ef9e1c74 Description-en: D-Bus service for out of process thumbnailing Lomiri Thumbnailer is an API for the Lomiri operating environment to create and cache image thumbnails for local and remote media. . This package provides thumbnailer D-Bus service that can provide thumbnails on behalf of another process. Package: prusa-slicer Description-md5: e48ca208c5da5526c62976a94a73417c Description-en: G-code generator for 3D printers PrusaSlicer converts digital 3D models into printing instructions (G-code) for your 3D printer. It cuts the model into horizontal slices (layers), generates toolpaths to fill them and calculates the amount of material to be extruded. . PrusaSlicer supports input in the STL, AMF and OBJ formats, and can output G-code for several series of 3D printers, including RepRap, Ultimaker, Makerbot, as well as SVG files for DLP printers. . It can be used with a graphical interface, or in batch mode via the command-line. Package: python3-cython-blis Description-md5: 86a6212c48dd377566cfe1228272a7e2 Description-en: Fast BLAS-like operations from Python and Cython, without the tears (Python 3) This repository provides the Blis linear algebra routines as a self-contained Python C-extension. Currently, it only supports single-threaded execution, as this is actually best for our workloads (ML inference). . This package installs the library for Python 3. Package: python3-graph-tool Description-md5: 7d5143f85a6739dac984b51d57ee6d7e Description-en: Efficient network analysis -- Python graph-tool is an efficient Python module for manipulation and statistical analysis of graphs (a.k.a. networks). Contrary to most other Python modules with similar functionality, the core data structures and algorithms are implemented in C++, making extensive use of template metaprogramming, based heavily on the Boost Graph Library. This confers it a level of performance that is comparable (both in memory usage and computation time) to that of a pure C/C++ library. . This package provides the Python material. Package: python3-mdtraj Description-md5: 9529e886acd83777a94bda862bd265ce Description-en: Read, write and analyze MD trajectories in Python Read, write and analyze MD trajectories with only a few lines of Python code. . MDTraj is a Python library that allows users to manipulate molecular dynamics (MD) trajectories. Features include: * Wide MD format support, including pdb, xtc, trr, dcd, binpos, netcdf, mdcrd, prmtop, and more. * Extremely fast RMSD calculations (4x the speed of the original Theobald QCP). * Extensive analysis functions including those that compute bonds, angles, dihedrals, hydrogen bonds, secondary structure, and NMR observables. * Lightweight, Pythonic API. . MDTraj includes a command-line application, mdconvert-mdtraj, for converting trajectories between formats. . This package installs the library for Python 3, together with the command line utilities mdconvert-mdtraj and mdinspect. Package: python3-ptrace Description-md5: 06c9455d6c0e711f3184939a6da2a1f8 Description-en: Python 3 bindings for ptrace This package provides Python bindings for the ptrace library. It allows controlling, debugging, or modifying processes using the ptrace syscall. . Features: * High level Python object API * Able to control multiple processes: catch fork events * Read/write bytes to arbitrary addresses * Execution step by step using ptrace_singlestep() or hardware int 3 * Can use distorm disassembler * Dump registers, memory mappings, stack, etc. * Syscall tracer and parser (strace command) . This package provides the ptrace Python module for Python 3.x. Package: python3-shasta Description-md5: 66742cabe829f4e59fa774519150928d Description-en: nanopore whole genome assembly (dynamic library) De novo assembly from Oxford Nanopore reads. The goal of the Shasta long read assembler is to rapidly produce accurate assembled sequence using as input DNA reads generated by Oxford Nanopore flow cells. . Computational methods used by the Shasta assembler include: . * Using a run-length representation of the read sequence. This makes the assembly process more resilient to errors in homopolymer repeat counts, which are the most common type of errors in Oxford Nanopore reads. . * Using in some phases of the computation a representation of the read sequence based on markers, a fixed subset of short k-mers (k ≈ 10). . Shasta assembly quality is comparable or better than assembly quality achieved by other long read assemblers. . This package contains the dynamic library that can be interfaced and imported within Python. Package: python3-uwsgidecorators Description-md5: b6d60cbaaf5f0468faa6a7e19cf60424 Description-en: module of decorators for elegant access to uWSGI API (Python 3) uwsgidecorators is a simple Python module that exports a bunch of decorators to allow a more elegant approach to uWSGI API. Provided decorators helps with creating of RPC functions, timers, filemonitors. . This package provides uwsgidecorators module for Python 3. Package: qml-module-lomiri-thumbnailer Description-md5: 7ee717dbd74c9a75c529f3a1c7ec17a5 Description-en: QML interface for the thumbnailer Lomiri Thumbnailer is an API for the Lomiri operating environment to create and cache image thumbnails for local and remote media. . This package provides image providers that allow access to the thumbnailer from Qt Quick 2 / QML applications. Package: reglookup Description-md5: 4b4cbf28979f6df6f91127ad133ce24b Description-en: utility to analysis for Windows NT-based registry RegLookup is a system to direct analysis of Windows NT-based registry files providing command line tools, a C API, and a Python module for accessing registry data structures. The project has a focus on providing tools for digital forensics investigations (though is useful for many purposes), and includes algorithms for retrieving deleted data structures from registry hives. . Currently the program allows one to read an entire registry and output it in a (mostly) standardized, quoted format. It also provides features for filtering of results based on registry path and data type. The package provides the following commands: reglookup, reglookup-recover and reglookup-timeline. Package: shasta Description-md5: 7bb8ac3039d8e82623b175abb8ab2e67 Description-en: nanopore whole genome assembly (binaries and scripts) De novo assembly from Oxford Nanopore reads. The goal of the Shasta long read assembler is to rapidly produce accurate assembled sequence using as input DNA reads generated by Oxford Nanopore flow cells. . Computational methods used by the Shasta assembler include: . * Using a run-length representation of the read sequence. This makes the assembly process more resilient to errors in homopolymer repeat counts, which are the most common type of errors in Oxford Nanopore reads. . * Using in some phases of the computation a representation of the read sequence based on markers, a fixed subset of short k-mers (k ≈ 10). . Shasta assembly quality is comparable or better than assembly quality achieved by other long read assemblers. . This package contains the executable binaries (tools) and accommodating scripts. Package: aapt Description-md5: 975bf7a86058538d7263494591e4f7d8 Description-en: Android Asset Packaging Tool The Android Asset Packaging Tool (aapt) takes your application resource files, such as the AndroidManifest.xml file and the XML files for your Activities, and compiles them. An R.java is also produced so you can reference your resources from your Java code. This tool allows you to view, create, and update Zip-compatible archives (zip, jar, apk). It can also compile resources into binary assets. Package: android-libaapt Description-md5: 6766f9d7dc04ef81ed3bf2af26ae59f6 Description-en: Android Asset Packaging Tool - Shared library The Android Asset Packaging Tool (aapt) takes your application resource files, such as the AndroidManifest.xml file and the XML files for your Activities, and compiles them. An R.java is also produced so you can reference your resources from your Java code. This tool allows you to view, create, and update Zip-compatible archives (zip, jar, apk). It can also compile resources into binary assets. . This package contains the shared library. Package: android-libandroidfw Description-md5: 21839b22eef556d8ecf312e7dee83ff7 Description-en: Android utility library Library providing utility functions to Android related tools. This is needed purely to get various Android utilities working. In the Google builds of the Android SDK, this library is statically linked, but in the Debian packaging, it is a private shared library. Package: android-libandroidfw-dev Description-md5: e6f58464d4ebdf1df4179fa3b085ae9c Description-en: Android utility library - Development files Library providing utility functions to Android related tools. This is needed purely to get various Android utilities working. In the Google builds of the Android SDK, this library is statically linked, but in the Debian packaging, it is a private shared library. . This package contains the development files. Package: efibootguard Description-md5: a9ea125951a2bf69a48fef0b9419dc08 Description-en: UEFI-based bootloader The efibootguard is a bootloader that includes a simple update mechanism with fail-safe algorithm. It allows one to arm a hardware watchdog prior to loading an OS. This package provides the bootloader binary and the tool bg_gen_unified_kernel. Package: efibootguard-tools Description-md5: 3335c5a6712a2969577f956b2a146ed7 Description-en: Tools to get and set information from efibootguard The efibootguard is a bootloader that includes a simple update mechanism with fail-safe algorithm. It allows one to arm a hardware watchdog prior to loading an OS. This package provides the efibootguard tools bg_setenv, bg_printenv. Package: gcc-h8300-hms Description-md5: d91901416f9dfbb090eaa1f5d4083486 Description-en: GNU C compiler (cross compiler for h8300-hitachi-coff) This is the GNU C compiler, a fairly portable optimizing compiler which supports multiple languages. This package includes support for C. Package: gstreamer1.0-adapter-pulseeffects Description-md5: 7600aa151969b8eddcede93a45751854 Description-en: GStreamer adapter plugin Simple plugin that gives output buffers with the desired number of samples. . It is used in PulseEffects to ensure that the number of audio samples in the buffer is a power of 2. The convolver also needs it. . This package is part of the PulseEffects project. Package: gstreamer1.0-autogain-pulseeffects Description-md5: 6e5f3bf4a78ab41e85451ac1fe41f1a2 Description-en: GStreamer autogain plugin Simple GStreamer plugin that changes audio gain to match the levels recommended by the ebur128 standard. . This package is part of the PulseEffects project. Package: gstreamer1.0-convolver-pulseeffects Description-md5: 75bbadcb9fcad09d8632886791202257 Description-en: GStreamer convolver plugin Simple GStreamer crystalizer plugin based on the library of Zita-convolver. . This package is part of the PulseEffects project. Package: gstreamer1.0-crystalizer-pulseeffects Description-md5: ce19a24df2160b0b5ee3bcdb2f7b985e Description-en: GStreamer crystalizer plugin Simple GStreamer plugin, useful to add more dynamic range to songs that were overly compressed. . This package is part of the PulseEffects project. Package: libebgenv-dev Description-md5: b4bb711611f740d48ce1df01995dee32 Description-en: efibootguard development files The efibootguard is a bootloader that includes a simple update mechanism with fail-safe algorithm. It allows one to arm a hardware watchdog prior to loading an OS. This package provides the development files for the efibootguard library. Package: libebgenv0 Description-md5: 8c09827dfbdb29be57aa26a9a01adf9d Description-en: efibootguard library files The efibootguard is a bootloader that includes a simple update mechanism with fail-safe algorithm. It allows one to arm a hardware watchdog prior to loading an OS. This package provides the efibootguard shared library. Package: liblogs-ocaml Description-md5: 0c304d192500aec1626644a68e65d2ea Description-en: logging infrastructure for OCaml (runtime) Logs provides a logging infrastructure for OCaml. Logging is performed on sources whose reporting level can be set independently. Log message report is decoupled from logging and is handled by a reporter. . A few optional log reporters are distributed with the base library and the API easily allows you to implement your own. . This package contains runtime files. Package: liblogs-ocaml-dev Description-md5: 918a406baa5d1019b1f0a75a69fe1f05 Description-en: logging infrastructure for OCaml (development) Logs provides a logging infrastructure for OCaml. Logging is performed on sources whose reporting level can be set independently. Log message report is decoupled from logging and is handled by a reporter. . A few optional log reporters are distributed with the base library and the API easily allows you to implement your own. . This package contains development files. Package: libnethogs-dev Description-md5: 9e4bebb19575403db786ce4638e0656d Description-en: From nethogs tool, libnethogs library (development files) This is highly experimental, and is expected to break source and binary compatibility while it looks for the right abstraction points. . This package contains the development files. Package: libnethogs0 Description-md5: f1eca93fee7e19153c3ba3e6bd6eb7e0 Description-en: From nethogs tool, libnethogs library (library) This is highly experimental, and is expected to break source and binary compatibility while it looks for the right abstraction points. . This package contains the shared library. Package: libreflectcpp-dev Description-md5: c450107d0c5e0b46a772e2dc967e9e04 Description-en: C++20 library for fast (de-)serialization and validation (development files) reflect-cpp is a C++20 library for fast serialization, deserialization and validation using reflection. It supports JSON, BSON, CBOR, flexbuffers, msgpack, TOML, XML, YAML / msgpack.org. . This package contains development files for libreflectcpp. Package: libreflectcpp0.18 Description-md5: 58534d0ab02cc922cd7975a260195b9d Description-en: C++20 library for fast (de-)serialization and validation (shared library) reflect-cpp is a C++20 library for fast serialization, deserialization and validation using reflection. It supports JSON, BSON, CBOR, flexbuffers, msgpack, TOML, XML, YAML / msgpack.org. . This package contains libreflectcpp shared library. Package: liquidsoap Description-md5: 94d9899fe402c70cc9efd6e28fca9a0e Description-en: audio streaming language Liquidsoap is a powerful tool for building complex audio streaming systems, typically targeting internet radios (e.g. icecast streams). . It consists of a simple script language, in which you can create, combine and transform audio sources. Its design makes liquidsoap flexible and easily extensible. . Some of the typical uses are: * dynamically generating playlists depending on the time or other factors * having smooth transitions between songs * adding jingles periodically * applying effects on the sound like volume normalization * reencoding the stream at various qualities * remotely controlling the stream Package: mailfront Description-md5: df32c5e85614568b7e938b41fb60bfb4 Description-en: mail server network protocol front-ends mailfront is a set of customizable network front-ends for mail servers. It contains complete SMTP, QMQP, QMTP, and POP3 front-ends as well as an authentication module for IMAP. The mail delivery front-ends also contain internal address filtering features. . Two SMTP back-ends are provided. One delivers mail to qmail-queue, mimicking most of the behavior of qmail-smtpd, with the addition of support for SMTP AUTH. The other rejects all SMTP commands if $SMTPREJECT is set, and execs its command line otherwise (in order to run the above program). Package: nethogs Description-md5: 04c153c901ad7ca75e53e2ae32565ccd Description-en: Net top tool grouping bandwidth per process NetHogs is a small 'net top' tool. Instead of breaking the traffic down per protocol or per subnet, like most tools do, it groups bandwidth by process. NetHogs does not rely on a special kernel module to be loaded. Package: pulseeffects Description-md5: b8d7dfc9b25713d68c3180a148bb5e00 Description-en: Audio effects for PulseAudio applications PulseEffects is an advanced system-wide equalizer that works with PulseAudio. It can apply system-wide effects to all running application or selected apps. . PulseEffects also provides many pre-defined sound effects for PulseAudio input and output. Package: rlvm Description-md5: 02d441becace68d9ad9f698de2566534 Description-en: RealLive virtual machine clone rlvm is a Free Software reimplementation of VisualArt's KK's RealLive interpreter. RealLive is a game engine used to write visual novels, used in the games Kanon, Air, CLANNAD, Planetarian, Tomoyo After and Little Busters, among many others. Package: split-select Description-md5: f4e2d6d03ce279ebaad9009d493c201e Description-en: APK split and selection tool Generates the logic for selecting a Split APK given some target Android device configuration. . Using the flag --generate will emit a JSON encoded tree of rules that must be satisfied in order to install the given Split APK. Using the flag --target along with the device configuration will emit the set of Split APKs to install, following the same logic that would have been emitted Package: wsjtx-improved Description-md5: 70f68c4174fac5fcd5affc60a599bcb0 Description-en: Weak-signal amateur radio communications WSJT-X implements amateur radio communication protocols or "modes" called FST4, FST4W, FT4, FT8, JT4, JT9, JT65, Q65, MSK144, and WSPR, as well as one called Echo for detecting and measuring your own radio signals reflected from the Moon. These modes were all designed for making reliable, confirmed QSOs under extreme weak-signal conditions. . JT4, JT9, and JT65 use nearly identical message structure and source encoding (the efficient compression of standard messages used for minimal QSOs). They use timed 60-second T/R sequences synchronized with UTC. JT4 and JT65 were designed for EME ("moonbounce") on the VHF/UHF/microwave bands. JT9 is optimized for the MF, and HF bands. It is about 2 dB more sensitive than JT65 while using less than 10% of the bandwidth. Q65 offers submodes with a wide range of T/R sequence lengths and tone spacings. . FT4 and FT8 are operationally similar but use T/R cycles only 7.5 and 15 s long, respectively. MSK144 is designed for Meteor Scatter on the VHF bands. These modes offer enhanced message formats with support for nonstandard callsigns and some popular contests. . FST4 and FST4W are designed particularly for the LF and MF bands. On these bands their fundamental sensitivities are better than other WSJT-X modes with the same sequence lengths, approaching the theoretical limits for their rates of information throughput. FST4 is optimized for two-way QSOs, while FST4W is for quasi-beacon transmissions of WSPR-style messages. FST4 and FST4W do not require the strict, independent time synchronization and phase locking of modes like EbNaut. . WSPR mode implements a protocol designed for probing potential propagation paths with low-power transmissions. WSPR is fully implemented within WSJT-X, including programmable "band-hopping". . wsjt-x_improved is an enhanced version of the excellent WSJT-X software by Joe Taylor K1JT, Steve Franke K9AN, Bill Somerville G4WJS and others. Package: sb16ctrl-bochs Description-md5: 00c29543573b338ce1a35bae09b7e897 Description-en: control utility for Bochs emulated SB16 card You can use this utility to perform some query operations on the Bochs emulated SB16 card. It needs to be installed in your Debian-based guest OS. . The sb16ctrl utility contained in this package can only be used from inside the Bochs emulator. DO NOT TRY IT ON REAL HARDWARE. Package: librust-tokio-executor-dev Description-md5: 1d0777a6d4941c1d599a024b61bd87bb Description-en: Future execution primitives - Rust source code This package contains the source for the Rust tokio-executor crate, packaged by debcargo for use with cargo and dh-cargo. Package: netlabel-tools Description-md5: c34a9c6dc669e03e4de3a6aeac234e2b Description-en: management tool for the Linux NetLabel Subsystem The NetLabel management utility, netlabelctl, is a command line program designed to allow system administrators to configure the NetLabel system in the kernel. . This package requires that the running kernel supports NETLABEL. Package: python3-pymatgen Description-md5: 20ba6580b3ad09e3d4ad93366958b7b2 Description-en: Python Materials Genomics for materials analysis Pymatgen (Python Materials Genomics) is a robust, open-source Python library for materials analysis. These are some of the main features: . 1.Highly flexible classes for the representation of Element, Site, Molecule, Structure objects. . 2. Extensive input/output support, including support for VASP (http://cms.mpi.univie.ac.at/vasp/), ABINIT (http://www.abinit.org/), CIF, Gaussian, XYZ, and many other file formats. . 3. Powerful analysis tools, including generation of phase diagrams, Pourbaix diagrams, diffusion analyses, reactions, etc. . 4. Electronic structure analyses, such as density of states and band structure. . 5. Integration with the Materials Project REST API, Crystallography Open Database. . This package provides the pymtgen module for Python 3. Package: ariba Description-md5: 4d8147ab9fb44c5b4617a970175bc18d Description-en: Antibiotic Resistance Identification By Assembly ARIBA is a tool that identifies antibiotic resistance genes by running local assemblies. The input is a FASTA file of reference genes and paired sequencing reads. ARIBA reports which of the reference genes were found, plus detailed information on the quality of the assemblies and any variants between the sequencing reads and the reference genes. Package: bitshuffle Description-md5: cd2f1aef4b1fdac0de3b63a646625903 Description-en: filter for improving compression of typed binary data Bitshuffle is an algorithm that rearranges typed, binary data for improving compression, as well as a python/C package that implements this algorithm within the Numpy framework. . The library can be used along side HDF5 to compress and decompress datasets and is integrated through the dynamically loaded filters framework. Bitshuffle is HDF5 filter number 32008. . Algorithmically, Bitshuffle is closely related to HDF5's Shuffle filter except it operates at the bit level instead of the byte level. Arranging a typed data array in to a matrix with the elements as the rows and the bits within the elements as the columns, Bitshuffle "transposes" the matrix, such that all the least-significant-bits are in a row, etc. This transpose is performed within blocks of data roughly 8kB long. . This does not in itself compress data, only rearranges it for more efficient compression. To perform the actual compression you will need a compression library. Bitshuffle has been designed to be well matched Marc Lehmann's LZF as well as LZ4. Note that because Bitshuffle modifies the data at the bit level, sophisticated entropy reducing compression libraries such as GZIP and BZIP are unlikely to achieve significantly better compression than simpler and faster duplicate-string-elimination algorithms such as LZF and LZ4. Bitshuffle thus includes routines (and HDF5 filter options) to apply LZ4 compression to each block after shuffling. . The Bitshuffle algorithm relies on neighbouring elements of a dataset being highly correlated to improve data compression. Any correlations that span at least 24 elements of the dataset may be exploited to improve compression. Package: cargo-mutants Description-md5: f02fc65e318ff87fc6b2e015b2fcb829 Description-en: Inject bugs and see if your tests catch them cargo-mutants is a mutation testing tool for Rust. It helps you improve your program's quality by finding functions whose body could be replaced without causing any tests to fail. Package: denemo Description-md5: 167f8e8517e834f579dc7fbd7c3c79b0 Description-en: free graphical music notation editor (GTK front end to LilyPond) Denemo is a free music notation program GUI for GNU/Linux, macOS and Windows that lets you rapidly enter notation which it typesets using the LilyPond music engraver. Music can be typed in at the PC keyboard, or played in via MIDI controller, or input acoustically into a microphone plugged into your computer’s soundcard. . Denemo uses LilyPond which generates beautiful sheet music to the highest publishing standards. During input Denemo displays the staffs in a simple fashion, so you can enter and edit the music efficiently. The typesetting is done in the background while you work, and is generally flawless publication quality. Some final tweaks can be done on the typeset score with the mouse if needed. This represents an enormous practical improvement over the popular programs which require you to re-position colliding notation constantly as you enter the music. . Beginner to Professional: Denemo can be used for a brief student homework all the way to a full-scale opera. Support is there for creating the widest range of notation – Tablature, Chord Charts, Fret Diagrams, Drums, transposing instruments, ossia, ottava, cue, title pages, table-of-contents, critical commentaries, footnotes quoting music, and more with LilyPond’s extensive syntax available for even more demanding uses. Package: dhtnode Description-md5: f3ba06b62a29b4bbdc1616b5ceb0f156 Description-en: OpenDHT node binary OpenDHT is a lightweight C++17 Distributed Hash Table implementation. . OpenDHT provides an easy to use distributed in-memory data store. Every node in the network can read and write values to the store. Values are distributed over the network, with redundancy. . Overview of features: * Lightweight and scalable, designed for large networks and small devices * High resilience to network disruption * Public key cryptography layer providing optional data signature and encryption (using GnuTLS) * IPv4 and IPv6 support * Clean and powerful C++17 map API * Bindings for C and Python 3 * REST API with optional HTTP client+server with push notification support . This package contains the dhtnode binary. Package: fim Description-md5: 545bc8b6326b5387fc70d5fa199f1855 Description-en: scriptable frame buffer, X.org and ascii art image viewer FIM is a highly customizable scriptable image viewer targeted at the users who are comfortable with software like the Vim text editor or the Mutt mail user agent. FIM aims to be a "swiss army knife" for viewing images. Its code derives from the "Fbi" framebuffer image viewer by Gerd Hoffmann. FIM is multidevice: it has X support via the SDL library and ascii art output via the aalib library. . It supports image description files, file search and filtering using regular expressions on filenames and descriptions, caption display, customizable status line, EXIF tags display, EXIF-based image rotation, recursive directory traversal, reading from stdin, and can e.g. jump between two images remembering scale and position. . It can speed up loading by image caching and speed up scaling with mipmaps. It offers GNU readline command line autocompletion and history, completely customizable key bindings, external/internal (if-while based) scriptability (through return codes, standard input/output, and commands given at invocation time, an initialization file, Vim-like autocommands), and much more. Package: fiu-utils Description-md5: d0523e5ca3d06bb99764019a33b33c83 Description-en: userspace fault injection framework (utilities) libfiu is a C library for fault injection. It provides functions to mark "points of failure" inside your code (the "core API"), and functions to enable/disable the failure of those points (the "control API"). . This package contains the fiu-run, fiu-ls and fiu-ctrl utilities. Package: freerdp3-proxy Description-md5: d2e176360b6efb750b0ebc45b645782f Description-en: FreeRDP proxy server FreeRDP is a libre client/server implementation of the Remote Desktop Protocol (RDP). . This package contains the proxy server that can be used as man in the middle proxy for RDP connections. Package: freerdp3-proxy-modules Description-md5: 407511cf838a49c22026d4df5e80001d Description-en: FreeRDP Remote Desktop Protocol proxy module libraries FreeRDP is a libre client/server implementation of the Remote Desktop Protocol (RDP). . This package contains the modules for the proxy. Package: freerdp3-sdl Description-md5: 41c74a14889d4b4119c3c32746d0fa0d Description-en: RDP client for Windows Terminal Services (SDL client) FreeRDP is a libre client/server implementation of the Remote Desktop Protocol (RDP). . This package contains the SDL based client. Package: freerdp3-shadow-x11 Description-md5: 5e8fef249679625146e6e6f483c3b488 Description-en: FreeRDP x11 shadowing server FreeRDP is a libre client/server implementation of the Remote Desktop Protocol (RDP). . This package contains a "shadowing" server that can be used to share an already started X11 DISPLAY. Package: freerdp3-wayland Description-md5: a2f04a08b53a929fe1ae19f0e8e23cb4 Description-en: RDP client for Windows Terminal Services (wayland client) FreeRDP is a libre client/server implementation of the Remote Desktop Protocol (RDP). . This package contains the wayland based client. Package: freerdp3-x11 Description-md5: 99aa06d4e2277777895dcf8da42a6181 Description-en: RDP client for Windows Terminal Services (X11 client) FreeRDP is a libre client/server implementation of the Remote Desktop Protocol (RDP). . This package contains the X11 based client. Package: gstreamer1.0-python3-plugin-loader Description-md5: 95096b7522782c3f7600444ec56c34a6 Description-en: GStreamer Loader for Python Plugin (Python 3) GStreamer is a streaming media framework, based on graphs of filters which operate on media data. Applications using this library can do anything from real-time sound processing to playing videos, and just about anything else media-related. Its plugin-based architecture means that new data types or processing capabilities can be added simply by installing new plug-ins. . This package contains the Python 3 version of the Python plugin loader, which allows GStreamer plugins to be written in Python. Package: hdf5-plugin-lzf Description-md5: e97187efff273df88e1d567ee845aba6 Description-en: hdf5 plugin to lzf compression library HDF5 (Hierarchical Data Format library, version 5) is a versatile, mature scientific software library designed for the fast, flexible storage of enormous amounts of data. . This package provides a plugin to the HDF5 LZF filter for the LZF compression library. Plugins are built for both serial (single processor) jobs (libhdf5-dev) and for multiprocessor (threaded) jobs (libhdf5-mpi-dev). Package: libapache2-mod-svn Description-md5: e15ffe075b3a61d7ee31166809f7092c Description-en: Apache Subversion server modules for Apache httpd This package provides the mod_dav_svn and mod_authz_svn modules for the Apache 2.4 web server. These modules provide Apache Subversion's WebDAV server backend, to serve repositories over the http and https protocols. See the 'subversion' package for more information. Package: libdolfinx-complex-dev Description-md5: 59b256ad341827e4c4c4e5af4f7b8d2d Description-en: Shared links and header files for DOLFIN (complex numbers) DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the development files for the complex number build. . This is the next-generation version of DOLFIN-). The legacy version of DOLFIN is provided by libdolfin-dev. Package: libdolfinx-complex0.9 Description-md5: f41dc33b4940a12c2135694d20dc5514 Description-en: Shared libraries for DOLFIN DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the shared libraries with complex number support. Package: libdolfinx-dev Description-md5: aa90851252787184d62f28b2cdaa7458 Description-en: Shared links and header files for DOLFIN DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the common development files and depends on the real or complex development package. . This is the next-generation version of libdolfinx-dev (DOLFIN-X). The legacy version of DOLFIN is provided by libdolfin-dev. Package: libdolfinx-mpc-dev Description-md5: 6cfb594889eda2b58d1100a278dc6840 Description-en: Multi-point constraints with FEniCS-X This library contains an add-on to FEniCSx enabling the possibilities of enforce multi-point constraints. This can be used to for instance enforce slip conditions strongly, or apply periodic boundaries.. Package: libdolfinx-mpc0.9 Description-md5: 6cfb594889eda2b58d1100a278dc6840 Description-en: Multi-point constraints with FEniCS-X This library contains an add-on to FEniCSx enabling the possibilities of enforce multi-point constraints. This can be used to for instance enforce slip conditions strongly, or apply periodic boundaries.. Package: libdolfinx-real-dev Description-md5: 7d08875fc9b45dfc7e05649405090ec4 Description-en: Shared links and header files for DOLFIN (real numbers) DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the development files for the real number build. . This is the next-generation version of DOLFIN-X. The legacy version of DOLFIN is provided by libdolfin-dev. Package: libdolfinx-real0.9 Description-md5: 6e1ac5acb4da3ed07d764dc1c9935f36 Description-en: Shared libraries for DOLFIN DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the shared libraries with real number support. Package: libfiu-dev Description-md5: d22f90ef46dd1ecedffc8eb56b6592d5 Description-en: userspace fault injection framework (development libraries) libfiu is a C library for fault injection. It provides functions to mark "points of failure" inside your code (the "core API"), and functions to enable/disable the failure of those points (the "control API"). . This package contains the development libraries and documentation in HTML and reStructuredText formats. Package: libfiu0 Description-md5: a56ef3514f911250aae641ee5fe2eb7c Description-en: userspace fault injection framework libfiu is a C library for fault injection. It provides functions to mark "points of failure" inside your code (the "core API"), and functions to enable/disable the failure of those points (the "control API"). . This package contains the libfiu shared library. To perform fault injection, you will require the "libfiu-dev" package. Package: libignition-gui-dev Description-md5: feda608232ae7542cb618649a19a2bc9 Description-en: Ignition Gui classes and functions for robot apps - Development files Ignition Gui is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Package for development libraries and headers. Package: libignition-gui6-6 Description-md5: a1785db80184ac84ff09bc2ef2702ff3 Description-en: Ignition Gui classes and functions for robot apps - Shared library Ignition Gui is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Package contains the main libraries Package: libignition-sensors-air-pressure-dev Description-md5: 7ef8439d5cf7d15ce02454d28114b52d Description-en: Ignition sensors classes and functions for robot apps - Dev files air-pressure Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for air-pressure sensor Package: libignition-sensors-altimeter-dev Description-md5: e7e4bd4fb10ae6d525fd53df49e3f692 Description-en: Ignition sensors classes and functions for robot apps - Dev files altimeter Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for altimeter sensor Package: libignition-sensors-camera-dev Description-md5: 9a8b2d2bc7256e8d3be9e95a8de9da99 Description-en: Ignition sensors classes and functions for robot apps - Dev files Camera Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for Camera sensor Package: libignition-sensors-core-dev Description-md5: 045b0fe84d48ce2e398a6cd32cb62aba Description-en: Ignition sensors classes and functions for robot apps - Development files Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Core development files Package: libignition-sensors-depth-camera-dev Description-md5: 0cb6de466a3cb3a15285645737d1a676 Description-en: Ignition sensors classes and functions for robot apps - Dev files depth-camera Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for depth-camera sensor Package: libignition-sensors-dev Description-md5: b51a00c68154af6a66278ed2bef0391a Description-en: Ignition sensors classes and functions for robot apps - Metapackage Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Metapackage for all the -dev files Package: libignition-sensors-force-torque-dev Description-md5: a68ff69ec3a7ac190752e37aead56407 Description-en: Ignition sensors classes and functions for robot apps - Dev files force-torque Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for force-torque sensor Package: libignition-sensors-gpu-lidar-dev Description-md5: 7c0a357103c919f224f14ccd4636a13c Description-en: Ignition sensors classes and functions for robot apps - Dev files gpu-lidar Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for gpu-lidar sensor Package: libignition-sensors-imu-dev Description-md5: 2cb4aabeeda68b9203ced686aed19ec1 Description-en: Ignition sensors classes and functions for robot apps - Dev files imu Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for imu sensor Package: libignition-sensors-lidar-dev Description-md5: a97d47fe92f56af44e92d5c936cfb306 Description-en: Ignition sensors classes and functions for robot apps - Dev files lidar Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for lidar sensor Package: libignition-sensors-logical-camera-dev Description-md5: 520a4c764874076ef2a304550f1789a7 Description-en: Ignition sensors classes and functions for robot apps - Dev files logical-camera Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for logical-camera sensor Package: libignition-sensors-magnetometer-dev Description-md5: 959672d6f8a3b26e7fc4e2d9ef834460 Description-en: Ignition sensors classes and functions for robot apps - Dev files magnetometer Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for magnetometer sensor Package: libignition-sensors-navsat-dev Description-md5: 7f056e5be5b7abc2cdf602b4d4ef786a Description-en: Ignition sensors classes and functions for robot apps - Dev files navsat Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for NavSat (GPS) sensor Package: libignition-sensors-rendering-dev Description-md5: e8d69ff6a6c453c6791ed8ea937efcc4 Description-en: Ignition sensors classes and functions for robot apps - Dev files rendering Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for rendering sensor Package: libignition-sensors-rgbd-camera-dev Description-md5: f35c366810390c55e8eb96ba1b7a3e98 Description-en: Ignition Sensors classes and functions for robot apps - Dev files rgbd-camera Ignition Sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for rgbd-camera sensor Package: libignition-sensors-segmentation-camera-dev Description-md5: c99da2926ec257e587e2da1a5878e1ac Description-en: Ignition sensors classes and functions for robot apps - Dev files segmentation-camera Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for segmentation-camera sensor Package: libignition-sensors-thermal-camera-dev Description-md5: c6b83066508432d2887164583c32b21e Description-en: Ignition sensors classes and functions for robot apps - Dev files thermal-camera Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Development files for thermal-camera sensor Package: libignition-sensors6-6 Description-md5: 11c0438fc30ca20a7a7b6a53c5a094a3 Description-en: Ignition sensors classes and functions for robot apps - Shared library Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. Package: libignition-sensors6-air-pressure6 Description-md5: 6af3c8504ac71fac27ab75b3e27d3b55 Description-en: Ignition sensors classes and functions for robot apps - Lib air-pressure Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for air-pressure sensor Package: libignition-sensors6-altimeter6 Description-md5: b5b40c004495caa2a0617bd41ac8fbc4 Description-en: Ignition sensors classes and functions for robot apps - Lib altimeter Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for altimeter sensor Package: libignition-sensors6-camera6 Description-md5: e0cefdb7a9b8fee736a39c6a3e5d7894 Description-en: Ignition sensors classes and functions for robot apps - Lib Camera Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for Camera sensor Package: libignition-sensors6-depth-camera6 Description-md5: fd36179ae2b4b263c991c031208c6557 Description-en: Ignition sensors classes and functions for robot apps - Lib depth-camera Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for depth-camera sensor Package: libignition-sensors6-force-torque6 Description-md5: 56926cbbacc74bdb19f6320d9d96e9eb Description-en: Ignition sensors classes and functions for robot apps - Lib force-torque Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for force-torque sensor Package: libignition-sensors6-gpu-lidar6 Description-md5: 94dc7b7ee619cf97c4bbd9b9aa1d48e2 Description-en: Ignition sensors classes and functions for robot apps - Lib gpu-lidar Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for gpu-lidar sensor Package: libignition-sensors6-imu6 Description-md5: c3f7a8b0900b5bb22286690a7dad12a8 Description-en: Ignition sensors classes and functions for robot apps - Lib imu Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for imu sensor Package: libignition-sensors6-lidar6 Description-md5: 09928d3bcb5434c27b4ee3f1b66284b0 Description-en: Ignition sensors classes and functions for robot apps - Lib lidar Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for lidar sensor Package: libignition-sensors6-logical-camera6 Description-md5: d21596526c2a201792542dffbe8fb918 Description-en: Ignition sensors classes and functions for robot apps - Lib logical-camera Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for logical-camera sensor Package: libignition-sensors6-magnetometer6 Description-md5: 9f99ea765378626d5f99f4682048de90 Description-en: Ignition sensors classes and functions for robot apps - Lib magnetometer Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for magnetometer sensor Package: libignition-sensors6-navsat6 Description-md5: 6dbd43dc17d2d05de6788cc0423ed621 Description-en: Ignition sensors classes and functions for robot apps - Lib navsat Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for NavSat (GPS) sensor Package: libignition-sensors6-rendering6 Description-md5: 3bbd2907b87b38d1a3df1c97ab4918c5 Description-en: Ignition sensors classes and functions for robot apps - Lib rendering Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for rendering sensor Package: libignition-sensors6-rgbd-camera6 Description-md5: 501dfc7a56ce94b12ca397b409807442 Description-en: Ignition Sensors classes and functions for robot apps - Lib rgbd-camera Ignition Sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for rgbd-camera sensor Package: libignition-sensors6-segmentation-camera6 Description-md5: c33fab7ca9f229ab00c48de7041b65e7 Description-en: Ignition sensors classes and functions for robot apps - Lib segmentation-camera Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for segmentation-camera sensor Package: libignition-sensors6-thermal-camera6 Description-md5: 3d9f0ce4b4fd826a65199add2c4d5f7e Description-en: Ignition sensors classes and functions for robot apps - Lib thermal-camera Ignition sensors is a component in the ignition framework, a set of libraries designed to rapidly develop robot applications. . Shared library for thermal-camera sensor Package: libmiallib-dev Description-md5: 27f4961c2a07fa987b1d0bd4a13ffd92 Description-en: JRC morphological and image processing library - Development files Miallib is a C library including image processing and mathematical morphology algorithms used by Join Research Center in their Big Data Analytics Platform, with binding for Python provided. . This package contains the files needed to develop a software that will use the Miallib (headers, static objects, configuration script). Package: libmiallib1 Description-md5: b7bd283625f499e4453aa7f0ab0b6a2b Description-en: JRC morphological and image processing library Miallib is a C library including image processing and mathematical morphology algorithms used by Join Research Center in their Big Data Analytics Platform, with binding for Python provided. . This package contains the shared library. Package: libnbd-bin Description-md5: c4d0828eadd8a75283f0a15d9a0d0771 Description-en: Utilities using the Network Block Device client library NBD — Network Block Device — is a protocol for accessing Block Devices (hard disks and disk-like things) over a Network. . This is the NBD client library in userspace, a simple library for writing NBD clients. . This package contains utilities that make use of libnbd: . - nbdcopy - nbddump - nbdfuse - nbdinfo Package: libnbd-dev Description-md5: 177999def0eb7c9610d511b838c14b91 Description-en: Network Block Device client library -- development files NBD — Network Block Device — is a protocol for accessing Block Devices (hard disks and disk-like things) over a Network. . This is the NBD client library in userspace, a simple library for writing NBD clients. . This package contains the development files. Package: libnbd-ocaml Description-md5: db5d8b5abeb70b006dae91a1009761e6 Description-en: Network Block Device client library -- OCaml bindings NBD — Network Block Device — is a protocol for accessing Block Devices (hard disks and disk-like things) over a Network. . This is the NBD client library in userspace, a simple library for writing NBD clients. . This package contains the OCaml bindings to libnbd. Package: libnbd-ocaml-dev Description-md5: 174a81577292d238af4e3a727e837cc8 Description-en: Network Block Device client library -- OCaml development files NBD — Network Block Device — is a protocol for accessing Block Devices (hard disks and disk-like things) over a Network. . This is the NBD client library in userspace, a simple library for writing NBD clients. . This package contains all the files needed to develop OCaml programs which use OCaml bindings to libnbd. Package: libnbd0 Description-md5: da99f9821cdc8826ed7d870a6201d13b Description-en: Network Block Device client library -- shared library NBD — Network Block Device — is a protocol for accessing Block Devices (hard disks and disk-like things) over a Network. . This is the NBD client library in userspace, a simple library for writing NBD clients. . The key features are: . * Synchronous and asynchronous APIs, both for ease of use and for writing non-blocking, multithreaded clients. . * High performance. . * Minimal dependencies for the basic library. . * Well-documented, stable API. . * Bindings in several programming languages. . This package contains the shared library. Package: libopendht-c-dev Description-md5: cce0185fff0cac46c077776abc0cee7c Description-en: Development files for the libopendht-c library OpenDHT is a lightweight C++17 Distributed Hash Table implementation. . OpenDHT provides an easy to use distributed in-memory data store. Every node in the network can read and write values to the store. Values are distributed over the network, with redundancy. . Overview of features: * Lightweight and scalable, designed for large networks and small devices * High resilience to network disruption * Public key cryptography layer providing optional data signature and encryption (using GnuTLS) * IPv4 and IPv6 support * Clean and powerful C++17 map API * Bindings for C and Python 3 * REST API with optional HTTP client+server with push notification support . This package contains the C bindings library header and other development files. Package: libopendht-c3t64 Description-md5: 13e14c169284eface80d8fb782df4351 Description-en: Lightweight C++17 distributed hash table implementation - C wrapper OpenDHT is a lightweight C++17 Distributed Hash Table implementation. . OpenDHT provides an easy to use distributed in-memory data store. Every node in the network can read and write values to the store. Values are distributed over the network, with redundancy. . Overview of features: * Lightweight and scalable, designed for large networks and small devices * High resilience to network disruption * Public key cryptography layer providing optional data signature and encryption (using GnuTLS) * IPv4 and IPv6 support * Clean and powerful C++17 map API * Bindings for C and Python 3 * REST API with optional HTTP client+server with push notification support . This package contains the C shared library. Package: libopendht-dev Description-md5: 6ba406cce37ea1a7ddbfb16104d59269 Description-en: Development files for the libopendht library OpenDHT is a lightweight C++17 Distributed Hash Table implementation. . OpenDHT provides an easy to use distributed in-memory data store. Every node in the network can read and write values to the store. Values are distributed over the network, with redundancy. . Overview of features: * Lightweight and scalable, designed for large networks and small devices * High resilience to network disruption * Public key cryptography layer providing optional data signature and encryption (using GnuTLS) * IPv4 and IPv6 support * Clean and powerful C++17 map API * Bindings for C and Python 3 * REST API with optional HTTP client+server with push notification support . This package contains the C++ library headers and other development files. Package: libopendht3t64 Description-md5: ccb025543b302b7ad2b2265e69b73b57 Description-en: Lightweight C++17 distributed hash table implementation OpenDHT is a lightweight C++17 Distributed Hash Table implementation. . OpenDHT provides an easy to use distributed in-memory data store. Every node in the network can read and write values to the store. Values are distributed over the network, with redundancy. . Overview of features: * Lightweight and scalable, designed for large networks and small devices * High resilience to network disruption * Public key cryptography layer providing optional data signature and encryption (using GnuTLS) * IPv4 and IPv6 support * Clean and powerful C++17 map API * Bindings for C and Python 3 * REST API with optional HTTP client+server with push notification support . This package contains the C++ shared library. Package: librust-findutils-dev Description-md5: bc9c9e4a048de78522a7acefd77d27d1 Description-en: GNU findutils - Rust source code Source code for Debianized Rust crate "findutils" Package: librust-libslirp-dev Description-md5: 4f2b0e50f70bbbc609842c59b2ca9245 Description-en: high-level Rust bindings for libslirp Source code for Debianized Rust crate "libslirp" Package: librust-rinja-derive-dev Description-md5: 12d67f8d6ad6dec85c42e25e0383ccd1 Description-en: Procedural macro package for Rinja - Rust source code Source code for Debianized Rust crate "rinja_derive" Package: librust-sequoia-openpgp-dev Description-md5: c557d34e629e92e231570f1740df9e61 Description-en: OpenPGP data types and associated machinery - Rust source code Source code for Debianized Rust crate "sequoia-openpgp" Package: librust-sniffglue-dev Description-md5: dd9b6a0306dedc97a684bac4a8cffd8a Description-en: Secure multithreaded packet sniffer - Rust source code Source code for Debianized Rust crate "sniffglue" Package: librust-tokio-reactor-dev Description-md5: 07eabb320ba20cc7e0ec5ba4953b5dff Description-en: Event loop that drives Tokio I/O resources - Rust source code This package contains the source for the Rust tokio-reactor crate, packaged by debcargo for use with cargo and dh-cargo. Package: libslirp-helper Description-md5: 7b39aeaabd6463fe8ddaa1dc981b06fd Description-en: helper process for libslirp This package contains the following binaries built from the Rust crate "libslirp": - libslirp-helper Package: libslow5-0t64 Description-md5: 646fe42ffede94f030158a5d6d36a229 Description-en: library for reading & writing SLOW5 files Slow5lib is a software library for reading & writing SLOW5 files. Slow5lib is designed to facilitate use of data in SLOW5 format by third- party software packages. Existing packages that read/write data in FAST5 format can be easily modified to support SLOW5. . SLOW5 is a new file format for storing signal data from Oxford Nanopore Technologies (ONT) devices. SLOW5 was developed to overcome inherent limitations in the standard FAST5 signal data format that prevent efficient, scalable analysis and cause many headaches for developers. SLOW5 can be encoded in human-readable ASCII format, or a more compact and efficient binary format (BLOW5) - this is analogous to the seminal SAM/BAM format for storing DNA sequence alignments. The BLOW5 binary format supports *zlib* (DEFLATE) compression, or other compression methods, thereby minimising the data storage footprint while still permitting efficient parallel access. Detailed benchmarking experiments have shown that SLOW5 format is an order of magnitude faster and significantly smaller than FAST5. Package: libslow5-dev Description-md5: b144ef958240d543ae14aa06f8c0bb9c Description-en: header and static library for reading & writing SLOW5 files Slow5lib is a software library for reading & writing SLOW5 files. Slow5lib is designed to facilitate use of data in SLOW5 format by third- party software packages. Existing packages that read/write data in FAST5 format can be easily modified to support SLOW5. . SLOW5 is a new file format for storing signal data from Oxford Nanopore Technologies (ONT) devices. SLOW5 was developed to overcome inherent limitations in the standard FAST5 signal data format that prevent efficient, scalable analysis and cause many headaches for developers. SLOW5 can be encoded in human-readable ASCII format, or a more compact and efficient binary format (BLOW5) - this is analogous to the seminal SAM/BAM format for storing DNA sequence alignments. The BLOW5 binary format supports *zlib* (DEFLATE) compression, or other compression methods, thereby minimising the data storage footprint while still permitting efficient parallel access. Detailed benchmarking experiments have shown that SLOW5 format is an order of magnitude faster and significantly smaller than FAST5. . This is the development package containing headers and static library. Package: libsvn-dev Description-md5: d7ba285f3a44ff8995f08ac293b28fe7 Description-en: Development files for Apache Subversion libraries This package contains the symlinks, headers, and object files needed to compile and link programs which use libsvn1, the Apache Subversion libraries. This package is needed only in order to compile software that uses libsvn1. Package: libsvn-java Description-md5: 7fe80f50698182cc45e487dedf954400 Description-en: Java bindings for Apache Subversion This is a set of Java classes which provide the functionality of libsvn, the Apache Subversion libraries. It is useful if you want to, for example, write a Java class that manipulates a Subversion repository or working copy. See the 'subversion' package for more information. Package: libsvn-perl Description-md5: aa3fb72865b42c59ad1e6eae171929c3 Description-en: Perl bindings for Apache Subversion This is a set of Perl interfaces to libsvn, the Apache Subversion libraries. It is useful if you want to, for example, write a Perl script that manipulates a Subversion repository or working copy. See the 'subversion' package for more information. Package: libsvn1 Description-md5: e815569b5d20540901c51f341d283767 Description-en: Shared libraries used by Apache Subversion This package includes shared libraries to manipulate Apache Subversion (svn) repositories and working copies. See the 'subversion' package for more information. Package: meli Description-md5: 784f0bee4f12fb71e85a4c96f8dd754e Description-en: terminal mail client meli is a terminal email client with support for multiple accounts, for Maildir, mbox content storage, for notmuch metadata storage, and for IMAP, JMAP and NNTP (Usenet) protocols. Package: mercurial Description-md5: 01f62ef3bd1477c40a17577e8dcc5e14 Description-en: easy-to-use, scalable distributed version control system Mercurial is a fast, lightweight Source Control Management system designed for efficient handling of very large distributed projects. . Its features include: * O(1) delta-compressed file storage and retrieval scheme * Complete cross-indexing of files and changesets for efficient exploration of project history * Robust SHA1-based integrity checking and append-only storage model * Decentralized development model with arbitrary merging between trees * High-speed HTTP-based network merge protocol * Easy-to-use command-line interface * Integrated stand-alone web interface * Small Python codebase . This package contains the architecture dependent files. Package: ont-fast5-api Description-md5: 343a82bd4e22a1b6811e85c69646db42 Description-en: simple interface to HDF5 files of the Oxford Nanopore .fast5 file format Ont_fast5_api is a simple interface to HDF5 files of the Oxford Nanopore .fast5 file format. . It provides: . * Concrete implementation of the fast5 file schema using the generic h5py library * Plain-english-named methods to interact with and reflect the fast5 file schema * Tools to convert between multi_read and single_read formats * Tools to compress/decompress raw data in files Package: opendht-tools Description-md5: d2bccb9dd506433854d8974681625851 Description-en: Collection of OpenDHT utility tools OpenDHT is a lightweight C++17 Distributed Hash Table implementation. . OpenDHT provides an easy to use distributed in-memory data store. Every node in the network can read and write values to the store. Values are distributed over the network, with redundancy. . Overview of features: * Lightweight and scalable, designed for large networks and small devices * High resilience to network disruption * Public key cryptography layer providing optional data signature and encryption (using GnuTLS) * IPv4 and IPv6 support * Clean and powerful C++17 map API * Bindings for C and Python 3 * REST API with optional HTTP client+server with push notification support . This package contains the binaries for the various tools developed as part of the OpenDHT code-base. Package: python-gi-dev Description-md5: f5f0bb4fb02f0013d4124b7ce2dabd49 Description-en: development headers for GObject Python bindings GObject is an abstraction layer that allows programming with an object paradigm that is compatible with many languages. It is a part of Glib, the core library used to build GTK+ and GNOME. . This package contains the development headers needed to build C extensions which use pygobject. Package: python3-aiohttp Description-md5: f730c1eb49e4f113817da234d7a43357 Description-en: http client/server for asyncio HTTP Client for asyncio (PEP 3156 - Asynchronous I/O Support). . Features: * supports both client and server side of HTTP protocol, * supports both client and server Web-Sockets out-of-the-box, * web-server has middlewares and pluggable routing. Package: python3-astropy Description-md5: d68fca10e089e4294adf8b1b26f541e5 Description-en: Core functionality for performing astrophysics with Python The astropy package contains core functionality and some common tools needed for performing astronomy and astrophysics research with Python. It can be extended by a number of "affiliated packages" that are intended to work with the core package. Package: python3-astroscrappy Description-md5: 3de22ef6cfb247c9a8ef0d2625289d81 Description-en: Optimized Cosmic Ray Annihilation in Python Astro-SCRAPPY is designed to detect cosmic rays in images (numpy arrays), based on Pieter van Dokkum's L.A.Cosmic algorithm. Parallelization is achieved using OpenMP. Package: python3-bdsf Description-md5: 656e8127757ddcdb7adb01ebcb605f69 Description-en: Python Blob Detection and Source Finder PyBDSF (the Python Blob Detection and Source Finder) is a tool designed to decompose radio interferometry images into sources and make available their properties for further use. PyBDSF can decompose an image into a set of Gaussians, shapelets, or wavelets as well as calculate spectral indices and polarization properties of sources and measure the psf variation across an image. PyBDSF uses an interactive environment based on CASA that will be familiar to most radio astronomers. Additionally, PyBDSF may also be used in Python scripts. Package: python3-beancount Description-md5: b655c21e8b70641013a0f6b63b45ed2a Description-en: Double-entry accounting from text files - Python module A double-entry bookkeeping computer language that lets you define financial transaction records in a text file, read them in memory, generate a variety of reports from them, and provides a web interface. . The following features require the following extra dependencies to be installed: - Beancount Web [python3-bottle] - OFX import [python3-bs4] - Google Sheets upload [python3-googleapi python3-google-auth-oauthlib] - External price imports [python3-requests] . This package provides the underlying Python modules for beancount, allowing you to write your own scripts to manipulate your ledger files. Package: python3-biom-format Description-md5: a8e1165fb97cc05bc8c23295225341cd Description-en: Biological Observation Matrix (BIOM) format (Python 3) The BIOM file format (canonically pronounced biome) is designed to be a general-use format for representing biological sample by observation contingency tables. BIOM is a recognized standard for the Earth Microbiome Project and is a Genomics Standards Consortium candidate project. . The BIOM format is designed for general use in broad areas of comparative -omics. For example, in marker-gene surveys, the primary use of this format is to represent OTU tables: the observations in this case are OTUs and the matrix contains counts corresponding to the number of times each OTU is observed in each sample. With respect to metagenome data, this format would be used to represent metagenome tables: the observations in this case might correspond to SEED subsystems, and the matrix would contain counts corresponding to the number of times each subsystem is observed in each metagenome. Similarly, with respect to genome data, this format may be used to represent a set of genomes: the observations in this case again might correspond to SEED subsystems, and the counts would correspond to the number of times each subsystem is observed in each genome. . This package provides the BIOM format library for the Python 3 interpreter. Package: python3-biopython Description-md5: b0edcac4d61d56d664f586a477d26535 Description-en: Python3 library for bioinformatics The Biopython Project is an international association of developers of freely available Python tools for computational molecular biology. . It is a distributed collaborative effort to develop Python3 libraries and applications which address the needs of current and future work in bioinformatics. The source code is made available under the Biopython License, which is extremely liberal and compatible with almost every license in the world. The project works along with the Open Bioinformatics Foundation, who generously provide web and CVS space for the project. Package: python3-cartopy Description-md5: f2c2546bf719233732463ccf70987f96 Description-en: Cartographic library for Python 3 Cartopy is a Python package designed to make drawing maps for data analysis and visualisation easy. . It features: . - object oriented projection definitions - point, line, polygon and image transformations between projections - integration to expose advanced mapping in matplotlib with a simple and intuitive interface - powerful vector data handling by integrating shapefile reading with Shapely capabilities . This package provides the Python 3 library. Package: python3-casacore Description-md5: ef8e0b896ad9e6e228e48c70e6a884c4 Description-en: Python bindings to the casacore library The casacore package contains the core libraries of the old AIPS++/CASA package. This split was made to get a better separation of core libraries and applications. CASA is now built on top of casacore. . This is the Python wrapper around the library. Package: python3-cassandra Description-md5: 0ad4bb8d4c04e21ff7d6059a08a76a10 Description-en: Python driver for Apache Cassandra (Python 3) A modern, feature-rich and highly-tunable Python client library for Apache Cassandra (1.2+) and DataStax Enterprise (3.1+) using exclusively Cassandra's binary protocol and Cassandra Query Language v3. . Features: * Synchronous and Asynchronous APIs * Simple, Prepared, and Batch statements * Asynchronous IO, parallel execution, request pipelining * Connection pooling * Automatic node discovery * Automatic reconnection * Configurable load balancing and retry policies * Concurrent execution utilities * Object mapper . This package contains the Python 3.x module for python-cassandra Package: python3-confluent-kafka Description-md5: 1a7a6a22dd36415d73a342e09a8a774c Description-en: Python client to interact with Kafka - Python 3.x python-confluent-kafka wraps the librdkafka C library, providing full Kafka protocol support with great performance and reliability. . This package provides the Python 3.x module. Package: python3-contourpy Description-md5: c4923fb428aa3ecf86dae68cf9716afc Description-en: Python library for calculating contours of 2D quadrilateral grids ContourPy is a Python library for calculating contours of 2D quadrilateral grids. It is written in C++11 and wrapped using pybind11. . It contains the 2005 and 2014 algorithms used in Matplotlib as well as a newer algorithm that includes more features and is available in both serial and multithreaded versions. It provides an easy way for Python libraries to use contouring algorithms without having to include Matplotlib as a dependency. Package: python3-cpl Description-md5: 6b7b644022ad3042621e17acb7ab2833 Description-en: Control pipeline recipes from the ESO (Python3) This module can list, configure and execute CPL-based recipes from Python3. The input, calibration and output data can be specified as FITS files or as astropy fits objects in memory. . The Common Pipeline Library (CPL) comprises a set of ISO-C libraries that provide a comprehensive, efficient and robust software toolkit. It forms a basis for the creation of automated astronomical data-reduction tasks. . One of the features provided by the CPL is the ability to create data-reduction algorithms that run as plugins (dynamic libraries). These are called "recipes" and are one of the main aspects of the CPL data-reduction development environment. Package: python3-cypari2 Description-md5: 4ce72cd59d1d99bc5bef7cb61b958cd3 Description-en: Python interface to PARI -- Python 3 A Python interface to the number theory library libpari. . This package installs the library for Python 3. Package: python3-dolfinx Description-md5: 8b0d7e543b0a54225af077d16acadf2a Description-en: Python interface for DOLFIN (Python 3) DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This is the next-generation version of libdolfinx-dev (DOLFIN-X). The legacy version of DOLFIN is provided by python3-dolfin. . This is a base package depending on the dolfinx packages with real or complex number support. By default the version built against the preferred version of PETSc in /usr/lib/petsc is selected, but the alternative version can be selected by setting the environment variable PETSC_DIR. Package: python3-dolfinx-complex Description-md5: 21c9bd2c698d8d40721e0a273f1bd404 Description-en: Python interface for DOLFIN (Python 3) DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the Python interface for DOLFIN (Python 3). . This is the next-generation version of libdolfinx-dev (DOLFIN-X). The legacy version of DOLFIN (without complex number support) is provided by python3-dolfin. Package: python3-dolfinx-mpc Description-md5: 6cfb594889eda2b58d1100a278dc6840 Description-en: Multi-point constraints with FEniCS-X This library contains an add-on to FEniCSx enabling the possibilities of enforce multi-point constraints. This can be used to for instance enforce slip conditions strongly, or apply periodic boundaries.. Package: python3-dolfinx-real Description-md5: 6a6e4b563fac29b55604579a2f66c280 Description-en: Python interface for DOLFIN (Python 3) DOLFIN is the Python and C++ interface of the FEniCS project for the automated solution of differential equations, providing a consistent PSE (Problem Solving Environment) for solving ordinary and partial differential equations. Key features include a simple, consistent and intuitive object-oriented API; automatic and efficient evaluation of variational forms; automatic and efficient assembly of linear systems; and support for general families of finite elements. . This package contains the Python interface for DOLFIN (Python 3). . This is the next-generation version of libdolfinx-dev (DOLFIN-X). The legacy version of DOLFIN is provided by python3-dolfin. Package: python3-drizzle Description-md5: d641a747bf69c9589b161bdb2dc9b59d Description-en: Dithered image combination for Python The drizzle library is a Python package for combining dithered images into a single image. This library is derived from code used in drizzlepac. Like drizzlepac, most of the code is implemented in the C language. The biggest change from drizzlepac is that this code passes an array that maps the input to output image into the C code, while the drizzlepac code computes the mapping by using a Python callback. Switching to using an array allowed the code to be greatly simplified. Package: python3-fabio Description-md5: 64f5ad9d72ec97e968ee4ab1244f7420 Description-en: I/O library for images produced by 2D X-ray detector - Python3 FabIO is an I/O library for images produced by 2D X-ray detectors and written in Python. FabIO support images detectors from a dozen of companies (including Mar, Dectris, ADSC, Hamamatsu, Oxford, ...), for a total of 20 different file formats (like CBF, EDF, TIFF, ...) and offers an unified interface to their headers (as a Python dictionary) and datasets (as a numpy ndarray of integers or floats) . This is the Python 3 version of the package. Package: python3-fiu Description-md5: 05390b922b968c08d14856b992b26b8c Description-en: userspace fault injection framework (Python 3 bindings) libfiu is a C library for fault injection. It provides functions to mark "points of failure" inside your code (the "core API"), and functions to enable/disable the failure of those points (the "control API"). . This package contains Python 3 bindings to libfiu. Package: python3-fpylll Description-md5: 07c0d891c61c6e5a0c48c1c4e549438e Description-en: Python wrapper for LLL-reduction of Euclidean lattices -- Python 3 fpylll is a Python library for performing lattice reduction on lattices over the Integers; it is based on the fpLLL C++ library. . This package installs the library for Python 3. Package: python3-gammapy Description-md5: c47c36129622c5a0efe91bdf8f8da940 Description-en: Python package for gamma-ray astronomy Gammapy is an in-development affiliated package of Astropy that builds on the core scientific Python stack to provide tools to simulate and analyse the gamma-ray sky for telescopes such as CTA, H.E.S.S., VERITAS, MAGIC, HAWC and Fermi-LAT. Package: python3-geventhttpclient Description-md5: c4a69a9a0d8a6941e7b07e40984fa4db Description-en: high performance, concurrent HTTP client library for Python using gevent geventhttpclient uses a fast http parser, written in C, originating from nginx, extracted and modified by Joyent. . geventhttpclient has been specifically designed for high concurrency, streaming and support HTTP 1.1 persistent connections. More generally it is designed for efficiently pulling from REST APIs and streaming APIs like Twitter's. . Safe SSL support is provided by default. geventhttpclient depends on the certifi CA Bundle. This is the same CA Bundle which ships with the Requests codebase, and is derived from Mozilla Firefox's canonical set. Package: python3-gst-1.0 Description-md5: 0010fdd48915098a7ea5bb58f2d0e137 Description-en: GStreamer GObject Introspection overrides for Python (Python 3) GStreamer is a streaming media framework, based on graphs of filters which operate on media data. Applications using this library can do anything from real-time sound processing to playing videos, and just about anything else media-related. Its plugin-based architecture means that new data types or processing capabilities can be added simply by installing new plug-ins. . This package contains GObject Introspection overrides for Python that can be used by Python applications using GStreamer. Package: python3-h5py-mpi Description-md5: 584c350250e98bc9ad355fb3a21312a9 Description-en: general-purpose Python interface to hdf5 (Python 3 MPI) HDF5 for Python (h5py) is a general-purpose Python interface to the Hierarchical Data Format library, version 5. HDF5 is a versatile, mature scientific software library designed for the fast, flexible storage of enormous amounts of data. . From a Python programmer's perspective, HDF5 provides a robust way to store data, organized by name in a tree-like fashion. You can create datasets (arrays on disk) hundreds of gigabytes in size, and perform random-access I/O on desired sections. Datasets are organized in a filesystem-like hierarchy using containers called "groups", and accessed using the tradional POSIX /path/to/resource syntax. . H5py provides a simple, robust read/write interface to HDF5 data from Python. Existing Python and Numpy concepts are used for the interface; for example, datasets on disk are represented by a proxy class that supports slicing, and has dtype and shape attributes. HDF5 groups are presented using a dictionary metaphor, indexed by name. . This package provides the modules for Python 3, built with support for MPI (multiprocessor) jobs. Package: python3-h5py-serial Description-md5: 6a6d79c4682ca50ade0b56b9a907dcc7 Description-en: general-purpose Python interface to hdf5 (Python 3 serial) HDF5 for Python (h5py) is a general-purpose Python interface to the Hierarchical Data Format library, version 5. HDF5 is a versatile, mature scientific software library designed for the fast, flexible storage of enormous amounts of data. . From a Python programmer's perspective, HDF5 provides a robust way to store data, organized by name in a tree-like fashion. You can create datasets (arrays on disk) hundreds of gigabytes in size, and perform random-access I/O on desired sections. Datasets are organized in a filesystem-like hierarchy using containers called "groups", and accessed using the tradional POSIX /path/to/resource syntax. . H5py provides a simple, robust read/write interface to HDF5 data from Python. Existing Python and Numpy concepts are used for the interface; for example, datasets on disk are represented by a proxy class that supports slicing, and has dtype and shape attributes. HDF5 groups are presented using a dictionary metaphor, indexed by name. . This package provides the modules for Python 3, built for serial (single processor) jobs. Package: python3-healpy Description-md5: 0bf0c1a24964e5387d62f4b693d05b4f Description-en: HEALPix representation of spherical data - Python3 interface HEALPix is an acronym for Hierarchical Equal Area isoLatitude Pixelization of a sphere. As suggested in the name, this pixelization produces a subdivision of a spherical surface in which each pixel covers the same surface area as every other pixel. It is commonly used to store all-sky astronomical images, most famously maps of the cosmic microwave background. . This package provides a Python3 wrapper around the C++ implementation of HEALPix. Package: python3-iminuit Description-md5: f8e3bffee88b537151f1e388248894bb Description-en: Robust Python minimisation library based around MINUIT2 iminuit is a Jupyter-friendly Python frontend to the MINUIT2 C++ library. It can be used as a general robust function minimisation method, but is most commonly used for likelihood fits of models to data, and to get model parameter error estimates from likelihood profile analysis. Package: python3-iow Description-md5: ca3ce21afa545ec432fdd7b203741438 Description-en: balanced parentheses tree structure This Python3 module is an implementation of the balanced parentheses tree structure as described by Cordova and Navarro. Package: python3-libnbd Description-md5: c59bd34986f97f1e7492b1fedcce9bcf Description-en: Network Block Device client library -- Python 3 bindings NBD — Network Block Device — is a protocol for accessing Block Devices (hard disks and disk-like things) over a Network. . This is the NBD client library in userspace, a simple library for writing NBD clients. . This package contains Python 3 bindings and nbdsh, an interactive shell. Package: python3-line-profiler Description-md5: 2b723206dbc0fb0981d1dd99e6e85fec Description-en: line-by-line profiling for Python LineProfiler can be given functions to profile, and it will time the execution of each individual line inside those functions. In a typical workflow, one only cares about line timings of a few functions because wading through the results of timing every single line of code would be overwhelming. However, LineProfiler does need to be explicitly told what functions to profile. . If you are using IPython, there is an implementation of an %lprun magic command which will let you specify functions to profile and a statement to execute. Package: python3-logbook Description-md5: 004a7c0d7fe3162e601f046816e4c635 Description-en: logging system for Python that replaces the standard library's module (Python 3) Logbook is a logging system for Python that replaces the standard library's logging module. It was designed with both complex and simple applications in mind and the idea to make logging fun . This is the Python 3 version of the package. Package: python3-ltfatpy Description-md5: 3dbf7f17ac58670b635cb30a8d91b2c0 Description-en: Large Time-Frequency Toolbox (LTFAT) in Python The ltfatpy package is a partial Python port of the Large Time/Frequency Analysis Toolbox (LTFAT), a MATLAB®/Octave toolbox for working with time-frequency analysis and synthesis. . It is intended both as an educational and a computational tool. . The package provides a large number of linear transforms including Gabor transforms along with routines for constructing windows (filter prototypes) and routines for manipulating coefficients. . This package provides the modules for Python 3. Package: python3-msgspec Description-md5: b4d9cd55cc0fcfffbcffca09c90f73d4 Description-en: Fast serialization/validation Python library (Python 3) msgspec is a library that provides the following features for serialization and validation of JSON, MessagePack, YAML, and TOML data: . * High performance encoders/decoders for common protocols. The JSON and MessagePack implementations regularly benchmark as the fastest options for Python. * Support for a wide variety of Python types. Additional types may be supported through extensions. * Zero-cost schema validation using familiar Python type annotations. In benchmarks msgspec decodes and validates JSON faster than orjson can decode it alone. * A speedy Struct type for representing structured data. If you already use dataclasses or attrs, structs should feel familiar. However, they're 5-60x faster for common operations. . This package contains the Python 3 version. Package: python3-omemo-dr Description-md5: 2a7584dc11eba9e5edc439fc03a4646d Description-en: OMEMO double ratchet for Python Initial codebase was forked from python-axolotl, which is a Python 3 port of libaxolotol-android. The library is defined as a ratcheting forward secrecy protocol that works in synchronous and asynchronous messaging environments. Package: python3-opendht Description-md5: d6b9c95d58198f799e9704fe8032997a Description-en: Python 3 bindings for libopendht C++ library OpenDHT is a lightweight C++17 Distributed Hash Table implementation. . OpenDHT provides an easy to use distributed in-memory data store. Every node in the network can read and write values to the store. Values are distributed over the network, with redundancy. . Overview of features: * Lightweight and scalable, designed for large networks and small devices * High resilience to network disruption * Public key cryptography layer providing optional data signature and encryption (using GnuTLS) * IPv4 and IPv6 support * Clean and powerful C++17 map API * Bindings for C and Python 3 * REST API with optional HTTP client+server with push notification support . This package contains the Python 3 bindings. Package: python3-photutils Description-md5: e1b13169e615ce5c2e06eb9aa197f15e Description-en: Astropy affiliated package for image photometry (Python 3) Photutils contains functions for: . * estimating the background and background rms in astronomical images * detecting sources in astronomical images * estimating morphological parameters of those sources (e.g., centroid and shape parameters) * performing aperture and PSF photometry . This package contains the Python 3 version of the package. Package: python3-pomegranate Description-md5: ba0dc885f3a69d46f4d1351609436386 Description-en: Fast, flexible and easy to use probabilistic modelling pomegranate is a package for probabilistic models in Python that is implemented in cython for speed. It's focus is on merging the easy-to-use scikit-learn API with the modularity that comes with probabilistic modeling to allow users to specify complicated models without needing to worry about implementation details. The models are built from the ground up with big data processing in mind and so natively support features like out-of-core learning and parallelism. Package: python3-pybedtools Description-md5: e496bd6e99e71f178676e0bee5f6b965 Description-en: Python 3 wrapper around BEDTools for bioinformatics work The BEDTools suite of programs is widely used for genomic interval manipulation or “genome algebra”. pybedtools wraps and extends BEDTools and offers feature-level manipulations from within Python. . This is the Python 3 version. Package: python3-pydevd Description-md5: fc79b6ef17d4930b380d7ee459fe06ce Description-en: Debugger used by debugpy This is the debugger underlying debugpy, which is used by IPython and Spyder, among others. . This package can also be used for remote debugging, connecting from an IDE. Package: python3-pygame Description-md5: 306500d85ba0762cf985a58d17463575 Description-en: SDL bindings for games development (Python 3) A multimedia development kit for Python. Pygame provides modules for you to access the video display, play sounds, track time, read the mouse and joystick, control the CD player, render true type fonts and more. It does this using mainly the cross-platform SDL library, a lightweight wrapper to OS-specific APIs. . This is the Python 3 version of the package. Package: python3-pymupdf Description-md5: d2f0338de8ce9547f8c2fdbac1f8b97e Description-en: Python binding for MuPDF Allows one to access files in PDF, XPS, OpenXPS, CBZ, EPUB, and FB2 (e-books) formats, and it is known for its top performance and high rendering quality. . PDF manipulation and generation functions are available, including metadata and bookmark maintenance, document restructuring, annotation / link handling and document or page creation. . This package contains PyMuPDF. Package: python3-pyraf Description-md5: f7421082fca06089d04b1a287a5eca5d Description-en: Python interface for IRAF PyRAF is a command language for running IRAF tasks in a Python like environment. It works very similar to IRAF CL, but has been updated to allow such things as importing Python modules, GUI parameter editing and help. It can be imported into Python allowing you to run IRAF commands from within a larger script. Package: python3-pyregion Description-md5: 45e7a0d549baa48683cca5702aeb422d Description-en: Python module to parse ds9 region files (Python 3) Pyregion is a Python module to parse ds9 region files. It also supports ciao region files. . This is the Python 3 version of the package. Package: python3-pyresample Description-md5: 93a37f7c3d3fc51e99985759bd77da43 Description-en: Resampling of remote sensing data in Python Pyresample is a Python package for resampling (reprojection) of earth observing satellite data. It handles both resampling of gridded data (e.g. geostationary satellites) and swath data (polar orbiting satellites). . Pyresample can use multiple processor cores for resampling. Pyresample supports masked arrays. Package: python3-pysolid Description-md5: 98928178e1c2dc8370777f266eac4aae Description-en: Python wrapper for solid Earth tides Python based solid Earth tides (PySolid) is a thin Python wrapper of the solid.for program (by Dennis Milbert based on dehanttideinelMJD.f from V. Dehant, S. Mathews, J. Gipson and C. Bruyninx) to calculate solid Earth tides in east/north/up direction (section 7.1.1 in the 2010 IERS Conventions). Solid Earth tides introduces very long spatial wavelength components in SAR/InSAR observations, as shown in the Sentinel-1 data with regular acquisitions and large swaths (Yunjun et al., 2022). Package: python3-regions Description-md5: f8ac057da2e217bd82b761264140aac9 Description-en: Python astronomy package for region handling The regions package provides (or plans to provide) classes to represent regions defined using pixel or celestial coordinates or on the celestial sphere. Package: python3-reproject Description-md5: cdd4088b40055416ef594e6c7c496963 Description-en: Reproject astronomical images with Python 3 This is a package to reproject astronomical images using various techniques via a uniform interface. Reprojection means the re-gridding of images from one world coordinate system to another (for example changing the pixel resolution, orientation, coordinate system). Currently implemented are reprojection of celestial images by interpolation, as well as by finding the exact overlap between pixels on the celestial sphere. It can also reproject to/from HEALPIX projections. . This package contains the Python 3 version of the package. Package: python3-rosettasciio Description-md5: 843f293021d1e7ed72e538a487d1c8cb Description-en: Reading and writing scientific file formats The Rosetta Scientific Input Output library aims at providing easy reading and writing capabilities in Python for a wide range of scientific data formats. Thus providing an entry point to the wide ecosystem of python packages for scientific data analysis and computation, as well as an interoperability between different file formats. Just as the Rosetta stone provided a translation between ancient Egyptian hieroglyphs and ancient Greek. The RosettaSciIO library originates from the HyperSpy project for multi-dimensional data analysis. As HyperSpy is rooted in the electron microscopy community, data formats used by this community are still particularly well represented. . RosettaSciIO provides the dataset, its axes and related metadata contained in a file in a python dictionary that can be easily handled by other libraries. Similarly, it takes a dictionary as input for file writers. Package: python3-silx Description-md5: 004257b4618f26652a881f0949dd10b5 Description-en: Toolbox for X-Ray data analysis - Python3 The silx project aims at providing a collection of Python packages to support the development of data assessment, reduction and analysis applications at synchrotron radiation facilities. It aims at providing reading/writing different file formats, data reduction routines and a set of Qt widgets to browse and visualize data. . The current version provides : . * reading HDF5 file format (with support of SPEC file format) * histogramming * fitting * 1D and 2D visualization using multiple backends (matplotlib or OpenGL) * image plot widget with a set of associated tools (See changelog file). * Unified browser for HDF5, SPEC and image file formats supporting inspection and visualization of n-dimensional datasets. * Unified viewer (silx view filename) for HDF5, SPEC and image file formats * OpenGL-based widget to display 3D scalar field with isosurface and cutting plane. Package: python3-skbio Description-md5: 9caa43e0cee032d2bb48b12de52df499 Description-en: Python3 data structures, algorithms, educational resources for bioinformatic Scikit-bio is a Python package providing data structures, algorithms, and educational resources for bioinformatics. . This is the package for Python3 Package: python3-skimage-lib Description-md5: 6f6ef69a852c74b89c1b1d6eb24b55d9 Description-en: Optimized low-level algorithms for Python 3 scikit-image This is an add-on package for python-skimage. It provides optimized, low-level implementations of algorithms. . This package provides the Python 3 libraries. Package: python3-slow5 Description-md5: a7ebb83be36b43718b62e6c7b31bd827 Description-en: Python3 modul for reading & writing SLOW5 files Slow5lib is a software library for reading & writing SLOW5 files. Slow5lib is designed to facilitate use of data in SLOW5 format by third- party software packages. Existing packages that read/write data in FAST5 format can be easily modified to support SLOW5. . SLOW5 is a new file format for storing signal data from Oxford Nanopore Technologies (ONT) devices. SLOW5 was developed to overcome inherent limitations in the standard FAST5 signal data format that prevent efficient, scalable analysis and cause many headaches for developers. SLOW5 can be encoded in human-readable ASCII format, or a more compact and efficient binary format (BLOW5) - this is analogous to the seminal SAM/BAM format for storing DNA sequence alignments. The BLOW5 binary format supports *zlib* (DEFLATE) compression, or other compression methods, thereby minimising the data storage footprint while still permitting efficient parallel access. Detailed benchmarking experiments have shown that SLOW5 format is an order of magnitude faster and significantly smaller than FAST5. . This is the Python3 module. Package: python3-sncosmo Description-md5: 6f3d3257fccf29a846de877f58f858eb Description-en: Python library for high-level supervova cosmology analysis SNCosmo synthesizes supernova spectra and photometry from SN models, and has functions for fitting and sampling SN model parameters given photometric light curve data. It offers fast implementations of several commonly used extinction laws and can be used to construct SN models that include dust. The SNCosmo library includes supernova models such as SALT2, MLCS2k2, Hsiao, Nugent, PSNID, SNANA and Whalen models, as well as a variety of built-in bandpasses and magnitude systems, and provides convenience functions for reading and writing peculiar data formats used in other packages. The library is extensible, allowing new models, bandpasses, and magnitude systems to be defined using an object-oriented interface. Package: python3-srsly Description-md5: 96160d932d8e276f9ea5cded50fa7aee Description-en: modern high-performance serialization utilities for Python3 Serialization is hard, especially across Python versions and multiple platforms. After dealing with many subtle bugs over the years (encodings, locales, large files) libraries like spaCy and Prodigy have steadily grown a number of utility functions to wrap the multiple serialization formats that are need to support (especially json, msgpack and pickle). To avoid duplication these functions were put in one place. Package: python3-statsmodels-lib Description-md5: 0d655428d556bba52e5400d7cd3ea0a3 Description-en: Python3 low-level implementations and bindings for statsmodels Statsmodels is a Python module for the estimation of statistical models. . This package contains internal libraries for python3-statsmodels. Users should not need to install it directly. Package: python3-storm Description-md5: c5607bf2f45f15916d662ded4ebfa5e2 Description-en: object-relational mapper (ORM) for Python 3 Storm is an object-relational mapper (ORM) for the Python language. In simple terms, that kind of system allows rows from a relational database to be seen as objects in an object-oriented language like Python. . Features: * Clean and lightweight API offers a short learning curve and long-term maintainability. * Storm is developed in a test-driven manner. An untested line of code is considered a bug. * Storm needs no special class constructors, nor imperative base classes. * Storm is well designed (different classes have very clear boundaries, with small and clean public APIs). * Designed from day one to work both with thin relational databases, such as SQLite, and big iron systems like PostgreSQL and MySQL. * Storm is easy to debug, since its code is written with a KISS principle, and thus is easy to understand. * Designed from day one to work both at the low end, with trivial small databases, and the high end, with applications accessing billion row tables and committing to multiple database backends. * It's very easy to write and support backends for Storm (current backends have around 100 lines of code). Package: python3-subversion Description-md5: 6787081e27fc8d319a045cf72a74c6d7 Description-en: Python3 bindings for Apache Subversion This is a set of Python3 interfaces to libsvn, the Apache Subversion libraries. It is useful if you want to, for example, write a Python3 script that manipulates a Subversion repository or working copy. See the 'subversion' package for more information. Package: python3-sunpy Description-md5: ba6f18197c4305a9a0573526e1bee82a Description-en: Software library for solar physics based on Python SunPy is a community-developed free and open-source software package for solar physics. SunPy is meant to be a free alternative to the SolarSoft data analysis environment. The aim of the SunPy project is to provide the software tools necessary so that anyone can analyze solar data. Package: python3-synphot Description-md5: 438200a4a33eff401a116d89e10bf351 Description-en: Simulate photometric data and spectra in astronomy Synphot simulates photometric data and spectra, observed or otherwise. It can incorporate external filters, spectra, and data. One can also use a pre-defined standard star (Vega), bandpass, or extinction law. Furthermore, it allows one to: . * Construct complicated composite spectra using different models. * Simulate observations. * Compute photometric properties such as count rate, effective wavelength, and effective stimulus. * Manipulate a spectrum; e.g., applying redshift or normalize it to a given flux value in a given bandpass. * Sample a spectrum at given wavelengths. * Plot a quick-view of a spectrum. * Perform repetitive operations such as simulating the observations of multiple type of sources through multiple bandpasses. Package: python3-trollimage Description-md5: ab847e94496bbef0a2e6bcc73b9a7ca9 Description-en: Pytroll imaging library Trollimage is a collection of modules that assist with basic image management in pytroll packages. It provides modules for easy management of images, colorspaces and colormaps. Package: python3-ubjson Description-md5: 6d3125208c2284aa1d0ba0e99d42948a Description-en: Universal Binary JSON encoder/decoder for Python 3 Universal Binary JSON encoder/decoder based on the draft-12 specification. It’s meant to behave very much like Python’s built-in JSON module . This is the Python 3 package. Package: python3-yt Description-md5: 474d96cf09f9be2810405e188811c9be Description-en: Framework for analyzing and visualizing simulation data (Python 3) The yt project aims to produce an integrated science environment for collaboratively asking and answering astrophysical questions. To do so, it will encompass the creation of initial conditions, the execution of simulations, and the detailed exploration and visualization of the resultant data. It will also provide a standard framework based on physical quantities interoperability between codes. . This package contains the Python 3 version of the package. Package: rebuilderd-worker Description-md5: cc02607b7b2849137a3ed88b13a820e1 Description-en: Worker agent for rebuilderd server This package contains the following binaries built from the Rust crate "rebuilderd-worker": - rebuilderd-worker Package: ruby-svn Description-md5: 681536b40f193ae3816c1437f1c38f7d Description-en: Ruby bindings for Apache Subversion This is a set of Ruby interfaces to libsvn, the Apache Subversion libraries. It is useful if you want to, for example, write a Ruby script that manipulates a Subversion repository or working copy. See the 'subversion' package for more information. Package: rust-findutils Description-md5: da5bbd04464bddd764076691911a0bed Description-en: Rust implementation of GNU findutils Propose an dropped in replacement for find, xargs, etc. Package: sniffglue Description-md5: e7f1183e49341488d3bd8fbe63b63f37 Description-en: Secure multithreaded packet sniffer sniffglue is a network sniffer written in rust. Network packets are parsed concurrently using a thread pool to utilize all cpu cores. Project goals are that you can run sniffglue securely on untrusted networks and that it must not crash when processing packets. The output should be as useful as possible by default. Package: subversion Description-md5: 2b16de8a860b139507af1abc718e9506 Description-en: Advanced version control system Apache Subversion, also known as svn, is a centralised version control system. Version control systems allow many individuals (who may be distributed geographically) to collaborate on a set of files (source code, websites, etc). Subversion began with a CVS paradigm and supports all the major features of CVS, but has evolved to support many features that CVS users often wish they had. . This package includes the Subversion client (svn, svnsync), repository administration tools (svnadmin, svnlook) and a network server (svnserve). Package: subversion-tools Description-md5: 606aa217055d68550e4946170331a468 Description-en: Assorted tools related to Apache Subversion This package includes miscellaneous tools for use with Apache Subversion clients and servers: * svn-backup-dumps: Incremental dumpfile-based backup script * svn-bisect: Bisect revisions to find a regression * svn-clean: Remove unversioned files from a working copy * svn-hot-backup: Backup script, primarily for BDB repositories * svn_apply_autoprops: Apply property settings from .subversion/config file to an existing repository * svn_load_dirs: Sophisticated replacement for 'svn import' * svnwrap: Set umask to 002 before calling svn or svnserve * fsfs-access-map: Convert strace output into FSFS access map * several example hook scripts: commit-access-control, commit-email, log-police, mailer, svnperms, verify-po . NOTE that some of these scripts are unsupported by upstream, and may change radically or disappear in future releases. Some of these scripts require packages on the Recommends list. Package: whipper Description-md5: 8d4b6221141565282b07068ed0fc4a51 Description-en: CD-DA ripper Whipper is an audio CD (CD-DA) ripper. It priorizes accuracy over speed, can verify rips against the AccurateRip database, can perform various tests and loads metadata for the output files. . Whipper is originally based on the morituri project. Package: openjdk-17-dbg Description-md5: d73cb0a41450fd194ce774f2b26510b8 Description-en: Java runtime based on OpenJDK (debugging symbols) OpenJDK is a development environment for building applications, applets, and components using the Java programming language. . This package contains the debugging symbols. Package: openjdk-17-demo Description-md5: 8c587e17f25fb354ef51e27e56507756 Description-en: Java runtime based on OpenJDK (demos and examples) OpenJDK Java runtime Package: openjdk-17-jdk Description-md5: b9e7f4837238c34971e4a8b72ab7d045 Description-en: OpenJDK Development Kit (JDK) OpenJDK is a development environment for building applications, applets, and components using the Java programming language. Package: openjdk-17-jdk-headless Description-md5: 494a52f34d707a832270d6d51a78f511 Description-en: OpenJDK Development Kit (JDK) (headless) OpenJDK is a development environment for building applications, applets, and components using the Java programming language. Package: openjdk-17-jre Description-md5: 13097853553de1ab39cc189225a9cbaa Description-en: OpenJDK Java runtime, using Hotspot JIT Full Java runtime environment - needed for executing Java GUI and Webstart programs, using Hotspot JIT. Package: openjdk-17-jre-headless Description-md5: 62c2c9689e617c48cc4480926d2ca785 Description-en: OpenJDK Java runtime, using Hotspot JIT (headless) Minimal Java runtime - needed for executing non GUI Java programs, using Hotspot JIT. Package: openjdk-17-jre-zero Description-md5: c714861c802c9808def07d5329c6ed78 Description-en: Alternative JVM for OpenJDK, using Zero The package provides an alternative runtime using the Zero VM. Built on architectures in addition to the Hotspot VM as a debugging aid for those architectures which don't have a Hotspot VM. . The VM is started with the option `-zero'. See the README.Debian for details.