/*M/////////////////////////////////////////////////////////////////////////////////////// // // IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING. // // By downloading, copying, installing or using the software you agree to this license. // If you do not agree to this license, do not download, install, // copy or use the software. // // // Intel License Agreement // For Open Source Computer Vision Library // // Copyright (C) 2000, Intel Corporation, all rights reserved. // Third party copyrights are property of their respective owners. // // Redistribution and use in source and binary forms, with or without modification, // are permitted provided that the following conditions are met: // // * Redistribution's of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // // * Redistribution's in binary form must reproduce the above copyright notice, // this list of conditions and the following disclaimer in the documentation // and/or other materials provided with the distribution. // // * The name of Intel Corporation may not be used to endorse or promote products // derived from this software without specific prior written permission. // // This software is provided by the copyright holders and contributors "as is" and // any express or implied warranties, including, but not limited to, the implied // warranties of merchantability and fitness for a particular purpose are disclaimed. // In no event shall the Intel Corporation or contributors be liable for any direct, // indirect, incidental, special, exemplary, or consequential damages // (including, but not limited to, procurement of substitute goods or services; // loss of use, data, or profits; or business interruption) however caused // and on any theory of liability, whether in contract, strict liability, // or tort (including negligence or otherwise) arising in any way out of // the use of this software, even if advised of the possibility of such damage. // //M*/ #include "precomp.hpp" #if _MSC_VER >= 1200 #pragma warning( disable: 4711 ) #endif #if defined _M_X64 && defined _MSC_VER && !defined CV_ICC #pragma optimize("",off) #pragma warning( disable: 4748 ) #endif namespace cv { template<> void Ptr::delete_obj() { cvReleaseCapture(&obj); } template<> void Ptr::delete_obj() { cvReleaseVideoWriter(&obj); } } /************************* Reading AVIs & Camera data **************************/ CV_IMPL void cvReleaseCapture( CvCapture** pcapture ) { if( pcapture && *pcapture ) { delete *pcapture; *pcapture = 0; } } CV_IMPL IplImage* cvQueryFrame( CvCapture* capture ) { if(!capture) return 0; if(!capture->grabFrame()) return 0; return capture->retrieveFrame(0); } CV_IMPL int cvGrabFrame( CvCapture* capture ) { return capture ? capture->grabFrame() : 0; } CV_IMPL IplImage* cvRetrieveFrame( CvCapture* capture, int idx ) { return capture ? capture->retrieveFrame(idx) : 0; } CV_IMPL double cvGetCaptureProperty( CvCapture* capture, int id ) { return capture ? capture->getProperty(id) : 0; } CV_IMPL int cvSetCaptureProperty( CvCapture* capture, int id, double value ) { return capture ? capture->setProperty(id, value) : 0; } CV_IMPL int cvGetCaptureDomain( CvCapture* capture) { return capture ? capture->getCaptureDomain() : 0; } /** * Camera dispatching method: index is the camera number. * If given an index from 0 to 99, it tries to find the first * API that can access a given camera index. * Add multiples of 100 to select an API. */ CV_IMPL CvCapture * cvCreateCameraCapture (int index) { int domains[] = { #ifdef HAVE_VIDEOINPUT CV_CAP_DSHOW, #endif CV_CAP_IEEE1394, // identical to CV_CAP_DC1394 CV_CAP_STEREO, CV_CAP_PVAPI, CV_CAP_VFW, // identical to CV_CAP_V4L CV_CAP_MIL, CV_CAP_QT, CV_CAP_UNICAP, #ifdef HAVE_OPENNI CV_CAP_OPENNI, #endif #ifdef HAVE_ANDROID_NATIVE_CAMERA CV_CAP_ANDROID, #endif #ifdef HAVE_XIMEA CV_CAP_XIAPI, #endif CV_CAP_AVFOUNDATION -1 }; // interpret preferred interface (0 = autodetect) int pref = (index / 100) * 100; if (pref) { domains[0]=pref; index %= 100; domains[1]=-1; } // try every possibly installed camera API for (int i = 0; domains[i] >= 0; i++) { #if defined(HAVE_VIDEOINPUT) || defined(HAVE_TYZX) || defined(HAVE_VFW) || \ defined(HAVE_CAMV4L) || defined (HAVE_CAMV4L2) || defined(HAVE_GSTREAMER) || \ defined(HAVE_DC1394_2) || defined(HAVE_DC1394) || defined(HAVE_CMU1394) || \ defined(HAVE_GSTREAMER) || defined(HAVE_MIL) || defined(HAVE_QUICKTIME) || \ defined(HAVE_UNICAP) || defined(HAVE_PVAPI) || defined(HAVE_OPENNI) || defined(HAVE_ANDROID_NATIVE_CAMERA) || \ defined(HAVE_AVFOUNDATION) // local variable to memorize the captured device CvCapture *capture; #endif switch (domains[i]) { #ifdef HAVE_VIDEOINPUT case CV_CAP_DSHOW: capture = cvCreateCameraCapture_DShow (index); if (capture) return capture; break; #endif #ifdef HAVE_TYZX case CV_CAP_STEREO: capture = cvCreateCameraCapture_TYZX (index); if (capture) return capture; break; #endif case CV_CAP_VFW: #ifdef HAVE_VFW capture = cvCreateCameraCapture_VFW (index); if (capture) return capture; #endif #if defined HAVE_LIBV4L || (defined (HAVE_CAMV4L) && defined (HAVE_CAMV4L2)) capture = cvCreateCameraCapture_V4L (index); if (capture) return capture; #endif #ifdef HAVE_GSTREAMER capture = cvCreateCapture_GStreamer(CV_CAP_GSTREAMER_V4L2, 0); if (capture) return capture; capture = cvCreateCapture_GStreamer(CV_CAP_GSTREAMER_V4L, 0); if (capture) return capture; #endif break; case CV_CAP_FIREWIRE: #ifdef HAVE_DC1394_2 capture = cvCreateCameraCapture_DC1394_2 (index); if (capture) return capture; #endif #ifdef HAVE_DC1394 capture = cvCreateCameraCapture_DC1394 (index); if (capture) return capture; #endif #ifdef HAVE_CMU1394 capture = cvCreateCameraCapture_CMU (index); if (capture) return capture; #endif /* Re-enable again when gstreamer 1394 support will land in the backend code #ifdef HAVE_GSTREAMER capture = cvCreateCapture_GStreamer(CV_CAP_GSTREAMER_1394, 0); if (capture) return capture; #endif */ break; #ifdef HAVE_MIL case CV_CAP_MIL: capture = cvCreateCameraCapture_MIL (index); if (capture) return capture; break; #endif #ifdef HAVE_QUICKTIME case CV_CAP_QT: capture = cvCreateCameraCapture_QT (index); if (capture) return capture; break; #endif #ifdef HAVE_UNICAP case CV_CAP_UNICAP: capture = cvCreateCameraCapture_Unicap (index); if (capture) return capture; break; #endif #ifdef HAVE_PVAPI case CV_CAP_PVAPI: capture = cvCreateCameraCapture_PvAPI (index); if (capture) return capture; break; #endif #ifdef HAVE_OPENNI case CV_CAP_OPENNI: capture = cvCreateCameraCapture_OpenNI (index); if (capture) return capture; break; #endif #ifdef HAVE_ANDROID_NATIVE_CAMERA case CV_CAP_ANDROID: capture = cvCreateCameraCapture_Android (index); if (capture) return capture; break; #endif #ifdef HAVE_XIMEA case CV_CAP_XIAPI: capture = cvCreateCameraCapture_XIMEA (index); if (capture) return capture; break; #endif #ifdef HAVE_AVFOUNDATION case CV_CAP_AVFOUNDATION: capture = cvCreateCameraCapture_AVFoundation (index); if (capture) return capture; break; #endif } } // failed open a camera return 0; } /** * Videoreader dispatching method: it tries to find the first * API that can access a given filename. */ CV_IMPL CvCapture * cvCreateFileCapture (const char * filename) { CvCapture * result = 0; if (! result) result = cvCreateFileCapture_FFMPEG_proxy (filename); #ifdef HAVE_XINE if (! result) result = cvCreateFileCapture_XINE (filename); #endif #ifdef HAVE_GSTREAMER if (! result) result = cvCreateCapture_GStreamer (CV_CAP_GSTREAMER_FILE, filename); #endif #ifdef HAVE_QUICKTIME if (! result) result = cvCreateFileCapture_QT (filename); #endif #ifdef HAVE_AVFOUNDATION if (! result) result = cvCreateFileCapture_AVFoundation (filename); #endif #ifdef HAVE_OPENNI if (! result) result = cvCreateFileCapture_OpenNI (filename); #endif if (! result) result = cvCreateFileCapture_Images (filename); return result; } /** * Videowriter dispatching method: it tries to find the first * API that can write a given stream. */ CV_IMPL CvVideoWriter* cvCreateVideoWriter( const char* filename, int fourcc, double fps, CvSize frameSize, int is_color ) { //CV_FUNCNAME( "cvCreateVideoWriter" ); CvVideoWriter *result = 0; if(!fourcc || !fps) result = cvCreateVideoWriter_Images(filename); if(!result) result = cvCreateVideoWriter_FFMPEG_proxy (filename, fourcc, fps, frameSize, is_color); /* #ifdef HAVE_XINE if(!result) result = cvCreateVideoWriter_XINE(filename, fourcc, fps, frameSize, is_color); #endif */ #ifdef HAVE_AVFOUNDATION if (! result) result = cvCreateVideoWriter_AVFoundation(filename, fourcc, fps, frameSize, is_color); #endif #ifdef HAVE_QUICKTIME if(!result) result = cvCreateVideoWriter_QT(filename, fourcc, fps, frameSize, is_color); #endif #ifdef HAVE_GSTREAMER if (! result) result = cvCreateVideoWriter_GStreamer(filename, fourcc, fps, frameSize, is_color); #endif if(!result) result = cvCreateVideoWriter_Images(filename); return result; } CV_IMPL int cvWriteFrame( CvVideoWriter* writer, const IplImage* image ) { return writer ? writer->writeFrame(image) : 0; } CV_IMPL void cvReleaseVideoWriter( CvVideoWriter** pwriter ) { if( pwriter && *pwriter ) { delete *pwriter; *pwriter = 0; } } namespace cv { VideoCapture::VideoCapture() {} VideoCapture::VideoCapture(const string& filename) { open(filename); } VideoCapture::VideoCapture(int device) { open(device); } VideoCapture::~VideoCapture() { cap.release(); } bool VideoCapture::open(const string& filename) { cap = cvCreateFileCapture(filename.c_str()); return isOpened(); } bool VideoCapture::open(int device) { cap = cvCreateCameraCapture(device); return isOpened(); } bool VideoCapture::isOpened() const { return !cap.empty(); } void VideoCapture::release() { cap.release(); } bool VideoCapture::grab() { return cvGrabFrame(cap) != 0; } bool VideoCapture::retrieve(Mat& image, int channel) { IplImage* _img = cvRetrieveFrame(cap, channel); if( !_img ) { image.release(); return false; } if(_img->origin == IPL_ORIGIN_TL) image = Mat(_img); else { Mat temp(_img); flip(temp, image, 0); } return true; } bool VideoCapture::read(Mat& image) { if(!grab()) image.release(); else retrieve(image); return !image.empty(); } VideoCapture& VideoCapture::operator >> (Mat& image) { if(!grab()) image.release(); else retrieve(image); return *this; } bool VideoCapture::set(int propId, double value) { return cvSetCaptureProperty(cap, propId, value) != 0; } double VideoCapture::get(int propId) { return cvGetCaptureProperty(cap, propId); } VideoWriter::VideoWriter() {} VideoWriter::VideoWriter(const string& filename, int fourcc, double fps, Size frameSize, bool isColor) { open(filename, fourcc, fps, frameSize, isColor); } void VideoWriter::release() { writer.release(); } VideoWriter::~VideoWriter() { release(); } bool VideoWriter::open(const string& filename, int fourcc, double fps, Size frameSize, bool isColor) { writer = cvCreateVideoWriter(filename.c_str(), fourcc, fps, frameSize, isColor); return isOpened(); } bool VideoWriter::isOpened() const { return !writer.empty(); } void VideoWriter::write(const Mat& image) { IplImage _img = image; cvWriteFrame(writer, &_img); } VideoWriter& VideoWriter::operator << (const Mat& image) { write(image); return *this; } }