Package: gr Version: 0.73.5+p1.09eb0fd1-1 Architecture: armhf Maintainer: Josef Heinen Installed-Size: 24580 Depends: libc6 (>= 2.35), libexpat1 (>= 2.0.1), libgcc-s1 (>= 3.5), libgl1, libgs10 (>= 8.61.dfsg.1), libqt5core5a (>= 5.15.1), libqt5gui5 (>= 5.11.0~rc1) | libqt5gui5-gles (>= 5.11.0~rc1), libqt5network5 (>= 5.0.2), libqt5widgets5 (>= 5.14.1), libstdc++6 (>= 12), libx11-6 (>= 2:1.2.99.901), libxt6 Filename: armhf/gr_0.73.5+p1.09eb0fd1-1_armhf.deb Size: 8925860 MD5sum: 04839d2bd4263b596c62bad16ac452b9 SHA1: 134bc57c6d557a30edd3851e5c2ca08c01c832b2 SHA256: 33c64aff3190bdc545898bb32b3fdcb3baeff7782946eb3f96fc82bf3f89423e 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-dbgsym Source: gr Version: 0.73.5+p1.09eb0fd1-1 Auto-Built-Package: debug-symbols Architecture: armhf Maintainer: Josef Heinen Installed-Size: 12288 Depends: gr (= 0.73.5+p1.09eb0fd1-1) Filename: armhf/gr-dbgsym_0.73.5+p1.09eb0fd1-1_armhf.deb Size: 10793612 MD5sum: ec6e0b5e0b9a222d1c6072a6e2a41fc2 SHA1: 00a5d1ba6e7d7a2d8d43450edcf9627b1cf9fff9 SHA256: 6eb0a63479ba9232f6839fed0c54e07a4d669b253a1f1ac4b144f2003d5896c6 Section: debug Priority: optional Description: debug symbols for gr Build-Ids: 12d019ce502daa836bb0c004c211253500a294c0 1c1ad88886ce0f8c1e62c2c5ba1e687d7868453b 1e08e3449a61ab9facb5ea03cea6d96023f316db 1e432246b488ea37d88497a3d5d0351bc600d354 384f76926705a4f0b6527ef7cc0ecfa1371038e8 4e6a31f989189d8f31d1dfd4e915a6e2cb228e1d 561b52faf7af68548dca26fad34a79fc0535cddc 5d8a54ec24ee7c9bcc0a7b2e55c11f7b3ee8d16e 66b11fc57cfd5c4a33f43aa20d5460fb0296fe3c 76ae6413976552734eba4ab7e3251f5e812cf32d 7733d10408ba96a37196e40d054eca3e46409cb7 780d6bf6a86144ac965cf0da964f4533c85f6bd8 8721308eb2798b40d750572ab7487e091f1707fc 8e92cba19ca8d930e036b458e62151f41ff7829d 93f207864b6f8af48a4a11a58c8fbc8ba754e028 a9fe8f95edd85cf16cd33c84cbf99dad583fd231 c29eb352e3c2c76d33ee9a7837ae557425bccc7a c5bc7740f604a06cdddca4438ed3554e8f609069 c7b869ab4063b4acc86936f871cb486a6dd085eb ceca490a0d6f0f3c90d1387b7f0f6a94a874d09a dd87983c74652b8b1a75d09b6b9590bbcfc308c5 df959ca469e542ee579b47cdb37635e4ec192946 e007bd79cba53ca0591940ee431bc0ae9da0bbd1 f01b4b0d9f72f1c4aeec810eab10a9b6a64950cb Package: python3-gr Source: python-gr Version: 1.18.0~0.0cfcfcf-1 Architecture: armhf Maintainer: Josef Heinen Installed-Size: 590 Depends: python3-numpy, python3:any (>= 3.4~), gr (>= 0.27.0) Filename: armhf/python3-gr_1.18.0~0.0cfcfcf-1_armhf.deb Size: 92952 MD5sum: b3dab97384a0cc1d31df5ea05e36dc13 SHA1: 0328c63719763c0d061ecd27a480feda5e16c30c SHA256: 7803109d33f50390a036e4762cdf0923e1ee05211c483cb8696f210e8f11b31b Section: python Priority: optional Description: Python 3 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.