diff --git a/apps/haartraining/cvclassifier.h b/apps/haartraining/cvclassifier.h index df644ed17..3faec500a 100644 --- a/apps/haartraining/cvclassifier.h +++ b/apps/haartraining/cvclassifier.h @@ -338,7 +338,7 @@ typedef enum CvBoostType CV_LKCLASS = 5, /* classification (K class problem) */ CV_LSREG = 6, /* least squares regression */ CV_LADREG = 7, /* least absolute deviation regression */ - CV_MREG = 8, /* M-regression (Huber loss) */ + CV_MREG = 8 /* M-regression (Huber loss) */ } CvBoostType; /****************************************************************************************\ diff --git a/modules/calib3d/test/test_chessboardgenerator.hpp b/modules/calib3d/test/test_chessboardgenerator.hpp index 48b3f3a24..6b669d2f5 100644 --- a/modules/calib3d/test/test_chessboardgenerator.hpp +++ b/modules/calib3d/test/test_chessboardgenerator.hpp @@ -34,7 +34,7 @@ private: Mat rvec, tvec; }; -}; +} #endif diff --git a/modules/contrib/src/adaptiveskindetector.cpp b/modules/contrib/src/adaptiveskindetector.cpp index 0865ad70b..22f729d91 100644 --- a/modules/contrib/src/adaptiveskindetector.cpp +++ b/modules/contrib/src/adaptiveskindetector.cpp @@ -53,7 +53,7 @@ void CvAdaptiveSkinDetector::initData(IplImage *src, int widthDivider, int heigh imgGrayFrame = cvCreateImage(imageSize, IPL_DEPTH_8U, 1); imgLastGrayFrame = cvCreateImage(imageSize, IPL_DEPTH_8U, 1); imgHSVFrame = cvCreateImage(imageSize, IPL_DEPTH_8U, 3); -}; +} CvAdaptiveSkinDetector::CvAdaptiveSkinDetector(int samplingDivider, int morphingMethod) { @@ -78,7 +78,7 @@ CvAdaptiveSkinDetector::CvAdaptiveSkinDetector(int samplingDivider, int morphing imgLastGrayFrame = NULL; imgSaturationFrame = NULL; imgHSVFrame = NULL; -}; +} CvAdaptiveSkinDetector::~CvAdaptiveSkinDetector() { @@ -91,7 +91,7 @@ CvAdaptiveSkinDetector::~CvAdaptiveSkinDetector() cvReleaseImage(&imgGrayFrame); cvReleaseImage(&imgLastGrayFrame); cvReleaseImage(&imgHSVFrame); -}; +} void CvAdaptiveSkinDetector::process(IplImage *inputBGRImage, IplImage *outputHueMask) { @@ -188,7 +188,7 @@ void CvAdaptiveSkinDetector::process(IplImage *inputBGRImage, IplImage *outputHu if (outputHueMask != NULL) cvCopy(imgFilteredFrame, outputHueMask); -}; +} //------------------------- Histogram for Adaptive Skin Detector -------------------------// @@ -200,12 +200,12 @@ CvAdaptiveSkinDetector::Histogram::Histogram() float *ranges[] = { range }; fHistogram = cvCreateHist(1, histogramSize, CV_HIST_ARRAY, ranges, 1); cvClearHist(fHistogram); -}; +} CvAdaptiveSkinDetector::Histogram::~Histogram() { cvReleaseHist(&fHistogram); -}; +} int CvAdaptiveSkinDetector::Histogram::findCoverageIndex(double surfaceToCover, int defaultValue) { @@ -219,7 +219,7 @@ int CvAdaptiveSkinDetector::Histogram::findCoverageIndex(double surfaceToCover, } } return defaultValue; -}; +} void CvAdaptiveSkinDetector::Histogram::findCurveThresholds(int &x1, int &x2, double percent) { @@ -242,7 +242,7 @@ void CvAdaptiveSkinDetector::Histogram::findCurveThresholds(int &x1, int &x2, do x2 = GSD_HUE_UT; else x2 += GSD_HUE_LT; -}; +} void CvAdaptiveSkinDetector::Histogram::mergeWith(CvAdaptiveSkinDetector::Histogram *source, double weight) { @@ -283,4 +283,4 @@ void CvAdaptiveSkinDetector::Histogram::mergeWith(CvAdaptiveSkinDetector::Histog } } } -}; +} diff --git a/modules/contrib/src/ba.cpp b/modules/contrib/src/ba.cpp index 0e2afd95b..ec90cb79a 100644 --- a/modules/contrib/src/ba.cpp +++ b/modules/contrib/src/ba.cpp @@ -938,7 +938,7 @@ static void fjac(int /*i*/, int /*j*/, CvMat *point_params, CvMat* cam_params, C #endif -}; +} static void func(int /*i*/, int /*j*/, CvMat *point_params, CvMat* cam_params, CvMat* estim, void* /*data*/) { //just do projections CvMat _Mi; @@ -977,17 +977,17 @@ static void func(int /*i*/, int /*j*/, CvMat *point_params, CvMat* cam_params, C cvTranspose( _mp2, estim ); cvReleaseMat( &_mp ); cvReleaseMat( &_mp2 ); -}; +} static void fjac_new(int i, int j, Mat& point_params, Mat& cam_params, Mat& A, Mat& B, void* data) { CvMat _point_params = point_params, _cam_params = cam_params, _Al = A, _Bl = B; fjac(i,j, &_point_params, &_cam_params, &_Al, &_Bl, data); -}; +} static void func_new(int i, int j, Mat& point_params, Mat& cam_params, Mat& estim, void* data) { CvMat _point_params = point_params, _cam_params = cam_params, _estim = estim; func(i,j,&_point_params,&_cam_params,&_estim,data); -}; +} void LevMarqSparse::bundleAdjust( vector& points, //positions of points in global coordinate system (input and output) const vector >& imagePoints, //projections of 3d points for every camera diff --git a/modules/contrib/src/facerec.cpp b/modules/contrib/src/facerec.cpp index bd202d206..a3d695ad1 100644 --- a/modules/contrib/src/facerec.cpp +++ b/modules/contrib/src/facerec.cpp @@ -873,7 +873,7 @@ CV_INIT_ALGORITHM(Eigenfaces, "FaceRecognizer.Eigenfaces", obj.info()->addParam(obj, "labels", obj._labels, true); obj.info()->addParam(obj, "eigenvectors", obj._eigenvectors, true); obj.info()->addParam(obj, "eigenvalues", obj._eigenvalues, true); - obj.info()->addParam(obj, "mean", obj._mean, true)); + obj.info()->addParam(obj, "mean", obj._mean, true)) CV_INIT_ALGORITHM(Fisherfaces, "FaceRecognizer.Fisherfaces", obj.info()->addParam(obj, "ncomponents", obj._num_components); @@ -882,7 +882,7 @@ CV_INIT_ALGORITHM(Fisherfaces, "FaceRecognizer.Fisherfaces", obj.info()->addParam(obj, "labels", obj._labels, true); obj.info()->addParam(obj, "eigenvectors", obj._eigenvectors, true); obj.info()->addParam(obj, "eigenvalues", obj._eigenvalues, true); - obj.info()->addParam(obj, "mean", obj._mean, true)); + obj.info()->addParam(obj, "mean", obj._mean, true)) CV_INIT_ALGORITHM(LBPH, "FaceRecognizer.LBPH", obj.info()->addParam(obj, "radius", obj._radius); @@ -891,7 +891,7 @@ CV_INIT_ALGORITHM(LBPH, "FaceRecognizer.LBPH", obj.info()->addParam(obj, "grid_y", obj._grid_y); obj.info()->addParam(obj, "threshold", obj._threshold); obj.info()->addParam(obj, "histograms", obj._histograms, true); - obj.info()->addParam(obj, "labels", obj._labels, true)); + obj.info()->addParam(obj, "labels", obj._labels, true)) bool initModule_contrib() { diff --git a/modules/contrib/src/fuzzymeanshifttracker.cpp b/modules/contrib/src/fuzzymeanshifttracker.cpp index 0ac6d2443..1932ad595 100644 --- a/modules/contrib/src/fuzzymeanshifttracker.cpp +++ b/modules/contrib/src/fuzzymeanshifttracker.cpp @@ -40,7 +40,7 @@ CvFuzzyPoint::CvFuzzyPoint(double _x, double _y) { x = _x; y = _y; -}; +} bool CvFuzzyCurve::between(double x, double x1, double x2) { @@ -50,37 +50,37 @@ bool CvFuzzyCurve::between(double x, double x1, double x2) return true; return false; -}; +} CvFuzzyCurve::CvFuzzyCurve() { value = 0; -}; +} CvFuzzyCurve::~CvFuzzyCurve() { // nothing to do -}; +} void CvFuzzyCurve::setCentre(double _centre) { centre = _centre; -}; +} double CvFuzzyCurve::getCentre() { return centre; -}; +} void CvFuzzyCurve::clear() { points.clear(); -}; +} void CvFuzzyCurve::addPoint(double x, double y) { points.push_back(CvFuzzyPoint(x, y)); -}; +} double CvFuzzyCurve::calcValue(double param) { @@ -101,41 +101,41 @@ double CvFuzzyCurve::calcValue(double param) } } return 0; -}; +} double CvFuzzyCurve::getValue() { return value; -}; +} void CvFuzzyCurve::setValue(double _value) { value = _value; -}; +} CvFuzzyFunction::CvFuzzyFunction() { // nothing to do -}; +} CvFuzzyFunction::~CvFuzzyFunction() { curves.clear(); -}; +} void CvFuzzyFunction::addCurve(CvFuzzyCurve *curve, double value) { curves.push_back(*curve); curve->setValue(value); -}; +} void CvFuzzyFunction::resetValues() { int numCurves = (int)curves.size(); for (int i = 0; i < numCurves; i++) curves[i].setValue(0); -}; +} double CvFuzzyFunction::calcValue() { @@ -152,7 +152,7 @@ double CvFuzzyFunction::calcValue() return s1/s2; else return 0; -}; +} CvFuzzyCurve *CvFuzzyFunction::newCurve() { @@ -160,14 +160,14 @@ CvFuzzyCurve *CvFuzzyFunction::newCurve() c = new CvFuzzyCurve(); addCurve(c); return c; -}; +} CvFuzzyRule::CvFuzzyRule() { fuzzyInput1 = NULL; fuzzyInput2 = NULL; fuzzyOutput = NULL; -}; +} CvFuzzyRule::~CvFuzzyRule() { @@ -179,14 +179,14 @@ CvFuzzyRule::~CvFuzzyRule() if (fuzzyOutput != NULL) delete fuzzyOutput; -}; +} void CvFuzzyRule::setRule(CvFuzzyCurve *c1, CvFuzzyCurve *c2, CvFuzzyCurve *o1) { fuzzyInput1 = c1; fuzzyInput2 = c2; fuzzyOutput = o1; -}; +} double CvFuzzyRule::calcValue(double param1, double param2) { @@ -202,31 +202,31 @@ double CvFuzzyRule::calcValue(double param1, double param2) } else return v1; -}; +} CvFuzzyCurve *CvFuzzyRule::getOutputCurve() { return fuzzyOutput; -}; +} CvFuzzyController::CvFuzzyController() { // nothing to do -}; +} CvFuzzyController::~CvFuzzyController() { int size = (int)rules.size(); for(int i = 0; i < size; i++) delete rules[i]; -}; +} void CvFuzzyController::addRule(CvFuzzyCurve *c1, CvFuzzyCurve *c2, CvFuzzyCurve *o1) { CvFuzzyRule *f = new CvFuzzyRule(); rules.push_back(f); f->setRule(c1, c2, o1); -}; +} double CvFuzzyController::calcOutput(double param1, double param2) { @@ -242,7 +242,7 @@ double CvFuzzyController::calcOutput(double param1, double param2) } v = list.calcValue(); return v; -}; +} CvFuzzyMeanShiftTracker::FuzzyResizer::FuzzyResizer() { @@ -298,12 +298,12 @@ CvFuzzyMeanShiftTracker::FuzzyResizer::FuzzyResizer() fuzzyController.addRule(i1L, NULL, oS); fuzzyController.addRule(i1M, NULL, oZE); fuzzyController.addRule(i1H, NULL, oE); -}; +} int CvFuzzyMeanShiftTracker::FuzzyResizer::calcOutput(double edgeDensity, double density) { return (int)fuzzyController.calcOutput(edgeDensity, density); -}; +} CvFuzzyMeanShiftTracker::SearchWindow::SearchWindow() { @@ -328,7 +328,7 @@ CvFuzzyMeanShiftTracker::SearchWindow::SearchWindow() depthLow = 0; depthHigh = 0; fuzzyResizer = NULL; -}; +} CvFuzzyMeanShiftTracker::SearchWindow::~SearchWindow() { @@ -354,7 +354,7 @@ void CvFuzzyMeanShiftTracker::SearchWindow::setSize(int _x, int _y, int _width, if (y + height > maxHeight) height = maxHeight - y; -}; +} void CvFuzzyMeanShiftTracker::SearchWindow::initDepthValues(IplImage *maskImage, IplImage *depthMap) { @@ -408,7 +408,7 @@ void CvFuzzyMeanShiftTracker::SearchWindow::initDepthValues(IplImage *maskImage, depthHigh = 32000; depthLow = 0; } -}; +} bool CvFuzzyMeanShiftTracker::SearchWindow::shift() { @@ -421,7 +421,7 @@ bool CvFuzzyMeanShiftTracker::SearchWindow::shift() { return false; } -}; +} void CvFuzzyMeanShiftTracker::SearchWindow::extractInfo(IplImage *maskImage, IplImage *depthMap, bool initDepth) { @@ -527,7 +527,7 @@ void CvFuzzyMeanShiftTracker::SearchWindow::extractInfo(IplImage *maskImage, Ipl ellipseAngle = 0; density = 0; } -}; +} void CvFuzzyMeanShiftTracker::SearchWindow::getResizeAttribsEdgeDensityLinear(int &resizeDx, int &resizeDy, int &resizeDw, int &resizeDh) { int x1 = horizontalEdgeTop; @@ -571,7 +571,7 @@ void CvFuzzyMeanShiftTracker::SearchWindow::getResizeAttribsEdgeDensityLinear(in } else { resizeDw = - resizeDx; } -}; +} void CvFuzzyMeanShiftTracker::SearchWindow::getResizeAttribsInnerDensity(int &resizeDx, int &resizeDy, int &resizeDw, int &resizeDh) { @@ -587,7 +587,7 @@ void CvFuzzyMeanShiftTracker::SearchWindow::getResizeAttribsInnerDensity(int &re resizeDy = (int)(py*dy); resizeDw = (int)((1-px)*dx); resizeDh = (int)((1-py)*dy); -}; +} void CvFuzzyMeanShiftTracker::SearchWindow::getResizeAttribsEdgeDensityFuzzy(int &resizeDx, int &resizeDy, int &resizeDw, int &resizeDh) { @@ -626,7 +626,7 @@ void CvFuzzyMeanShiftTracker::SearchWindow::getResizeAttribsEdgeDensityFuzzy(int resizeDy = int(-dy1); resizeDh = int(dy1+dy2); } -}; +} bool CvFuzzyMeanShiftTracker::SearchWindow::meanShift(IplImage *maskImage, IplImage *depthMap, int maxIteration, bool initDepth) { @@ -639,7 +639,7 @@ bool CvFuzzyMeanShiftTracker::SearchWindow::meanShift(IplImage *maskImage, IplIm } while (++numShifts < maxIteration); return false; -}; +} void CvFuzzyMeanShiftTracker::findOptimumSearchWindow(SearchWindow &searchWindow, IplImage *maskImage, IplImage *depthMap, int maxIteration, int resizeMethod, bool initDepth) { @@ -679,17 +679,17 @@ void CvFuzzyMeanShiftTracker::findOptimumSearchWindow(SearchWindow &searchWindow searchWindow.setSize(searchWindow.x + resizeDx, searchWindow.y + resizeDy, searchWindow.width + resizeDw, searchWindow.height + resizeDh); } -}; +} CvFuzzyMeanShiftTracker::CvFuzzyMeanShiftTracker() { searchMode = tsSetWindow; -}; +} CvFuzzyMeanShiftTracker::~CvFuzzyMeanShiftTracker() { // nothing to do -}; +} void CvFuzzyMeanShiftTracker::track(IplImage *maskImage, IplImage *depthMap, int resizeMethod, bool resetSearch, int minKernelMass) { @@ -717,4 +717,4 @@ void CvFuzzyMeanShiftTracker::track(IplImage *maskImage, IplImage *depthMap, int else searchMode = tsTracking; } -}; +} diff --git a/modules/contrib/src/retina.cpp b/modules/contrib/src/retina.cpp index 6f08337cc..4a02bbcb4 100644 --- a/modules/contrib/src/retina.cpp +++ b/modules/contrib/src/retina.cpp @@ -85,7 +85,7 @@ Retina::Retina(const cv::Size inputSz, const bool colorMode, RETINA_COLORSAMPLIN { _retinaFilter = 0; _init(inputSz, colorMode, colorSamplingMethod, useRetinaLogSampling, reductionFactor, samplingStrenght); -}; +} Retina::~Retina() { diff --git a/modules/contrib/src/spinimages.cpp b/modules/contrib/src/spinimages.cpp index b01090057..747bf3e12 100644 --- a/modules/contrib/src/spinimages.cpp +++ b/modules/contrib/src/spinimages.cpp @@ -718,7 +718,7 @@ void cv::SpinImageModel::defaultParams() T_GeometriccConsistency = 0.25f; T_GroupingCorespondances = 0.25f; -}; +} Mat cv::SpinImageModel::packRandomScaledSpins(bool separateScale, size_t xCount, size_t yCount) const { diff --git a/modules/core/src/convert.cpp b/modules/core/src/convert.cpp index 3de9f83d1..c37208b5c 100644 --- a/modules/core/src/convert.cpp +++ b/modules/core/src/convert.cpp @@ -839,122 +839,122 @@ stype* dst, size_t dstep, Size size, double*) \ } -DEF_CVT_SCALE_ABS_FUNC(8u, cvtScaleAbs_, uchar, uchar, float); -DEF_CVT_SCALE_ABS_FUNC(8s8u, cvtScaleAbs_, schar, uchar, float); -DEF_CVT_SCALE_ABS_FUNC(16u8u, cvtScaleAbs_, ushort, uchar, float); -DEF_CVT_SCALE_ABS_FUNC(16s8u, cvtScaleAbs_, short, uchar, float); -DEF_CVT_SCALE_ABS_FUNC(32s8u, cvtScaleAbs_, int, uchar, float); -DEF_CVT_SCALE_ABS_FUNC(32f8u, cvtScaleAbs_, float, uchar, float); -DEF_CVT_SCALE_ABS_FUNC(64f8u, cvtScaleAbs_, double, uchar, float); +DEF_CVT_SCALE_ABS_FUNC(8u, cvtScaleAbs_, uchar, uchar, float) +DEF_CVT_SCALE_ABS_FUNC(8s8u, cvtScaleAbs_, schar, uchar, float) +DEF_CVT_SCALE_ABS_FUNC(16u8u, cvtScaleAbs_, ushort, uchar, float) +DEF_CVT_SCALE_ABS_FUNC(16s8u, cvtScaleAbs_, short, uchar, float) +DEF_CVT_SCALE_ABS_FUNC(32s8u, cvtScaleAbs_, int, uchar, float) +DEF_CVT_SCALE_ABS_FUNC(32f8u, cvtScaleAbs_, float, uchar, float) +DEF_CVT_SCALE_ABS_FUNC(64f8u, cvtScaleAbs_, double, uchar, float) -DEF_CVT_SCALE_FUNC(8u, uchar, uchar, float); -DEF_CVT_SCALE_FUNC(8s8u, schar, uchar, float); -DEF_CVT_SCALE_FUNC(16u8u, ushort, uchar, float); -DEF_CVT_SCALE_FUNC(16s8u, short, uchar, float); -DEF_CVT_SCALE_FUNC(32s8u, int, uchar, float); -DEF_CVT_SCALE_FUNC(32f8u, float, uchar, float); -DEF_CVT_SCALE_FUNC(64f8u, double, uchar, float); +DEF_CVT_SCALE_FUNC(8u, uchar, uchar, float) +DEF_CVT_SCALE_FUNC(8s8u, schar, uchar, float) +DEF_CVT_SCALE_FUNC(16u8u, ushort, uchar, float) +DEF_CVT_SCALE_FUNC(16s8u, short, uchar, float) +DEF_CVT_SCALE_FUNC(32s8u, int, uchar, float) +DEF_CVT_SCALE_FUNC(32f8u, float, uchar, float) +DEF_CVT_SCALE_FUNC(64f8u, double, uchar, float) -DEF_CVT_SCALE_FUNC(8u8s, uchar, schar, float); -DEF_CVT_SCALE_FUNC(8s, schar, schar, float); -DEF_CVT_SCALE_FUNC(16u8s, ushort, schar, float); -DEF_CVT_SCALE_FUNC(16s8s, short, schar, float); -DEF_CVT_SCALE_FUNC(32s8s, int, schar, float); -DEF_CVT_SCALE_FUNC(32f8s, float, schar, float); -DEF_CVT_SCALE_FUNC(64f8s, double, schar, float); +DEF_CVT_SCALE_FUNC(8u8s, uchar, schar, float) +DEF_CVT_SCALE_FUNC(8s, schar, schar, float) +DEF_CVT_SCALE_FUNC(16u8s, ushort, schar, float) +DEF_CVT_SCALE_FUNC(16s8s, short, schar, float) +DEF_CVT_SCALE_FUNC(32s8s, int, schar, float) +DEF_CVT_SCALE_FUNC(32f8s, float, schar, float) +DEF_CVT_SCALE_FUNC(64f8s, double, schar, float) -DEF_CVT_SCALE_FUNC(8u16u, uchar, ushort, float); -DEF_CVT_SCALE_FUNC(8s16u, schar, ushort, float); -DEF_CVT_SCALE_FUNC(16u, ushort, ushort, float); -DEF_CVT_SCALE_FUNC(16s16u, short, ushort, float); -DEF_CVT_SCALE_FUNC(32s16u, int, ushort, float); -DEF_CVT_SCALE_FUNC(32f16u, float, ushort, float); -DEF_CVT_SCALE_FUNC(64f16u, double, ushort, float); +DEF_CVT_SCALE_FUNC(8u16u, uchar, ushort, float) +DEF_CVT_SCALE_FUNC(8s16u, schar, ushort, float) +DEF_CVT_SCALE_FUNC(16u, ushort, ushort, float) +DEF_CVT_SCALE_FUNC(16s16u, short, ushort, float) +DEF_CVT_SCALE_FUNC(32s16u, int, ushort, float) +DEF_CVT_SCALE_FUNC(32f16u, float, ushort, float) +DEF_CVT_SCALE_FUNC(64f16u, double, ushort, float) -DEF_CVT_SCALE_FUNC(8u16s, uchar, short, float); -DEF_CVT_SCALE_FUNC(8s16s, schar, short, float); -DEF_CVT_SCALE_FUNC(16u16s, ushort, short, float); -DEF_CVT_SCALE_FUNC(16s, short, short, float); -DEF_CVT_SCALE_FUNC(32s16s, int, short, float); -DEF_CVT_SCALE_FUNC(32f16s, float, short, float); -DEF_CVT_SCALE_FUNC(64f16s, double, short, float); +DEF_CVT_SCALE_FUNC(8u16s, uchar, short, float) +DEF_CVT_SCALE_FUNC(8s16s, schar, short, float) +DEF_CVT_SCALE_FUNC(16u16s, ushort, short, float) +DEF_CVT_SCALE_FUNC(16s, short, short, float) +DEF_CVT_SCALE_FUNC(32s16s, int, short, float) +DEF_CVT_SCALE_FUNC(32f16s, float, short, float) +DEF_CVT_SCALE_FUNC(64f16s, double, short, float) -DEF_CVT_SCALE_FUNC(8u32s, uchar, int, float); -DEF_CVT_SCALE_FUNC(8s32s, schar, int, float); -DEF_CVT_SCALE_FUNC(16u32s, ushort, int, float); -DEF_CVT_SCALE_FUNC(16s32s, short, int, float); -DEF_CVT_SCALE_FUNC(32s, int, int, double); -DEF_CVT_SCALE_FUNC(32f32s, float, int, float); -DEF_CVT_SCALE_FUNC(64f32s, double, int, double); +DEF_CVT_SCALE_FUNC(8u32s, uchar, int, float) +DEF_CVT_SCALE_FUNC(8s32s, schar, int, float) +DEF_CVT_SCALE_FUNC(16u32s, ushort, int, float) +DEF_CVT_SCALE_FUNC(16s32s, short, int, float) +DEF_CVT_SCALE_FUNC(32s, int, int, double) +DEF_CVT_SCALE_FUNC(32f32s, float, int, float) +DEF_CVT_SCALE_FUNC(64f32s, double, int, double) -DEF_CVT_SCALE_FUNC(8u32f, uchar, float, float); -DEF_CVT_SCALE_FUNC(8s32f, schar, float, float); -DEF_CVT_SCALE_FUNC(16u32f, ushort, float, float); -DEF_CVT_SCALE_FUNC(16s32f, short, float, float); -DEF_CVT_SCALE_FUNC(32s32f, int, float, double); -DEF_CVT_SCALE_FUNC(32f, float, float, float); -DEF_CVT_SCALE_FUNC(64f32f, double, float, double); +DEF_CVT_SCALE_FUNC(8u32f, uchar, float, float) +DEF_CVT_SCALE_FUNC(8s32f, schar, float, float) +DEF_CVT_SCALE_FUNC(16u32f, ushort, float, float) +DEF_CVT_SCALE_FUNC(16s32f, short, float, float) +DEF_CVT_SCALE_FUNC(32s32f, int, float, double) +DEF_CVT_SCALE_FUNC(32f, float, float, float) +DEF_CVT_SCALE_FUNC(64f32f, double, float, double) -DEF_CVT_SCALE_FUNC(8u64f, uchar, double, double); -DEF_CVT_SCALE_FUNC(8s64f, schar, double, double); -DEF_CVT_SCALE_FUNC(16u64f, ushort, double, double); -DEF_CVT_SCALE_FUNC(16s64f, short, double, double); -DEF_CVT_SCALE_FUNC(32s64f, int, double, double); -DEF_CVT_SCALE_FUNC(32f64f, float, double, double); -DEF_CVT_SCALE_FUNC(64f, double, double, double); +DEF_CVT_SCALE_FUNC(8u64f, uchar, double, double) +DEF_CVT_SCALE_FUNC(8s64f, schar, double, double) +DEF_CVT_SCALE_FUNC(16u64f, ushort, double, double) +DEF_CVT_SCALE_FUNC(16s64f, short, double, double) +DEF_CVT_SCALE_FUNC(32s64f, int, double, double) +DEF_CVT_SCALE_FUNC(32f64f, float, double, double) +DEF_CVT_SCALE_FUNC(64f, double, double, double) -DEF_CPY_FUNC(8u, uchar); -DEF_CVT_FUNC(8s8u, schar, uchar); -DEF_CVT_FUNC(16u8u, ushort, uchar); -DEF_CVT_FUNC(16s8u, short, uchar); -DEF_CVT_FUNC(32s8u, int, uchar); -DEF_CVT_FUNC(32f8u, float, uchar); -DEF_CVT_FUNC(64f8u, double, uchar); +DEF_CPY_FUNC(8u, uchar) +DEF_CVT_FUNC(8s8u, schar, uchar) +DEF_CVT_FUNC(16u8u, ushort, uchar) +DEF_CVT_FUNC(16s8u, short, uchar) +DEF_CVT_FUNC(32s8u, int, uchar) +DEF_CVT_FUNC(32f8u, float, uchar) +DEF_CVT_FUNC(64f8u, double, uchar) -DEF_CVT_FUNC(8u8s, uchar, schar); -DEF_CVT_FUNC(16u8s, ushort, schar); -DEF_CVT_FUNC(16s8s, short, schar); -DEF_CVT_FUNC(32s8s, int, schar); -DEF_CVT_FUNC(32f8s, float, schar); -DEF_CVT_FUNC(64f8s, double, schar); +DEF_CVT_FUNC(8u8s, uchar, schar) +DEF_CVT_FUNC(16u8s, ushort, schar) +DEF_CVT_FUNC(16s8s, short, schar) +DEF_CVT_FUNC(32s8s, int, schar) +DEF_CVT_FUNC(32f8s, float, schar) +DEF_CVT_FUNC(64f8s, double, schar) -DEF_CVT_FUNC(8u16u, uchar, ushort); -DEF_CVT_FUNC(8s16u, schar, ushort); -DEF_CPY_FUNC(16u, ushort); -DEF_CVT_FUNC(16s16u, short, ushort); -DEF_CVT_FUNC(32s16u, int, ushort); -DEF_CVT_FUNC(32f16u, float, ushort); -DEF_CVT_FUNC(64f16u, double, ushort); +DEF_CVT_FUNC(8u16u, uchar, ushort) +DEF_CVT_FUNC(8s16u, schar, ushort) +DEF_CPY_FUNC(16u, ushort) +DEF_CVT_FUNC(16s16u, short, ushort) +DEF_CVT_FUNC(32s16u, int, ushort) +DEF_CVT_FUNC(32f16u, float, ushort) +DEF_CVT_FUNC(64f16u, double, ushort) -DEF_CVT_FUNC(8u16s, uchar, short); -DEF_CVT_FUNC(8s16s, schar, short); -DEF_CVT_FUNC(16u16s, ushort, short); -DEF_CVT_FUNC(32s16s, int, short); -DEF_CVT_FUNC(32f16s, float, short); -DEF_CVT_FUNC(64f16s, double, short); +DEF_CVT_FUNC(8u16s, uchar, short) +DEF_CVT_FUNC(8s16s, schar, short) +DEF_CVT_FUNC(16u16s, ushort, short) +DEF_CVT_FUNC(32s16s, int, short) +DEF_CVT_FUNC(32f16s, float, short) +DEF_CVT_FUNC(64f16s, double, short) -DEF_CVT_FUNC(8u32s, uchar, int); -DEF_CVT_FUNC(8s32s, schar, int); -DEF_CVT_FUNC(16u32s, ushort, int); -DEF_CVT_FUNC(16s32s, short, int); -DEF_CPY_FUNC(32s, int); -DEF_CVT_FUNC(32f32s, float, int); -DEF_CVT_FUNC(64f32s, double, int); +DEF_CVT_FUNC(8u32s, uchar, int) +DEF_CVT_FUNC(8s32s, schar, int) +DEF_CVT_FUNC(16u32s, ushort, int) +DEF_CVT_FUNC(16s32s, short, int) +DEF_CPY_FUNC(32s, int) +DEF_CVT_FUNC(32f32s, float, int) +DEF_CVT_FUNC(64f32s, double, int) -DEF_CVT_FUNC(8u32f, uchar, float); -DEF_CVT_FUNC(8s32f, schar, float); -DEF_CVT_FUNC(16u32f, ushort, float); -DEF_CVT_FUNC(16s32f, short, float); -DEF_CVT_FUNC(32s32f, int, float); -DEF_CVT_FUNC(64f32f, double, float); +DEF_CVT_FUNC(8u32f, uchar, float) +DEF_CVT_FUNC(8s32f, schar, float) +DEF_CVT_FUNC(16u32f, ushort, float) +DEF_CVT_FUNC(16s32f, short, float) +DEF_CVT_FUNC(32s32f, int, float) +DEF_CVT_FUNC(64f32f, double, float) -DEF_CVT_FUNC(8u64f, uchar, double); -DEF_CVT_FUNC(8s64f, schar, double); -DEF_CVT_FUNC(16u64f, ushort, double); -DEF_CVT_FUNC(16s64f, short, double); -DEF_CVT_FUNC(32s64f, int, double); -DEF_CVT_FUNC(32f64f, float, double); -DEF_CPY_FUNC(64s, int64); +DEF_CVT_FUNC(8u64f, uchar, double) +DEF_CVT_FUNC(8s64f, schar, double) +DEF_CVT_FUNC(16u64f, ushort, double) +DEF_CVT_FUNC(16s64f, short, double) +DEF_CVT_FUNC(32s64f, int, double) +DEF_CVT_FUNC(32f64f, float, double) +DEF_CPY_FUNC(64s, int64) static BinaryFunc getCvtScaleAbsFunc(int depth) { diff --git a/modules/core/src/copy.cpp b/modules/core/src/copy.cpp index cc26b3eb3..894776bb3 100644 --- a/modules/core/src/copy.cpp +++ b/modules/core/src/copy.cpp @@ -166,16 +166,16 @@ static void copyMask##suffix(const uchar* src, size_t sstep, const uchar* mask, } -DEF_COPY_MASK(8u, uchar); -DEF_COPY_MASK(16u, ushort); -DEF_COPY_MASK(8uC3, Vec3b); -DEF_COPY_MASK(32s, int); -DEF_COPY_MASK(16uC3, Vec3s); -DEF_COPY_MASK(32sC2, Vec2i); -DEF_COPY_MASK(32sC3, Vec3i); -DEF_COPY_MASK(32sC4, Vec4i); -DEF_COPY_MASK(32sC6, Vec6i); -DEF_COPY_MASK(32sC8, Vec8i); +DEF_COPY_MASK(8u, uchar) +DEF_COPY_MASK(16u, ushort) +DEF_COPY_MASK(8uC3, Vec3b) +DEF_COPY_MASK(32s, int) +DEF_COPY_MASK(16uC3, Vec3s) +DEF_COPY_MASK(32sC2, Vec2i) +DEF_COPY_MASK(32sC3, Vec3i) +DEF_COPY_MASK(32sC4, Vec4i) +DEF_COPY_MASK(32sC6, Vec6i) +DEF_COPY_MASK(32sC8, Vec8i) BinaryFunc copyMaskTab[] = { diff --git a/modules/core/test/test_arithm.cpp b/modules/core/test/test_arithm.cpp index f16c80171..8fec388df 100644 --- a/modules/core/test/test_arithm.cpp +++ b/modules/core/test/test_arithm.cpp @@ -115,7 +115,7 @@ struct BaseAddOp : public BaseElemWiseOp struct AddOp : public BaseAddOp { - AddOp() : BaseAddOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA+SUPPORT_MASK, 1, 1, Scalar::all(0)) {}; + AddOp() : BaseAddOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA+SUPPORT_MASK, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat& mask) { if( mask.empty() ) @@ -128,7 +128,7 @@ struct AddOp : public BaseAddOp struct SubOp : public BaseAddOp { - SubOp() : BaseAddOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA+SUPPORT_MASK, 1, -1, Scalar::all(0)) {}; + SubOp() : BaseAddOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA+SUPPORT_MASK, 1, -1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat& mask) { if( mask.empty() ) @@ -141,7 +141,7 @@ struct SubOp : public BaseAddOp struct AddSOp : public BaseAddOp { - AddSOp() : BaseAddOp(1, FIX_ALPHA+FIX_BETA+SUPPORT_MASK, 1, 0, Scalar::all(0)) {}; + AddSOp() : BaseAddOp(1, FIX_ALPHA+FIX_BETA+SUPPORT_MASK, 1, 0, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat& mask) { if( mask.empty() ) @@ -154,7 +154,7 @@ struct AddSOp : public BaseAddOp struct SubRSOp : public BaseAddOp { - SubRSOp() : BaseAddOp(1, FIX_ALPHA+FIX_BETA+SUPPORT_MASK, -1, 0, Scalar::all(0)) {}; + SubRSOp() : BaseAddOp(1, FIX_ALPHA+FIX_BETA+SUPPORT_MASK, -1, 0, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat& mask) { if( mask.empty() ) @@ -167,7 +167,7 @@ struct SubRSOp : public BaseAddOp struct ScaleAddOp : public BaseAddOp { - ScaleAddOp() : BaseAddOp(2, FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + ScaleAddOp() : BaseAddOp(2, FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { scaleAdd(src[0], alpha, src[1], dst); @@ -181,7 +181,7 @@ struct ScaleAddOp : public BaseAddOp struct AddWeightedOp : public BaseAddOp { - AddWeightedOp() : BaseAddOp(2, REAL_GAMMA, 1, 1, Scalar::all(0)) {}; + AddWeightedOp() : BaseAddOp(2, REAL_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { addWeighted(src[0], alpha, src[1], beta, gamma[0], dst); @@ -194,7 +194,7 @@ struct AddWeightedOp : public BaseAddOp struct MulOp : public BaseElemWiseOp { - MulOp() : BaseElemWiseOp(2, FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + MulOp() : BaseElemWiseOp(2, FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void getValueRange(int depth, double& minval, double& maxval) { minval = depth < CV_32S ? cvtest::getMinVal(depth) : depth == CV_32S ? -1000000 : -1000.; @@ -218,7 +218,7 @@ struct MulOp : public BaseElemWiseOp struct DivOp : public BaseElemWiseOp { - DivOp() : BaseElemWiseOp(2, FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + DivOp() : BaseElemWiseOp(2, FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { cv::divide(src[0], src[1], dst, alpha); @@ -235,7 +235,7 @@ struct DivOp : public BaseElemWiseOp struct RecipOp : public BaseElemWiseOp { - RecipOp() : BaseElemWiseOp(1, FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + RecipOp() : BaseElemWiseOp(1, FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { cv::divide(alpha, src[0], dst); @@ -252,7 +252,7 @@ struct RecipOp : public BaseElemWiseOp struct AbsDiffOp : public BaseAddOp { - AbsDiffOp() : BaseAddOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, -1, Scalar::all(0)) {}; + AbsDiffOp() : BaseAddOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, -1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { absdiff(src[0], src[1], dst); @@ -265,7 +265,7 @@ struct AbsDiffOp : public BaseAddOp struct AbsDiffSOp : public BaseAddOp { - AbsDiffSOp() : BaseAddOp(1, FIX_ALPHA+FIX_BETA, 1, 0, Scalar::all(0)) {}; + AbsDiffSOp() : BaseAddOp(1, FIX_ALPHA+FIX_BETA, 1, 0, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { absdiff(src[0], gamma, dst); @@ -278,7 +278,7 @@ struct AbsDiffSOp : public BaseAddOp struct LogicOp : public BaseElemWiseOp { - LogicOp(char _opcode) : BaseElemWiseOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA+SUPPORT_MASK, 1, 1, Scalar::all(0)), opcode(_opcode) {}; + LogicOp(char _opcode) : BaseElemWiseOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA+SUPPORT_MASK, 1, 1, Scalar::all(0)), opcode(_opcode) {} void op(const vector& src, Mat& dst, const Mat& mask) { if( opcode == '&' ) @@ -309,7 +309,7 @@ struct LogicOp : public BaseElemWiseOp struct LogicSOp : public BaseElemWiseOp { LogicSOp(char _opcode) - : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+(_opcode != '~' ? SUPPORT_MASK : 0), 1, 1, Scalar::all(0)), opcode(_opcode) {}; + : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+(_opcode != '~' ? SUPPORT_MASK : 0), 1, 1, Scalar::all(0)), opcode(_opcode) {} void op(const vector& src, Mat& dst, const Mat& mask) { if( opcode == '&' ) @@ -341,7 +341,7 @@ struct LogicSOp : public BaseElemWiseOp struct MinOp : public BaseElemWiseOp { - MinOp() : BaseElemWiseOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + MinOp() : BaseElemWiseOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { cv::min(src[0], src[1], dst); @@ -358,7 +358,7 @@ struct MinOp : public BaseElemWiseOp struct MaxOp : public BaseElemWiseOp { - MaxOp() : BaseElemWiseOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + MaxOp() : BaseElemWiseOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { cv::max(src[0], src[1], dst); @@ -375,7 +375,7 @@ struct MaxOp : public BaseElemWiseOp struct MinSOp : public BaseElemWiseOp { - MinSOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+REAL_GAMMA, 1, 1, Scalar::all(0)) {}; + MinSOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+REAL_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { cv::min(src[0], gamma[0], dst); @@ -392,7 +392,7 @@ struct MinSOp : public BaseElemWiseOp struct MaxSOp : public BaseElemWiseOp { - MaxSOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+REAL_GAMMA, 1, 1, Scalar::all(0)) {}; + MaxSOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+REAL_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { cv::max(src[0], gamma[0], dst); @@ -409,7 +409,7 @@ struct MaxSOp : public BaseElemWiseOp struct CmpOp : public BaseElemWiseOp { - CmpOp() : BaseElemWiseOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + CmpOp() : BaseElemWiseOp(2, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void generateScalars(int depth, RNG& rng) { BaseElemWiseOp::generateScalars(depth, rng); @@ -437,7 +437,7 @@ struct CmpOp : public BaseElemWiseOp struct CmpSOp : public BaseElemWiseOp { - CmpSOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+REAL_GAMMA, 1, 1, Scalar::all(0)) {}; + CmpSOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+REAL_GAMMA, 1, 1, Scalar::all(0)) {} void generateScalars(int depth, RNG& rng) { BaseElemWiseOp::generateScalars(depth, rng); @@ -467,7 +467,7 @@ struct CmpSOp : public BaseElemWiseOp struct CopyOp : public BaseElemWiseOp { - CopyOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+FIX_GAMMA+SUPPORT_MASK, 1, 1, Scalar::all(0)) {}; + CopyOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+FIX_GAMMA+SUPPORT_MASK, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat& mask) { src[0].copyTo(dst, mask); @@ -490,7 +490,7 @@ struct CopyOp : public BaseElemWiseOp struct SetOp : public BaseElemWiseOp { - SetOp() : BaseElemWiseOp(0, FIX_ALPHA+FIX_BETA+SUPPORT_MASK, 1, 1, Scalar::all(0)) {}; + SetOp() : BaseElemWiseOp(0, FIX_ALPHA+FIX_BETA+SUPPORT_MASK, 1, 1, Scalar::all(0)) {} void op(const vector&, Mat& dst, const Mat& mask) { dst.setTo(gamma, mask); @@ -651,7 +651,7 @@ static void inRangeS(const Mat& src, const Scalar& lb, const Scalar& rb, Mat& ds struct InRangeSOp : public BaseElemWiseOp { - InRangeSOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA, 1, 1, Scalar::all(0)) {}; + InRangeSOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { cv::inRange(src[0], gamma, gamma1, dst); @@ -681,7 +681,7 @@ struct InRangeSOp : public BaseElemWiseOp struct InRangeOp : public BaseElemWiseOp { - InRangeOp() : BaseElemWiseOp(3, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + InRangeOp() : BaseElemWiseOp(3, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { Mat lb, rb; @@ -707,7 +707,7 @@ struct InRangeOp : public BaseElemWiseOp struct ConvertScaleOp : public BaseElemWiseOp { - ConvertScaleOp() : BaseElemWiseOp(1, FIX_BETA+REAL_GAMMA, 1, 1, Scalar::all(0)), ddepth(0) { }; + ConvertScaleOp() : BaseElemWiseOp(1, FIX_BETA+REAL_GAMMA, 1, 1, Scalar::all(0)), ddepth(0) { } void op(const vector& src, Mat& dst, const Mat&) { src[0].convertTo(dst, ddepth, alpha, gamma[0]); @@ -742,7 +742,7 @@ struct ConvertScaleOp : public BaseElemWiseOp struct ConvertScaleAbsOp : public BaseElemWiseOp { - ConvertScaleAbsOp() : BaseElemWiseOp(1, FIX_BETA+REAL_GAMMA, 1, 1, Scalar::all(0)) {}; + ConvertScaleAbsOp() : BaseElemWiseOp(1, FIX_BETA+REAL_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector& src, Mat& dst, const Mat&) { cv::convertScaleAbs(src[0], dst, alpha, gamma[0]); @@ -810,7 +810,7 @@ static void setIdentity(Mat& dst, const Scalar& s) struct FlipOp : public BaseElemWiseOp { - FlipOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + FlipOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void getRandomSize(RNG& rng, vector& size) { cvtest::randomSize(rng, 2, 2, cvtest::ARITHM_MAX_SIZE_LOG, size); @@ -836,7 +836,7 @@ struct FlipOp : public BaseElemWiseOp struct TransposeOp : public BaseElemWiseOp { - TransposeOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + TransposeOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void getRandomSize(RNG& rng, vector& size) { cvtest::randomSize(rng, 2, 2, cvtest::ARITHM_MAX_SIZE_LOG, size); @@ -857,7 +857,7 @@ struct TransposeOp : public BaseElemWiseOp struct SetIdentityOp : public BaseElemWiseOp { - SetIdentityOp() : BaseElemWiseOp(0, FIX_ALPHA+FIX_BETA, 1, 1, Scalar::all(0)) {}; + SetIdentityOp() : BaseElemWiseOp(0, FIX_ALPHA+FIX_BETA, 1, 1, Scalar::all(0)) {} void getRandomSize(RNG& rng, vector& size) { cvtest::randomSize(rng, 2, 2, cvtest::ARITHM_MAX_SIZE_LOG, size); @@ -878,7 +878,7 @@ struct SetIdentityOp : public BaseElemWiseOp struct SetZeroOp : public BaseElemWiseOp { - SetZeroOp() : BaseElemWiseOp(0, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + SetZeroOp() : BaseElemWiseOp(0, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} void op(const vector&, Mat& dst, const Mat&) { dst = Scalar::all(0); @@ -954,7 +954,7 @@ static void log(const Mat& src, Mat& dst) struct ExpOp : public BaseElemWiseOp { - ExpOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + ExpOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} int getRandomType(RNG& rng) { return cvtest::randomType(rng, DEPTH_MASK_FLT, 1, ARITHM_MAX_CHANNELS); @@ -981,7 +981,7 @@ struct ExpOp : public BaseElemWiseOp struct LogOp : public BaseElemWiseOp { - LogOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {}; + LogOp() : BaseElemWiseOp(1, FIX_ALPHA+FIX_BETA+FIX_GAMMA, 1, 1, Scalar::all(0)) {} int getRandomType(RNG& rng) { return cvtest::randomType(rng, DEPTH_MASK_FLT, 1, ARITHM_MAX_CHANNELS); diff --git a/modules/features2d/src/features2d_init.cpp b/modules/features2d/src/features2d_init.cpp index 13ef0f8ae..e12310a3b 100644 --- a/modules/features2d/src/features2d_init.cpp +++ b/modules/features2d/src/features2d_init.cpp @@ -59,23 +59,23 @@ Ptr Feature2D::create( const string& feature2DType ) CV_INIT_ALGORITHM(BRISK, "Feature2D.BRISK", obj.info()->addParam(obj, "thres", obj.threshold); - obj.info()->addParam(obj, "octaves", obj.octaves)); + obj.info()->addParam(obj, "octaves", obj.octaves)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// CV_INIT_ALGORITHM(BriefDescriptorExtractor, "Feature2D.BRIEF", - obj.info()->addParam(obj, "bytes", obj.bytes_)); + obj.info()->addParam(obj, "bytes", obj.bytes_)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// CV_INIT_ALGORITHM(FastFeatureDetector, "Feature2D.FAST", obj.info()->addParam(obj, "threshold", obj.threshold); - obj.info()->addParam(obj, "nonmaxSuppression", obj.nonmaxSuppression)); + obj.info()->addParam(obj, "nonmaxSuppression", obj.nonmaxSuppression)) CV_INIT_ALGORITHM(FastFeatureDetector2, "Feature2D.FASTX", obj.info()->addParam(obj, "threshold", obj.threshold); obj.info()->addParam(obj, "nonmaxSuppression", obj.nonmaxSuppression); - obj.info()->addParam(obj, "type", obj.type)); + obj.info()->addParam(obj, "type", obj.type)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -84,7 +84,7 @@ CV_INIT_ALGORITHM(StarDetector, "Feature2D.STAR", obj.info()->addParam(obj, "responseThreshold", obj.responseThreshold); obj.info()->addParam(obj, "lineThresholdProjected", obj.lineThresholdProjected); obj.info()->addParam(obj, "lineThresholdBinarized", obj.lineThresholdBinarized); - obj.info()->addParam(obj, "suppressNonmaxSize", obj.suppressNonmaxSize)); + obj.info()->addParam(obj, "suppressNonmaxSize", obj.suppressNonmaxSize)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -97,7 +97,7 @@ CV_INIT_ALGORITHM(MSER, "Feature2D.MSER", obj.info()->addParam(obj, "maxEvolution", obj.maxEvolution); obj.info()->addParam(obj, "areaThreshold", obj.areaThreshold); obj.info()->addParam(obj, "minMargin", obj.minMargin); - obj.info()->addParam(obj, "edgeBlurSize", obj.edgeBlurSize)); + obj.info()->addParam(obj, "edgeBlurSize", obj.edgeBlurSize)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -109,7 +109,7 @@ CV_INIT_ALGORITHM(ORB, "Feature2D.ORB", obj.info()->addParam(obj, "edgeThreshold", obj.edgeThreshold); obj.info()->addParam(obj, "patchSize", obj.patchSize); obj.info()->addParam(obj, "WTA_K", obj.WTA_K); - obj.info()->addParam(obj, "scoreType", obj.scoreType)); + obj.info()->addParam(obj, "scoreType", obj.scoreType)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -117,7 +117,7 @@ CV_INIT_ALGORITHM(FREAK, "Feature2D.FREAK", obj.info()->addParam(obj, "orientationNormalized", obj.orientationNormalized); obj.info()->addParam(obj, "scaleNormalized", obj.scaleNormalized); obj.info()->addParam(obj, "patternScale", obj.patternScale); - obj.info()->addParam(obj, "nbOctave", obj.nOctaves)); + obj.info()->addParam(obj, "nbOctave", obj.nOctaves)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -126,7 +126,7 @@ CV_INIT_ALGORITHM(GFTTDetector, "Feature2D.GFTT", obj.info()->addParam(obj, "qualityLevel", obj.qualityLevel); obj.info()->addParam(obj, "minDistance", obj.minDistance); obj.info()->addParam(obj, "useHarrisDetector", obj.useHarrisDetector); - obj.info()->addParam(obj, "k", obj.k)); + obj.info()->addParam(obj, "k", obj.k)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -146,7 +146,7 @@ CV_INIT_ALGORITHM(SimpleBlobDetector, "Feature2D.SimpleBlob", obj.info()->addParam(obj, "maxInertiaRatio", obj.params.maxInertiaRatio); obj.info()->addParam(obj, "filterByConvexity", obj.params.filterByConvexity); obj.info()->addParam(obj, "maxConvexity", obj.params.maxConvexity); - ); + ) /////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -167,7 +167,7 @@ CV_INIT_ALGORITHM(HarrisDetector, "Feature2D.HARRIS", obj.info()->addParam(obj, "qualityLevel", obj.qualityLevel); obj.info()->addParam(obj, "minDistance", obj.minDistance); obj.info()->addParam(obj, "useHarrisDetector", obj.useHarrisDetector); - obj.info()->addParam(obj, "k", obj.k)); + obj.info()->addParam(obj, "k", obj.k)) //////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -178,21 +178,21 @@ CV_INIT_ALGORITHM(DenseFeatureDetector, "Feature2D.Dense", obj.info()->addParam(obj, "initXyStep", obj.initXyStep); obj.info()->addParam(obj, "initImgBound", obj.initImgBound); obj.info()->addParam(obj, "varyXyStepWithScale", obj.varyXyStepWithScale); - obj.info()->addParam(obj, "varyImgBoundWithScale", obj.varyImgBoundWithScale)); + obj.info()->addParam(obj, "varyImgBoundWithScale", obj.varyImgBoundWithScale)) CV_INIT_ALGORITHM(GridAdaptedFeatureDetector, "Feature2D.Grid", obj.info()->addParam(obj, "detector", obj.detector, false, 0, 0); // Extra params added to avoid VS2013 fatal error in opencv2/core.hpp (decl. of addParam) obj.info()->addParam(obj, "maxTotalKeypoints", obj.maxTotalKeypoints); obj.info()->addParam(obj, "gridRows", obj.gridRows); - obj.info()->addParam(obj, "gridCols", obj.gridCols)); + obj.info()->addParam(obj, "gridCols", obj.gridCols)) //////////////////////////////////////////////////////////////////////////////////////////////////////////// CV_INIT_ALGORITHM(BFMatcher, "DescriptorMatcher.BFMatcher", obj.info()->addParam(obj, "normType", obj.normType); - obj.info()->addParam(obj, "crossCheck", obj.crossCheck)); + obj.info()->addParam(obj, "crossCheck", obj.crossCheck)) -CV_INIT_ALGORITHM(FlannBasedMatcher, "DescriptorMatcher.FlannBasedMatcher",); +CV_INIT_ALGORITHM(FlannBasedMatcher, "DescriptorMatcher.FlannBasedMatcher",) /////////////////////////////////////////////////////////////////////////////////////////////////////////// diff --git a/modules/gpu/include/opencv2/gpu/gpu.hpp b/modules/gpu/include/opencv2/gpu/gpu.hpp index e2fc99b90..e040ccfdd 100644 --- a/modules/gpu/include/opencv2/gpu/gpu.hpp +++ b/modules/gpu/include/opencv2/gpu/gpu.hpp @@ -2443,7 +2443,7 @@ public: Uncompressed_YV12 = (('Y'<<24)|('V'<<16)|('1'<<8)|('2')), // Y,V,U (4:2:0) Uncompressed_NV12 = (('N'<<24)|('V'<<16)|('1'<<8)|('2')), // Y,UV (4:2:0) Uncompressed_YUYV = (('Y'<<24)|('U'<<16)|('Y'<<8)|('V')), // YUYV/YUY2 (4:2:2) - Uncompressed_UYVY = (('U'<<24)|('Y'<<16)|('V'<<8)|('Y')), // UYVY (4:2:2) + Uncompressed_UYVY = (('U'<<24)|('Y'<<16)|('V'<<8)|('Y')) // UYVY (4:2:2) }; enum ChromaFormat @@ -2451,7 +2451,7 @@ public: Monochrome=0, YUV420, YUV422, - YUV444, + YUV444 }; struct FormatInfo diff --git a/modules/gpu/perf/perf_imgproc.cpp b/modules/gpu/perf/perf_imgproc.cpp index d942bed61..4093b16e7 100644 --- a/modules/gpu/perf/perf_imgproc.cpp +++ b/modules/gpu/perf/perf_imgproc.cpp @@ -50,7 +50,7 @@ using namespace perf; // Remap enum { HALF_SIZE=0, UPSIDE_DOWN, REFLECTION_X, REFLECTION_BOTH }; -CV_ENUM(RemapMode, HALF_SIZE, UPSIDE_DOWN, REFLECTION_X, REFLECTION_BOTH); +CV_ENUM(RemapMode, HALF_SIZE, UPSIDE_DOWN, REFLECTION_X, REFLECTION_BOTH) void generateMap(cv::Mat& map_x, cv::Mat& map_y, int remapMode) { @@ -941,7 +941,7 @@ PERF_TEST_P(Sz_TemplateSz_Cn_Method, ImgProc_MatchTemplate8U, CPU_SANITY_CHECK(dst); } -}; +} //////////////////////////////////////////////////////////////////////////////// // MatchTemplate32F @@ -981,7 +981,7 @@ PERF_TEST_P(Sz_TemplateSz_Cn_Method, ImgProc_MatchTemplate32F, CPU_SANITY_CHECK(dst); } -}; +} ////////////////////////////////////////////////////////////////////// // MulSpectrums @@ -1821,7 +1821,7 @@ PERF_TEST_P(Sz_Dp_MinDist, ImgProc_HoughCircles, ////////////////////////////////////////////////////////////////////// // GeneralizedHough -CV_FLAGS(GHMethod, GHT_POSITION, GHT_SCALE, GHT_ROTATION); +CV_FLAGS(GHMethod, GHT_POSITION, GHT_SCALE, GHT_ROTATION) DEF_PARAM_TEST(Method_Sz, GHMethod, cv::Size); diff --git a/modules/highgui/src/bitstrm.hpp b/modules/highgui/src/bitstrm.hpp index e476d9c56..57956beb5 100644 --- a/modules/highgui/src/bitstrm.hpp +++ b/modules/highgui/src/bitstrm.hpp @@ -53,7 +53,7 @@ enum RBS_THROW_EOS=-123, // exception code RBS_THROW_FORB=-124, // exception code RBS_HUFF_FORB=2047, // forrbidden huffman code "value" - RBS_BAD_HEADER=-125, // invalid header + RBS_BAD_HEADER=-125 // invalid header }; typedef unsigned long ulong; diff --git a/modules/highgui/src/cap_ffmpeg_impl.hpp b/modules/highgui/src/cap_ffmpeg_impl.hpp index 151a0cac2..2b185595d 100644 --- a/modules/highgui/src/cap_ffmpeg_impl.hpp +++ b/modules/highgui/src/cap_ffmpeg_impl.hpp @@ -2066,7 +2066,7 @@ enum VideoCodec_YV12 = (('Y'<<24)|('V'<<16)|('1'<<8)|('2')), // Y,V,U (4:2:0) VideoCodec_NV12 = (('N'<<24)|('V'<<16)|('1'<<8)|('2')), // Y,UV (4:2:0) VideoCodec_YUYV = (('Y'<<24)|('U'<<16)|('Y'<<8)|('V')), // YUYV/YUY2 (4:2:2) - VideoCodec_UYVY = (('U'<<24)|('Y'<<16)|('V'<<8)|('Y')), // UYVY (4:2:2) + VideoCodec_UYVY = (('U'<<24)|('Y'<<16)|('V'<<8)|('Y')) // UYVY (4:2:2) }; enum @@ -2074,7 +2074,7 @@ enum VideoChromaFormat_Monochrome = 0, VideoChromaFormat_YUV420, VideoChromaFormat_YUV422, - VideoChromaFormat_YUV444, + VideoChromaFormat_YUV444 }; struct InputMediaStream_FFMPEG diff --git a/modules/imgproc/perf/perf_filter2d.cpp b/modules/imgproc/perf/perf_filter2d.cpp index b897d6ac0..98992e98e 100644 --- a/modules/imgproc/perf/perf_filter2d.cpp +++ b/modules/imgproc/perf/perf_filter2d.cpp @@ -8,7 +8,7 @@ using std::tr1::make_tuple; using std::tr1::get; -CV_ENUM(BorderMode, BORDER_CONSTANT, BORDER_REPLICATE, BORDER_REFLECT_101); +CV_ENUM(BorderMode, BORDER_CONSTANT, BORDER_REPLICATE, BORDER_REFLECT_101) typedef TestBaseWithParam< tr1::tuple > TestFilter2d; typedef TestBaseWithParam< tr1::tuple > Image_KernelSize; diff --git a/modules/imgproc/src/gcgraph.hpp b/modules/imgproc/src/gcgraph.hpp index 59c9744e7..92b9e124b 100644 --- a/modules/imgproc/src/gcgraph.hpp +++ b/modules/imgproc/src/gcgraph.hpp @@ -380,6 +380,6 @@ bool GCGraph::inSourceSegment( int i ) { CV_Assert( i>=0 && i<(int)vtcs.size() ); return vtcs[i].t == 0; -}; +} #endif diff --git a/modules/imgproc/src/generalized_hough.cpp b/modules/imgproc/src/generalized_hough.cpp index 846a55fe9..8d0ac753f 100644 --- a/modules/imgproc/src/generalized_hough.cpp +++ b/modules/imgproc/src/generalized_hough.cpp @@ -300,7 +300,7 @@ namespace obj.info()->addParam(obj, "votesThreshold", obj.votesThreshold, false, 0, 0, "The accumulator threshold for the template centers at the detection stage. The smaller it is, the more false positions may be detected."); obj.info()->addParam(obj, "dp", obj.dp, false, 0, 0, - "Inverse ratio of the accumulator resolution to the image resolution.")); + "Inverse ratio of the accumulator resolution to the image resolution.")) GHT_Ballard_Pos::GHT_Ballard_Pos() { @@ -466,7 +466,7 @@ namespace obj.info()->addParam(obj, "maxScale", obj.maxScale, false, 0, 0, "Maximal scale to detect."); obj.info()->addParam(obj, "scaleStep", obj.scaleStep, false, 0, 0, - "Scale step.")); + "Scale step.")) GHT_Ballard_PosScale::GHT_Ballard_PosScale() { @@ -631,7 +631,7 @@ namespace obj.info()->addParam(obj, "maxAngle", obj.maxAngle, false, 0, 0, "Maximal rotation angle to detect in degrees."); obj.info()->addParam(obj, "angleStep", obj.angleStep, false, 0, 0, - "Angle step in degrees.")); + "Angle step in degrees.")) GHT_Ballard_PosRotation::GHT_Ballard_PosRotation() { @@ -878,7 +878,7 @@ namespace obj.info()->addParam(obj, "dp", obj.dp, false, 0, 0, "Inverse ratio of the accumulator resolution to the image resolution."); obj.info()->addParam(obj, "posThresh", obj.posThresh, false, 0, 0, - "Position threshold.")); + "Position threshold.")) GHT_Guil_Full::GHT_Guil_Full() { diff --git a/modules/imgproc/test/test_cvtyuv.cpp b/modules/imgproc/test/test_cvtyuv.cpp index bd8d95dc7..0cce64cdb 100644 --- a/modules/imgproc/test/test_cvtyuv.cpp +++ b/modules/imgproc/test/test_cvtyuv.cpp @@ -603,7 +603,7 @@ CV_ENUM(YUVCVTS, CV_YUV2RGB_NV12, CV_YUV2BGR_NV12, CV_YUV2RGB_NV21, CV_YUV2BGR_N CV_YUV2RGBA_YUY2, CV_YUV2BGRA_YUY2, CV_YUV2RGBA_YVYU, CV_YUV2BGRA_YVYU, CV_YUV2GRAY_420, CV_YUV2GRAY_UYVY, CV_YUV2GRAY_YUY2, CV_YUV2BGR, CV_YUV2RGB, CV_RGB2YUV_YV12, CV_BGR2YUV_YV12, CV_RGBA2YUV_YV12, - CV_BGRA2YUV_YV12, CV_RGB2YUV_I420, CV_BGR2YUV_I420, CV_RGBA2YUV_I420, CV_BGRA2YUV_I420); + CV_BGRA2YUV_YV12, CV_RGB2YUV_I420, CV_BGR2YUV_I420, CV_RGBA2YUV_I420, CV_BGRA2YUV_I420) typedef ::testing::TestWithParam Imgproc_ColorYUV; diff --git a/modules/legacy/src/blobtrack.cpp b/modules/legacy/src/blobtrack.cpp index 48b83ef91..00e4905cc 100644 --- a/modules/legacy/src/blobtrack.cpp +++ b/modules/legacy/src/blobtrack.cpp @@ -205,7 +205,7 @@ double CvVSModule::GetParam(const char* name) if(p->pInt) return p->pInt[0]; } return 0; -}; +} const char* CvVSModule::GetParamStr(const char* name) { diff --git a/modules/legacy/src/enteringblobdetection.cpp b/modules/legacy/src/enteringblobdetection.cpp index d66a997a7..a383bcf67 100644 --- a/modules/legacy/src/enteringblobdetection.cpp +++ b/modules/legacy/src/enteringblobdetection.cpp @@ -209,7 +209,7 @@ public: CvBlobDetectorSimple(); ~CvBlobDetectorSimple(); int DetectNewBlob(IplImage* pImg, IplImage* pFGMask, CvBlobSeq* pNewBlobList, CvBlobSeq* pOldBlobList); - void Release(){delete this;}; + void Release(){delete this;} protected: IplImage* m_pMaskBlobNew; @@ -219,7 +219,7 @@ protected: }; /* Blob detector creator (sole interface function for this file) */ -CvBlobDetector* cvCreateBlobDetectorSimple(){return new CvBlobDetectorSimple;}; +CvBlobDetector* cvCreateBlobDetectorSimple(){return new CvBlobDetectorSimple;} /* Constructor of BlobDetector: */ CvBlobDetectorSimple::CvBlobDetectorSimple() diff --git a/modules/legacy/src/vecfacetracking.cpp b/modules/legacy/src/vecfacetracking.cpp index bcf309f70..b29b6b27f 100644 --- a/modules/legacy/src/vecfacetracking.cpp +++ b/modules/legacy/src/vecfacetracking.cpp @@ -52,7 +52,7 @@ enum { MOUTH = 0, LEYE = 1, - REYE = 2, + REYE = 2 }; #define MAX_LAYERS 64 diff --git a/modules/ml/src/ml_init.cpp b/modules/ml/src/ml_init.cpp index 276f6f5d4..c6cb594ef 100644 --- a/modules/ml/src/ml_init.cpp +++ b/modules/ml/src/ml_init.cpp @@ -52,7 +52,7 @@ CV_INIT_ALGORITHM(EM, "StatModel.EM", obj.info()->addParam(obj, "epsilon", obj.epsilon); obj.info()->addParam(obj, "weights", obj.weights, true); obj.info()->addParam(obj, "means", obj.means, true); - obj.info()->addParam(obj, "covs", obj.covs, true)); + obj.info()->addParam(obj, "covs", obj.covs, true)) bool initModule_ml(void) { diff --git a/modules/nonfree/src/nonfree_init.cpp b/modules/nonfree/src/nonfree_init.cpp index 3c530e325..f18e7d81d 100644 --- a/modules/nonfree/src/nonfree_init.cpp +++ b/modules/nonfree/src/nonfree_init.cpp @@ -52,7 +52,7 @@ CV_INIT_ALGORITHM(SURF, "Feature2D.SURF", obj.info()->addParam(obj, "nOctaves", obj.nOctaves); obj.info()->addParam(obj, "nOctaveLayers", obj.nOctaveLayers); obj.info()->addParam(obj, "extended", obj.extended); - obj.info()->addParam(obj, "upright", obj.upright)); + obj.info()->addParam(obj, "upright", obj.upright)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -61,7 +61,7 @@ CV_INIT_ALGORITHM(SIFT, "Feature2D.SIFT", obj.info()->addParam(obj, "nOctaveLayers", obj.nOctaveLayers); obj.info()->addParam(obj, "contrastThreshold", obj.contrastThreshold); obj.info()->addParam(obj, "edgeThreshold", obj.edgeThreshold); - obj.info()->addParam(obj, "sigma", obj.sigma)); + obj.info()->addParam(obj, "sigma", obj.sigma)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// diff --git a/modules/ocl/include/opencv2/ocl/ocl.hpp b/modules/ocl/include/opencv2/ocl/ocl.hpp index ff35d14e7..9ea5f6652 100644 --- a/modules/ocl/include/opencv2/ocl/ocl.hpp +++ b/modules/ocl/include/opencv2/ocl/ocl.hpp @@ -204,7 +204,7 @@ namespace cv CACHE_NONE = 0, // do not cache OpenCL binary CACHE_DEBUG = 0x1 << 0, // cache OpenCL binary when built in debug mode CACHE_RELEASE = 0x1 << 1, // default behavior, only cache when built in release mode - CACHE_ALL = CACHE_DEBUG | CACHE_RELEASE, // cache opencl binary + CACHE_ALL = CACHE_DEBUG | CACHE_RELEASE // cache opencl binary }; //! Enable or disable OpenCL program binary caching onto local disk // After a program (*.cl files in opencl/ folder) is built at runtime, we allow the diff --git a/modules/ocl/include/opencv2/ocl/private/opencl_utils.hpp b/modules/ocl/include/opencv2/ocl/private/opencl_utils.hpp index 70c45d3dd..a737f75a5 100644 --- a/modules/ocl/include/opencv2/ocl/private/opencl_utils.hpp +++ b/modules/ocl/include/opencv2/ocl/private/opencl_utils.hpp @@ -108,7 +108,7 @@ inline cl_int getStringInfo(Functor f, ObjectType obj, cl_uint name, std::string } return CL_SUCCESS; -}; +} } // namespace cl_utils diff --git a/modules/ocl/test/test_canny.cpp b/modules/ocl/test/test_canny.cpp index 82286031f..6bd7f26ad 100644 --- a/modules/ocl/test/test_canny.cpp +++ b/modules/ocl/test/test_canny.cpp @@ -48,8 +48,8 @@ //////////////////////////////////////////////////////// // Canny -IMPLEMENT_PARAM_CLASS(AppertureSize, int); -IMPLEMENT_PARAM_CLASS(L2gradient, bool); +IMPLEMENT_PARAM_CLASS(AppertureSize, int) +IMPLEMENT_PARAM_CLASS(L2gradient, bool) PARAM_TEST_CASE(Canny, AppertureSize, L2gradient) { diff --git a/modules/ocl/test/test_match_template.cpp b/modules/ocl/test/test_match_template.cpp index edbc36a3f..aa63f3d9e 100644 --- a/modules/ocl/test/test_match_template.cpp +++ b/modules/ocl/test/test_match_template.cpp @@ -50,7 +50,7 @@ // MatchTemplate #define ALL_TEMPLATE_METHODS testing::Values(TemplateMethod(cv::TM_SQDIFF), TemplateMethod(cv::TM_CCORR), TemplateMethod(cv::TM_CCOEFF), TemplateMethod(cv::TM_SQDIFF_NORMED), TemplateMethod(cv::TM_CCORR_NORMED), TemplateMethod(cv::TM_CCOEFF_NORMED)) -IMPLEMENT_PARAM_CLASS(TemplateSize, cv::Size); +IMPLEMENT_PARAM_CLASS(TemplateSize, cv::Size) #define MTEMP_SIZES testing::Values(cv::Size(128, 256), cv::Size(1024, 768)) diff --git a/modules/ocl/test/test_objdetect.cpp b/modules/ocl/test/test_objdetect.cpp index 89f45b07c..604a96a43 100644 --- a/modules/ocl/test/test_objdetect.cpp +++ b/modules/ocl/test/test_objdetect.cpp @@ -181,7 +181,7 @@ INSTANTIATE_TEST_CASE_P(OCL_ObjDetect, HOG, testing::Combine( testing::Values(MatType(CV_8UC1), MatType(CV_8UC4)))); ///////////////////////////// Haar ////////////////////////////// -IMPLEMENT_PARAM_CLASS(CascadeName, std::string); +IMPLEMENT_PARAM_CLASS(CascadeName, std::string) CascadeName cascade_frontalface_alt(std::string("haarcascade_frontalface_alt.xml")); CascadeName cascade_frontalface_alt2(std::string("haarcascade_frontalface_alt2.xml")); struct getRect diff --git a/modules/ocl/test/utility.hpp b/modules/ocl/test/utility.hpp index a1fe3ffb7..6591456ee 100644 --- a/modules/ocl/test/utility.hpp +++ b/modules/ocl/test/utility.hpp @@ -266,7 +266,7 @@ CV_ENUM(Interpolation, INTER_NEAREST, INTER_LINEAR, INTER_CUBIC, INTER_AREA) CV_ENUM(Border, BORDER_REFLECT101, BORDER_REPLICATE, BORDER_CONSTANT, BORDER_REFLECT, BORDER_WRAP) CV_ENUM(TemplateMethod, TM_SQDIFF, TM_SQDIFF_NORMED, TM_CCORR, TM_CCORR_NORMED, TM_CCOEFF, TM_CCOEFF_NORMED) -CV_FLAGS(GemmFlags, GEMM_1_T, GEMM_2_T, GEMM_3_T); +CV_FLAGS(GemmFlags, GEMM_1_T, GEMM_2_T, GEMM_3_T) CV_FLAGS(WarpFlags, INTER_NEAREST, INTER_LINEAR, INTER_CUBIC, WARP_INVERSE_MAP) CV_FLAGS(DftFlags, DFT_INVERSE, DFT_SCALE, DFT_ROWS, DFT_COMPLEX_OUTPUT, DFT_REAL_OUTPUT) diff --git a/modules/superres/src/btv_l1.cpp b/modules/superres/src/btv_l1.cpp index 0d96a9d17..d49bcf32b 100644 --- a/modules/superres/src/btv_l1.cpp +++ b/modules/superres/src/btv_l1.cpp @@ -488,7 +488,7 @@ namespace obj.info()->addParam(obj, "blurKernelSize", obj.blurKernelSize_, false, 0, 0, "Gaussian blur kernel size."); obj.info()->addParam(obj, "blurSigma", obj.blurSigma_, false, 0, 0, "Gaussian blur sigma."); obj.info()->addParam(obj, "temporalAreaRadius", obj.temporalAreaRadius_, false, 0, 0, "Radius of the temporal search area."); - obj.info()->addParam(obj, "opticalFlow", obj.opticalFlow_, false, 0, 0, "Dense optical flow algorithm.")); + obj.info()->addParam(obj, "opticalFlow", obj.opticalFlow_, false, 0, 0, "Dense optical flow algorithm.")) BTVL1::BTVL1() { diff --git a/modules/superres/src/btv_l1_ocl.cpp b/modules/superres/src/btv_l1_ocl.cpp index b4f4acdaf..69564ef0d 100644 --- a/modules/superres/src/btv_l1_ocl.cpp +++ b/modules/superres/src/btv_l1_ocl.cpp @@ -580,7 +580,7 @@ namespace obj.info()->addParam(obj, "blurKernelSize", obj.blurKernelSize_, false, 0, 0, "Gaussian blur kernel size."); obj.info()->addParam(obj, "blurSigma", obj.blurSigma_, false, 0, 0, "Gaussian blur sigma."); obj.info()->addParam(obj, "temporalAreaRadius", obj.temporalAreaRadius_, false, 0, 0, "Radius of the temporal search area."); - obj.info()->addParam(obj, "opticalFlow", obj.opticalFlow_, false, 0, 0, "Dense optical flow algorithm.")); + obj.info()->addParam(obj, "opticalFlow", obj.opticalFlow_, false, 0, 0, "Dense optical flow algorithm.")) BTVL1_OCL::BTVL1_OCL() { diff --git a/modules/superres/src/optical_flow.cpp b/modules/superres/src/optical_flow.cpp index 9df4c3b79..e1e8a1027 100644 --- a/modules/superres/src/optical_flow.cpp +++ b/modules/superres/src/optical_flow.cpp @@ -149,7 +149,7 @@ namespace obj.info()->addParam(obj, "numIters", obj.numIters_); obj.info()->addParam(obj, "polyN", obj.polyN_); obj.info()->addParam(obj, "polySigma", obj.polySigma_); - obj.info()->addParam(obj, "flags", obj.flags_)); + obj.info()->addParam(obj, "flags", obj.flags_)) Farneback::Farneback() : CpuOpticalFlow(CV_8UC1) { @@ -217,7 +217,7 @@ namespace obj.info()->addParam(obj, "upscaleAveragingRadius", obj.upscaleAveragingRadius_); obj.info()->addParam(obj, "upscaleSigmaDist", obj.upscaleSigmaDist_); obj.info()->addParam(obj, "upscaleSigmaColor", obj.upscaleSigmaColor_); - obj.info()->addParam(obj, "speedUpThr", obj.speedUpThr_)); + obj.info()->addParam(obj, "speedUpThr", obj.speedUpThr_)) Simple::Simple() : CpuOpticalFlow(CV_8UC3) { @@ -300,7 +300,7 @@ namespace obj.info()->addParam(obj, "warps", obj.warps_); obj.info()->addParam(obj, "epsilon", obj.epsilon_); obj.info()->addParam(obj, "iterations", obj.iterations_); - obj.info()->addParam(obj, "useInitialFlow", obj.useInitialFlow_)); + obj.info()->addParam(obj, "useInitialFlow", obj.useInitialFlow_)) DualTVL1::DualTVL1() : CpuOpticalFlow(CV_8UC1) { @@ -471,7 +471,7 @@ namespace obj.info()->addParam(obj, "scaleFactor", obj.scaleFactor_, false, 0, 0, "Pyramid scale factor"); obj.info()->addParam(obj, "innerIterations", obj.innerIterations_, false, 0, 0, "Number of lagged non-linearity iterations (inner loop)"); obj.info()->addParam(obj, "outerIterations", obj.outerIterations_, false, 0, 0, "Number of warping iterations (number of pyramid levels)"); - obj.info()->addParam(obj, "solverIterations", obj.solverIterations_, false, 0, 0, "Number of linear system solver iterations")); + obj.info()->addParam(obj, "solverIterations", obj.solverIterations_, false, 0, 0, "Number of linear system solver iterations")) Brox_GPU::Brox_GPU() : GpuOpticalFlow(CV_32FC1), alg_(0.197f, 50.0f, 0.8f, 10, 77, 10) { @@ -535,7 +535,7 @@ namespace CV_INIT_ALGORITHM(PyrLK_GPU, "DenseOpticalFlowExt.PyrLK_GPU", obj.info()->addParam(obj, "winSize", obj.winSize_); obj.info()->addParam(obj, "maxLevel", obj.maxLevel_); - obj.info()->addParam(obj, "iterations", obj.iterations_)); + obj.info()->addParam(obj, "iterations", obj.iterations_)) PyrLK_GPU::PyrLK_GPU() : GpuOpticalFlow(CV_8UC1) { @@ -602,7 +602,7 @@ namespace obj.info()->addParam(obj, "numIters", obj.numIters_); obj.info()->addParam(obj, "polyN", obj.polyN_); obj.info()->addParam(obj, "polySigma", obj.polySigma_); - obj.info()->addParam(obj, "flags", obj.flags_)); + obj.info()->addParam(obj, "flags", obj.flags_)) Farneback_GPU::Farneback_GPU() : GpuOpticalFlow(CV_8UC1) { @@ -678,7 +678,7 @@ namespace obj.info()->addParam(obj, "warps", obj.warps_); obj.info()->addParam(obj, "epsilon", obj.epsilon_); obj.info()->addParam(obj, "iterations", obj.iterations_); - obj.info()->addParam(obj, "useInitialFlow", obj.useInitialFlow_)); + obj.info()->addParam(obj, "useInitialFlow", obj.useInitialFlow_)) DualTVL1_GPU::DualTVL1_GPU() : GpuOpticalFlow(CV_8UC1) { @@ -800,7 +800,7 @@ namespace CV_INIT_ALGORITHM(PyrLK_OCL, "DenseOpticalFlowExt.PyrLK_OCL", obj.info()->addParam(obj, "winSize", obj.winSize_); obj.info()->addParam(obj, "maxLevel", obj.maxLevel_); - obj.info()->addParam(obj, "iterations", obj.iterations_)); + obj.info()->addParam(obj, "iterations", obj.iterations_)) PyrLK_OCL::PyrLK_OCL() : oclOpticalFlow(CV_8UC1) { @@ -869,7 +869,7 @@ namespace obj.info()->addParam(obj, "warps", obj.warps_); obj.info()->addParam(obj, "epsilon", obj.epsilon_); obj.info()->addParam(obj, "iterations", obj.iterations_); - obj.info()->addParam(obj, "useInitialFlow", obj.useInitialFlow_)); + obj.info()->addParam(obj, "useInitialFlow", obj.useInitialFlow_)) DualTVL1_OCL::DualTVL1_OCL() : oclOpticalFlow(CV_8UC1) { @@ -946,7 +946,7 @@ namespace obj.info()->addParam(obj, "numIters", obj.numIters_); obj.info()->addParam(obj, "polyN", obj.polyN_); obj.info()->addParam(obj, "polySigma", obj.polySigma_); - obj.info()->addParam(obj, "flags", obj.flags_)); + obj.info()->addParam(obj, "flags", obj.flags_)) FarneBack_OCL::FarneBack_OCL() : oclOpticalFlow(CV_8UC1) { diff --git a/modules/ts/include/opencv2/ts/ts_perf.hpp b/modules/ts/include/opencv2/ts/ts_perf.hpp index 9238b3e34..e32057de2 100644 --- a/modules/ts/include/opencv2/ts/ts_perf.hpp +++ b/modules/ts/include/opencv2/ts/ts_perf.hpp @@ -258,7 +258,7 @@ typedef struct CV_EXPORTS performance_metrics enum PERF_STRATEGY { PERF_STRATEGY_BASE = 0, - PERF_STRATEGY_SIMPLE = 1, + PERF_STRATEGY_SIMPLE = 1 }; diff --git a/modules/video/perf/perf_optflowpyrlk.cpp b/modules/video/perf/perf_optflowpyrlk.cpp index 8c53db03a..25310af0e 100644 --- a/modules/video/perf/perf_optflowpyrlk.cpp +++ b/modules/video/perf/perf_optflowpyrlk.cpp @@ -178,7 +178,7 @@ PERF_TEST_P(Path_Idx_Cn_NPoints_WSize_Deriv, OpticalFlowPyrLK_self, testing::Com SANITY_CHECK(err, 2); } -CV_ENUM(PyrBorderMode, BORDER_DEFAULT, BORDER_TRANSPARENT); +CV_ENUM(PyrBorderMode, BORDER_DEFAULT, BORDER_TRANSPARENT) typedef tr1::tuple Path_Win_Deriv_Border_Reuse_t; typedef TestBaseWithParam Path_Win_Deriv_Border_Reuse; diff --git a/modules/video/src/kalman.cpp b/modules/video/src/kalman.cpp index b4b4c7435..16ab7745f 100644 --- a/modules/video/src/kalman.cpp +++ b/modules/video/src/kalman.cpp @@ -297,4 +297,4 @@ const Mat& KalmanFilter::correct(const Mat& measurement) return statePost; } -}; +} diff --git a/modules/video/src/tvl1flow.cpp b/modules/video/src/tvl1flow.cpp index ddcdabdd3..eb0ff2351 100644 --- a/modules/video/src/tvl1flow.cpp +++ b/modules/video/src/tvl1flow.cpp @@ -928,7 +928,7 @@ CV_INIT_ALGORITHM(OpticalFlowDual_TVL1, "DenseOpticalFlow.DualTVL1", "Stopping criterion threshold used in the numerical scheme, which is a trade-off between precision and running time"); obj.info()->addParam(obj, "iterations", obj.iterations, false, 0, 0, "Stopping criterion iterations number used in the numerical scheme"); - obj.info()->addParam(obj, "useInitialFlow", obj.useInitialFlow)); + obj.info()->addParam(obj, "useInitialFlow", obj.useInitialFlow)) } // namespace diff --git a/modules/video/src/video_init.cpp b/modules/video/src/video_init.cpp index 7ec860fbd..69928c398 100644 --- a/modules/video/src/video_init.cpp +++ b/modules/video/src/video_init.cpp @@ -52,7 +52,7 @@ CV_INIT_ALGORITHM(BackgroundSubtractorMOG, "BackgroundSubtractor.MOG", obj.info()->addParam(obj, "history", obj.history); obj.info()->addParam(obj, "nmixtures", obj.nmixtures); obj.info()->addParam(obj, "backgroundRatio", obj.backgroundRatio); - obj.info()->addParam(obj, "noiseSigma", obj.noiseSigma)); + obj.info()->addParam(obj, "noiseSigma", obj.noiseSigma)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -68,7 +68,7 @@ CV_INIT_ALGORITHM(BackgroundSubtractorMOG2, "BackgroundSubtractor.MOG2", obj.info()->addParam(obj, "fVarMax", obj.fVarMax); obj.info()->addParam(obj, "fCT", obj.fCT); obj.info()->addParam(obj, "nShadowDetection", obj.nShadowDetection); - obj.info()->addParam(obj, "fTau", obj.fTau)); + obj.info()->addParam(obj, "fTau", obj.fTau)) /////////////////////////////////////////////////////////////////////////////////////////////////////////// @@ -88,7 +88,7 @@ CV_INIT_ALGORITHM(BackgroundSubtractorGMG, "BackgroundSubtractor.GMG", obj.info()->addParam(obj, "decisionThreshold", obj.decisionThreshold,false,0,0, "Threshold for FG decision rule. Pixel is FG if posterior probability exceeds threshold."); obj.info()->addParam(obj, "updateBackgroundModel", obj.updateBackgroundModel,false,0,0, - "Perform background model update.")); + "Perform background model update.")) bool initModule_video(void) { diff --git a/samples/c/adaptiveskindetector.cpp b/samples/c/adaptiveskindetector.cpp index 37856bd4e..3ae10017d 100644 --- a/samples/c/adaptiveskindetector.cpp +++ b/samples/c/adaptiveskindetector.cpp @@ -126,12 +126,12 @@ ASDFrameHolder::ASDFrameHolder( ) { image = NULL; timeStamp = 0; -}; +} ASDFrameHolder::~ASDFrameHolder( ) { cvReleaseImage(&image); -}; +} void ASDFrameHolder::assignFrame(IplImage *sourceImage, double frameTime) { @@ -143,22 +143,22 @@ void ASDFrameHolder::assignFrame(IplImage *sourceImage, double frameTime) image = cvCloneImage(sourceImage); timeStamp = frameTime; -}; +} IplImage *ASDFrameHolder::getImage() { return image; -}; +} double ASDFrameHolder::getTimeStamp() { return timeStamp; -}; +} void ASDFrameHolder::setImage(IplImage *sourceImage) { image = sourceImage; -}; +} //-------------------- ASDFrameSequencer -----------------------// @@ -166,26 +166,26 @@ void ASDFrameHolder::setImage(IplImage *sourceImage) ASDFrameSequencer::~ASDFrameSequencer() { close(); -}; +} IplImage *ASDFrameSequencer::getNextImage() { return NULL; -}; +} void ASDFrameSequencer::close() { -}; +} bool ASDFrameSequencer::isOpen() { return false; -}; +} void ASDFrameSequencer::getFrameCaption(char* /*caption*/) { return; -}; +} IplImage* ASDCVFrameSequencer::getNextImage() { @@ -201,7 +201,7 @@ IplImage* ASDCVFrameSequencer::getNextImage() { return NULL; } -}; +} void ASDCVFrameSequencer::close() { @@ -209,12 +209,12 @@ void ASDCVFrameSequencer::close() { cvReleaseCapture(&capture); } -}; +} bool ASDCVFrameSequencer::isOpen() { return (capture != NULL); -}; +} //-------------------- ASDFrameSequencerWebCam -----------------------// @@ -233,7 +233,7 @@ bool ASDFrameSequencerWebCam::open(int cameraIndex) { return true; } -}; +} //-------------------- ASDFrameSequencerVideoFile -----------------------// @@ -251,7 +251,7 @@ bool ASDFrameSequencerVideoFile::open(const char *fileName) { return true; } -}; +} //-------------------- ASDFrameSequencerImageFile -----------------------// @@ -263,11 +263,11 @@ void ASDFrameSequencerImageFile::open(const char *fileNameMask, int startIndex, nEndIndex = endIndex; std::sprintf(sFileNameMask, "%s", fileNameMask); -}; +} void ASDFrameSequencerImageFile::getFrameCaption(char *caption) { std::sprintf(caption, sFileNameMask, nCurrentIndex); -}; +} IplImage* ASDFrameSequencerImageFile::getNextImage() { @@ -283,23 +283,23 @@ IplImage* ASDFrameSequencerImageFile::getNextImage() IplImage* img = cvLoadImage(fileName); return img; -}; +} void ASDFrameSequencerImageFile::close() { nCurrentIndex = nEndIndex+1; -}; +} bool ASDFrameSequencerImageFile::isOpen() { return (nCurrentIndex <= nEndIndex); -}; +} static void putTextWithShadow(IplImage *img, const char *str, CvPoint point, CvFont *font, CvScalar color = CV_RGB(255, 255, 128)) { cvPutText(img, str, cvPoint(point.x-1,point.y-1), font, CV_RGB(0, 0, 0)); cvPutText(img, str, point, font, color); -}; +} #define ASD_RGB_SET_PIXEL(pointer, r, g, b) { (*pointer) = (unsigned char)b; (*(pointer+1)) = (unsigned char)g; (*(pointer+2)) = (unsigned char)r; } @@ -336,7 +336,7 @@ static void displayBuffer(IplImage *rgbDestImage, IplImage *buffer, int rValue, destY = 0; destX += dx; } -}; +} int main(int argc, char** argv ) { diff --git a/samples/cpp/calibration_artificial.cpp b/samples/cpp/calibration_artificial.cpp index c22cb528f..7d443c1db 100644 --- a/samples/cpp/calibration_artificial.cpp +++ b/samples/cpp/calibration_artificial.cpp @@ -46,7 +46,7 @@ private: Point3f generateChessBoardCenter(const Mat& camMat, const Size& imgSize) const; Mat rvec, tvec; }; -}; +} diff --git a/samples/cpp/tutorial_code/ImgProc/Threshold.cpp b/samples/cpp/tutorial_code/ImgProc/Threshold.cpp index d98cc1182..96d5686a8 100644 --- a/samples/cpp/tutorial_code/ImgProc/Threshold.cpp +++ b/samples/cpp/tutorial_code/ImgProc/Threshold.cpp @@ -14,7 +14,7 @@ using namespace cv; /// Global variables int threshold_value = 0; -int threshold_type = 3;; +int threshold_type = 3; int const max_value = 255; int const max_type = 4; int const max_BINARY_value = 255;