Source: opencv Priority: optional Section: devel Maintainer: Ubuntu MOTU Developers XSBC-Original-Maintainer: Debian Scientific Computing Team Uploaders: Sam Hocevar (Debian packages) Build-Depends: debhelper (>= 5.0), libjpeg62-dev, zlib1g-dev, libpng12-dev, libtiff4-dev, libgtk2.0-dev Standards-Version: 3.7.2 XS-Vcs-Svn: svn://svn.debian.org/svn/pkg-scicomp/opencv/ XS-Vcs-Browser: http://svn.debian.org/wsvn/pkg-scicomp/opencv/ Package: opencv-doc Section: doc Architecture: all Conflicts: libopencv-doc Replaces: libopencv-doc Description: OpenCV documentation and examples This package contains the OpenCV documentation and example programs. . The Open Computer Vision Library is a collection of algorithms and sample code for various computer vision problems. The library is compatible with IPL (Intel's Image Processing Library) and, if available, can use IPP (Intel's Integrated Performance Primitives) for better performance. . OpenCV provides low level portable data types and operators, and a set of high level functionalities for video acquisition, image processing and analysis, structural analysis, motion analysis and object tracking, object recognition, camera calibration and 3D reconstruction. Package: libcv-dev Section: libdevel Architecture: any Depends: libcv1 (= ${Source-Version}), libcvaux-dev (= ${Source-Version}), libhighgui-dev (= ${Source-Version}), pkg-config Conflicts: libopencv-dev Replaces: libopencv-dev Description: development files for libcv This package contains the header files and static library needed to compile applications that use OpenCV (Open Computer Vision). . The Open Computer Vision Library is a collection of algorithms and sample code for various computer vision problems. The library is compatible with IPL (Intel's Image Processing Library) and, if available, can use IPP (Intel's Integrated Performance Primitives) for better performance. . OpenCV provides low level portable data types and operators, and a set of high level functionalities for video acquisition, image processing and analysis, structural analysis, motion analysis and object tracking, object recognition, camera calibration and 3D reconstruction. Package: libcvaux-dev Section: libdevel Architecture: any Depends: libcvaux1 (= ${Source-Version}), libcv-dev (>= ${Source-Version}), pkg-config Description: development files for libcvaux This package contains the header files and static library needed to compile applications that use the OpenCV (Open Computer Vision) extensions. . The Open Computer Vision Library is a collection of algorithms and sample code for various computer vision problems. The library is compatible with IPL (Intel's Image Processing Library) and, if available, can use IPP (Intel's Integrated Performance Primitives) for better performance. . OpenCV provides low level portable data types and operators, and a set of high level functionalities for video acquisition, image processing and analysis, structural analysis, motion analysis and object tracking, object recognition, camera calibration and 3D reconstruction. Package: libhighgui-dev Section: libdevel Architecture: any Depends: libhighgui1 (= ${Source-Version}), libcv-dev (>= ${Source-Version}), libpng12-dev, libjpeg-dev, zlib1g-dev, libtiff4-dev, libgtk2.0-dev, pkg-config Description: development files for libhighgui This package contains the header files and static library needed to compile applications that use the OpenCV (Open Computer Vision) GUI. . The Open Computer Vision Library is a collection of algorithms and sample code for various computer vision problems. The library is compatible with IPL (Intel's Image Processing Library) and, if available, can use IPP (Intel's Integrated Performance Primitives) for better performance. . OpenCV provides low level portable data types and operators, and a set of high level functionalities for video acquisition, image processing and analysis, structural analysis, motion analysis and object tracking, object recognition, camera calibration and 3D reconstruction. Package: libcv1 Section: libs Architecture: any Depends: ${shlibs:Depends}, ${misc:Depends} Description: computer vision library This package contains the OpenCV (Open Computer Vision) runtime libraries. . The Open Computer Vision Library is a collection of algorithms and sample code for various computer vision problems. The library is compatible with IPL (Intel's Image Processing Library) and, if available, can use IPP (Intel's Integrated Performance Primitives) for better performance. . OpenCV provides low level portable data types and operators, and a set of high level functionalities for video acquisition, image processing and analysis, structural analysis, motion analysis and object tracking, object recognition, camera calibration and 3D reconstruction. Package: libcvaux1 Section: libs Architecture: any Depends: ${shlibs:Depends}, ${misc:Depends} Description: computer vision extension library This package contains the OpenCV (Open Computer Vision) extensions runtime library. . The Open Computer Vision Library is a collection of algorithms and sample code for various computer vision problems. The library is compatible with IPL (Intel's Image Processing Library) and, if available, can use IPP (Intel's Integrated Performance Primitives) for better performance. . OpenCV provides low level portable data types and operators, and a set of high level functionalities for video acquisition, image processing and analysis, structural analysis, motion analysis and object tracking, object recognition, camera calibration and 3D reconstruction. Package: libhighgui1 Section: libs Architecture: any Depends: ${shlibs:Depends}, ${misc:Depends} Description: computer vision GUI library This package contains the OpenCV (Open Computer Vision) GUI library. . The Open Computer Vision Library is a collection of algorithms and sample code for various computer vision problems. The library is compatible with IPL (Intel's Image Processing Library) and, if available, can use IPP (Intel's Integrated Performance Primitives) for better performance. . OpenCV provides low level portable data types and operators, and a set of high level functionalities for video acquisition, image processing and analysis, structural analysis, motion analysis and object tracking, object recognition, camera calibration and 3D reconstruction.