/external/opencv3/modules/videostab/include/opencv2/videostab/ |
H A D | outlier_rejection.hpp | 64 Size frameSize, InputArray points0, InputArray points1, OutputArray mask) = 0; 71 Size frameSize, InputArray points0, InputArray points1, OutputArray mask); 86 Size frameSize, InputArray points0, InputArray points1, OutputArray mask);
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H A D | optical_flow.hpp | 66 InputArray frame0, InputArray frame1, InputArray points0, InputOutputArray points1, 101 InputArray frame0, InputArray frame1, InputArray points0, InputOutputArray points1, 114 InputArray frame0, InputArray frame1, InputArray points0, InputOutputArray points1, 117 void run(const cuda::GpuMat &frame0, const cuda::GpuMat &frame1, const cuda::GpuMat &points0, cuda::GpuMat &points1, 120 void run(const cuda::GpuMat &frame0, const cuda::GpuMat &frame1, const cuda::GpuMat &points0, cuda::GpuMat &points1,
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H A D | global_motion.hpp | 72 @param points1 Destination set of 2D points (32F). 78 InputOutputArray points0, InputOutputArray points1, int model = MM_AFFINE, 84 @param points1 Destination set of 2D points (32F). 91 InputArray points0, InputArray points1, int model = MM_AFFINE, 116 @param points1 Destination set of 2D points (32F). 120 virtual Mat estimate(InputArray points0, InputArray points1, bool *ok = 0) = 0; 142 virtual Mat estimate(InputArray points0, InputArray points1, bool *ok = 0); 158 virtual Mat estimate(InputArray points0, InputArray points1, bool *ok = 0);
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/external/opencv3/modules/videostab/src/ |
H A D | optical_flow.cpp | 58 InputArray frame0, InputArray frame1, InputArray points0, InputOutputArray points1, 61 calcOpticalFlowPyrLK(frame0, frame1, points0, points1, status, errors, winSize_, maxLevel_); 75 InputArray frame0, InputArray frame1, InputArray points0, InputOutputArray points1, 90 points1_.download(points1.getMatRef()); 97 cuda::GpuMat &points1, cuda::GpuMat &status, cuda::GpuMat &errors) 101 optFlowEstimator_->calc(frame0, frame1, points0, points1, status, errors); 107 cuda::GpuMat &points1, cuda::GpuMat &status) 111 optFlowEstimator_->calc(frame0, frame1, points0, points1, status); 57 run( InputArray frame0, InputArray frame1, InputArray points0, InputOutputArray points1, OutputArray status, OutputArray errors) argument 74 run( InputArray frame0, InputArray frame1, InputArray points0, InputOutputArray points1, OutputArray status, OutputArray errors) argument 95 run( const cuda::GpuMat &frame0, const cuda::GpuMat &frame1, const cuda::GpuMat &points0, cuda::GpuMat &points1, cuda::GpuMat &status, cuda::GpuMat &errors) argument 105 run( const cuda::GpuMat &frame0, const cuda::GpuMat &frame1, const cuda::GpuMat &points0, cuda::GpuMat &points1, cuda::GpuMat &status) argument
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H A D | global_motion.cpp | 59 int compactPoints(int N, float *points0, float *points1, const uchar *mask); 62 static void compactPoints(GpuMat &points0, GpuMat &points1, const GpuMat &mask) 64 CV_Assert(points0.rows == 1 && points1.rows == 1 && mask.rows == 1); 65 CV_Assert(points0.type() == CV_32FC2 && points1.type() == CV_32FC2 && mask.type() == CV_8U); 66 CV_Assert(points0.cols == mask.cols && points1.cols == mask.cols); 70 npoints, (float*)points0.data, (float*)points1.data, mask.data); 73 points1 = points1.colRange(0, remaining); 121 int npoints, Point2f *points0, Point2f *points1, float *rmse) 126 M(0,2) += points1[ 120 estimateGlobMotionLeastSquaresTranslation( int npoints, Point2f *points0, Point2f *points1, float *rmse) argument 145 estimateGlobMotionLeastSquaresTranslationAndScale( int npoints, Point2f *points0, Point2f *points1, float *rmse) argument 181 estimateGlobMotionLeastSquaresRotation( int npoints, Point2f *points0, Point2f *points1, float *rmse) argument 225 estimateGlobMotionLeastSquaresRigid( int npoints, Point2f *points0, Point2f *points1, float *rmse) argument 280 estimateGlobMotionLeastSquaresSimilarity( int npoints, Point2f *points0, Point2f *points1, float *rmse) argument 319 estimateGlobMotionLeastSquaresAffine( int npoints, Point2f *points0, Point2f *points1, float *rmse) argument 356 estimateGlobalMotionLeastSquares( InputOutputArray points0, InputOutputArray points1, int model, float *rmse) argument 379 estimateGlobalMotionRansac( InputArray points0, InputArray points1, int model, const RansacParams ¶ms, float *rmse, int *ninliers) argument 489 estimate(InputArray points0, InputArray points1, bool *ok) argument 531 estimate(InputArray points0, InputArray points1, bool *ok) argument [all...] |
H A D | outlier_rejection.cpp | 52 Size /*frameSize*/, InputArray points0, InputArray points1, OutputArray mask) 54 CV_Assert(points0.type() == points1.type()); 55 CV_Assert(points0.getMat().checkVector(2) == points1.getMat().checkVector(2)); 71 Size frameSize, InputArray points0, InputArray points1, OutputArray mask) 73 CV_Assert(points0.type() == points1.type()); 74 CV_Assert(points0.getMat().checkVector(2) == points1.getMat().checkVector(2)); 79 const Point2f* points1_ = points1.getMat().ptr<Point2f>(); 51 process( Size , InputArray points0, InputArray points1, OutputArray mask) argument 70 process( Size frameSize, InputArray points0, InputArray points1, OutputArray mask) argument
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/external/opencv3/modules/calib3d/src/ |
H A D | triangulate.cpp | 168 * For each given point correspondence points1[i] <-> points2[i], and a fundamental matrix F, 170 * geometric error d(points1[i],new_points1[i])^2 + d(points2[i],new_points2[i])^2 (where d(a,b) 192 cv::Ptr<CvMat> points1, points2; local 226 // Make sure points1 uses double precision 227 points1.reset(cvCreateMat(points1_->rows,points1_->cols,CV_64FC2)); 228 cvConvert(points1_, points1); 250 for (int p = 0; p < points1->cols; ++p) { 252 x1 = points1->data.db[p*2]; 253 y1 = points1->data.db[p*2+1]; 380 points1 397 Mat points1 = _projPoints1.getMat(), points2 = _projPoints2.getMat(); local 418 Mat points1 = _points1.getMat(), points2 = _points2.getMat(); local [all...] |
H A D | five-point.cpp | 408 Mat points1, points2; local 409 _points1.getMat().convertTo(points1, CV_64F); 412 int npoints = points1.checkVector(2); 414 points1.type() == points2.type()); 416 if( points1.channels() > 1 ) 418 points1 = points1.reshape(1, npoints); 425 points1.at<double>(i, 0) = (points1.at<double>(i, 0) - pp.x)*ifocal; 426 points1 449 Mat points1, points2; local [all...] |
H A D | compat_ptsetreg.cpp | 338 CV_IMPL int cvFindFundamentalMat( const CvMat* points1, const CvMat* points2, argument 342 cv::Mat m1 = cv::cvarrToMat(points1), m2 = cv::cvarrToMat(points2);
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/external/opencv/cvaux/src/ |
H A D | _cvvm.h | 123 CvStatus icvPoint7( int* points1, 244 int* points1, 249 CvStatus icvLMedS( int* points1, 257 int* points1,
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H A D | cvtrifocal.cpp | 62 int icvComputeProjectMatrices6Points( CvMat* points1,CvMat* points2,CvMat* points3, 67 void GetGeneratorReduceFundSolution(CvMat* points1,CvMat* points2,CvMat* fundReduceCoef1,CvMat* fundReduceCoef2); 75 void icvComputeTransform4D(CvMat* points1,CvMat* points2,CvMat* transMatr); 77 int icvComputeProjectMatricesNPoints( CvMat* points1,CvMat* points2,CvMat* points3, 84 int icvComputeProjectMatricesNPoints( CvMat* points1,CvMat* points2,CvMat* points3, 178 int icvComputeProjectMatrices6Points( CvMat* points1,CvMat* points2,CvMat* points3, argument 190 if( points1 == 0 || points2 == 0 || points3 == 0 || 196 if( !CV_IS_MAT(points1) || !CV_IS_MAT(points2) || !CV_IS_MAT(points3) || 202 if( (points1->cols != points2->cols) || (points1 788 icvComputeProjectMatricesNPoints( CvMat* points1,CvMat* points2,CvMat* points3, CvMat* projMatr1,CvMat* projMatr2,CvMat* projMatr3, double threshold, double p, CvMat* status, CvMat* points4D) argument 1420 GetGeneratorReduceFundSolution(CvMat* points1,CvMat* points2,CvMat* fundReduceCoef1,CvMat* fundReduceCoef2) argument 1942 icvComputeTransform4D(CvMat* points1,CvMat* points2,CvMat* transMatr) argument [all...] |
H A D | cvcorrimages.cpp | 176 /* For given points1 (with pntStatus) on image1 finds corresponding points2 on image2 and set pntStatus2 for them */ 180 CvMat *points1, 207 points1 == 0 || points2 == 0 || 229 if( !CV_IS_MAT(points1) || !CV_IS_MAT(points2) || 243 numPoints = points1->cols; 247 CV_ERROR( CV_StsOutOfRange, "Number of points1 must be > 0" ); 255 if( points1->rows != 2 || points2->rows != 2 ) 325 cornerPoints1[curr].x = (float)cvmGet(points1,0,i); 326 cornerPoints1[curr].y = (float)cvmGet(points1,1,i); 382 cvmSet(tmpPoints1,0,currPoint,cvmGet(points1, 178 icvFindCorrForGivenPoints( IplImage *image1, IplImage *image2, CvMat *points1, CvMat *pntStatus1, CvMat *points2, CvMat *pntStatus2, int useFilter, double threshold) argument [all...] |
H A D | cvlmeds.cpp | 48 icvLMedS( int *points1, int *points2, int numPoints, CvMatrix3 * fundamentalMatrix ) argument 85 ml[i * 3] = points1[i * 2]; 86 ml[i * 3 + 1] = points1[i * 2 + 1]; 1658 icvLMedS7( int *points1, int *points2, CvMatrix3 * matrix ) argument 1664 points1 = points1; 1667 /* error = cs_Point7( points1, points2, matrix ); */ 1668 /* error = icvPoint7 ( points1, points2, matrix,&amount ); */
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H A D | cvepilines.cpp | 2829 CvPoint3D64d* points1; 2837 points1 = (CvPoint3D64d*)calloc(numberPnt,sizeof(CvPoint3D64d)); 2857 points1+i, 2868 dx = tmpPoint2.x - points1[i].x; 2869 dy = tmpPoint2.y - points1[i].y; 2870 dz = tmpPoint2.z - points1[i].z; 2900 points1, 2919 points1, 2965 free(points1);
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/external/chromium-trace/catapult/telemetry/telemetry/internal/image_processing/ |
H A D | cv_util.py | 80 def SqDistances(points1, points2): 83 d = np.square(points1 - points2)
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/external/opencv3/modules/videostab/src/cuda/ |
H A D | global_motion.cu | 55 int compactPoints(int N, float *points0, float *points1, const uchar *mask) 58 thrust::device_ptr<float2> dpoints1((float2*)points1);
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/external/opencv3/modules/features2d/misc/java/test/ |
H A D | Features2dTest.java | 132 MatOfPoint2f points1 = new MatOfPoint2f(lp1.toArray(new Point[0])); 135 Mat hmg = Calib3d.findHomography(points1, points2, Calib3d.RANSAC, 3);
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/external/opencv3/modules/calib3d/test/ |
H A D | test_cameracalibration.cpp | 1300 virtual bool rectifyUncalibrated( const Mat& points1, 1304 const Mat &points1, const Mat &points2, 1307 const Mat &points1, const Mat &points2, 1568 Mat points1 = projectedPoints_1.t(); local 1569 points1 = points1.reshape(2, 1); 1572 correctMatches(F, points1, points2, newPoints1, newPoints2); 1680 virtual bool rectifyUncalibrated( const Mat& points1, 1684 const Mat &points1, const Mat &points2, 1687 const Mat &points1, cons [all...] |
/external/opencv3/modules/imgproc/test/ |
H A D | test_convhull.cpp | 206 CvSeq* points1; member in class:CV_BaseShapeDescrTest 219 points1 = 0; 246 points1 = 0; 353 points1 = cvCreateSeq( point_type, sizeof(CvSeq), CV_ELEM_SIZE(point_type), storage ); 354 cvSeqPushMulti( points1, 0, size ); 355 points = points1; 389 if( points1 ) 391 points2 = cvCreateMat( 1, points1->total, CV_SEQ_ELTYPE(points1) ); 392 cvCvtSeqToArray( points1, points [all...] |
/external/opencv3/modules/calib3d/include/opencv2/ |
H A D | calib3d.hpp | 1012 @param points1 Array of feature points in the first image. 1022 for which \f$|\texttt{points2[i]}^T*\texttt{F}*\texttt{points1[i]}|>\texttt{threshold}\f$ ) are 1039 CV_EXPORTS_W bool stereoRectifyUncalibrated( InputArray points1, InputArray points2, 1122 @param points1 Array of N points from the first image. The point coordinates should be 1124 @param points2 Array of the second image points of the same size and format as points1 . 1156 vector<Point2f> points1(point_count); 1162 points1[i] = ...; 1167 findFundamentalMat(points1, points2, FM_RANSAC, 3, 0.99); 1170 CV_EXPORTS_W Mat findFundamentalMat( InputArray points1, InputArray points2, 1176 CV_EXPORTS Mat findFundamentalMat( InputArray points1, InputArra [all...] |
/external/opencv3/modules/java/src/ |
H A D | calib3d+Calib3d.java | 756 // C++: bool stereoRectifyUncalibrated(Mat points1, Mat points2, Mat F, Size imgSize, Mat& H1, Mat& H2, double threshold = 5) 759 //javadoc: stereoRectifyUncalibrated(points1, points2, F, imgSize, H1, H2, threshold) 760 public static boolean stereoRectifyUncalibrated(Mat points1, Mat points2, Mat F, Size imgSize, Mat H1, Mat H2, double threshold) argument 763 boolean retVal = stereoRectifyUncalibrated_0(points1.nativeObj, points2.nativeObj, F.nativeObj, imgSize.width, imgSize.height, H1.nativeObj, H2.nativeObj, threshold); 768 //javadoc: stereoRectifyUncalibrated(points1, points2, F, imgSize, H1, H2) 769 public static boolean stereoRectifyUncalibrated(Mat points1, Mat points2, Mat F, Size imgSize, Mat H1, Mat H2) argument 772 boolean retVal = stereoRectifyUncalibrated_1(points1.nativeObj, points2.nativeObj, F.nativeObj, imgSize.width, imgSize.height, H1.nativeObj, H2.nativeObj); 848 // C++: Mat findFundamentalMat(vector_Point2f points1, vector_Point2f points2, int method = FM_RANSAC, double param1 = 3., double param2 = 0.99, Mat& mask = Mat()) 851 //javadoc: findFundamentalMat(points1, points2, method, param1, param2, mask) 852 public static Mat findFundamentalMat(MatOfPoint2f points1, MatOfPoint2 argument 862 findFundamentalMat(MatOfPoint2f points1, MatOfPoint2f points2, int method, double param1, double param2) argument 872 findFundamentalMat(MatOfPoint2f points1, MatOfPoint2f points2) argument 887 findEssentialMat(Mat points1, Mat points2, double focal, Point pp, int method, double prob, double threshold, Mat mask) argument 896 findEssentialMat(Mat points1, Mat points2, double focal, Point pp, int method, double prob, double threshold) argument 905 findEssentialMat(Mat points1, Mat points2) argument 933 recoverPose(Mat E, Mat points1, Mat points2, Mat R, Mat t, double focal, Point pp, Mat mask) argument 942 recoverPose(Mat E, Mat points1, Mat points2, Mat R, Mat t, double focal, Point pp) argument 951 recoverPose(Mat E, Mat points1, Mat points2, Mat R, Mat t) argument 993 correctMatches(Mat F, Mat points1, Mat points2, Mat newPoints1, Mat newPoints2) argument [all...] |
H A D | calib3d.cpp | 2825 // bool stereoRectifyUncalibrated(Mat points1, Mat points2, Mat F, Size imgSize, Mat& H1, Mat& H2, double threshold = 5) 2836 Mat& points1 = *((Mat*)points1_nativeObj); local 2842 bool _retval_ = cv::stereoRectifyUncalibrated( points1, points2, F, imgSize, H1, H2, (double)threshold ); 2862 Mat& points1 = *((Mat*)points1_nativeObj); local 2868 bool _retval_ = cv::stereoRectifyUncalibrated( points1, points2, F, imgSize, H1, H2 ); 3038 // Mat findFundamentalMat(vector_Point2f points1, vector_Point2f points2, int method = FM_RANSAC, double param1 = 3., double param2 = 0.99, Mat& mask = Mat()) 3049 std::vector<Point2f> points1; local 3051 Mat_to_vector_Point2f( points1_mat, points1 ); 3056 ::Mat _retval_ = cv::findFundamentalMat( points1, points2, (int)method, (double)param1, (double)param2, mask ); 3076 std::vector<Point2f> points1; local 3102 std::vector<Point2f> points1; local 3132 Mat& points1 = *((Mat*)points1_nativeObj); local 3156 Mat& points1 = *((Mat*)points1_nativeObj); local 3179 Mat& points1 = *((Mat*)points1_nativeObj); local 3234 Mat& points1 = *((Mat*)points1_nativeObj); local 3261 Mat& points1 = *((Mat*)points1_nativeObj); local 3287 Mat& points1 = *((Mat*)points1_nativeObj); local 3372 Mat& points1 = *((Mat*)points1_nativeObj); local [all...] |
/external/opencv3/modules/calib3d/include/opencv2/calib3d/ |
H A D | calib3d_c.h | 102 CVAPI(int) cvFindFundamentalMat( const CvMat* points1, const CvMat* points2, 122 CVAPI(void) cvCorrectMatches(CvMat* F, CvMat* points1, CvMat* points2, 307 CVAPI(int) cvStereoRectifyUncalibrated( const CvMat* points1, const CvMat* points2,
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/external/opencv/cv/include/ |
H A D | cvcompat.h | 386 CvMat points1 = cvMat( 1, num_points, CV_32SC2, points ); local 389 cvConvexHull2( &points1, &hull1, orientation, 0 ); 541 CV_INLINE void cvFindFundamentalMatrix( int* points1, int* points2, argument 554 cvmSet(pointsMat1,0,i,points1[curr]);//x 555 cvmSet(pointsMat1,1,i,points1[curr+1]);//y
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/external/opencv/cv/src/ |
H A D | cvfundam.cpp | 946 cvFindFundamentalMat( const CvMat* points1, const CvMat* points2, argument 961 CV_ASSERT( CV_IS_MAT(points1) && CV_IS_MAT(points2) && CV_ARE_SIZES_EQ(points1, points2) ); 965 count = MAX(points1->cols, points1->rows); 970 cvConvertPointsHomogeneous( points1, m1 );
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