HTTP 200 OK
Allow: GET, HEAD, OPTIONS
Content-Type: application/json
Vary: Accept
{
"count": 52203,
"next": "https://ports.macports.org/api/v1/ports/?format=api&ordering=-updated_at&page=138",
"previous": "https://ports.macports.org/api/v1/ports/?format=api&ordering=-updated_at&page=136",
"results": [
{
"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": 1065
}
],
"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",
"py37-astropy",
"py38-astropy",
"py39-kapteyn",
"py39-astropy",
"py310-astropy",
"py311-astropy",
"py312-astropy",
"py313-astropy",
"py314-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": 454
},
{
"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"
]
}
]
},
{
"name": "voroxx",
"portdir": "science/voroxx",
"version": "0.4.6",
"license": "BSD",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://math.lbl.gov/voro++/",
"description": "a software library for carrying out three-dimensional computations of the Voronoi tessellation",
"long_description": "Voro++ is a software library for carrying out three-dimensional computations of the Voronoi tessellation.",
"active": true,
"categories": [
"science",
"math"
],
"maintainers": [
{
"name": "mcalhoun",
"github": "MarcusCalhoun-Lopez",
"ports_count": 1599
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
}
],
"depends_on": [
{
"type": "lib",
"ports": [
"gmsh"
]
}
]
},
{
"name": "volk-gnss-sdr",
"portdir": "science/volk-gnss-sdr",
"version": "0.0.21",
"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 release, which is typically updated every few months.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "michaelld",
"github": "michaelld",
"ports_count": 454
},
{
"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"
]
}
]
},
{
"name": "volk",
"portdir": "science/volk",
"version": "3.1.2",
"license": "GPL-3",
"platforms": "darwin",
"epoch": 2,
"replaced_by": null,
"homepage": "https://libvolk.org/",
"description": "Vector-Optimized Library of Kernels",
"long_description": "VOLK is the Vector-Optimized Library of Kernels, a library that contains kernels of hand-written single-instruction multiple data (SIMD) code for different mathematical operations, providing portable SIMD code that is optimized for a variety of platforms. volk provides the release version, which is typically updated every month or so.",
"active": true,
"categories": [
"science",
"comms"
],
"maintainers": [
{
"name": "michaelld",
"github": "michaelld",
"ports_count": 454
}
],
"variants": [
"debug",
"python310",
"python311",
"python312",
"docs",
"orc",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18",
"doxygen",
"py310-six",
"py310-mako",
"cmake",
"pkgconfig"
]
},
{
"type": "lib",
"ports": [
"boost176",
"python310",
"orc"
]
}
],
"depends_on": [
{
"type": "lib",
"ports": [
"volk-gnss-sdr-devel",
"SDRPlusPlus",
"gnuradio",
"gnuradio37",
"gnuradio-next",
"gqrx",
"gr-adapt",
"gr-air-modes",
"gr37-adapt",
"gr37-air-modes",
"gr-baz",
"gr37-ais",
"gr37-baz",
"gr-fcdproplus",
"gr37-cdma",
"gr37-fcdproplus",
"gr-foo",
"gr-fosphor",
"gr37-foo",
"gr37-fosphor",
"gr-gfdm",
"gr-gsm",
"gr37-gfdm",
"gr37-gsm",
"gr-hermeslite2",
"gr-hpsdr",
"gr-ieee802-11",
"gr-ieee802-15-4",
"gr37-ieee802-11",
"gr37-ieee802-15-4",
"gr-iio",
"gr-iqbalance",
"gr37-iio",
"gr37-iqbalance",
"gr-iridium",
"gr-limesdr",
"gr37-iridium",
"gr37-limesdr",
"gr-linrad",
"gr37-lora-BastilleResearch",
"gr37-lora-rpp0",
"gr-lora-rpp0",
"gr37-lte",
"gr37-mapper",
"gr37-mac",
"gr-osmosdr",
"gr37-ofdm",
"gr37-osmosdr",
"gr37-pcap",
"gr37-pyqt",
"gr-rds",
"gr-satellites",
"gr37-rds",
"gr37-satellites",
"gr37-sdrplay",
"gr-specest",
"gr37-specest",
"gr37-tdd",
"gnuradio-devel",
"volk-gnss-sdr"
]
},
{
"type": "run",
"ports": [
"luaradio"
]
}
]
},
{
"name": "vis5d",
"portdir": "science/vis5d",
"version": "1.3.0-beta",
"license": "(GPL-2 or Restrictive)",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://vis5d.sourceforge.net/",
"description": "OpenGL-based scientific visualization program",
"long_description": "Vis5D+ is a system for interactive visualization of large 5-D gridded data sets such as those produced by numerical weather models. One can make isosurfaces, contour line slices, colored slices, volume renderings, etc of data in a 3-D grid, then rotate and animate the images in real time. There's also a feature for wind trajectory tracing, a way to make text anotations for publications, support for interactive data analysis, etc.",
"active": true,
"categories": [
"graphics",
"science"
],
"maintainers": [
{
"name": "takeshi",
"github": "tenomoto",
"ports_count": 53
}
],
"variants": [
"g95",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18",
"libtool",
"pkgconfig"
]
},
{
"type": "lib",
"ports": [
"netcdf",
"libiconv",
"libGLU",
"gettext",
"xorg-libsm",
"mesa",
"libpng",
"tcl"
]
},
{
"type": "run",
"ports": [
"ImageMagick"
]
}
],
"depends_on": [
{
"type": "lib",
"ports": [
"ncarg"
]
}
]
},
{
"name": "viking",
"portdir": "science/viking",
"version": "1.11",
"license": "GPL-2",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://viking.sourceforge.net/",
"description": "GTK3 GPS Program",
"long_description": "Viking is a free/open source program to manage GPS data.",
"active": true,
"categories": [
"science"
],
"maintainers": [],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"intltool",
"gnutar",
"autoconf",
"automake",
"libtool",
"pkgconfig",
"gtk-doc",
"yelp-tools",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"xz",
"geoclue2",
"gexiv2",
"gtk3",
"curl",
"gpsd",
"liboauth",
"libmagic"
]
},
{
"type": "run",
"ports": [
"gpsbabel",
"expect"
]
}
],
"depends_on": []
},
{
"name": "veryfasttree",
"portdir": "science/veryfasttree",
"version": "4.0.4",
"license": "GPL-3",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://github.com/citiususc/veryfasttree",
"description": "Efficient phylogenetic tree inference for massive taxonomic datasets",
"long_description": "Efficient phylogenetic tree inference for massive taxonomic datasets",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "cesaralfredo.pineiro",
"github": "cesarpomar",
"ports_count": 1
}
],
"variants": [
"debug",
"native",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"libomp"
]
}
],
"depends_on": []
},
{
"name": "veriwell",
"portdir": "science/veriwell",
"version": "2.8.7",
"license": "GPL-2+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://sourceforge.net/projects/veriwell",
"description": "VeriWell Verilog Simulator",
"long_description": "VeriWell is a full Verilog simulator. It supports nearly all of the IEEE1364-1995 standard, as well as PLI 1.0. VeriWell is the same simulator that was sold by Wellspring Solutions in the mid-1990 and was included with the Thomas and Moorby book",
"active": true,
"categories": [
"science"
],
"maintainers": [],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"help2man",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"bzip2",
"zlib",
"readline"
]
}
],
"depends_on": []
},
{
"name": "verilator",
"portdir": "science/verilator",
"version": "5.028",
"license": "(LGPL-3 or Artistic-2)",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://github.com/verilator/verilator",
"description": "Verilog compiler and simulator",
"long_description": "Verilator is a Verilog compiler and simulator.",
"active": true,
"categories": [
"science",
"electronics"
],
"maintainers": [
{
"name": "mcalhoun",
"github": "MarcusCalhoun-Lopez",
"ports_count": 1599
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"autoconf",
"automake",
"bison",
"flex",
"libtool",
"help2man",
"clang-20"
]
},
{
"type": "lib",
"ports": [
"perl5.36",
"python311"
]
}
],
"depends_on": []
},
{
"name": "verde",
"portdir": "science/verde",
"version": "1.9.0",
"license": "BSD",
"platforms": "{darwin any}",
"epoch": 0,
"replaced_by": null,
"homepage": "https://github.com/fatiando/verde",
"description": "Verde is a Python library for processing spatial data",
"long_description": "Verde is a Python library for processing spatial data (bathymetry, geophysics surveys, etc) and interpolating it on regular grids (i.e., gridding).",
"active": true,
"categories": [
"science",
"python"
],
"maintainers": [
{
"name": "mps",
"github": "Schamschula",
"ports_count": 1438
}
],
"variants": [
"python310",
"python311",
"python312",
"python313",
"python314"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18",
"py314-build",
"py314-installer",
"py314-setuptools",
"py314-wheel",
"py314-setuptools_scm"
]
},
{
"type": "lib",
"ports": [
"py314-dask",
"python314",
"py314-scikit-learn",
"py314-numpy",
"py314-pooch",
"py314-scipy",
"py314-pandas",
"py314-xarray"
]
}
],
"depends_on": []
},
{
"name": "vcftools",
"portdir": "science/vcftools",
"version": "0.1.16",
"license": "GPL-3",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://vcftools.github.io/",
"description": "utilities for working with VCF files",
"long_description": "A set of tools written in Perl and C++ for working with VCF files, such as those generated by the 1000 Genomes Project.",
"active": true,
"categories": [
"science"
],
"maintainers": [],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"zlib",
"pkgconfig",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"perl5"
]
}
],
"depends_on": []
},
{
"name": "vcellid",
"portdir": "science/vcellid",
"version": "0.1",
"license": "unknown",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://sourceforge.net/projects/cell-id",
"description": "GTK GUI for cell-id",
"long_description": "Graphical User Interface for Cell-ID software.",
"active": true,
"categories": [
"science",
"biology"
],
"maintainers": [
{
"name": "abush",
"github": "",
"ports_count": 2
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"pkgconfig",
"clang-18"
]
},
{
"type": "extract",
"ports": [
"unzip"
]
},
{
"type": "lib",
"ports": [
"gtkimageview",
"cell-id"
]
}
],
"depends_on": []
},
{
"name": "vbs",
"portdir": "science/vbs",
"version": "1.4.0",
"license": "GPL-2+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.flex.com/~jching/",
"description": "Verilog Behavioral Simulator",
"long_description": "This is the public release of the Verilog Behavioral Simulator. Verilog is a Hardware Description Language used mostly for digital circuit design and simulation. This program is a simple implementation of a Verilog simulator. VBS tries to implement all of the Verilog behavioral constructs that are synthesizable, but still allow complex test vectors for simulation.",
"active": true,
"categories": [
"science"
],
"maintainers": [],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
}
],
"depends_on": []
},
{
"name": "vbpp",
"portdir": "science/vbpp",
"version": "1.2.0",
"license": "Copyleft",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://web.archive.org/web/20170425040737/http://www.verilog.net/free.html",
"description": "Verilog preprocessor",
"long_description": "VBPP is a Verilog preprocessor. It has support for most Verilog preprocessing directives and additional directives.",
"active": true,
"categories": [
"science"
],
"maintainers": [],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
}
],
"depends_on": []
},
{
"name": "uhd-devel",
"portdir": "science/uhd",
"version": "20230127-4.4.0.0-5fac246b",
"license": "GPL-3+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://kb.ettus.com/UHD",
"description": "USRP Hardware Driver for Ettus Research Products",
"long_description": "USRP Hardware Driver for Ettus Research Products: Provides the UHD GIT maint or master branch, depending on which is more advanced, and is typically updated every few days to week.",
"active": true,
"categories": [
"science",
"comms"
],
"maintainers": [
{
"name": "michaelld",
"github": "michaelld",
"ports_count": 454
}
],
"variants": [
"debug",
"python27",
"python310",
"test",
"examples",
"libusb",
"docs",
"manual",
"manpages",
"python_api",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"pkgconfig",
"doxygen",
"py310-setuptools",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"py310-six",
"py310-numpy",
"py310-docutils",
"gzip",
"py310-mako",
"boost181",
"py310-pybind11",
"libusb",
"ncurses",
"python310",
"py310-requests"
]
}
],
"depends_on": []
},
{
"name": "uhd-39lts",
"portdir": "science/uhd",
"version": "3.9-LTS",
"license": "GPL-3+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://kb.ettus.com/UHD",
"description": "USRP Hardware Driver for Ettus Research Products",
"long_description": "USRP Hardware Driver for Ettus Research Products: Provides UHD 3.9 Long-Term Service (LTS) branch. This branch is not updated except for compatibility with OSs released after it was finalized.",
"active": true,
"categories": [
"science",
"comms"
],
"maintainers": [
{
"name": "michaelld",
"github": "michaelld",
"ports_count": 454
}
],
"variants": [
"debug",
"gpsd",
"python27",
"python310",
"test",
"examples",
"libusb",
"docs",
"manual",
"manpages",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"pkgconfig",
"doxygen",
"py310-setuptools",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"python310",
"py310-requests",
"gzip",
"py310-docutils",
"py310-mako",
"py310-six",
"libusb",
"ncurses",
"gpsd",
"boost171"
]
}
],
"depends_on": []
},
{
"name": "uhd",
"portdir": "science/uhd",
"version": "3.15.0.0",
"license": "GPL-3+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://kb.ettus.com/UHD",
"description": "USRP Hardware Driver for Ettus Research Products",
"long_description": "USRP Hardware Driver for Ettus Research Products: Provides the release version, which is typically updated every month or so.",
"active": true,
"categories": [
"science",
"comms"
],
"maintainers": [
{
"name": "michaelld",
"github": "michaelld",
"ports_count": 454
}
],
"variants": [
"manpages",
"debug",
"python27",
"python310",
"test",
"examples",
"libusb",
"docs",
"manual",
"python_api",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"pkgconfig",
"doxygen",
"py310-setuptools",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"py310-requests",
"py310-six",
"py310-numpy",
"gzip",
"py310-pybind11",
"py310-mako",
"py310-docutils",
"libusb",
"ncurses",
"boost171",
"python310"
]
}
],
"depends_on": [
{
"type": "lib",
"ports": [
"gr37-osmosdr",
"gnuradio-devel",
"SoapyUHD",
"gnss-sdr",
"gnss-sdr-devel",
"gnuradio",
"gnuradio37",
"gnuradio-next",
"gr-baz",
"gr37-baz",
"gr-ofdm",
"gr-osmosdr",
"gr37-ofdm"
]
},
{
"type": "run",
"ports": [
"digital_rf"
]
}
]
},
{
"name": "udunits2",
"portdir": "science/udunits2",
"version": "2.2.28",
"license": "Apache-2",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://www.unidata.ucar.edu/software/udunits/",
"description": "Improved Unidata unit conversion libraray",
"long_description": "The UDUNITS package supports units of physical quantities (e.g., meters, seconds). Specifically, it supports conversion between string and binary representations of units, arithmetic manipulation of units, and conversion of numeric values between compatible units. The UDUNIT-2 package differs from the original UDUNITS package in the following ways: support for non-ASCII characters, support for logarithmic units, persistent value converters, improved API, XML unit database, and no Fortran or Perl API.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "takeshi",
"github": "tenomoto",
"ports_count": 53
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
},
{
"type": "lib",
"ports": [
"cunit",
"expat"
]
}
],
"depends_on": [
{
"type": "lib",
"ports": [
"py39-gyoto",
"gnudatalanguage",
"vapor",
"py37-gyoto",
"py38-gyoto",
"py35-gyoto",
"py36-gyoto",
"ncarg",
"cdo",
"R-RNetCDF",
"R-units",
"Gyoto",
"py310-gyoto",
"py311-gyoto",
"py312-gyoto",
"py313-gyoto",
"py314-gyoto",
"nco",
"ncview"
]
}
]
},
{
"name": "udunits",
"portdir": "science/udunits",
"version": "1.12.11",
"license": "UCAR-Unidata",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://www.unidata.ucar.edu/software/udunits/",
"description": "Unidata unit conversion libraray",
"long_description": "The Unidata units library supports conversion of unit specifications between formatted and binary forms, arithmetic manipulation of unit specifications, and conversion of values between compatible scales of measurement.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "takeshi",
"github": "tenomoto",
"ports_count": 53
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"byacc",
"clang-18"
]
}
],
"depends_on": [
{
"type": "lib",
"ports": [
"grads"
]
},
{
"type": "run",
"ports": [
"R-mlr"
]
}
]
},
{
"name": "uclatools",
"portdir": "science/uclatools",
"version": "1.0.3",
"license": "unknown",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.ccn.ucla.edu/BMCweb/SharedCode/SharedSoftware.html",
"description": "Set of utilities for converting, analysing, and manipulating MRI image data.",
"long_description": "UCLATools includes a collection of programs written mainly by Mark S. Cohen at the UCLA Center for Cognitive Neuroscience. They provide a variety of functionalityin relation to MRI imaging. Each tool has a usage that should clarify it's utility.",
"active": true,
"categories": [
"graphics",
"science"
],
"maintainers": [],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"clang-18"
]
}
],
"depends_on": []
},
{
"name": "triangle",
"portdir": "science/triangle",
"version": "1.6",
"license": "Noncommercial and Copyleft",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.cs.cmu.edu/~quake/triangle.html",
"description": "A Two-Dimensional Quality Mesh Generator and Delaunay Triangulator",
"long_description": "Triangle generates exact Delaunay triangulations, constrained Delaunay triangulations, conforming Delaunay triangulations, Voronoi diagrams, and high-quality triangular meshes. The latter can be generated with no small or large angles, and are thus suitable for finite element analysis.",
"active": true,
"categories": [
"science"
],
"maintainers": [],
"variants": [
"universal",
"showme"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
},
{
"type": "extract",
"ports": [
"unzip"
]
}
],
"depends_on": [
{
"type": "build",
"ports": [
"ncarg"
]
},
{
"type": "lib",
"ports": [
"py27-triangle",
"py35-triangle",
"py36-triangle",
"py312-triangle",
"nektarpp",
"ompl"
]
}
]
},
{
"name": "treehh",
"portdir": "science/treehh",
"version": "2.65",
"license": "GPL-3",
"platforms": "any",
"epoch": 0,
"replaced_by": null,
"homepage": "http://tree.phi-sci.com/",
"description": "Data Analysis and Scientific Plotting",
"long_description": "The tree.hh library for C++ provides an STL-like container class for n-ary trees, templated over the data stored at the nodes. Various types of iterators are provided (post-order, pre-order, and others). Where possible the access methods are compatible with the STL or alternative algorithms are available.",
"active": true,
"categories": [
"science"
],
"maintainers": [],
"variants": [],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
}
],
"depends_on": []
},
{
"name": "tree-puzzle",
"portdir": "science/tree-puzzle",
"version": "5.2",
"license": "unknown",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.tree-puzzle.de",
"description": "a computer program to reconstruct phylogenetic trees from molecular sequence data by maximum likelihood",
"long_description": "TREE-PUZZLE is a computer program to reconstruct phylogenetic trees from molecular sequence data by maximum likelihood. It implements a fast tree search algorithm, quartet puzzling, that allows analysis of large data sets and automatically assigns estimations of support to each internal branch.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "mrt5",
"github": "",
"ports_count": 1
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
}
],
"depends_on": []
},
{
"name": "tophat",
"portdir": "science/tophat",
"version": "2.1.2",
"license": "Boost-1",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://ccb.jhu.edu/software/tophat/",
"description": "a fast splice junction mapper for RNA-Seq reads",
"long_description": "TopHat is a fast splice junction mapper for RNA-Seq reads. It aligns RNA-Seq reads to mammalian-sized genomes using the ultra high-throughput short read aligner Bowtie, and then analyzes the mapping results to identify splice junctions between exons.",
"active": true,
"categories": [
"science",
"biology"
],
"maintainers": [
{
"name": "mcalhoun",
"github": "MarcusCalhoun-Lopez",
"ports_count": 1599
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18",
"libtool",
"automake",
"autoconf"
]
},
{
"type": "lib",
"ports": [
"boost176",
"zlib",
"python27",
"samtools-0.1",
"seqan-1"
]
},
{
"type": "run",
"ports": [
"bowtie2",
"py27-sortedcontainers",
"py27-intervaltree2"
]
}
],
"depends_on": []
},
{
"name": "theseus",
"portdir": "science/theseus",
"version": "3.3.0",
"license": "GPL-2+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://theobald.brandeis.edu/theseus",
"description": "A program for maximum likelihood superpositioning and analysis of macromolecular structures",
"long_description": "A program for maximum likelihood superpositioning and analysis of macromolecular structures",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "reneeotten",
"github": "reneeotten",
"ports_count": 2213
}
],
"variants": [
"muscle",
"mafft",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cctools",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"gsl"
]
},
{
"type": "run",
"ports": [
"muscle"
]
}
],
"depends_on": []
},
{
"name": "tetgen",
"portdir": "science/tetgen",
"version": "1.6.0",
"license": "AGPL-3",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://wias-berlin.de/software/tetgen/",
"description": "A Quality Tetrahedral Mesh Generator and a 3D Delaunay Triangulator",
"long_description": "TetGen is a program to generate tetrahedral meshes of any 3D polyhedral domains. TetGen generates exact constrained Delaunay tetrahedralizations, boundary conforming Delaunay meshes, and Voronoi partitions.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "dave",
"github": "mdave",
"ports_count": 2
}
],
"variants": [
"debug",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"clang-18"
]
}
],
"depends_on": [
{
"type": "lib",
"ports": [
"nektarpp"
]
}
]
},
{
"name": "tempo",
"portdir": "science/tempo",
"version": "1.1.4",
"license": "GPL-2",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://tempo.sourceforge.net/",
"description": "TEMPO (Topographic Eeg Mapping PrOgram)",
"long_description": "TEMPO (Topographic Eeg Mapping PrOgram) is open source software for 3D visualization of brain electrical activity. TEMPO accepts EEG file in standard EDF format and creates animated sequence of topographic maps. Topographic maps are generated over 3D head model and user is able to navigate around head and examine maps from different viewpoints.",
"active": true,
"categories": [
"science"
],
"maintainers": [],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18",
"automake",
"libtool",
"pkgconfig",
"autoconf"
]
},
{
"type": "lib",
"ports": [
"libgnome",
"rarian",
"gtkglext"
]
}
],
"depends_on": []
},
{
"name": "taxonkit",
"portdir": "science/taxonkit",
"version": "0.20.0",
"license": "MIT",
"platforms": "darwin freebsd linux",
"epoch": 0,
"replaced_by": null,
"homepage": "https://bioinf.shenwei.me/taxonkit",
"description": "A Practical and Efficient NCBI Taxonomy Toolkit",
"long_description": "A Practical and Efficient NCBI Taxonomy Toolkit",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "herby.gillot",
"github": "herbygillot",
"ports_count": 1065
}
],
"variants": [],
"dependencies": [
{
"type": "build",
"ports": [
"go",
"clang-18"
]
}
],
"depends_on": []
},
{
"name": "swarp",
"portdir": "science/swarp",
"version": "2.38.0",
"license": "GPL-3+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.astromatic.net/software/swarp/",
"description": "Program that resample and co-adds FITS images",
"long_description": "SWarp is a program that resamples and co-adds together FITS images using any arbitrary astrometric projection defined in the WCS standard.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "aronnax",
"github": "lpsinger",
"ports_count": 443
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
}
],
"depends_on": []
},
{
"name": "sumo",
"portdir": "science/sumo",
"version": "1.26.0",
"license": "EPL-2",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://eclipse.dev/sumo/",
"description": "Simulation of Urban MObility (SUMO)",
"long_description": "Eclipse SUMO is an open source, highly portable, microscopic and continuous traffic simulation package designed to handle large networks. It allows for intermodal simulation including pedestrians and comes with a large set of tools for scenario creation.",
"active": true,
"categories": [
"devel",
"science"
],
"maintainers": [
{
"name": "tlockhart1976",
"github": "lockhart",
"ports_count": 27
}
],
"variants": [
"debug",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"zlib",
"xercesc3",
"gettext-runtime"
]
}
],
"depends_on": []
},
{
"name": "stuff",
"portdir": "science/stuff",
"version": "1.26.0",
"license": "GPL-3+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.astromatic.net/software/stuff/",
"description": "Generates artifical astronomical source catalogs",
"long_description": "Stuff is a program that generates artificial but realistic catalogs of astronomical sources. These catalogs can be loaded in SkyMaker to generate image simulations.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "aronnax",
"github": "lpsinger",
"ports_count": 443
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
}
],
"depends_on": []
},
{
"name": "stimfit",
"portdir": "science/stimfit",
"version": "0.17.1",
"license": "GPL-2",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.stimfit.org",
"description": "Electrophysiology analysis suite",
"long_description": "A program for viewing and analyzing electrophysiological data",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "christsc",
"github": "neurodroid",
"ports_count": 7
}
],
"variants": [
"debug",
"python310",
"python311",
"python312",
"python313",
"python314",
"atlas",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"swig-python",
"gawk",
"clang-20",
"py314-setuptools"
]
},
{
"type": "lib",
"ports": [
"fftw-3",
"py314-wxpython-4.0",
"hdf5",
"python314",
"py314-numpy",
"py314-matplotlib"
]
}
],
"depends_on": []
},
{
"name": "stiff",
"portdir": "science/stiff",
"version": "2.4.0",
"license": "GPL-3+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.astromatic.net/software/stiff/",
"description": "STIFF is a program to convert FITS images to TIFF format.",
"long_description": "STIFF is a tool for converting FITS images to TIFF format in a visually appealing, but perceptually accurate, way. It is specifically designed to show faint detail in high-dynamic-range data while still retaining colour information for bright objects. It can create both 8-bit grayscale and 24-bit colour TIFF images.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "aronnax",
"github": "lpsinger",
"ports_count": 443
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
},
{
"type": "lib",
"ports": [
"tiff"
]
}
],
"depends_on": []
},
{
"name": "stellarium-qt4",
"portdir": "science/stellarium-qt4",
"version": "0.12.11-20190501",
"license": "GPL-2+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://stellarium.org/",
"description": "Stellarium is a free open source planetarium for your computer. This older version is the last version based on qt4 which may run, or run more efficiently, on older or less powerful systems.",
"long_description": "Stellarium is a free open source planetarium for your computer. This older version is the last version based on qt4 which may run, or run more efficiently, on older or less powerful systems. It has been updated with some fixes and features found in later versions of Stellarium.",
"active": true,
"categories": [
"science"
],
"maintainers": [],
"variants": [
"debug",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"gettext",
"pkgconfig",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"freetype",
"qt4-mac",
"libiconv",
"zlib",
"phonon",
"openssl"
]
}
],
"depends_on": []
},
{
"name": "stellarium",
"portdir": "science/stellarium",
"version": "23.4",
"license": "GPL-2+",
"platforms": "{darwin >= 19}",
"epoch": 0,
"replaced_by": null,
"homepage": "https://stellarium.org/",
"description": "Stellarium is a free open source planetarium for your computer.",
"long_description": "Stellarium is a free open source planetarium for your computer. It shows a realistic sky in 3D, just like what you see with the naked eye, binoculars or a telescope. It is being used in planetarium projectors. Just set your coordinates and go.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "michaelld",
"github": "michaelld",
"ports_count": 454
}
],
"variants": [
"debug",
"RemoteControl",
"python310",
"python311",
"python312"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"pkgconfig",
"doxygen",
"clang-20"
]
},
{
"type": "lib",
"ports": [
"qt5-qtmultimedia",
"qt5-qtscript",
"qt5-qttools",
"zlib",
"gettext",
"glib2",
"qt5-qtbase",
"fontconfig",
"eigen3",
"gpsd",
"freetype",
"python312",
"glm",
"qt5-qtserialport",
"qt5-qtcharts",
"qt5-qtlocation"
]
}
],
"depends_on": []
},
{
"name": "stdinchi-1",
"portdir": "science/stdinchi-1",
"version": "1.02",
"license": "LGPL-2.1",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.iupac.org/inchi/",
"description": "IUPAC InChI for standard InChI",
"long_description": "IUPAC utility for standard International Chemical Identifier (InChI) non-proprietary identifiers for chemical substances.",
"active": true,
"categories": [
"science"
],
"maintainers": [],
"variants": [],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
},
{
"type": "extract",
"ports": [
"unzip"
]
}
],
"depends_on": []
},
{
"name": "ssm",
"portdir": "science/ssm",
"version": "1.4",
"license": "GPL-3",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://launchpad.net/ssm",
"description": "C++ toolkit for superposition of macromolecules",
"long_description": "SSM is a macromolecular coordinate superposition library, written by Eugene Krissinel of the EBI. It implements the SSM algorithm of protein structure comparison in three dimensions, which includes an original procedure of matching graphs built on the protein's secondary-structure elements, followed by an iterative three-dimensional alignment of protein backbone Calpha atoms.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "reneeotten",
"github": "reneeotten",
"ports_count": 2213
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"pkgconfig",
"clang-18"
]
},
{
"type": "lib",
"ports": [
"libccp4",
"mmdb2"
]
}
],
"depends_on": [
{
"type": "lib",
"ports": [
"coot",
"coot-devel"
]
}
]
},
{
"name": "spot",
"portdir": "science/spot",
"version": "2.14.5",
"license": "GPL-3",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://spot.lrde.epita.fr/index.html",
"description": "Spot is an object-oriented model checking library written in C++.",
"long_description": "Spot is an object-oriented model checking library written in C++.",
"active": true,
"categories": [
"science",
"math"
],
"maintainers": [],
"variants": [
"python310",
"python311",
"python312",
"python313",
"python314",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-20"
]
},
{
"type": "lib",
"ports": [
"python311"
]
}
],
"depends_on": []
},
{
"name": "spglib",
"portdir": "science/spglib",
"version": "2.7.0",
"license": "BSD",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://spglib.github.io/spglib/",
"description": "C library for finding and handling crystal symmetries.",
"long_description": "C library for finding and handling crystal symmetries. There are python, fortran, rust, and ruby interfaces. See port py-spglib.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "joe.fowler",
"github": "joefowler",
"ports_count": 98
}
],
"variants": [
"debug",
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"cmake",
"clang-18"
]
}
],
"depends_on": [
{
"type": "lib",
"ports": [
"avogadrolibs"
]
}
]
},
{
"name": "sparskit",
"portdir": "science/sparskit",
"version": "2-20210601",
"license": "LGPL-2.1+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://www-users.cs.umn.edu/~saad/software/SPARSKIT",
"description": "A basic tool-kit for sparse matrix computations",
"long_description": "A basic tool-kit for sparse matrix computations: programs for converting data structures, printing simple statistics on a matrix, plotting a matrix profile, performing basic linear algebra operations with sparse matrices and so on.",
"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": [
"cctools",
"clang-18",
"gcc15"
]
},
{
"type": "lib",
"ports": [
"libgcc"
]
}
],
"depends_on": []
},
{
"name": "sparky",
"portdir": "science/sparky",
"version": "3.115",
"license": "unknown",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.cgl.ucsf.edu/home/sparky/",
"description": "NMR Assignment and Integration Software",
"long_description": "Sparky is a graphical NMR assignment and integration program for proteins, nucleic acids, and other polymers.",
"active": true,
"categories": [
"science",
"chemistry"
],
"maintainers": [
{
"name": "howarth.at.macports",
"github": "jwhowarth",
"ports_count": 18
}
],
"variants": [],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
},
{
"type": "lib",
"ports": [
"python27",
"tcl",
"tk"
]
}
],
"depends_on": []
},
{
"name": "source-extractor",
"portdir": "science/source-extractor",
"version": "2.28.0",
"license": "GPL-3+",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://github.com/astromatic/sextractor",
"description": "tool to make catalogs of sources from astronomical images",
"long_description": "Source Extractor is software for making catalogs of sources from astronomical images. Multi-Extension FITS is now supported. Binary output catalogs are also MEFs. ASCII output catalogs contain detections from all extensions merged together. Use the EXT_NUMBER catalog parameter to identify the extension on which a given source was detected. Check-images will also be written as MEFs if the input image is a MEF.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "aronnax",
"github": "lpsinger",
"ports_count": 443
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18",
"autoconf",
"automake",
"libtool"
]
},
{
"type": "lib",
"ports": [
"OpenBLAS",
"fftw-3",
"fftw-3-single",
"cfitsio"
]
}
],
"depends_on": []
},
{
"name": "sollya",
"portdir": "science/sollya",
"version": "8.0",
"license": "CeCILL-C",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "https://www.sollya.org/",
"description": "Sollya is both a tool environment and a library for safe floating-point code development",
"long_description": "Sollya is both a tool environment and a library for safe floating-point code development. It is particularily targeted to the automatized implementation of mathematical floating-point libraries (libm). Amongst other features, it offers a certified infinity (supremum) norm and a fast Remez algorithm.",
"active": true,
"categories": [
"science"
],
"maintainers": [
{
"name": "kenneth.ostby",
"github": "langly",
"ports_count": 3
}
],
"variants": [
"universal"
],
"dependencies": [
{
"type": "build",
"ports": [
"clang-18"
]
},
{
"type": "lib",
"ports": [
"gmp",
"mpfr",
"zlib",
"libxml2",
"fplll",
"mpfi"
]
}
],
"depends_on": []
},
{
"name": "solid",
"portdir": "science/solid",
"version": "3.5.7",
"license": "(GPL-2 or QPL-1)",
"platforms": "darwin",
"epoch": 0,
"replaced_by": null,
"homepage": "http://www.dtecta.com/",
"description": "SOLID is a software library for collision detection of geometric objects in 3D space",
"long_description": "SOLID is a software library for collision detection of geometric objects in 3D space",
"active": true,
"categories": [
"devel",
"science",
"math"
],
"maintainers": [],
"variants": [],
"dependencies": [
{
"type": "build",
"ports": [
"gcc49",
"autoconf",
"automake",
"libtool"
]
},
{
"type": "extract",
"ports": [
"unzip"
]
},
{
"type": "lib",
"ports": [
"libgcc6",
"libgcc",
"qhull"
]
}
],
"depends_on": []
}
]
}