Package: gr Version: 0.31.1 Architecture: i386 Maintainer: Josef Heinen Installed-Size: 46361 Depends: libatk1.0-0 (>= 1.12.4), libc6 (>= 2.7), libcairo2 (>= 1.6.0), libfontconfig1 (>= 2.9.0), libfreetype6 (>= 2.2.1), libgcc1 (>= 1:4.1.1), libgdk-pixbuf2.0-0 (>= 2.22.0), libgl1-mesa-glx | libgl1, libglib2.0-0 (>= 2.12.0), libgs9 (>= 8.61.dfsg.1), libgtk2.0-0 (>= 2.8.0), libpango1.0-0 (>= 1.14.0), libqt4-network (>= 4:4.5.3), libqtcore4 (>= 4:4.6.1), libqtgui4 (>= 4:4.5.3), libstdc++6 (>= 4.1.1), libx11-6, libxt6 Filename: ./i386/gr_0.31.1_i386.deb Size: 22292986 MD5sum: 5183aca25eec3ffb797cd7137df65667 SHA1: 516140e9c05b58267361e83f000122544627136d SHA256: a44bb4e23fb4668d267b035755c021be626ca1cc9cb13c2a5d690c2aae39373a 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: 47102 Depends: libatk1.0-0 (>= 1.12.4), libc6 (>= 2.7), libcairo2 (>= 1.6.0), libfontconfig1 (>= 2.9.0), libfreetype6 (>= 2.2.1), libgcc1 (>= 1:4.1.1), libgdk-pixbuf2.0-0 (>= 2.22.0), libgl1-mesa-glx | libgl1, libglib2.0-0 (>= 2.12.0), libgs9 (>= 8.61.dfsg.1), libgtk2.0-0 (>= 2.8.0), libpango1.0-0 (>= 1.14.0), libqt4-network (>= 4:4.5.3), libqtcore4 (>= 4:4.6.1), libqtgui4 (>= 4:4.5.3), libstdc++6 (>= 4.1.1), libx11-6, libxt6 Filename: ./amd64/gr_0.31.1_amd64.deb Size: 22448462 MD5sum: 33a432dc829b19c97aedb18775578ca6 SHA1: e764c45bf8c07fb1fc0ff17ca8ac7761e1ea48c0 SHA256: ecb47b9fac3180f6c683bde9625dafb4128e7221b917fcff829636dd0096e5f1 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: 469 Depends: python (>= 2.6.6-7~), python (<< 2.8), python-numpy, gr (>= 0.27.0) Filename: ./i386/python-gr_1.3.2_i386.deb Size: 75008 MD5sum: 16d90471314cf4dc5930b16d7222825a SHA1: be1cb3241a6680cdf695c445206016a177780ba4 SHA256: 2a369760e6b5bbdba70f0666f7b95cd84f2450937a01b277e336e9623122f360 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: 469 Depends: python (>= 2.6.6-7~), python (<< 2.8), python-numpy, gr (>= 0.27.0) Filename: ./amd64/python-gr_1.3.2_amd64.deb Size: 73980 MD5sum: 2efe8505c837766a69db2fd3e3579f47 SHA1: d57a7fd0f518d041cc265b678a67125651e5f959 SHA256: a990087aa042d725c7a22cdef5e560e669b4ae0e099a796a761a258c48dba29c 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.