/*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 "test_precomp.hpp" #include "opencv2/imgproc/imgproc_c.h" class CV_UndistortPointsBadArgTest : public cvtest::BadArgTest { public: CV_UndistortPointsBadArgTest(); protected: void run(int); void run_func(); private: //common cv::Size img_size; bool useCPlus; //static const int N_POINTS = 1; static const int N_POINTS2 = 2; //C CvMat* _camera_mat; CvMat* matR; CvMat* matP; CvMat* _distortion_coeffs; CvMat* _src_points; CvMat* _dst_points; //C++ cv::Mat camera_mat; cv::Mat R; cv::Mat P; cv::Mat distortion_coeffs; cv::Mat src_points; std::vector dst_points; }; CV_UndistortPointsBadArgTest::CV_UndistortPointsBadArgTest () { } void CV_UndistortPointsBadArgTest::run_func() { if (useCPlus) { cv::undistortPoints(src_points,dst_points,camera_mat,distortion_coeffs,R,P); } else { cvUndistortPoints(_src_points,_dst_points,_camera_mat,_distortion_coeffs,matR,matP); } } void CV_UndistortPointsBadArgTest::run(int) { //RNG& rng = ts->get_rng(); int errcount = 0; useCPlus = false; //initializing img_size.width = 800; img_size.height = 600; double cam[9] = {150.f, 0.f, img_size.width/2.f, 0, 300.f, img_size.height/2.f, 0.f, 0.f, 1.f}; double dist[4] = {0.01,0.02,0.001,0.0005}; double s_points[N_POINTS2] = {img_size.width/4,img_size.height/4}; double d_points[N_POINTS2]; double p[9] = {155.f, 0.f, img_size.width/2.f+img_size.width/50.f, 0, 310.f, img_size.height/2.f+img_size.height/50.f, 0.f, 0.f, 1.f}; double r[9] = {1,0,0,0,1,0,0,0,1}; CvMat _camera_mat_orig = cvMat(3,3,CV_64F,cam); CvMat _distortion_coeffs_orig = cvMat(1,4,CV_64F,dist); CvMat _P_orig = cvMat(3,3,CV_64F,p); CvMat _R_orig = cvMat(3,3,CV_64F,r); CvMat _src_points_orig = cvMat(1,4,CV_64FC2,s_points); CvMat _dst_points_orig = cvMat(1,4,CV_64FC2,d_points); _camera_mat = &_camera_mat_orig; _distortion_coeffs = &_distortion_coeffs_orig; matP = &_P_orig; matR = &_R_orig; _src_points = &_src_points_orig; _dst_points = &_dst_points_orig; //tests CvMat* temp1; CvMat* temp; IplImage* temp_img = cvCreateImage(cvSize(img_size.width,img_size.height),8,3); //----------- temp = (CvMat*)temp_img; _src_points = temp; errcount += run_test_case( CV_StsAssert, "Input data is not CvMat*" ); _src_points = &_src_points_orig; temp = (CvMat*)temp_img; _dst_points = temp; errcount += run_test_case( CV_StsAssert, "Output data is not CvMat*" ); _dst_points = &_dst_points_orig; temp = cvCreateMat(2,3,CV_64F); _src_points = temp; errcount += run_test_case( CV_StsAssert, "Invalid input data matrix size" ); _src_points = &_src_points_orig; cvReleaseMat(&temp); temp = cvCreateMat(2,3,CV_64F); _dst_points = temp; errcount += run_test_case(CV_StsAssert, "Invalid output data matrix size" ); _dst_points = &_dst_points_orig; cvReleaseMat(&temp); temp = cvCreateMat(1,3,CV_64F); temp1 = cvCreateMat(4,1,CV_64F); _dst_points = temp; _src_points = temp1; errcount += run_test_case(CV_StsAssert, "Output and input data sizes mismatch" ); _dst_points = &_dst_points_orig; _src_points = &_src_points_orig; cvReleaseMat(&temp); cvReleaseMat(&temp1); temp = cvCreateMat(1,3,CV_32S); _dst_points = temp; errcount += run_test_case(CV_StsAssert, "Invalid output data matrix type" ); _dst_points = &_dst_points_orig; cvReleaseMat(&temp); temp = cvCreateMat(1,3,CV_32S); _src_points = temp; errcount += run_test_case(CV_StsAssert, "Invalid input data matrix type" ); _src_points = &_src_points_orig; cvReleaseMat(&temp); //------------ temp = cvCreateMat(2,3,CV_64F); _camera_mat = temp; errcount += run_test_case( CV_StsAssert, "Invalid camera data matrix size" ); _camera_mat = &_camera_mat_orig; cvReleaseMat(&temp); temp = cvCreateMat(3,4,CV_64F); _camera_mat = temp; errcount += run_test_case( CV_StsAssert, "Invalid camera data matrix size" ); _camera_mat = &_camera_mat_orig; cvReleaseMat(&temp); temp = (CvMat*)temp_img; _camera_mat = temp; errcount += run_test_case( CV_StsAssert, "Camera data is not CvMat*" ); _camera_mat = &_camera_mat_orig; //---------- temp = (CvMat*)temp_img; _distortion_coeffs = temp; errcount += run_test_case( CV_StsAssert, "Distortion coefficients data is not CvMat*" ); _distortion_coeffs = &_distortion_coeffs_orig; temp = cvCreateMat(1,6,CV_64F); _distortion_coeffs = temp; errcount += run_test_case( CV_StsAssert, "Invalid distortion coefficients data matrix size" ); _distortion_coeffs = &_distortion_coeffs_orig; cvReleaseMat(&temp); temp = cvCreateMat(3,3,CV_64F); _distortion_coeffs = temp; errcount += run_test_case( CV_StsAssert, "Invalid distortion coefficients data matrix size" ); _distortion_coeffs = &_distortion_coeffs_orig; cvReleaseMat(&temp); //---------- temp = (CvMat*)temp_img; matR = temp; errcount += run_test_case( CV_StsAssert, "R data is not CvMat*" ); matR = &_R_orig; temp = cvCreateMat(4,3,CV_64F); matR = temp; errcount += run_test_case( CV_StsAssert, "Invalid R data matrix size" ); matR = &_R_orig; cvReleaseMat(&temp); temp = cvCreateMat(3,2,CV_64F); matR = temp; errcount += run_test_case( CV_StsAssert, "Invalid R data matrix size" ); matR = &_R_orig; cvReleaseMat(&temp); //----------- temp = (CvMat*)temp_img; matP = temp; errcount += run_test_case( CV_StsAssert, "P data is not CvMat*" ); matP = &_P_orig; temp = cvCreateMat(4,3,CV_64F); matP = temp; errcount += run_test_case( CV_StsAssert, "Invalid P data matrix size" ); matP = &_P_orig; cvReleaseMat(&temp); temp = cvCreateMat(3,2,CV_64F); matP = temp; errcount += run_test_case( CV_StsAssert, "Invalid P data matrix size" ); matP = &_P_orig; cvReleaseMat(&temp); //------------ //C++ tests useCPlus = true; camera_mat = cv::cvarrToMat(&_camera_mat_orig); distortion_coeffs = cv::cvarrToMat(&_distortion_coeffs_orig); P = cv::cvarrToMat(&_P_orig); R = cv::cvarrToMat(&_R_orig); src_points = cv::cvarrToMat(&_src_points_orig); temp = cvCreateMat(2,2,CV_32FC2); src_points = cv::cvarrToMat(temp); errcount += run_test_case( CV_StsAssert, "Invalid input data matrix size" ); src_points = cv::cvarrToMat(&_src_points_orig); cvReleaseMat(&temp); temp = cvCreateMat(1,4,CV_64FC2); src_points = cv::cvarrToMat(temp); errcount += run_test_case( CV_StsAssert, "Invalid input data matrix type" ); src_points = cv::cvarrToMat(&_src_points_orig); cvReleaseMat(&temp); src_points = cv::Mat(); errcount += run_test_case( CV_StsAssert, "Input data matrix is not continuous" ); src_points = cv::cvarrToMat(&_src_points_orig); cvReleaseMat(&temp); //------------ cvReleaseImage(&temp_img); ts->set_failed_test_info(errcount > 0 ? cvtest::TS::FAIL_BAD_ARG_CHECK : cvtest::TS::OK); } //========= class CV_InitUndistortRectifyMapBadArgTest : public cvtest::BadArgTest { public: CV_InitUndistortRectifyMapBadArgTest(); protected: void run(int); void run_func(); private: //common cv::Size img_size; bool useCPlus; //C CvMat* _camera_mat; CvMat* matR; CvMat* _new_camera_mat; CvMat* _distortion_coeffs; CvMat* _mapx; CvMat* _mapy; //C++ cv::Mat camera_mat; cv::Mat R; cv::Mat new_camera_mat; cv::Mat distortion_coeffs; cv::Mat mapx; cv::Mat mapy; int mat_type; }; CV_InitUndistortRectifyMapBadArgTest::CV_InitUndistortRectifyMapBadArgTest () { } void CV_InitUndistortRectifyMapBadArgTest::run_func() { if (useCPlus) { cv::initUndistortRectifyMap(camera_mat,distortion_coeffs,R,new_camera_mat,img_size,mat_type,mapx,mapy); } else { cvInitUndistortRectifyMap(_camera_mat,_distortion_coeffs,matR,_new_camera_mat,_mapx,_mapy); } } void CV_InitUndistortRectifyMapBadArgTest::run(int) { int errcount = 0; //initializing img_size.width = 800; img_size.height = 600; double cam[9] = {150.f, 0.f, img_size.width/2.f, 0, 300.f, img_size.height/2.f, 0.f, 0.f, 1.f}; double dist[4] = {0.01,0.02,0.001,0.0005}; float* arr_mapx = new float[img_size.width*img_size.height]; float* arr_mapy = new float[img_size.width*img_size.height]; double arr_new_camera_mat[9] = {155.f, 0.f, img_size.width/2.f+img_size.width/50.f, 0, 310.f, img_size.height/2.f+img_size.height/50.f, 0.f, 0.f, 1.f}; double r[9] = {1,0,0,0,1,0,0,0,1}; CvMat _camera_mat_orig = cvMat(3,3,CV_64F,cam); CvMat _distortion_coeffs_orig = cvMat(1,4,CV_64F,dist); CvMat _new_camera_mat_orig = cvMat(3,3,CV_64F,arr_new_camera_mat); CvMat _R_orig = cvMat(3,3,CV_64F,r); CvMat _mapx_orig = cvMat(img_size.height,img_size.width,CV_32FC1,arr_mapx); CvMat _mapy_orig = cvMat(img_size.height,img_size.width,CV_32FC1,arr_mapy); int mat_type_orig = CV_32FC1; _camera_mat = &_camera_mat_orig; _distortion_coeffs = &_distortion_coeffs_orig; _new_camera_mat = &_new_camera_mat_orig; matR = &_R_orig; _mapx = &_mapx_orig; _mapy = &_mapy_orig; mat_type = mat_type_orig; //tests useCPlus = true; CvMat* temp; //C++ tests useCPlus = true; camera_mat = cv::cvarrToMat(&_camera_mat_orig); distortion_coeffs = cv::cvarrToMat(&_distortion_coeffs_orig); new_camera_mat = cv::cvarrToMat(&_new_camera_mat_orig); R = cv::cvarrToMat(&_R_orig); mapx = cv::cvarrToMat(&_mapx_orig); mapy = cv::cvarrToMat(&_mapy_orig); mat_type = CV_64F; errcount += run_test_case( CV_StsAssert, "Invalid map matrix type" ); mat_type = mat_type_orig; temp = cvCreateMat(3,2,CV_32FC1); camera_mat = cv::cvarrToMat(temp); errcount += run_test_case( CV_StsAssert, "Invalid camera data matrix size" ); camera_mat = cv::cvarrToMat(&_camera_mat_orig); cvReleaseMat(&temp); temp = cvCreateMat(4,3,CV_32FC1); R = cv::cvarrToMat(temp); errcount += run_test_case( CV_StsAssert, "Invalid R data matrix size" ); R = cv::cvarrToMat(&_R_orig); cvReleaseMat(&temp); temp = cvCreateMat(6,1,CV_32FC1); distortion_coeffs = cv::cvarrToMat(temp); errcount += run_test_case( CV_StsAssert, "Invalid distortion coefficients data matrix size" ); distortion_coeffs = cv::cvarrToMat(&_distortion_coeffs_orig); cvReleaseMat(&temp); //------------ delete[] arr_mapx; delete[] arr_mapy; ts->set_failed_test_info(errcount > 0 ? cvtest::TS::FAIL_BAD_ARG_CHECK : cvtest::TS::OK); } //========= class CV_UndistortBadArgTest : public cvtest::BadArgTest { public: CV_UndistortBadArgTest(); protected: void run(int); void run_func(); private: //common cv::Size img_size; bool useCPlus; //C CvMat* _camera_mat; CvMat* _new_camera_mat; CvMat* _distortion_coeffs; CvMat* _src; CvMat* _dst; //C++ cv::Mat camera_mat; cv::Mat new_camera_mat; cv::Mat distortion_coeffs; cv::Mat src; cv::Mat dst; }; CV_UndistortBadArgTest::CV_UndistortBadArgTest () { } void CV_UndistortBadArgTest::run_func() { if (useCPlus) { cv::undistort(src,dst,camera_mat,distortion_coeffs,new_camera_mat); } else { cvUndistort2(_src,_dst,_camera_mat,_distortion_coeffs,_new_camera_mat); } } void CV_UndistortBadArgTest::run(int) { int errcount = 0; //initializing img_size.width = 800; img_size.height = 600; double cam[9] = {150.f, 0.f, img_size.width/2.f, 0, 300.f, img_size.height/2.f, 0.f, 0.f, 1.f}; double dist[4] = {0.01,0.02,0.001,0.0005}; float* arr_src = new float[img_size.width*img_size.height]; float* arr_dst = new float[img_size.width*img_size.height]; double arr_new_camera_mat[9] = {155.f, 0.f, img_size.width/2.f+img_size.width/50.f, 0, 310.f, img_size.height/2.f+img_size.height/50.f, 0.f, 0.f, 1.f}; CvMat _camera_mat_orig = cvMat(3,3,CV_64F,cam); CvMat _distortion_coeffs_orig = cvMat(1,4,CV_64F,dist); CvMat _new_camera_mat_orig = cvMat(3,3,CV_64F,arr_new_camera_mat); CvMat _src_orig = cvMat(img_size.height,img_size.width,CV_32FC1,arr_src); CvMat _dst_orig = cvMat(img_size.height,img_size.width,CV_32FC1,arr_dst); _camera_mat = &_camera_mat_orig; _distortion_coeffs = &_distortion_coeffs_orig; _new_camera_mat = &_new_camera_mat_orig; _src = &_src_orig; _dst = &_dst_orig; //tests useCPlus = true; CvMat* temp; CvMat* temp1; //C tests useCPlus = false; temp = cvCreateMat(800,600,CV_32F); temp1 = cvCreateMat(800,601,CV_32F); _src = temp; _dst = temp1; errcount += run_test_case( CV_StsAssert, "Input and output data matrix sizes mismatch" ); _src = &_src_orig; _dst = &_dst_orig; cvReleaseMat(&temp); cvReleaseMat(&temp1); temp = cvCreateMat(800,600,CV_32F); temp1 = cvCreateMat(800,600,CV_64F); _src = temp; _dst = temp1; errcount += run_test_case( CV_StsAssert, "Input and output data matrix types mismatch" ); _src = &_src_orig; _dst = &_dst_orig; cvReleaseMat(&temp); cvReleaseMat(&temp1); //C++ tests useCPlus = true; camera_mat = cv::cvarrToMat(&_camera_mat_orig); distortion_coeffs = cv::cvarrToMat(&_distortion_coeffs_orig); new_camera_mat = cv::cvarrToMat(&_new_camera_mat_orig); src = cv::cvarrToMat(&_src_orig); dst = cv::cvarrToMat(&_dst_orig); //------------ delete[] arr_src; delete[] arr_dst; ts->set_failed_test_info(errcount > 0 ? cvtest::TS::FAIL_BAD_ARG_CHECK : cvtest::TS::OK); } TEST(Calib3d_UndistortPoints, badarg) { CV_UndistortPointsBadArgTest test; test.safe_run(); } TEST(Calib3d_InitUndistortRectifyMap, badarg) { CV_InitUndistortRectifyMapBadArgTest test; test.safe_run(); } TEST(Calib3d_Undistort, badarg) { CV_UndistortBadArgTest test; test.safe_run(); } /* End of file. */