{"count":52323,"next":"https://ports.macports.org/api/v1/ports/?format=json&ordering=-updated_at&page=159","previous":"https://ports.macports.org/api/v1/ports/?format=json&ordering=-updated_at&page=157","results":[{"name":"aesutil","portdir":"security/aesutil","version":"1.0.7","license":"BSD and ISC","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://my.cubic.ch/~timtas/aes/","description":"command line program to encrypt and decrypt data via AES","long_description":"aesutil is a command line program to encrypt and decrypt data using the Rjiandel algorythm.","active":true,"categories":["sysutils","security"],"maintainers":[],"variants":["universal"],"dependencies":[{"type":"build","ports":["clang-18"]}],"depends_on":[]},{"name":"VeraCrypt","portdir":"security/VeraCrypt","version":"1.24","license":"Apache-2 and Permissive","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://www.veracrypt.fr/","description":"A free open source disk encryption software.","long_description":"A free open source disk encryption software.","active":true,"categories":["aqua","security"],"maintainers":[],"variants":[],"dependencies":[{"type":"build","ports":["pkgconfig","yasm","clang-18"]},{"type":"fetch","ports":["gnupg2"]},{"type":"lib","ports":["osxfuse","wxWidgets-3.0"]}],"depends_on":[]},{"name":"KeePassXC-devel","portdir":"security/KeePassXC","version":"20230514.git37dabd2","license":"(GPL-2 or GPL-3)","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://github.com/keepassxreboot/keepassxc","description":"KeePassXC is a cross-platform community-driven port of the Windows application “Keepass Password Safe”.","long_description":"KeePassXC is a community fork of KeePassX with the goal to extend and improve it with new features and bugfixes to provide a feature-rich, fully cross-platform and modern open-source password manager.","active":true,"categories":["aqua","security"],"maintainers":[],"variants":["debug"],"dependencies":[{"type":"build","ports":["qt5-qttools","cmake","pkgconfig","clang-20"]},{"type":"lib","ports":["minizip","argon2","libgcrypt","libsodium","qt5-qtbase","qrencode","libomp","botan","ykpers","readline","qt5-qtsvg","qt5-qtmacextras","zlib"]}],"depends_on":[]},{"name":"MacPass","portdir":"security/MacPass","version":"0.8.1","license":"GPL-3","platforms":"macosx","epoch":0,"replaced_by":null,"homepage":"https://macpassapp.org/","description":"KeePass client for macOS","long_description":"MacPass is a native macOS port of KeePass. Key features are automatic form filling and regex matching of window titles to detect the correct target application. Through the plugin MacPassHTTP, MacPass can also be used together with keepass browser extensions to integrate MacPass as a password database the browser can use.","active":true,"categories":["security"],"maintainers":[{"name":"i0ntempest","github":"i0ntempest","ports_count":287}],"variants":["universal"],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["HNHUi","TransformerKit","KeePassKit"]}],"depends_on":[]},{"name":"KeePassXC","portdir":"security/KeePassXC","version":"2.7.9","license":"(GPL-2 or GPL-3)","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://github.com/keepassxreboot/keepassxc","description":"KeePassXC is a cross-platform community-driven port of the Windows application “Keepass Password Safe”.","long_description":"KeePassXC is a community fork of KeePassX with the goal to extend and improve it with new features and bugfixes to provide a feature-rich, fully cross-platform and modern open-source password manager.","active":true,"categories":["aqua","security"],"maintainers":[],"variants":["debug"],"dependencies":[{"type":"build","ports":["qt5-qttools","cmake","pkgconfig","clang-20"]},{"type":"extract","ports":["xz"]},{"type":"fetch","ports":["gnupg2"]},{"type":"lib","ports":["libgcrypt","libsodium","readline","qt5-qtbase","libomp","botan","ykpers","qrencode","qt5-qtsvg","qt5-qtmacextras","zlib","minizip","argon2"]}],"depends_on":[]},{"name":"KeePassX","portdir":"security/KeePassX","version":"2.0.3","license":"GPL-2 and LGPL-2 and LGPL-3 and BSD and permissive","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://www.keepassx.org","description":"KeePassX is a password manager compatiable with KeePass","long_description":"KeePassX is an application for people with extremely high demands on secure personal data management. It has a light interface and is cross platform. KeePassX saves many different types of information including user names, passwords, URLs, attachments and comments in one single database.","active":true,"categories":["aqua","security"],"maintainers":[],"variants":["debug","universal"],"dependencies":[{"type":"build","ports":["cmake","pkgconfig","clang-18"]},{"type":"lib","ports":["qt4-mac","zlib","libgcrypt"]}],"depends_on":[]},{"name":"KeePassKit","portdir":"security/KeePassKit","version":"3.3.2","license":"GPL-3+","platforms":"macosx","epoch":0,"replaced_by":null,"homepage":"https://github.com/MacPass/KeePassKit","description":"KeePass database loading, storing and manipulation framework.","long_description":"KeePassKit is a framework to offer support for the Keepass database format. You can use it to work with KDB and KDBX files. Supported formats are KDB3, KDBX3.1 and KDBX4.","active":true,"categories":["security"],"maintainers":[],"variants":["universal"],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["KissXML","libxml2"]}],"depends_on":[{"type":"lib","ports":["MacPass"]}]},{"name":"zfp","portdir":"science/zfp","version":"2024.11.26","license":"BSD","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://zfp.llnl.gov","description":"zfp is a compressed format for representing multi-dimensional floating-point and integer arrays","long_description":"zfp is a compressed format for representing multi-dimensional floating-point and integer arrays","active":true,"categories":["devel","science"],"maintainers":[],"variants":["openmp","universal","debug"],"dependencies":[{"type":"build","ports":["cmake","clang-18"]}],"depends_on":[{"type":"lib","ports":["bpack"]}]},{"name":"yorick-z","portdir":"science/yorick-z","version":"1.2.0.git20110402","license":"BSD","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://maumae.net/yorick/doc/plugins.php","description":"zlib, jpeg and png support for the Yorick language","long_description":"This is a compiled add-on for yorick (an interpreted computer language specialized for numerical and scientific problems). Yorick-z adds support for zlib (the data compression system used by gzip), png (a lossless image compression format), and jpeg (a lossy image compression format).","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"fetch","ports":["git"]},{"type":"lib","ports":["zlib","libjpeg-turbo","libpng","yorick"]}],"depends_on":[]},{"name":"yorick-yutils","portdir":"science/yorick-yutils","version":"1.5.2","license":"GPL-2","platforms":"any","epoch":0,"replaced_by":null,"homepage":"http://maumae.net/yorick/doc/plugins.php","description":"Various utilities for the Yorick language","long_description":"Yutils is a must-have collection of interpreted routines for Yorick. Topics: astronomical data reduction, physical constants, search for extrema in arrays or functions, plots, and more.","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["yorick"]}],"depends_on":[{"type":"run","ports":["Gyoto","yorick-hdf5","py37-gyoto","py38-gyoto","py35-gyoto","py36-gyoto","yorick-cubeview","yorick-imutil","yorick-yao"]}]},{"name":"yorick-yeti","portdir":"science/yorick-yeti","version":"6.3.3","license":"CeCILL-C","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://cral.univ-lyon1.fr/labo/perso/eric.thiebaut/?Software/Yeti","description":"Miscellaneous compiled utilities for Yorick (hash tables...)","long_description":"Yeti is an extension of Yorick which implements:\n * hash table objects\n * regular expressions\n * complex, real-complex and complex-real FFT by FFTW2\n * wavelet filtering (\"à trou\" method)\n * fast convolution along a chosen dimension\n * more string functions\n * memory hacking routines\n * more math functions (sinc, round, arc)\n * generalized matrix-vector multiplication\n * sparse matrix\n * routines to query/check Yorick's symbols\n * support for reading TIFF images\n * morpho-math operators\n * 120 special functions from GNU Scientific Library\n * ...","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["tiff","fftw","gsl","yorick"]}],"depends_on":[]},{"name":"yorick-yao","portdir":"science/yorick-yao","version":"5.4.0","license":"GPL-2+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://maumae.net/yorick/doc/plugins.php","description":"A Yorick-based adaptive optics system simulator","long_description":"Yao is a monte-carlo simulation package for adaptive optics. It can be used stand-alone through a GTK-based integrated graphical user interface or as a Yorick language extension.","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["yorick","yorick-imutil","fftw-3-single"]},{"type":"run","ports":["yorick-svipc","yorick-soy","yorick-yutils","py27-pygtk"]}],"depends_on":[{"type":"run","ports":["yorick-spydr"]}]},{"name":"yorick-spydr","portdir":"science/yorick-spydr","version":"0.8.7","license":"GPL-3+","platforms":"any","epoch":0,"replaced_by":null,"homepage":"http://maumae.net/yorick/doc/plugins.php","description":"FITS image display and simple analysis","long_description":"Spydr (pronounced like spider) basically is an FITS image viewer. It can work as a stand-alone application but is best integrated in a Yorick-based data-analysis work-flow (Yorick is an interpreted language specialized in numerical computations and scientific graphics). It includes tools to zoom, produce cuts, histograms, Gaussian/Moffat fits, PSF fits (inc. FWHM and Strehl). Can work on single images, sequences of images or data cubes.","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["yorick"]},{"type":"run","ports":["zenity","py27-pygtk","yorick-yao"]}],"depends_on":[]},{"name":"yorick-soy","portdir":"science/yorick-soy","version":"1.4.0","license":"GPL-2+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://maumae.net/yorick/doc/plugins.php","description":"Sparse matrix operations for the Yorick language","long_description":"Sparse Operations with Yorick is a plugin for Yorick (an interpreted computer language specialized for numerical and scientific problems) that allows performing efficient operations on sparse matrices.","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["yorick"]}],"depends_on":[{"type":"run","ports":["yorick-yao"]}]},{"name":"yorick-optimpack","portdir":"science/yorick-optimpack","version":"1.3.2","license":"GPL-2+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://www-obs.univ-lyon1.fr/labo/perso/eric.thiebaut/optimpack.html","description":"Optimization of large scale problems for the Yorick language","long_description":"OptimPack is a portable C library which implements algorithms for optimization of large scale problems with bound constraints. Large scale means some million variables (e.g. pixel values) or more.","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["yorick"]}],"depends_on":[]},{"name":"yorick-mpeg","portdir":"science/yorick-mpeg","version":"0.1","license":"unknown","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://github.com/dhmunro/yorick-mpeg","description":"Write MPEG-1 movies from Yorick","long_description":"This is a standalone mpeg movie encoder for Yorick. In contrast to yorick-av, yorick-mpeg has no external dependency: it is therefore easy to install and won't break with every change of the FFmpeg API. On the other hand, it can only produce MPEG-1 movies.","active":true,"categories":["science","multimedia","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["yorick"]}],"depends_on":[]},{"name":"yorick-ml4","portdir":"science/yorick-ml4","version":"0.6.0","license":"GPL-2+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://maumae.net/yorick/doc/plugins.php","description":"Matlab 4 file format support fo Yorick","long_description":"This plug-in gives read/write access to files saved in the Matlab 4 format.","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["yorick"]}],"depends_on":[]},{"name":"yorick-imutil","portdir":"science/yorick-imutil","version":"0.5.7","license":"GPL-2+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://maumae.net/yorick/doc/plugins.php","description":"Fast image manipulation routines for the Yorick language","long_description":"Compiled routines for basic but fast image manipulation in yorick (an interpreted computer language specialized for numerical and scientific problems). Includes 2d bilinear and spline2 interpolation, clipping, 2d dist generator, binning, image rotation, cartesian to polar coordinate transform, gaussian and poisson random generator, fast sort and fast median.","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["yorick"]},{"type":"run","ports":["yorick-yutils"]}],"depends_on":[{"type":"lib","ports":["yorick-yao"]}]},{"name":"yorick-gy","portdir":"science/yorick-gy","version":"0.0.5","license":"GPL-3","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://github.com/paumard/yorick-gy/","description":"GObject Introspection and Gtk bindings for Yorick","long_description":"This plug-in uses gobject-introspection to provide Yorick with bindings for various libraries (in particular Gtk 3).","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["pkgconfig","clang-18"]},{"type":"lib","ports":["gobject-introspection","yorick"]},{"type":"run","ports":["gtk3"]}],"depends_on":[{"type":"run","ports":["Gyoto","py37-gyoto","py38-gyoto","py35-gyoto","py36-gyoto","yorick-cubeview"]}]},{"name":"yorick-gl","portdir":"science/yorick-gl","version":"1.1.0.git20120925","license":"BSD","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://maumae.net/yorick/doc/plugins.php","description":"OpenGL 3D graphics support for the Yorick language","long_description":"This is a compiled add-on for yorick (an interpreted computer language specialized for numerical and scientific problems). Yorick-gl adds support for OpenGL 3D graphics.","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"fetch","ports":["git"]},{"type":"lib","ports":["yorick","mesa"]}],"depends_on":[]},{"name":"yorick-cubeview","portdir":"science/yorick-cubeview","version":"2.2","license":"GPL-2+","platforms":"any","epoch":0,"replaced_by":null,"homepage":"https://github.com/paumard/yorick-cubeview","description":"3D FITS data viewer specialized in spectro-imaging","long_description":"Cubeview is a viewer for 3D data store in FITS files, a file format extensively used among astronomers. It is specialized in displaying spectro-imaging data but can be used to do basic visualization on any FITS file containing a 3D array. Cubeview features a stand-alone graphical user interface which adheres to the GTK+ look-and-feel. Being written in Yorick, it is inherently scriptable. A system of hooks allows custom actions to be repeated automatically when certain events occur.","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["yorick"]},{"type":"run","ports":["yorick-gy","yorick-yutils"]}],"depends_on":[]},{"name":"yorick","portdir":"science/yorick","version":"2.2.04","license":"BSD","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://software.llnl.gov/yorick-doc/","description":"Interpreted language and scientific graphics","long_description":"An interpreted programming language for numerical computations, scientific data processing and visualisation.","active":true,"categories":["science","yorick"],"maintainers":[{"name":"thibaut","github":"paumard","ports_count":43}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["xorg-libX11"]}],"depends_on":[{"type":"lib","ports":["yorick-z","yorick-soy","yorick-spydr","yorick-yao","yorick-yeti","yorick-yutils","yorick-hdf5","py37-gyoto","py38-gyoto","py35-gyoto","py36-gyoto","yorick-av","yorick-svipc","yorick-cubeview","yorick-gl","yorick-gy","yorick-imutil","yorick-ml4","yorick-mpeg","yorick-optimpack"]},{"type":"run","ports":["py35-pyorick","py36-pyorick","py37-pyorick","py312-pyorick","py27-pyorick"]}]},{"name":"yaxt","portdir":"science/yaxt","version":"0.6.0","license":"BSD","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://www.dkrz.de/redmine/projects/yaxt","description":"Yet Another eXchange Tool","long_description":"yaxt is a library for redistribution of data between two sets of processes on top of MPI with C and Fortran interfaces.","active":true,"categories":["science","parallel"],"maintainers":[{"name":"takeshi","github":"tenomoto","ports_count":53}],"variants":["clang13","clang14","clang15","clang16","clang17","clang18","clang19","clang20","clang21","clang22","gcc10","gcc11","gcc12","gcc13","gcc14","gcc15","mpich","openmpi","universal"],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"extract","ports":["xz"]},{"type":"lib","ports":["mpich-clang18"]}],"depends_on":[]},{"name":"xtide-data","portdir":"science/xtide","version":"20240104","license":"public-domain","platforms":"any","epoch":0,"replaced_by":null,"homepage":"https://www.flaterco.com/xtide/","description":"Harmonics data for XTide.","long_description":"Harmonics data for XTide.","active":true,"categories":["science"],"maintainers":[{"name":"dstrubbe","github":"dstrubbe","ports_count":38}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"extract","ports":["xz"]}],"depends_on":[{"type":"run","ports":["xtide"]}]},{"name":"xtide-wvs","portdir":"science/xtide","version":"0","license":"public-domain","platforms":"any","epoch":0,"replaced_by":null,"homepage":"https://www.flaterco.com/xtide/","description":"World Vector Shoreline data for XTide.","long_description":"World Vector Shoreline data for XTide.","active":true,"categories":["science"],"maintainers":[{"name":"dstrubbe","github":"dstrubbe","ports_count":38}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"extract","ports":["xz"]}],"depends_on":[]},{"name":"xtide","portdir":"science/xtide","version":"2.15.5","license":"GPL-3+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://www.flaterco.com/xtide/","description":"Tide prediction software, with a large database of locations.","long_description":"XTide is a package that provides tide and current predictions in a wide variety of formats. Graphs, text listings, and calendars can be generated, or a tide clock can be provided on your desktop. For x11, plain command line, and as an http server.","active":true,"categories":["science","x11"],"maintainers":[{"name":"dstrubbe","github":"dstrubbe","ports_count":38}],"variants":["xwindows","universal"],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"extract","ports":["xz"]},{"type":"lib","ports":["libpng","libtcd","xorg-libXaw"]},{"type":"run","ports":["xtide-data"]}],"depends_on":[]},{"name":"xschem","portdir":"science/xschem","version":"3.4.6","license":"GPL-2+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://xschem.sourceforge.io/stefan/index.html","description":"schematic capture and netlisting EDA tool","long_description":"Xschem is a schematic capture program that supports digital, analog, behavioral circuit design and simulation. It is designed to interface well with ngspice and other simulation tools.","active":true,"categories":["science","cad"],"maintainers":[{"name":"degnan.68k","github":"bpdegnan","ports_count":6}],"variants":["universal"],"dependencies":[{"type":"build","ports":["pkgconfig","clang-18"]},{"type":"lib","ports":["tcl","tk","xorg-libX11","cairo","xpm","xrender","xorg-libxcb","libjpeg-turbo"]}],"depends_on":[]},{"name":"xrootd","portdir":"science/xrootd","version":"5.9.1","license":"LGPL-3+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://xrootd.org/","description":"Generic suite for fast, low-latency and scalable data access.","long_description":"Generic suite for fast, low-latency and scalable data access.","active":true,"categories":["science"],"maintainers":[{"name":"jonesc","github":"cjones051073","ports_count":232}],"variants":["debug","python310","python311","python312","python313","python314","readline","ssl","kerberos","universal"],"dependencies":[{"type":"build","ports":["cctools","cmake","pkgconfig","clang-20","py314-setuptools","py314-setuptools_scm","py314-pip"]},{"type":"lib","ports":["libxml2","tinyxml","zlib","python314","openssl3","ossp-uuid","readline","swig","curl","kerberos5","json-c"]}],"depends_on":[{"type":"lib","ports":["py36-scikit-hep-uproot4","py39-scikit-hep-uproot","py37-scikit-hep-uproot","py37-scikit-hep-uproot4","py38-scikit-hep-uproot4","py39-scikit-hep-uproot4","py310-scikit-hep-uproot4","py311-scikit-hep-uproot4","py38-scikit-hep-uproot","root6","py310-scikit-hep-uproot","py311-scikit-hep-uproot"]}]},{"name":"xrmc","portdir":"science/xrmc","version":"6.7.0","license":"GPL-3+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://github.com/golosio/xrmc/wiki","description":"A Monte Carlo program for the accurate simulation of X-ray imaging and spectroscopy experiments in heterogeneous samples","long_description":"XRMC is a Monte Carlo program for the accurate simulation of X-ray imaging and spectroscopy experiments in heterogeneous samples. The use of the Monte Carlo method makes the code suitable for the detailed simulation of complex experiments on generic samples. Variance reduction techniques are used to reduce the computational time considerably compared to general-purpose Monte Carlo programs. The program is written in C++ and has been tested on Linux, Mac OS X and MS Windows platforms.","active":true,"categories":["science"],"maintainers":[],"variants":["clang13","clang14","clang15","clang16","clang17","clang18","clang19","clang20","clang21","clang22","clangdevel","gcc10","gcc11","gcc12","gcc13","gcc14","gcc15","gccdevel","openmp","universal"],"dependencies":[{"type":"build","ports":["pkgconfig","clang-18"]},{"type":"lib","ports":["libomp","xraylib"]}],"depends_on":[]},{"name":"xraylib","portdir":"science/xraylib","version":"4.1.2","license":"BSD","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://github.com/tschoonj/xraylib","description":"A library for X-ray matter interaction cross sections","long_description":"xraylib provides an API with over 50 functions designed to provide convenient access to databases with cross sections (photoelectric, Compton, Rayleigh, XRF etc.), line energies, edge energies, fluorescence yields, scattering factors, refractive indices, Compton profiles etc. Bindings exist for Perl, Python, Java, Fortran, IDL, Lua, Ruby, PHP and .NET.","active":true,"categories":["science"],"maintainers":[],"variants":["g95","gcc10","gcc11","gcc12","gcc13","gcc14","gcc15","gccdevel","perl5_28","perl5_30","perl5_32","perl5_34","python27","python310","ruby24","ruby25","ruby26","java","lua","universal"],"dependencies":[{"type":"build","ports":["clang-18","swig-perl","swig-python","py310-cython","autoconf","automake","libtool"]},{"type":"lib","ports":["python310","py310-numpy","perl5.34"]}],"depends_on":[{"type":"lib","ports":["xrmc"]}]},{"name":"xpa","portdir":"science/xpa","version":"2.1.19","license":"LGPL-2.1","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://hea-www.harvard.edu/saord/xpa/","description":"The XPA messaging system provides seamless communication between many kinds of Unix programs, including X programs and Tcl/Tk programs.","long_description":"XPA provides an easy way for users to communicate with XPA-enabled programs by executing XPA client commands in the shell or by utilizing such commands in scripts. Because XPA works both at the programming level and the shell level, it is a powerful tool for unifying any analysis environment: users and programmers have great flexibility in choosing the best level or levels at which to access XPA services, and client access can be extended or modified easily at any time.","active":true,"categories":["science"],"maintainers":[],"variants":["universal"],"dependencies":[{"type":"build","ports":["clang-18"]}],"depends_on":[]},{"name":"xnec2c","portdir":"science/xnec2c","version":"4.4.18","license":"GPL-3","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://www.xnec2c.org","description":"Xnec2c: Fast Multi-Threaded EM Simulator based on NEC2","long_description":"Xnec2c is a GTK3-based Graphical version of nec2c, a translation to the C language of NEC2, the FORTRAN Numerical Electromagnetics Code commonly used for antenna simulation and analysis.","active":true,"categories":["science"],"maintainers":[{"name":"","github":"vk1kcm","ports_count":2}],"variants":["openblas"],"dependencies":[{"type":"build","ports":["gcc15","pkgconfig","makeicns","autoconf","automake","gettext","libtool"]},{"type":"lib","ports":["libgcc","gtk3"]}],"depends_on":[]},{"name":"xmedcon","portdir":"science/xmedcon","version":"0.16.3","license":"LGPL-2+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://xmedcon.sourceforge.net/","description":"an open source toolkit for medical image conversion","long_description":"xmedcon is a framework specifically designed to resolve the complexities involved with conversion of medical image formats. It offers a GUI, a CLI (medcon), and a library for writing custom applications licensed under the (L)GPL.","active":true,"categories":["graphics","science"],"maintainers":[],"variants":["gtk2","universal"],"dependencies":[{"type":"build","ports":["pkgconfig","clang-18"]},{"type":"lib","ports":["glib2","gtk2","libpng"]}],"depends_on":[]},{"name":"xloops","portdir":"science/xloops","version":"current","license":"unknown","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://wwwthep.physik.uni-mainz.de/~xloops/","description":"A Program for Calculating Feynman Diagrams","long_description":"The aim of xloops is to calculate one-particle irreducible Feynman diagrams with one or two closed loops for arbitrary processes in the Standard Model of particles and related theories. Results can be returned both algebraically and numerically. All necessary tensor integrals are treated for arbitrary masses and momenta.","active":true,"categories":["science"],"maintainers":[],"variants":["universal"],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"fetch","ports":["cvs"]},{"type":"lib","ports":["GiNaC","nestedsums"]}],"depends_on":[]},{"name":"xdrfile","portdir":"science/xdrfile","version":"1.1.4","license":"BSD","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://www.gromacs.org/Developer_Zone/Programming_Guide/XTC_Library","description":"Allows to read GROMACS trr and xtc files.","long_description":"This library allows to read GROMACS trr and xtc files and also to convert from one format to another. The library itself is offered under the BSD license, which means you are free to incorporate it any way you want in other libraries or executables, no matter what the final license is.","active":true,"categories":["science","math"],"maintainers":[{"name":"giovanni.bussi","github":"GiovanniBussi","ports_count":97}],"variants":["universal"],"dependencies":[{"type":"build","ports":["clang-18"]}],"depends_on":[]},{"name":"xcrysden","portdir":"science/xcrysden","version":"1.6.2","license":"GPL-2+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://www.xcrysden.org/","description":"X-windows CRYstalline Structures and DENsities","long_description":"XCrySDen is a crystalline and molecular structure visualisation program aiming at display of isosurfaces and contours, which can be superimposed on crystalline structures and interactively rotated and manipulated.","active":true,"categories":["science"],"maintainers":[{"name":"dstrubbe","github":"dstrubbe","ports_count":38}],"variants":["g95","gcc10","gcc11","gcc12","gcc13","gcc14","gcc15","gccdevel"],"dependencies":[{"type":"build","ports":["gcc15","clang-18"]},{"type":"lib","ports":["fftw-3","Togl-2.0","libGLU","mesa","libgcc","xorg-libXext","xorg-libXmu","tk-x11","xorg-libX11","tcl"]},{"type":"run","ports":["BWidget"]}],"depends_on":[]},{"name":"wview","portdir":"science/wview","version":"5.21.7","license":"GPL-2","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://wviewweather.com/","description":"unix weather application that generates web sites","long_description":"wview is a collection of linux/unix daemons that interface with a supported weather station to retrieve archive records (if generated by the station) and current conditions. The archive records are stored in an SQLite3 database. At a configurable interval, wview will utilize the archive history and current conditions to generate weather images (buckets, dials and graphs) and HTML web pages based on user-configurable HTML templates.","active":true,"categories":["science"],"maintainers":[{"name":"mbclark","github":"","ports_count":2}],"variants":["universal"],"dependencies":[{"type":"build","ports":["autoconf","automake","libtool","clang-18"]},{"type":"lib","ports":["gd2","libpng","zlib","curl","gawk","sqlite3","openssl","radlib"]}],"depends_on":[]},{"name":"whizard","portdir":"science/whizard","version":"2.8.2","license":"GPL-2+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://whizard.hepforge.org","description":"Generator of high-energy physics events","long_description":"WHIZARD is a program system designed for the efficient calculation of multi-particle scattering cross sections and simulated event samples. Tree-level matrix elements are generated automatically for arbitrary partonic processes by using the Optimized Matrix Element Generator O'Mega. Matrix elements obtained by alternative methods (e.g., including loop corrections) may be interfaced as well. The program is able to calculate numerically stable signal and background cross sections and generate unweighted event samples with reasonable efficiency for processes with up to eight final-state particles; more particles are possible. For more particles, there is the option to generate processes as decay cascades including complete spin correlations.","active":true,"categories":["science"],"maintainers":[{"name":"juergen.reuter","github":"romendakil","ports_count":1},{"name":"whizard","github":"","ports_count":1}],"variants":["gcc10","gcc11","gcc12","gcc13","gcc14","gcc15","gccdevel","universal"],"dependencies":[{"type":"build","ports":["ocaml","clang-18","gcc15"]},{"type":"lib","ports":["libgcc"]}],"depends_on":[]},{"name":"whatcheck","portdir":"science/whatcheck","version":"8.1","license":"Restrictive","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://swift.cmbi.ru.nl/gv/whatcheck/","description":"Protein verification tools from WhatIf","long_description":"Protein verification tools from WhatIf","active":true,"categories":["science"],"maintainers":[{"name":"howarth.at.macports","github":"jwhowarth","ports_count":18}],"variants":["g95","gcc10","gcc11","gcc12","gcc13","gcc14","gcc15","gccdevel"],"dependencies":[{"type":"build","ports":["clang-18","gcc15"]},{"type":"lib","ports":["xfig","libgcc"]}],"depends_on":[]},{"name":"wfview","portdir":"science/wfview","version":"1.64","license":"none","platforms":"darwin","epoch":0,"replaced_by":"https://wfview.org/download/","homepage":"https://www.macports.org","description":"Obsolete port, replaced by https://wfview.org/download/","long_description":"This port has been replaced by https://wfview.org/download/.","active":true,"categories":["science"],"maintainers":[],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"extract","ports":[null]},{"type":"fetch","ports":[null]},{"type":"lib","ports":[null]},{"type":"patch","ports":[null]},{"type":"run","ports":[null]},{"type":"test","ports":[null]}],"depends_on":[]},{"name":"weka","portdir":"science/weka","version":"3.6.4","license":"GPL","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://www.cs.waikato.ac.nz/ml/weka/","description":"Weka is a collection of machine learning algorithms for data mining tasks implemented in java","long_description":"Weka is a collection of machine learning algorithms for data mining tasks implemented in java. The algorithms can either be applied directly to a dataset or called from your own Java code. Weka contains tools for data pre-processing, classification, regression, clustering, association rules, and visualization. It is also well-suited for developing new machine learning schemes.","active":true,"categories":["science","java"],"maintainers":[],"variants":[],"dependencies":[{"type":"build","ports":["apache-ant","jarbundler","clang-18"]},{"type":"extract","ports":["unzip"]}],"depends_on":[]},{"name":"weightwatcher","portdir":"science/weightwatcher","version":"1.12","license":"GPL-3+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://www.astromatic.net/software/weightwatcher/","description":"Astronomical software that produces control maps.","long_description":"WeightWatcher is a program that combines weight-maps, flag-maps and polygon data in order to produce control maps which can directly be used in astronomical image-processing packages like Swarp or SExtractor.","active":true,"categories":["science"],"maintainers":[{"name":"aronnax","github":"lpsinger","ports_count":443}],"variants":["universal"],"dependencies":[{"type":"build","ports":["clang-18"]}],"depends_on":[]},{"name":"weathr","portdir":"science/weathr","version":"1.4.0","license":"GPL-3","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://github.com/Veirt/weathr","description":"a terminal weather app with ascii animation","long_description":"A terminal weather app with ASCII animations driven by real-time weather data. Features real-time weather from Open-Meteo with animated rain, snow, thunderstorms, flying airplanes, day/night cycles, and auto-location detection.","active":true,"categories":["science"],"maintainers":[{"name":"herby.gillot","github":"herbygillot","ports_count":1069}],"variants":["universal"],"dependencies":[{"type":"build","ports":["cargo","legacy-support","rust","clang-20"]},{"type":"lib","ports":["libunwind"]}],"depends_on":[]},{"name":"weatherme","portdir":"science/weatherme","version":"2.5","license":"MIT","platforms":"darwin freebsd linux","epoch":0,"replaced_by":null,"homepage":"https://github.com/eoin-barr/weatherme","description":"Find out the weather for any city from your terminal","long_description":"Find out the weather for any city from your terminal","active":true,"categories":["science"],"maintainers":[{"name":"herby.gillot","github":"herbygillot","ports_count":1069}],"variants":[],"dependencies":[{"type":"build","ports":["go","clang-18"]}],"depends_on":[]},{"name":"wdsp","portdir":"science/wdsp","version":"20230508-4c273de2","license":"GPL-2","platforms":"darwin macosx","epoch":0,"replaced_by":null,"homepage":"https://github.com/TAPR/OpenHPSDR-wdsp","description":"WDSP is a full-featured signal processing library for Software Defined Radio","long_description":"WDSP is a full-featured signal processing library for Software Defined Radio","active":true,"categories":["science","comms"],"maintainers":[{"name":"ra1nb0w","github":"ra1nb0w","ports_count":151}],"variants":["universal"],"dependencies":[{"type":"build","ports":["pkgconfig","clang-18"]},{"type":"lib","ports":["fftw-3"]}],"depends_on":[{"type":"lib","ports":["linhpsdr","pihpsdr","quisk"]}]},{"name":"wcstools","portdir":"science/wcstools","version":"3.9.7","license":"GPL-2","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://tdc-www.harvard.edu/wcstools/","description":"Programs for manipulating world coordinate systems (WCSs) in FITS images","long_description":"Programs for manipulating world coordinate systems (WCSs) in FITS images","active":true,"categories":["science"],"maintainers":[{"name":"aronnax","github":"lpsinger","ports_count":443}],"variants":[],"dependencies":[{"type":"build","ports":["clang-18"]}],"depends_on":[{"type":"lib","ports":["montage"]}]},{"name":"wcslib","portdir":"science/wcslib","version":"8.2.2","license":"LGPL-3+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://www.atnf.csiro.au/people/mcalabre/WCS/index.html","description":"Library for handling World Coordinate System in FITS files","long_description":"A C library, with a set of Fortran wrappers, that implements the World Coordinate System (WCS) standard in FITS (Flexible Image Transport System). Select a Fortran compiler variant to enable the Fortran wrappers.","active":true,"categories":["science"],"maintainers":[],"variants":["g95","gcc10","gcc11","gcc12","gcc13","gcc14","gcc15","gccdevel"],"dependencies":[{"type":"build","ports":["clang-18"]},{"type":"lib","ports":["cfitsio"]}],"depends_on":[{"type":"lib","ports":["py27-astropy","py35-astropy","py36-astropy","py38-kapteyn","py37-kapteyn","py310-astropy","py311-astropy","py312-astropy","py313-astropy","py314-astropy","py37-astropy","py38-astropy","py39-kapteyn","py39-astropy","py310-kapteyn","gnuastro","lenstool","montage"]}]},{"name":"wcalc","portdir":"science/wcalc","version":"1.1","license":"GPL-2","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://wcalc.sourceforge.net/","description":"analyze and synthesize transmission line structures and related components","long_description":"Wcalc is a tool for the analysis and synthesis of transmission line structures and related components. Wcalc provides the ability to analyze the electrical parameters of a particular structure based on the physical dimensions and material parameters. The synthesis portion calculates the required physical parameters to meet desired electrical specifications. Wcalc includes several models and places an emphasis on accuracy. Wcalc is part of gEDA project, a full GPL'd suite of Electronic Design Automation tools.","active":true,"categories":["science","electronics"],"maintainers":[],"variants":["universal"],"dependencies":[{"type":"build","ports":["pkgconfig","clang-18"]},{"type":"lib","ports":["gtk2","gawk"]}],"depends_on":[]},{"name":"wannier90","portdir":"science/wannier90","version":"3.1.0","license":"GPL-2+","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"http://www.wannier.org","description":"A Tool for Obtaining Maximally-Localised Wannier Functions","long_description":"Wannier90 uses inputs from an electronic-structure code to transform the Bloch orbitals of a crystal into maximally-localised Wannier functions. Interfaces exist for various density-functional theory codes.","active":true,"categories":["science"],"maintainers":[{"name":"dstrubbe","github":"dstrubbe","ports_count":38}],"variants":["accelerate","atlas","blis","flexiblas","openblas","g95","gcc10","gcc11","gcc12","gcc13","gcc14","gcc15","gccdevel","mpich","openmpi","threads","universal"],"dependencies":[{"type":"build","ports":["clang-18","gcc15"]},{"type":"lib","ports":["libgcc","OpenBLAS"]}],"depends_on":[]},{"name":"volk-gnss-sdr-devel","portdir":"science/volk-gnss-sdr","version":"20260414-08df7e06","license":"GPL-3","platforms":"darwin","epoch":0,"replaced_by":null,"homepage":"https://gnss-sdr.org","description":"Volk modules for GNSS-SDR","long_description":"Volk modules for GNSS-SDR: This port is kept up with the VOLK-GNSS-SDR GIT next branch, which is typically updated daily to weekly. This version of VOLK-GNSS-SDR generally contains fixes and new features that will be incorporated in an upcoming release.","active":true,"categories":["science"],"maintainers":[{"name":"michaelld","github":"michaelld","ports_count":441},{"name":"carles.fernandez","github":"carlesfernandez","ports_count":4}],"variants":["debug","python310","python311","python312","python313","python314","universal"],"dependencies":[{"type":"build","ports":["py314-mako","cmake","pkgconfig","clang-20","py314-six"]},{"type":"lib","ports":["volk","boost176","python314","orc"]}],"depends_on":[{"type":"lib","ports":["gnss-sdr-devel"]}]}]}