Package: gr Version: 0.31.1 Architecture: i386 Maintainer: Josef Heinen Installed-Size: 45093 Depends: libc6 (>= 2.17), libcairo2 (>= 1.6.0), libgcc1 (>= 1:4.1.1), libgl1-mesa-glx | libgl1, libgs9 (>= 8.61.dfsg.1), libqt5core5a (>= 5.0.2), libqt5gui5 (>= 5.0.2) | libqt5gui5-gles (>= 5.0.2), libqt5network5 (>= 5.0.2), libqt5widgets5 (>= 5.0.2), libqtcore4 (>= 4:4.6.1), libqtgui4 (>= 4:4.5.3), libstdc++6 (>= 4.1.1), libx11-6 (>= 2:1.2.99.901), libxt6 Filename: ./i386/gr_0.31.1_i386.deb Size: 16302052 MD5sum: 7617ba51607442bf1657cc7198cb81af SHA1: fa435de1be05b6166e8db62e5f68cef3e98ba9c3 SHA256: f296890f97b12c5bcd964517754a50ad59d90d6183f434c7a78fecca6e8d8210 Section: science Priority: optional Description: Visualization framework GR - a universal framework for visualization applications ========================================================= . *GR* is a universal framework for cross-platform visualization applications. It offers developers a compact, portable and consistent graphics library for their programs. Applications range from publication quality 2D graphs to the representation of complex 3D scenes. . *GR* is essentially based on an implementation of a Graphical Kernel System (GKS) and OpenGL. As a self-contained system it can quickly and easily be integrated into existing applications (i.e. using the ``ctypes`` mechanism in Python or ``ccall`` in Julia). . The *GR* framework can be used in imperative programming systems or integrated into modern object-oriented systems, in particular those based on GUI toolkits. *GR* is characterized by its high interoperability and can be used with modern web technologies. The *GR* framework is especially suitable for real-time or signal processing environments. Package: gr Version: 0.31.1 Architecture: amd64 Maintainer: Josef Heinen Installed-Size: 46367 Depends: libc6 (>= 2.17), libcairo2 (>= 1.6.0), libgcc1 (>= 1:4.1.1), libgl1-mesa-glx | libgl1, libgs9 (>= 8.61.dfsg.1), libqt5core5a (>= 5.0.2), libqt5gui5 (>= 5.0.2) | libqt5gui5-gles (>= 5.0.2), libqt5network5 (>= 5.0.2), libqt5widgets5 (>= 5.0.2), libqtcore4 (>= 4:4.6.1), libqtgui4 (>= 4:4.5.3), libstdc++6 (>= 4.1.1), libx11-6 (>= 2:1.2.99.901), libxt6 Filename: ./amd64/gr_0.31.1_amd64.deb Size: 16716658 MD5sum: ee8a9abda2b1583cd50511f60b3a72db SHA1: 79164b25e38989fa64e49ab7b3f9613b9b2222ad SHA256: c240cc9c30421d4b39799d5d11306fee3e5c96cf0e24fe4f04442fb200515d1f Section: science Priority: optional Description: Visualization framework GR - a universal framework for visualization applications ========================================================= . *GR* is a universal framework for cross-platform visualization applications. It offers developers a compact, portable and consistent graphics library for their programs. Applications range from publication quality 2D graphs to the representation of complex 3D scenes. . *GR* is essentially based on an implementation of a Graphical Kernel System (GKS) and OpenGL. As a self-contained system it can quickly and easily be integrated into existing applications (i.e. using the ``ctypes`` mechanism in Python or ``ccall`` in Julia). . The *GR* framework can be used in imperative programming systems or integrated into modern object-oriented systems, in particular those based on GUI toolkits. *GR* is characterized by its high interoperability and can be used with modern web technologies. The *GR* framework is especially suitable for real-time or signal processing environments. Package: python-gr Version: 1.3.2 Architecture: i386 Maintainer: Josef Heinen Installed-Size: 399 Depends: python (>= 2.7), python (<< 2.8), python:any (>= 2.7.1-0ubuntu2), python-numpy, gr (>= 0.27.0) Filename: ./i386/python-gr_1.3.2_i386.deb Size: 59862 MD5sum: 7422c09f322bf52c796862c5d8675095 SHA1: 7efb4562e1a8a66957fcd88bab8fe1398d048993 SHA256: 468642b9152ae56e89eaf1a8a3058f59ae97dbbc942e720ef733cdf80ae3c352 Section: python Priority: optional Description: Python visualization framework GR - a universal framework for visualization applications ========================================================= . *GR* is a universal framework for cross-platform visualization applications. It offers developers a compact, portable and consistent graphics library for their programs. Applications range from publication quality 2D graphs to the representation of complex 3D scenes. . *GR* is essentially based on an implementation of a Graphical Kernel System (GKS) and OpenGL. As a self-contained system it can quickly and easily be integrated into existing applications (i.e. using the ``ctypes`` mechanism in Python or ``ccall`` in Julia). . The *GR* framework can be used in imperative programming systems or integrated into modern object-oriented systems, in particular those based on GUI toolkits. *GR* is characterized by its high interoperability and can be used with modern web technologies. The *GR* framework is especially suitable for real-time or signal processing environments. Package: python-gr Version: 1.3.2 Architecture: amd64 Maintainer: Josef Heinen Installed-Size: 399 Depends: python (>= 2.7), python (<< 2.8), python:any (>= 2.7.1-0ubuntu2), python-numpy, gr (>= 0.27.0) Filename: ./amd64/python-gr_1.3.2_amd64.deb Size: 59770 MD5sum: c78cae8b41749b5314b1cb29a4c378bd SHA1: f0df2c33b6386499039976b6732cd5ebd46a0cdb SHA256: 84f67a7b22e107e5b3f0f517de675cc63ab65efa34fcc797cc28bce72e3c99fc Section: python Priority: optional Description: Python visualization framework GR - a universal framework for visualization applications ========================================================= . *GR* is a universal framework for cross-platform visualization applications. It offers developers a compact, portable and consistent graphics library for their programs. Applications range from publication quality 2D graphs to the representation of complex 3D scenes. . *GR* is essentially based on an implementation of a Graphical Kernel System (GKS) and OpenGL. As a self-contained system it can quickly and easily be integrated into existing applications (i.e. using the ``ctypes`` mechanism in Python or ``ccall`` in Julia). . The *GR* framework can be used in imperative programming systems or integrated into modern object-oriented systems, in particular those based on GUI toolkits. *GR* is characterized by its high interoperability and can be used with modern web technologies. The *GR* framework is especially suitable for real-time or signal processing environments.