/*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*/ // // Loading and saving IPL images. // #include "precomp.hpp" #include "grfmts.hpp" #undef min #undef max /****************************************************************************************\ * Image Codecs * \****************************************************************************************/ namespace cv { static vector decoders; static vector encoders; ImageDecoder findDecoder( const string& filename ) { size_t i, maxlen = 0; for( i = 0; i < decoders.size(); i++ ) { size_t len = decoders[i]->signatureLength(); maxlen = std::max(maxlen, len); } FILE* f= fopen( filename.c_str(), "rb" ); if( !f ) return ImageDecoder(); string signature(maxlen, ' '); maxlen = fread( &signature[0], 1, maxlen, f ); fclose(f); signature = signature.substr(0, maxlen); for( i = 0; i < decoders.size(); i++ ) { if( decoders[i]->checkSignature(signature) ) return decoders[i]->newDecoder(); } return ImageDecoder(); } ImageDecoder findDecoder( const Mat& buf ) { size_t i, maxlen = 0; if( buf.rows*buf.cols < 1 || !buf.isContinuous() ) return ImageDecoder(); for( i = 0; i < decoders.size(); i++ ) { size_t len = decoders[i]->signatureLength(); maxlen = std::max(maxlen, len); } size_t bufSize = buf.rows*buf.cols*buf.elemSize(); maxlen = std::min(maxlen, bufSize); string signature(maxlen, ' '); memcpy( &signature[0], buf.data, maxlen ); for( i = 0; i < decoders.size(); i++ ) { if( decoders[i]->checkSignature(signature) ) return decoders[i]->newDecoder(); } return ImageDecoder(); } ImageEncoder findEncoder( const string& _ext ) { if( _ext.size() <= 1 ) return ImageEncoder(); const char* ext = strrchr( _ext.c_str(), '.' ); if( !ext ) return ImageEncoder(); int len = 0; for( ext++; isalnum(ext[len]) && len < 128; len++ ) ; for( size_t i = 0; i < encoders.size(); i++ ) { string description = encoders[i]->getDescription(); const char* descr = strchr( description.c_str(), '(' ); while( descr ) { descr = strchr( descr + 1, '.' ); if( !descr ) break; int j = 0; for( descr++; isalnum(descr[j]) && j < len; j++ ) { int c1 = tolower(ext[j]); int c2 = tolower(descr[j]); if( c1 != c2 ) break; } if( j == len && !isalnum(descr[j])) return encoders[i]->newEncoder(); descr += j; } } return ImageEncoder(); } struct ImageCodecInitializer { ImageCodecInitializer() { decoders.push_back( new BmpDecoder ); encoders.push_back( new BmpEncoder ); #ifdef HAVE_JPEG decoders.push_back( new JpegDecoder ); encoders.push_back( new JpegEncoder ); #endif decoders.push_back( new SunRasterDecoder ); encoders.push_back( new SunRasterEncoder ); decoders.push_back( new PxMDecoder ); encoders.push_back( new PxMEncoder ); #ifdef HAVE_TIFF decoders.push_back( new TiffDecoder ); #endif encoders.push_back( new TiffEncoder ); #ifdef HAVE_PNG decoders.push_back( new PngDecoder ); encoders.push_back( new PngEncoder ); #endif #ifdef HAVE_JASPER decoders.push_back( new Jpeg2KDecoder ); encoders.push_back( new Jpeg2KEncoder ); #endif #ifdef HAVE_OPENEXR decoders.push_back( new ExrDecoder ); encoders.push_back( new ExrEncoder ); #endif // because it is a generic image I/O API, supporting many formats, // it should be last in the list. #ifdef HAVE_IMAGEIO decoders.push_back( new ImageIODecoder ); encoders.push_back( new ImageIOEncoder ); #endif } }; static ImageCodecInitializer initialize_codecs; enum { LOAD_CVMAT=0, LOAD_IMAGE=1, LOAD_MAT=2 }; static void* imread_( const string& filename, int flags, int hdrtype, Mat* mat=0 ) { IplImage* image = 0; CvMat *matrix = 0; Mat temp, *data = &temp; ImageDecoder decoder = findDecoder(filename); if( decoder.empty() ) return 0; decoder->setSource(filename); if( !decoder->readHeader() ) return 0; CvSize size; size.width = decoder->width(); size.height = decoder->height(); int type = decoder->type(); if( flags != -1 ) { if( (flags & CV_LOAD_IMAGE_ANYDEPTH) == 0 ) type = CV_MAKETYPE(CV_8U, CV_MAT_CN(type)); if( (flags & CV_LOAD_IMAGE_COLOR) != 0 || ((flags & CV_LOAD_IMAGE_ANYCOLOR) != 0 && CV_MAT_CN(type) > 1) ) type = CV_MAKETYPE(CV_MAT_DEPTH(type), 3); else type = CV_MAKETYPE(CV_MAT_DEPTH(type), 1); } if( hdrtype == LOAD_CVMAT || hdrtype == LOAD_MAT ) { if( hdrtype == LOAD_CVMAT ) { matrix = cvCreateMat( size.height, size.width, type ); temp = cvarrToMat(matrix); } else { mat->create( size.height, size.width, type ); data = mat; } } else { image = cvCreateImage( size, cvIplDepth(type), CV_MAT_CN(type) ); temp = cvarrToMat(image); } if( !decoder->readData( *data )) { cvReleaseImage( &image ); cvReleaseMat( &matrix ); if( mat ) mat->release(); return 0; } return hdrtype == LOAD_CVMAT ? (void*)matrix : hdrtype == LOAD_IMAGE ? (void*)image : (void*)mat; } Mat imread( const string& filename, int flags ) { Mat img; imread_( filename, flags, LOAD_MAT, &img ); return img; } static bool imwrite_( const string& filename, const Mat& image, const vector& params, bool flipv ) { Mat temp; const Mat* pimage = ℑ CV_Assert( image.channels() == 1 || image.channels() == 3 || image.channels() == 4 ); ImageEncoder encoder = findEncoder( filename ); if( encoder.empty() ) CV_Error( CV_StsError, "could not find a writer for the specified extension" ); if( !encoder->isFormatSupported(image.depth()) ) { CV_Assert( encoder->isFormatSupported(CV_8U) ); image.convertTo( temp, CV_8U ); pimage = &temp; } if( flipv ) { flip(*pimage, temp, 0); pimage = &temp; } encoder->setDestination( filename ); bool code = encoder->write( *pimage, params ); // CV_Assert( code ); return code; } bool imwrite( const string& filename, InputArray _img, const vector& params ) { Mat img = _img.getMat(); return imwrite_(filename, img, params, false); } static void* imdecode_( const Mat& buf, int flags, int hdrtype, Mat* mat=0 ) { CV_Assert(buf.data && buf.isContinuous()); IplImage* image = 0; CvMat *matrix = 0; Mat temp, *data = &temp; string filename = tempfile(); bool removeTempFile = false; ImageDecoder decoder = findDecoder(buf); if( decoder.empty() ) return 0; if( !decoder->setSource(buf) ) { FILE* f = fopen( filename.c_str(), "wb" ); if( !f ) return 0; removeTempFile = true; size_t bufSize = buf.cols*buf.rows*buf.elemSize(); fwrite( &buf.data[0], 1, bufSize, f ); fclose(f); decoder->setSource(filename); } if( !decoder->readHeader() ) { if( removeTempFile ) remove(filename.c_str()); return 0; } CvSize size; size.width = decoder->width(); size.height = decoder->height(); int type = decoder->type(); if( flags != -1 ) { if( (flags & CV_LOAD_IMAGE_ANYDEPTH) == 0 ) type = CV_MAKETYPE(CV_8U, CV_MAT_CN(type)); if( (flags & CV_LOAD_IMAGE_COLOR) != 0 || ((flags & CV_LOAD_IMAGE_ANYCOLOR) != 0 && CV_MAT_CN(type) > 1) ) type = CV_MAKETYPE(CV_MAT_DEPTH(type), 3); else type = CV_MAKETYPE(CV_MAT_DEPTH(type), 1); } if( hdrtype == LOAD_CVMAT || hdrtype == LOAD_MAT ) { if( hdrtype == LOAD_CVMAT ) { matrix = cvCreateMat( size.height, size.width, type ); temp = cvarrToMat(matrix); } else { mat->create( size.height, size.width, type ); data = mat; } } else { image = cvCreateImage( size, cvIplDepth(type), CV_MAT_CN(type) ); temp = cvarrToMat(image); } bool code = decoder->readData( *data ); if( removeTempFile ) remove(filename.c_str()); if( !code ) { cvReleaseImage( &image ); cvReleaseMat( &matrix ); if( mat ) mat->release(); return 0; } return hdrtype == LOAD_CVMAT ? (void*)matrix : hdrtype == LOAD_IMAGE ? (void*)image : (void*)mat; } Mat imdecode( InputArray _buf, int flags ) { Mat buf = _buf.getMat(), img; imdecode_( buf, flags, LOAD_MAT, &img ); return img; } bool imencode( const string& ext, InputArray _image, vector& buf, const vector& params ) { Mat image = _image.getMat(); int channels = image.channels(); CV_Assert( channels == 1 || channels == 3 || channels == 4 ); ImageEncoder encoder = findEncoder( ext ); if( encoder.empty() ) CV_Error( CV_StsError, "could not find encoder for the specified extension" ); if( !encoder->isFormatSupported(image.depth()) ) { CV_Assert( encoder->isFormatSupported(CV_8U) ); Mat temp; image.convertTo(temp, CV_8U); image = temp; } bool code; if( encoder->setDestination(buf) ) { code = encoder->write(image, params); CV_Assert( code ); } else { string filename = tempfile(); code = encoder->setDestination(filename); CV_Assert( code ); code = encoder->write(image, params); CV_Assert( code ); FILE* f = fopen( filename.c_str(), "rb" ); CV_Assert(f != 0); fseek( f, 0, SEEK_END ); long pos = ftell(f); buf.resize((size_t)pos); fseek( f, 0, SEEK_SET ); buf.resize(fread( &buf[0], 1, buf.size(), f )); fclose(f); remove(filename.c_str()); } return code; } } /****************************************************************************************\ * HighGUI loading & saving function implementation * \****************************************************************************************/ CV_IMPL int cvHaveImageReader( const char* filename ) { cv::ImageDecoder decoder = cv::findDecoder(filename); return !decoder.empty(); } CV_IMPL int cvHaveImageWriter( const char* filename ) { cv::ImageEncoder encoder = cv::findEncoder(filename); return !encoder.empty(); } CV_IMPL IplImage* cvLoadImage( const char* filename, int iscolor ) { return (IplImage*)cv::imread_(filename, iscolor, cv::LOAD_IMAGE ); } CV_IMPL CvMat* cvLoadImageM( const char* filename, int iscolor ) { return (CvMat*)cv::imread_( filename, iscolor, cv::LOAD_CVMAT ); } CV_IMPL int cvSaveImage( const char* filename, const CvArr* arr, const int* _params ) { int i = 0; if( _params ) { for( ; _params[i] > 0; i += 2 ) ; } return cv::imwrite_(filename, cv::cvarrToMat(arr), i > 0 ? cv::vector(_params, _params+i) : cv::vector(), CV_IS_IMAGE(arr) && ((const IplImage*)arr)->origin == IPL_ORIGIN_BL ); } /* decode image stored in the buffer */ CV_IMPL IplImage* cvDecodeImage( const CvMat* _buf, int iscolor ) { CV_Assert( _buf && CV_IS_MAT_CONT(_buf->type) ); cv::Mat buf(1, _buf->rows*_buf->cols*CV_ELEM_SIZE(_buf->type), CV_8U, _buf->data.ptr); return (IplImage*)cv::imdecode_(buf, iscolor, cv::LOAD_IMAGE ); } CV_IMPL CvMat* cvDecodeImageM( const CvMat* _buf, int iscolor ) { CV_Assert( _buf && CV_IS_MAT_CONT(_buf->type) ); cv::Mat buf(1, _buf->rows*_buf->cols*CV_ELEM_SIZE(_buf->type), CV_8U, _buf->data.ptr); return (CvMat*)cv::imdecode_(buf, iscolor, cv::LOAD_CVMAT ); } CV_IMPL CvMat* cvEncodeImage( const char* ext, const CvArr* arr, const int* _params ) { int i = 0; if( _params ) { for( ; _params[i] > 0; i += 2 ) ; } cv::Mat img = cv::cvarrToMat(arr); if( CV_IS_IMAGE(arr) && ((const IplImage*)arr)->origin == IPL_ORIGIN_BL ) { cv::Mat temp; cv::flip(img, temp, 0); img = temp; } cv::vector buf; bool code = cv::imencode(ext, img, buf, i > 0 ? std::vector(_params, _params+i) : std::vector() ); if( !code ) return 0; CvMat* _buf = cvCreateMat(1, (int)buf.size(), CV_8U); memcpy( _buf->data.ptr, &buf[0], buf.size() ); return _buf; } /* End of file. */