/*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. // // // License Agreement // For Open Source Computer Vision Library // // Copyright (C) 2000-2008, Intel Corporation, all rights reserved. // Copyright (C) 2009, Willow Garage Inc., 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 the copyright holders may not be used to endorse or promote products // derived from this software without specific prior written permission. // // This software is provided by the copyright holders and contributors "as is" and // any express or implied warranties, including, but not limited to, the implied // warranties of merchantability and fitness for a particular purpose are disclaimed. // In no event shall the Intel Corporation or contributors be liable for any direct, // indirect, incidental, special, exemplary, or consequential damages // (including, but not limited to, procurement of substitute goods or services; // loss of use, data, or profits; or business interruption) however caused // and on any theory of liability, whether in contract, strict liability, // or tort (including negligence or otherwise) arising in any way out of // the use of this software, even if advised of the possibility of such damage. // //M*/ #include "precomp.hpp" #include "cascadedetect.hpp" #include "opencv2/core/core_c.h" #include "opencl_kernels_objdetect.hpp" #include #include #include /****************************************************************************************\ The code below is implementation of HOG (Histogram-of-Oriented Gradients) descriptor and object detection, introduced by Navneet Dalal and Bill Triggs. The computed feature vectors are compatible with the INRIA Object Detection and Localization Toolkit (http://pascal.inrialpes.fr/soft/olt/) \****************************************************************************************/ namespace cv { #define NTHREADS 256 enum {DESCR_FORMAT_COL_BY_COL, DESCR_FORMAT_ROW_BY_ROW}; static int numPartsWithin(int size, int part_size, int stride) { return (size - part_size + stride) / stride; } static Size numPartsWithin(cv::Size size, cv::Size part_size, cv::Size stride) { return Size(numPartsWithin(size.width, part_size.width, stride.width), numPartsWithin(size.height, part_size.height, stride.height)); } static size_t getBlockHistogramSize(Size block_size, Size cell_size, int nbins) { Size cells_per_block = Size(block_size.width / cell_size.width, block_size.height / cell_size.height); return (size_t)(nbins * cells_per_block.area()); } size_t HOGDescriptor::getDescriptorSize() const { CV_Assert(blockSize.width % cellSize.width == 0 && blockSize.height % cellSize.height == 0); CV_Assert((winSize.width - blockSize.width) % blockStride.width == 0 && (winSize.height - blockSize.height) % blockStride.height == 0 ); return (size_t)nbins* (blockSize.width/cellSize.width)* (blockSize.height/cellSize.height)* ((winSize.width - blockSize.width)/blockStride.width + 1)* ((winSize.height - blockSize.height)/blockStride.height + 1); } double HOGDescriptor::getWinSigma() const { return winSigma >= 0 ? winSigma : (blockSize.width + blockSize.height)/8.; } bool HOGDescriptor::checkDetectorSize() const { size_t detectorSize = svmDetector.size(), descriptorSize = getDescriptorSize(); return detectorSize == 0 || detectorSize == descriptorSize || detectorSize == descriptorSize + 1; } void HOGDescriptor::setSVMDetector(InputArray _svmDetector) { _svmDetector.getMat().convertTo(svmDetector, CV_32F); CV_Assert(checkDetectorSize()); Mat detector_reordered(1, (int)svmDetector.size(), CV_32FC1); size_t block_hist_size = getBlockHistogramSize(blockSize, cellSize, nbins); cv::Size blocks_per_img = numPartsWithin(winSize, blockSize, blockStride); for (int i = 0; i < blocks_per_img.height; ++i) for (int j = 0; j < blocks_per_img.width; ++j) { const float *src = &svmDetector[0] + (j * blocks_per_img.height + i) * block_hist_size; float *dst = detector_reordered.ptr() + (i * blocks_per_img.width + j) * block_hist_size; for (size_t k = 0; k < block_hist_size; ++k) dst[k] = src[k]; } size_t descriptor_size = getDescriptorSize(); free_coef = svmDetector.size() > descriptor_size ? svmDetector[descriptor_size] : 0; detector_reordered.copyTo(oclSvmDetector); } #define CV_TYPE_NAME_HOG_DESCRIPTOR "opencv-object-detector-hog" bool HOGDescriptor::read(FileNode& obj) { if( !obj.isMap() ) return false; FileNodeIterator it = obj["winSize"].begin(); it >> winSize.width >> winSize.height; it = obj["blockSize"].begin(); it >> blockSize.width >> blockSize.height; it = obj["blockStride"].begin(); it >> blockStride.width >> blockStride.height; it = obj["cellSize"].begin(); it >> cellSize.width >> cellSize.height; obj["nbins"] >> nbins; obj["derivAperture"] >> derivAperture; obj["winSigma"] >> winSigma; obj["histogramNormType"] >> histogramNormType; obj["L2HysThreshold"] >> L2HysThreshold; obj["gammaCorrection"] >> gammaCorrection; obj["nlevels"] >> nlevels; if (obj["signedGradient"].empty()) signedGradient = false; else obj["signedGradient"] >> signedGradient; FileNode vecNode = obj["SVMDetector"]; if( vecNode.isSeq() ) { vecNode >> svmDetector; CV_Assert(checkDetectorSize()); } return true; } void HOGDescriptor::write(FileStorage& fs, const String& objName) const { if( !objName.empty() ) fs << objName; fs << "{" CV_TYPE_NAME_HOG_DESCRIPTOR << "winSize" << winSize << "blockSize" << blockSize << "blockStride" << blockStride << "cellSize" << cellSize << "nbins" << nbins << "derivAperture" << derivAperture << "winSigma" << getWinSigma() << "histogramNormType" << histogramNormType << "L2HysThreshold" << L2HysThreshold << "gammaCorrection" << gammaCorrection << "nlevels" << nlevels << "signedGradient" << signedGradient; if( !svmDetector.empty() ) fs << "SVMDetector" << svmDetector; fs << "}"; } bool HOGDescriptor::load(const String& filename, const String& objname) { FileStorage fs(filename, FileStorage::READ); FileNode obj = !objname.empty() ? fs[objname] : fs.getFirstTopLevelNode(); return read(obj); } void HOGDescriptor::save(const String& filename, const String& objName) const { FileStorage fs(filename, FileStorage::WRITE); write(fs, !objName.empty() ? objName : FileStorage::getDefaultObjectName(filename)); } void HOGDescriptor::copyTo(HOGDescriptor& c) const { c.winSize = winSize; c.blockSize = blockSize; c.blockStride = blockStride; c.cellSize = cellSize; c.nbins = nbins; c.derivAperture = derivAperture; c.winSigma = winSigma; c.histogramNormType = histogramNormType; c.L2HysThreshold = L2HysThreshold; c.gammaCorrection = gammaCorrection; c.svmDetector = svmDetector; c.nlevels = nlevels; c.signedGradient = signedGradient; } void HOGDescriptor::computeGradient(const Mat& img, Mat& grad, Mat& qangle, Size paddingTL, Size paddingBR) const { CV_Assert( img.type() == CV_8U || img.type() == CV_8UC3 ); Size gradsize(img.cols + paddingTL.width + paddingBR.width, img.rows + paddingTL.height + paddingBR.height); grad.create(gradsize, CV_32FC2); // qangle.create(gradsize, CV_8UC2); // [0..nbins-1] - quantized gradient orientation Size wholeSize; Point roiofs; img.locateROI(wholeSize, roiofs); int i, x, y; int cn = img.channels(); Mat_ _lut(1, 256); const float* const lut = &_lut(0,0); #if CV_SSE2 const int indeces[] = { 0, 1, 2, 3 }; __m128i idx = _mm_loadu_si128((const __m128i*)indeces); __m128i ifour = _mm_set1_epi32(4); float* const _data = &_lut(0, 0); if( gammaCorrection ) for( i = 0; i < 256; i += 4 ) { _mm_storeu_ps(_data + i, _mm_sqrt_ps(_mm_cvtepi32_ps(idx))); idx = _mm_add_epi32(idx, ifour); } else for( i = 0; i < 256; i += 4 ) { _mm_storeu_ps(_data + i, _mm_cvtepi32_ps(idx)); idx = _mm_add_epi32(idx, ifour); } #else if( gammaCorrection ) for( i = 0; i < 256; i++ ) _lut(0,i) = std::sqrt((float)i); else for( i = 0; i < 256; i++ ) _lut(0,i) = (float)i; #endif AutoBuffer mapbuf(gradsize.width + gradsize.height + 4); int* xmap = (int*)mapbuf + 1; int* ymap = xmap + gradsize.width + 2; const int borderType = (int)BORDER_REFLECT_101; for( x = -1; x < gradsize.width + 1; x++ ) xmap[x] = borderInterpolate(x - paddingTL.width + roiofs.x, wholeSize.width, borderType) - roiofs.x; for( y = -1; y < gradsize.height + 1; y++ ) ymap[y] = borderInterpolate(y - paddingTL.height + roiofs.y, wholeSize.height, borderType) - roiofs.y; // x- & y- derivatives for the whole row int width = gradsize.width; AutoBuffer _dbuf(width*4); float* const dbuf = _dbuf; Mat Dx(1, width, CV_32F, dbuf); Mat Dy(1, width, CV_32F, dbuf + width); Mat Mag(1, width, CV_32F, dbuf + width*2); Mat Angle(1, width, CV_32F, dbuf + width*3); if (cn == 3) { int end = gradsize.width + 2; xmap -= 1, x = 0; #if CV_SSE2 __m128i ithree = _mm_set1_epi32(3); for ( ; x <= end - 4; x += 4) _mm_storeu_si128((__m128i*)(xmap + x), _mm_mullo_epi16(ithree, _mm_loadu_si128((const __m128i*)(xmap + x)))); #endif for ( ; x < end; ++x) xmap[x] *= 3; xmap += 1; } float angleScale = signedGradient ? (float)(nbins/(2.0*CV_PI)) : (float)(nbins/CV_PI); for( y = 0; y < gradsize.height; y++ ) { const uchar* imgPtr = img.ptr(ymap[y]); //In case subimage is used ptr() generates an assert for next and prev rows //(see http://code.opencv.org/issues/4149) const uchar* prevPtr = img.data + img.step*ymap[y-1]; const uchar* nextPtr = img.data + img.step*ymap[y+1]; float* gradPtr = grad.ptr(y); uchar* qanglePtr = qangle.ptr(y); if( cn == 1 ) { for( x = 0; x < width; x++ ) { int x1 = xmap[x]; dbuf[x] = (float)(lut[imgPtr[xmap[x+1]]] - lut[imgPtr[xmap[x-1]]]); dbuf[width + x] = (float)(lut[nextPtr[x1]] - lut[prevPtr[x1]]); } } else { x = 0; #if CV_SSE2 for( ; x <= width - 4; x += 4 ) { int x0 = xmap[x], x1 = xmap[x+1], x2 = xmap[x+2], x3 = xmap[x+3]; typedef const uchar* const T; T p02 = imgPtr + xmap[x+1], p00 = imgPtr + xmap[x-1]; T p12 = imgPtr + xmap[x+2], p10 = imgPtr + xmap[x]; T p22 = imgPtr + xmap[x+3], p20 = p02; T p32 = imgPtr + xmap[x+4], p30 = p12; __m128 _dx0 = _mm_sub_ps(_mm_set_ps(lut[p32[0]], lut[p22[0]], lut[p12[0]], lut[p02[0]]), _mm_set_ps(lut[p30[0]], lut[p20[0]], lut[p10[0]], lut[p00[0]])); __m128 _dx1 = _mm_sub_ps(_mm_set_ps(lut[p32[1]], lut[p22[1]], lut[p12[1]], lut[p02[1]]), _mm_set_ps(lut[p30[1]], lut[p20[1]], lut[p10[1]], lut[p00[1]])); __m128 _dx2 = _mm_sub_ps(_mm_set_ps(lut[p32[2]], lut[p22[2]], lut[p12[2]], lut[p02[2]]), _mm_set_ps(lut[p30[2]], lut[p20[2]], lut[p10[2]], lut[p00[2]])); __m128 _dy0 = _mm_sub_ps(_mm_set_ps(lut[nextPtr[x3]], lut[nextPtr[x2]], lut[nextPtr[x1]], lut[nextPtr[x0]]), _mm_set_ps(lut[prevPtr[x3]], lut[prevPtr[x2]], lut[prevPtr[x1]], lut[prevPtr[x0]])); __m128 _dy1 = _mm_sub_ps(_mm_set_ps(lut[nextPtr[x3+1]], lut[nextPtr[x2+1]], lut[nextPtr[x1+1]], lut[nextPtr[x0+1]]), _mm_set_ps(lut[prevPtr[x3+1]], lut[prevPtr[x2+1]], lut[prevPtr[x1+1]], lut[prevPtr[x0+1]])); __m128 _dy2 = _mm_sub_ps(_mm_set_ps(lut[nextPtr[x3+2]], lut[nextPtr[x2+2]], lut[nextPtr[x1+2]], lut[nextPtr[x0+2]]), _mm_set_ps(lut[prevPtr[x3+2]], lut[prevPtr[x2+2]], lut[prevPtr[x1+2]], lut[prevPtr[x0+2]])); __m128 _mag0 = _mm_add_ps(_mm_mul_ps(_dx0, _dx0), _mm_mul_ps(_dy0, _dy0)); __m128 _mag1 = _mm_add_ps(_mm_mul_ps(_dx1, _dx1), _mm_mul_ps(_dy1, _dy1)); __m128 _mag2 = _mm_add_ps(_mm_mul_ps(_dx2, _dx2), _mm_mul_ps(_dy2, _dy2)); __m128 mask = _mm_cmpgt_ps(_mag2, _mag1); _dx2 = _mm_or_ps(_mm_and_ps(_dx2, mask), _mm_andnot_ps(mask, _dx1)); _dy2 = _mm_or_ps(_mm_and_ps(_dy2, mask), _mm_andnot_ps(mask, _dy1)); mask = _mm_cmpgt_ps(_mm_max_ps(_mag2, _mag1), _mag0); _dx2 = _mm_or_ps(_mm_and_ps(_dx2, mask), _mm_andnot_ps(mask, _dx0)); _dy2 = _mm_or_ps(_mm_and_ps(_dy2, mask), _mm_andnot_ps(mask, _dy0)); _mm_storeu_ps(dbuf + x, _dx2); _mm_storeu_ps(dbuf + x + width, _dy2); } #endif for( ; x < width; x++ ) { int x1 = xmap[x]; float dx0, dy0, dx, dy, mag0, mag; const uchar* p2 = imgPtr + xmap[x+1]; const uchar* p0 = imgPtr + xmap[x-1]; dx0 = lut[p2[2]] - lut[p0[2]]; dy0 = lut[nextPtr[x1+2]] - lut[prevPtr[x1+2]]; mag0 = dx0*dx0 + dy0*dy0; dx = lut[p2[1]] - lut[p0[1]]; dy = lut[nextPtr[x1+1]] - lut[prevPtr[x1+1]]; mag = dx*dx + dy*dy; if( mag0 < mag ) { dx0 = dx; dy0 = dy; mag0 = mag; } dx = lut[p2[0]] - lut[p0[0]]; dy = lut[nextPtr[x1]] - lut[prevPtr[x1]]; mag = dx*dx + dy*dy; if( mag0 < mag ) { dx0 = dx; dy0 = dy; mag0 = mag; } dbuf[x] = dx0; dbuf[x+width] = dy0; } } // computing angles and magnidutes cartToPolar( Dx, Dy, Mag, Angle, false ); // filling the result matrix x = 0; #if CV_SSE2 __m128 fhalf = _mm_set1_ps(0.5f), fzero = _mm_setzero_ps(); __m128 _angleScale = _mm_set1_ps(angleScale), fone = _mm_set1_ps(1.0f); __m128i ione = _mm_set1_epi32(1), _nbins = _mm_set1_epi32(nbins), izero = _mm_setzero_si128(); for ( ; x <= width - 4; x += 4) { int x2 = x << 1; __m128 _mag = _mm_loadu_ps(dbuf + x + (width << 1)); __m128 _angle = _mm_loadu_ps(dbuf + x + width * 3); _angle = _mm_sub_ps(_mm_mul_ps(_angleScale, _angle), fhalf); __m128 sign = _mm_and_ps(fone, _mm_cmplt_ps(_angle, fzero)); __m128i _hidx = _mm_cvttps_epi32(_angle); _hidx = _mm_sub_epi32(_hidx, _mm_cvtps_epi32(sign)); _angle = _mm_sub_ps(_angle, _mm_cvtepi32_ps(_hidx)); __m128 ft0 = _mm_mul_ps(_mag, _mm_sub_ps(fone, _angle)); __m128 ft1 = _mm_mul_ps(_mag, _angle); __m128 ft2 = _mm_unpacklo_ps(ft0, ft1); __m128 ft3 = _mm_unpackhi_ps(ft0, ft1); _mm_storeu_ps(gradPtr + x2, ft2); _mm_storeu_ps(gradPtr + x2 + 4, ft3); __m128i mask0 = _mm_sub_epi32(izero, _mm_srli_epi32(_hidx, 31)); __m128i it0 = _mm_and_si128(mask0, _nbins); mask0 = _mm_cmplt_epi32(_hidx, _nbins); __m128i it1 = _mm_andnot_si128(mask0, _nbins); _hidx = _mm_add_epi32(_hidx, _mm_sub_epi32(it0, it1)); it0 = _mm_packus_epi16(_mm_packs_epi32(_hidx, izero), izero); _hidx = _mm_add_epi32(ione, _hidx); _hidx = _mm_and_si128(_hidx, _mm_cmplt_epi32(_hidx, _nbins)); it1 = _mm_packus_epi16(_mm_packs_epi32(_hidx, izero), izero); it0 = _mm_unpacklo_epi8(it0, it1); _mm_storel_epi64((__m128i*)(qanglePtr + x2), it0); } #endif for( ; x < width; x++ ) { float mag = dbuf[x+width*2], angle = dbuf[x+width*3]*angleScale - 0.5f; int hidx = cvFloor(angle); angle -= hidx; gradPtr[x*2] = mag*(1.f - angle); gradPtr[x*2+1] = mag*angle; if( hidx < 0 ) hidx += nbins; else if( hidx >= nbins ) hidx -= nbins; CV_Assert( (unsigned)hidx < (unsigned)nbins ); qanglePtr[x*2] = (uchar)hidx; hidx++; hidx &= hidx < nbins ? -1 : 0; qanglePtr[x*2+1] = (uchar)hidx; } } } struct HOGCache { struct BlockData { BlockData() : histOfs(0), imgOffset() { } int histOfs; Point imgOffset; }; struct PixData { size_t gradOfs, qangleOfs; int histOfs[4]; float histWeights[4]; float gradWeight; }; HOGCache(); HOGCache(const HOGDescriptor* descriptor, const Mat& img, const Size& paddingTL, const Size& paddingBR, bool useCache, const Size& cacheStride); virtual ~HOGCache() { } virtual void init(const HOGDescriptor* descriptor, const Mat& img, const Size& paddingTL, const Size& paddingBR, bool useCache, const Size& cacheStride); Size windowsInImage(const Size& imageSize, const Size& winStride) const; Rect getWindow(const Size& imageSize, const Size& winStride, int idx) const; const float* getBlock(Point pt, float* buf); virtual void normalizeBlockHistogram(float* histogram) const; std::vector pixData; std::vector blockData; bool useCache; std::vector ymaxCached; Size winSize; Size cacheStride; Size nblocks, ncells; int blockHistogramSize; int count1, count2, count4; Point imgoffset; Mat_ blockCache; Mat_ blockCacheFlags; Mat grad, qangle; const HOGDescriptor* descriptor; }; HOGCache::HOGCache() : blockHistogramSize(), count1(), count2(), count4() { useCache = false; descriptor = 0; } HOGCache::HOGCache(const HOGDescriptor* _descriptor, const Mat& _img, const Size& _paddingTL, const Size& _paddingBR, bool _useCache, const Size& _cacheStride) { init(_descriptor, _img, _paddingTL, _paddingBR, _useCache, _cacheStride); } void HOGCache::init(const HOGDescriptor* _descriptor, const Mat& _img, const Size& _paddingTL, const Size& _paddingBR, bool _useCache, const Size& _cacheStride) { descriptor = _descriptor; cacheStride = _cacheStride; useCache = _useCache; descriptor->computeGradient(_img, grad, qangle, _paddingTL, _paddingBR); imgoffset = _paddingTL; winSize = descriptor->winSize; Size blockSize = descriptor->blockSize; Size blockStride = descriptor->blockStride; Size cellSize = descriptor->cellSize; int i, j, nbins = descriptor->nbins; int rawBlockSize = blockSize.width*blockSize.height; nblocks = Size((winSize.width - blockSize.width)/blockStride.width + 1, (winSize.height - blockSize.height)/blockStride.height + 1); ncells = Size(blockSize.width/cellSize.width, blockSize.height/cellSize.height); blockHistogramSize = ncells.width*ncells.height*nbins; if( useCache ) { Size cacheSize((grad.cols - blockSize.width)/cacheStride.width+1, (winSize.height/cacheStride.height)+1); blockCache.create(cacheSize.height, cacheSize.width*blockHistogramSize); blockCacheFlags.create(cacheSize); size_t cacheRows = blockCache.rows; ymaxCached.resize(cacheRows); for(size_t ii = 0; ii < cacheRows; ii++ ) ymaxCached[ii] = -1; } Mat_ weights(blockSize); float sigma = (float)descriptor->getWinSigma(); float scale = 1.f/(sigma*sigma*2); { AutoBuffer di(blockSize.height), dj(blockSize.width); float* _di = (float*)di, *_dj = (float*)dj; float bh = blockSize.height * 0.5f, bw = blockSize.width * 0.5f; i = 0; #if CV_SSE2 const int a[] = { 0, 1, 2, 3 }; __m128i idx = _mm_loadu_si128((__m128i*)a); __m128 _bw = _mm_set1_ps(bw), _bh = _mm_set1_ps(bh); __m128i ifour = _mm_set1_epi32(4); for (; i <= blockSize.height - 4; i += 4) { __m128 t = _mm_sub_ps(_mm_cvtepi32_ps(idx), _bh); t = _mm_mul_ps(t, t); idx = _mm_add_epi32(idx, ifour); _mm_storeu_ps(_di + i, t); } #endif for ( ; i < blockSize.height; ++i) { _di[i] = i - bh; _di[i] *= _di[i]; } j = 0; #if CV_SSE2 idx = _mm_loadu_si128((__m128i*)a); for (; j <= blockSize.width - 4; j += 4) { __m128 t = _mm_sub_ps(_mm_cvtepi32_ps(idx), _bw); t = _mm_mul_ps(t, t); idx = _mm_add_epi32(idx, ifour); _mm_storeu_ps(_dj + j, t); } #endif for ( ; j < blockSize.width; ++j) { _dj[j] = j - bw; _dj[j] *= _dj[j]; } for(i = 0; i < blockSize.height; i++) for(j = 0; j < blockSize.width; j++) weights(i,j) = std::exp(-(_di[i] + _dj[j])*scale); } blockData.resize(nblocks.width*nblocks.height); pixData.resize(rawBlockSize*3); // Initialize 2 lookup tables, pixData & blockData. // Here is why: // // The detection algorithm runs in 4 nested loops (at each pyramid layer): // loop over the windows within the input image // loop over the blocks within each window // loop over the cells within each block // loop over the pixels in each cell // // As each of the loops runs over a 2-dimensional array, // we could get 8(!) nested loops in total, which is very-very slow. // // To speed the things up, we do the following: // 1. loop over windows is unrolled in the HOGDescriptor::{compute|detect} methods; // inside we compute the current search window using getWindow() method. // Yes, it involves some overhead (function call + couple of divisions), // but it's tiny in fact. // 2. loop over the blocks is also unrolled. Inside we use pre-computed blockData[j] // to set up gradient and histogram pointers. // 3. loops over cells and pixels in each cell are merged // (since there is no overlap between cells, each pixel in the block is processed once) // and also unrolled. Inside we use PixData[k] to access the gradient values and // update the histogram // count1 = count2 = count4 = 0; for( j = 0; j < blockSize.width; j++ ) for( i = 0; i < blockSize.height; i++ ) { PixData* data = 0; float cellX = (j+0.5f)/cellSize.width - 0.5f; float cellY = (i+0.5f)/cellSize.height - 0.5f; int icellX0 = cvFloor(cellX); int icellY0 = cvFloor(cellY); int icellX1 = icellX0 + 1, icellY1 = icellY0 + 1; cellX -= icellX0; cellY -= icellY0; if( (unsigned)icellX0 < (unsigned)ncells.width && (unsigned)icellX1 < (unsigned)ncells.width ) { if( (unsigned)icellY0 < (unsigned)ncells.height && (unsigned)icellY1 < (unsigned)ncells.height ) { data = &pixData[rawBlockSize*2 + (count4++)]; data->histOfs[0] = (icellX0*ncells.height + icellY0)*nbins; data->histWeights[0] = (1.f - cellX)*(1.f - cellY); data->histOfs[1] = (icellX1*ncells.height + icellY0)*nbins; data->histWeights[1] = cellX*(1.f - cellY); data->histOfs[2] = (icellX0*ncells.height + icellY1)*nbins; data->histWeights[2] = (1.f - cellX)*cellY; data->histOfs[3] = (icellX1*ncells.height + icellY1)*nbins; data->histWeights[3] = cellX*cellY; } else { data = &pixData[rawBlockSize + (count2++)]; if( (unsigned)icellY0 < (unsigned)ncells.height ) { icellY1 = icellY0; cellY = 1.f - cellY; } data->histOfs[0] = (icellX0*ncells.height + icellY1)*nbins; data->histWeights[0] = (1.f - cellX)*cellY; data->histOfs[1] = (icellX1*ncells.height + icellY1)*nbins; data->histWeights[1] = cellX*cellY; data->histOfs[2] = data->histOfs[3] = 0; data->histWeights[2] = data->histWeights[3] = 0; } } else { if( (unsigned)icellX0 < (unsigned)ncells.width ) { icellX1 = icellX0; cellX = 1.f - cellX; } if( (unsigned)icellY0 < (unsigned)ncells.height && (unsigned)icellY1 < (unsigned)ncells.height ) { data = &pixData[rawBlockSize + (count2++)]; data->histOfs[0] = (icellX1*ncells.height + icellY0)*nbins; data->histWeights[0] = cellX*(1.f - cellY); data->histOfs[1] = (icellX1*ncells.height + icellY1)*nbins; data->histWeights[1] = cellX*cellY; data->histOfs[2] = data->histOfs[3] = 0; data->histWeights[2] = data->histWeights[3] = 0; } else { data = &pixData[count1++]; if( (unsigned)icellY0 < (unsigned)ncells.height ) { icellY1 = icellY0; cellY = 1.f - cellY; } data->histOfs[0] = (icellX1*ncells.height + icellY1)*nbins; data->histWeights[0] = cellX*cellY; data->histOfs[1] = data->histOfs[2] = data->histOfs[3] = 0; data->histWeights[1] = data->histWeights[2] = data->histWeights[3] = 0; } } data->gradOfs = (grad.cols*i + j)*2; data->qangleOfs = (qangle.cols*i + j)*2; data->gradWeight = weights(i,j); } assert( count1 + count2 + count4 == rawBlockSize ); // defragment pixData for( j = 0; j < count2; j++ ) pixData[j + count1] = pixData[j + rawBlockSize]; for( j = 0; j < count4; j++ ) pixData[j + count1 + count2] = pixData[j + rawBlockSize*2]; count2 += count1; count4 += count2; // initialize blockData for( j = 0; j < nblocks.width; j++ ) for( i = 0; i < nblocks.height; i++ ) { BlockData& data = blockData[j*nblocks.height + i]; data.histOfs = (j*nblocks.height + i)*blockHistogramSize; data.imgOffset = Point(j*blockStride.width,i*blockStride.height); } } const float* HOGCache::getBlock(Point pt, float* buf) { float* blockHist = buf; assert(descriptor != 0); // Size blockSize = descriptor->blockSize; pt += imgoffset; // CV_Assert( (unsigned)pt.x <= (unsigned)(grad.cols - blockSize.width) && // (unsigned)pt.y <= (unsigned)(grad.rows - blockSize.height) ); if( useCache ) { CV_Assert( pt.x % cacheStride.width == 0 && pt.y % cacheStride.height == 0 ); Point cacheIdx(pt.x/cacheStride.width, (pt.y/cacheStride.height) % blockCache.rows); if( pt.y != ymaxCached[cacheIdx.y] ) { Mat_ cacheRow = blockCacheFlags.row(cacheIdx.y); cacheRow = (uchar)0; ymaxCached[cacheIdx.y] = pt.y; } blockHist = &blockCache[cacheIdx.y][cacheIdx.x*blockHistogramSize]; uchar& computedFlag = blockCacheFlags(cacheIdx.y, cacheIdx.x); if( computedFlag != 0 ) return blockHist; computedFlag = (uchar)1; // set it at once, before actual computing } int k, C1 = count1, C2 = count2, C4 = count4; const float* gradPtr = grad.ptr(pt.y) + pt.x*2; const uchar* qanglePtr = qangle.ptr(pt.y) + pt.x*2; // CV_Assert( blockHist != 0 ); memset(blockHist, 0, sizeof(float) * blockHistogramSize); const PixData* _pixData = &pixData[0]; for( k = 0; k < C1; k++ ) { const PixData& pk = _pixData[k]; const float* const a = gradPtr + pk.gradOfs; float w = pk.gradWeight*pk.histWeights[0]; const uchar* h = qanglePtr + pk.qangleOfs; int h0 = h[0], h1 = h[1]; float* hist = blockHist + pk.histOfs[0]; float t0 = hist[h0] + a[0]*w; float t1 = hist[h1] + a[1]*w; hist[h0] = t0; hist[h1] = t1; } #if CV_SSE2 float hist0[4], hist1[4]; for( ; k < C2; k++ ) { const PixData& pk = _pixData[k]; const float* const a = gradPtr + pk.gradOfs; const uchar* const h = qanglePtr + pk.qangleOfs; int h0 = h[0], h1 = h[1]; __m128 _a0 = _mm_set1_ps(a[0]), _a1 = _mm_set1_ps(a[1]); __m128 _w = _mm_mul_ps(_mm_set1_ps(pk.gradWeight), _mm_loadu_ps(pk.histWeights)); __m128 _t0 = _mm_mul_ps(_a0, _w), _t1 = _mm_mul_ps(_a1, _w); _mm_storeu_ps(hist0, _t0); _mm_storeu_ps(hist1, _t1); float* hist = blockHist + pk.histOfs[0]; float t0 = hist[h0] + hist0[0]; float t1 = hist[h1] + hist1[0]; hist[h0] = t0; hist[h1] = t1; hist = blockHist + pk.histOfs[1]; t0 = hist[h0] + hist0[1]; t1 = hist[h1] + hist1[1]; hist[h0] = t0; hist[h1] = t1; } #else for( ; k < C2; k++ ) { const PixData& pk = _pixData[k]; const float* const a = gradPtr + pk.gradOfs; float w, t0, t1, a0 = a[0], a1 = a[1]; const uchar* const h = qanglePtr + pk.qangleOfs; int h0 = h[0], h1 = h[1]; float* hist = blockHist + pk.histOfs[0]; w = pk.gradWeight*pk.histWeights[0]; t0 = hist[h0] + a0*w; t1 = hist[h1] + a1*w; hist[h0] = t0; hist[h1] = t1; hist = blockHist + pk.histOfs[1]; w = pk.gradWeight*pk.histWeights[1]; t0 = hist[h0] + a0*w; t1 = hist[h1] + a1*w; hist[h0] = t0; hist[h1] = t1; } #endif #if CV_SSE2 for( ; k < C4; k++ ) { const PixData& pk = _pixData[k]; const float* const a = gradPtr + pk.gradOfs; const uchar* const h = qanglePtr + pk.qangleOfs; int h0 = h[0], h1 = h[1]; __m128 _a0 = _mm_set1_ps(a[0]), _a1 = _mm_set1_ps(a[1]); __m128 _w = _mm_mul_ps(_mm_set1_ps(pk.gradWeight), _mm_loadu_ps(pk.histWeights)); __m128 _t0 = _mm_mul_ps(_a0, _w), _t1 = _mm_mul_ps(_a1, _w); _mm_storeu_ps(hist0, _t0); _mm_storeu_ps(hist1, _t1); float* hist = blockHist + pk.histOfs[0]; float t0 = hist[h0] + hist0[0]; float t1 = hist[h1] + hist1[0]; hist[h0] = t0; hist[h1] = t1; hist = blockHist + pk.histOfs[1]; t0 = hist[h0] + hist0[1]; t1 = hist[h1] + hist1[1]; hist[h0] = t0; hist[h1] = t1; hist = blockHist + pk.histOfs[2]; t0 = hist[h0] + hist0[2]; t1 = hist[h1] + hist1[2]; hist[h0] = t0; hist[h1] = t1; hist = blockHist + pk.histOfs[3]; t0 = hist[h0] + hist0[3]; t1 = hist[h1] + hist1[3]; hist[h0] = t0; hist[h1] = t1; // __m128 _hist0 = _mm_set_ps((blockHist + pk.histOfs[3])[h0], (blockHist + pk.histOfs[2])[h0], // (blockHist + pk.histOfs[1])[h0], (blockHist + pk.histOfs[0])[h0]); // __m128 _hist1 = _mm_set_ps((blockHist + pk.histOfs[3])[h1], (blockHist + pk.histOfs[2])[h1], // (blockHist + pk.histOfs[1])[h1], (blockHist + pk.histOfs[0])[h1]); // // _hist0 = _mm_add_ps(_t0, _hist0); // _hist1 = _mm_add_ps(_t1, _hist1); // // _mm_storeu_ps(hist0, _hist0); // _mm_storeu_ps(hist1, _hist1); // // (pk.histOfs[0] + blockHist)[h0] = hist0[0]; // (pk.histOfs[1] + blockHist)[h0] = hist0[1]; // (pk.histOfs[2] + blockHist)[h0] = hist0[2]; // (pk.histOfs[3] + blockHist)[h0] = hist0[3]; // // (pk.histOfs[0] + blockHist)[h1] = hist1[0]; // (pk.histOfs[1] + blockHist)[h1] = hist1[1]; // (pk.histOfs[2] + blockHist)[h1] = hist1[2]; // (pk.histOfs[3] + blockHist)[h1] = hist1[3]; } #else for( ; k < C4; k++ ) { const PixData& pk = _pixData[k]; const float* a = gradPtr + pk.gradOfs; float w, t0, t1, a0 = a[0], a1 = a[1]; const uchar* h = qanglePtr + pk.qangleOfs; int h0 = h[0], h1 = h[1]; float* hist = blockHist + pk.histOfs[0]; w = pk.gradWeight*pk.histWeights[0]; t0 = hist[h0] + a0*w; t1 = hist[h1] + a1*w; hist[h0] = t0; hist[h1] = t1; hist = blockHist + pk.histOfs[1]; w = pk.gradWeight*pk.histWeights[1]; t0 = hist[h0] + a0*w; t1 = hist[h1] + a1*w; hist[h0] = t0; hist[h1] = t1; hist = blockHist + pk.histOfs[2]; w = pk.gradWeight*pk.histWeights[2]; t0 = hist[h0] + a0*w; t1 = hist[h1] + a1*w; hist[h0] = t0; hist[h1] = t1; hist = blockHist + pk.histOfs[3]; w = pk.gradWeight*pk.histWeights[3]; t0 = hist[h0] + a0*w; t1 = hist[h1] + a1*w; hist[h0] = t0; hist[h1] = t1; } #endif normalizeBlockHistogram(blockHist); return blockHist; } void HOGCache::normalizeBlockHistogram(float* _hist) const { float* hist = &_hist[0], sum = 0.0f, partSum[4]; size_t i = 0, sz = blockHistogramSize; #if CV_SSE2 __m128 p0 = _mm_loadu_ps(hist); __m128 s = _mm_mul_ps(p0, p0); for (i = 4; i <= sz - 4; i += 4) { p0 = _mm_loadu_ps(hist + i); s = _mm_add_ps(s, _mm_mul_ps(p0, p0)); } _mm_storeu_ps(partSum, s); #else partSum[0] = 0.0f; partSum[1] = 0.0f; partSum[2] = 0.0f; partSum[3] = 0.0f; for ( ; i <= sz - 4; i += 4) { partSum[0] += hist[i] * hist[i]; partSum[1] += hist[i+1] * hist[i+1]; partSum[2] += hist[i+2] * hist[i+2]; partSum[3] += hist[i+3] * hist[i+3]; } #endif float t0 = partSum[0] + partSum[1]; float t1 = partSum[2] + partSum[3]; sum = t0 + t1; for ( ; i < sz; ++i) sum += hist[i]*hist[i]; float scale = 1.f/(std::sqrt(sum)+sz*0.1f), thresh = (float)descriptor->L2HysThreshold; i = 0, sum = 0.0f; #if CV_SSE2 __m128 _scale = _mm_set1_ps(scale); static __m128 _threshold = _mm_set1_ps(thresh); __m128 p = _mm_mul_ps(_scale, _mm_loadu_ps(hist)); p = _mm_min_ps(p, _threshold); s = _mm_mul_ps(p, p); _mm_storeu_ps(hist, p); for(i = 4 ; i <= sz - 4; i += 4) { p = _mm_loadu_ps(hist + i); p = _mm_mul_ps(p, _scale); p = _mm_min_ps(p, _threshold); s = _mm_add_ps(s, _mm_mul_ps(p, p)); _mm_storeu_ps(hist + i, p); } _mm_storeu_ps(partSum, s); #else partSum[0] = 0.0f; partSum[1] = 0.0f; partSum[2] = 0.0f; partSum[3] = 0.0f; for( ; i <= sz - 4; i += 4) { hist[i] = std::min(hist[i]*scale, thresh); hist[i+1] = std::min(hist[i+1]*scale, thresh); hist[i+2] = std::min(hist[i+2]*scale, thresh); hist[i+3] = std::min(hist[i+3]*scale, thresh); partSum[0] += hist[i]*hist[i]; partSum[1] += hist[i+1]*hist[i+1]; partSum[2] += hist[i+2]*hist[i+2]; partSum[3] += hist[i+3]*hist[i+3]; } #endif t0 = partSum[0] + partSum[1]; t1 = partSum[2] + partSum[3]; sum = t0 + t1; for( ; i < sz; ++i) { hist[i] = std::min(hist[i]*scale, thresh); sum += hist[i]*hist[i]; } scale = 1.f/(std::sqrt(sum)+1e-3f), i = 0; #if CV_SSE2 __m128 _scale2 = _mm_set1_ps(scale); for ( ; i <= sz - 4; i += 4) { __m128 t = _mm_mul_ps(_scale2, _mm_loadu_ps(hist + i)); _mm_storeu_ps(hist + i, t); } #endif for ( ; i < sz; ++i) hist[i] *= scale; } Size HOGCache::windowsInImage(const Size& imageSize, const Size& winStride) const { return Size((imageSize.width - winSize.width)/winStride.width + 1, (imageSize.height - winSize.height)/winStride.height + 1); } Rect HOGCache::getWindow(const Size& imageSize, const Size& winStride, int idx) const { int nwindowsX = (imageSize.width - winSize.width)/winStride.width + 1; int y = idx / nwindowsX; int x = idx - nwindowsX*y; return Rect( x*winStride.width, y*winStride.height, winSize.width, winSize.height ); } static inline int gcd(int a, int b) { if( a < b ) std::swap(a, b); while( b > 0 ) { int r = a % b; a = b; b = r; } return a; } #ifdef HAVE_OPENCL static bool ocl_compute_gradients_8UC1(int height, int width, InputArray _img, float angle_scale, UMat grad, UMat qangle, bool correct_gamma, int nbins) { ocl::Kernel k("compute_gradients_8UC1_kernel", ocl::objdetect::objdetect_hog_oclsrc); if(k.empty()) return false; UMat img = _img.getUMat(); size_t localThreads[3] = { NTHREADS, 1, 1 }; size_t globalThreads[3] = { width, height, 1 }; char correctGamma = (correct_gamma) ? 1 : 0; int grad_quadstep = (int)grad.step >> 3; int qangle_elem_size = CV_ELEM_SIZE1(qangle.type()); int qangle_step = (int)qangle.step / (2 * qangle_elem_size); int idx = 0; idx = k.set(idx, height); idx = k.set(idx, width); idx = k.set(idx, (int)img.step1()); idx = k.set(idx, grad_quadstep); idx = k.set(idx, qangle_step); idx = k.set(idx, ocl::KernelArg::PtrReadOnly(img)); idx = k.set(idx, ocl::KernelArg::PtrWriteOnly(grad)); idx = k.set(idx, ocl::KernelArg::PtrWriteOnly(qangle)); idx = k.set(idx, angle_scale); idx = k.set(idx, correctGamma); idx = k.set(idx, nbins); return k.run(2, globalThreads, localThreads, false); } static bool ocl_computeGradient(InputArray img, UMat grad, UMat qangle, int nbins, Size effect_size, bool gamma_correction, bool signedGradient) { float angleScale = signedGradient ? (float)(nbins/(2.0*CV_PI)) : (float)(nbins/CV_PI); return ocl_compute_gradients_8UC1(effect_size.height, effect_size.width, img, angleScale, grad, qangle, gamma_correction, nbins); } #define CELL_WIDTH 8 #define CELL_HEIGHT 8 #define CELLS_PER_BLOCK_X 2 #define CELLS_PER_BLOCK_Y 2 static bool ocl_compute_hists(int nbins, int block_stride_x, int block_stride_y, int height, int width, UMat grad, UMat qangle, UMat gauss_w_lut, UMat block_hists, size_t block_hist_size) { ocl::Kernel k("compute_hists_lut_kernel", ocl::objdetect::objdetect_hog_oclsrc); if(k.empty()) return false; bool is_cpu = cv::ocl::Device::getDefault().type() == cv::ocl::Device::TYPE_CPU; cv::String opts; if(is_cpu) opts = "-D CPU "; else opts = cv::format("-D WAVE_SIZE=%d", k.preferedWorkGroupSizeMultiple()); k.create("compute_hists_lut_kernel", ocl::objdetect::objdetect_hog_oclsrc, opts); if(k.empty()) return false; int img_block_width = (width - CELLS_PER_BLOCK_X * CELL_WIDTH + block_stride_x)/block_stride_x; int img_block_height = (height - CELLS_PER_BLOCK_Y * CELL_HEIGHT + block_stride_y)/block_stride_y; int blocks_total = img_block_width * img_block_height; int qangle_elem_size = CV_ELEM_SIZE1(qangle.type()); int grad_quadstep = (int)grad.step >> 2; int qangle_step = (int)qangle.step / qangle_elem_size; int blocks_in_group = 4; size_t localThreads[3] = { blocks_in_group * 24, 2, 1 }; size_t globalThreads[3] = {((img_block_width * img_block_height + blocks_in_group - 1)/blocks_in_group) * localThreads[0], 2, 1 }; int hists_size = (nbins * CELLS_PER_BLOCK_X * CELLS_PER_BLOCK_Y * 12) * sizeof(float); int final_hists_size = (nbins * CELLS_PER_BLOCK_X * CELLS_PER_BLOCK_Y) * sizeof(float); int smem = (hists_size + final_hists_size) * blocks_in_group; int idx = 0; idx = k.set(idx, block_stride_x); idx = k.set(idx, block_stride_y); idx = k.set(idx, nbins); idx = k.set(idx, (int)block_hist_size); idx = k.set(idx, img_block_width); idx = k.set(idx, blocks_in_group); idx = k.set(idx, blocks_total); idx = k.set(idx, grad_quadstep); idx = k.set(idx, qangle_step); idx = k.set(idx, ocl::KernelArg::PtrReadOnly(grad)); idx = k.set(idx, ocl::KernelArg::PtrReadOnly(qangle)); idx = k.set(idx, ocl::KernelArg::PtrReadOnly(gauss_w_lut)); idx = k.set(idx, ocl::KernelArg::PtrWriteOnly(block_hists)); idx = k.set(idx, (void*)NULL, (size_t)smem); return k.run(2, globalThreads, localThreads, false); } static int power_2up(unsigned int n) { for(unsigned int i = 1; i<=1024; i<<=1) if(n < i) return i; return -1; // Input is too big } static bool ocl_normalize_hists(int nbins, int block_stride_x, int block_stride_y, int height, int width, UMat block_hists, float threshold) { int block_hist_size = nbins * CELLS_PER_BLOCK_X * CELLS_PER_BLOCK_Y; int img_block_width = (width - CELLS_PER_BLOCK_X * CELL_WIDTH + block_stride_x) / block_stride_x; int img_block_height = (height - CELLS_PER_BLOCK_Y * CELL_HEIGHT + block_stride_y) / block_stride_y; int nthreads; size_t globalThreads[3] = { 1, 1, 1 }; size_t localThreads[3] = { 1, 1, 1 }; int idx = 0; bool is_cpu = cv::ocl::Device::getDefault().type() == cv::ocl::Device::TYPE_CPU; cv::String opts; ocl::Kernel k; if ( nbins == 9 ) { k.create("normalize_hists_36_kernel", ocl::objdetect::objdetect_hog_oclsrc, ""); if(k.empty()) return false; if(is_cpu) opts = "-D CPU "; else opts = cv::format("-D WAVE_SIZE=%d", k.preferedWorkGroupSizeMultiple()); k.create("normalize_hists_36_kernel", ocl::objdetect::objdetect_hog_oclsrc, opts); if(k.empty()) return false; int blocks_in_group = NTHREADS / block_hist_size; nthreads = blocks_in_group * block_hist_size; int num_groups = (img_block_width * img_block_height + blocks_in_group - 1)/blocks_in_group; globalThreads[0] = nthreads * num_groups; localThreads[0] = nthreads; } else { k.create("normalize_hists_kernel", ocl::objdetect::objdetect_hog_oclsrc, ""); if(k.empty()) return false; if(is_cpu) opts = "-D CPU "; else opts = cv::format("-D WAVE_SIZE=%d", k.preferedWorkGroupSizeMultiple()); k.create("normalize_hists_kernel", ocl::objdetect::objdetect_hog_oclsrc, opts); if(k.empty()) return false; nthreads = power_2up(block_hist_size); globalThreads[0] = img_block_width * nthreads; globalThreads[1] = img_block_height; localThreads[0] = nthreads; if ((nthreads < 32) || (nthreads > 512) ) return false; idx = k.set(idx, nthreads); idx = k.set(idx, block_hist_size); idx = k.set(idx, img_block_width); } idx = k.set(idx, ocl::KernelArg::PtrReadWrite(block_hists)); idx = k.set(idx, threshold); idx = k.set(idx, (void*)NULL, nthreads * sizeof(float)); return k.run(2, globalThreads, localThreads, false); } static bool ocl_extract_descrs_by_rows(int win_height, int win_width, int block_stride_y, int block_stride_x, int win_stride_y, int win_stride_x, int height, int width, UMat block_hists, UMat descriptors, int block_hist_size, int descr_size, int descr_width) { ocl::Kernel k("extract_descrs_by_rows_kernel", ocl::objdetect::objdetect_hog_oclsrc); if(k.empty()) return false; int win_block_stride_x = win_stride_x / block_stride_x; int win_block_stride_y = win_stride_y / block_stride_y; int img_win_width = (width - win_width + win_stride_x) / win_stride_x; int img_win_height = (height - win_height + win_stride_y) / win_stride_y; int img_block_width = (width - CELLS_PER_BLOCK_X * CELL_WIDTH + block_stride_x) / block_stride_x; int descriptors_quadstep = (int)descriptors.step >> 2; size_t globalThreads[3] = { img_win_width * NTHREADS, img_win_height, 1 }; size_t localThreads[3] = { NTHREADS, 1, 1 }; int idx = 0; idx = k.set(idx, block_hist_size); idx = k.set(idx, descriptors_quadstep); idx = k.set(idx, descr_size); idx = k.set(idx, descr_width); idx = k.set(idx, img_block_width); idx = k.set(idx, win_block_stride_x); idx = k.set(idx, win_block_stride_y); idx = k.set(idx, ocl::KernelArg::PtrReadOnly(block_hists)); idx = k.set(idx, ocl::KernelArg::PtrWriteOnly(descriptors)); return k.run(2, globalThreads, localThreads, false); } static bool ocl_extract_descrs_by_cols(int win_height, int win_width, int block_stride_y, int block_stride_x, int win_stride_y, int win_stride_x, int height, int width, UMat block_hists, UMat descriptors, int block_hist_size, int descr_size, int nblocks_win_x, int nblocks_win_y) { ocl::Kernel k("extract_descrs_by_cols_kernel", ocl::objdetect::objdetect_hog_oclsrc); if(k.empty()) return false; int win_block_stride_x = win_stride_x / block_stride_x; int win_block_stride_y = win_stride_y / block_stride_y; int img_win_width = (width - win_width + win_stride_x) / win_stride_x; int img_win_height = (height - win_height + win_stride_y) / win_stride_y; int img_block_width = (width - CELLS_PER_BLOCK_X * CELL_WIDTH + block_stride_x) / block_stride_x; int descriptors_quadstep = (int)descriptors.step >> 2; size_t globalThreads[3] = { img_win_width * NTHREADS, img_win_height, 1 }; size_t localThreads[3] = { NTHREADS, 1, 1 }; int idx = 0; idx = k.set(idx, block_hist_size); idx = k.set(idx, descriptors_quadstep); idx = k.set(idx, descr_size); idx = k.set(idx, nblocks_win_x); idx = k.set(idx, nblocks_win_y); idx = k.set(idx, img_block_width); idx = k.set(idx, win_block_stride_x); idx = k.set(idx, win_block_stride_y); idx = k.set(idx, ocl::KernelArg::PtrReadOnly(block_hists)); idx = k.set(idx, ocl::KernelArg::PtrWriteOnly(descriptors)); return k.run(2, globalThreads, localThreads, false); } static bool ocl_compute(InputArray _img, Size win_stride, std::vector& _descriptors, int descr_format, Size blockSize, Size cellSize, int nbins, Size blockStride, Size winSize, float sigma, bool gammaCorrection, double L2HysThreshold, bool signedGradient) { Size imgSize = _img.size(); Size effect_size = imgSize; UMat grad(imgSize, CV_32FC2); int qangle_type = ocl::Device::getDefault().isIntel() ? CV_32SC2 : CV_8UC2; UMat qangle(imgSize, qangle_type); const size_t block_hist_size = getBlockHistogramSize(blockSize, cellSize, nbins); const Size blocks_per_img = numPartsWithin(imgSize, blockSize, blockStride); UMat block_hists(1, static_cast(block_hist_size * blocks_per_img.area()) + 256, CV_32F); Size wins_per_img = numPartsWithin(imgSize, winSize, win_stride); UMat labels(1, wins_per_img.area(), CV_8U); float scale = 1.f / (2.f * sigma * sigma); Mat gaussian_lut(1, 512, CV_32FC1); int idx = 0; for(int i=-8; i<8; i++) for(int j=-8; j<8; j++) gaussian_lut.at(idx++) = std::exp(-(j * j + i * i) * scale); for(int i=-8; i<8; i++) for(int j=-8; j<8; j++) gaussian_lut.at(idx++) = (8.f - fabs(j + 0.5f)) * (8.f - fabs(i + 0.5f)) / 64.f; if(!ocl_computeGradient(_img, grad, qangle, nbins, effect_size, gammaCorrection, signedGradient)) return false; UMat gauss_w_lut; gaussian_lut.copyTo(gauss_w_lut); if(!ocl_compute_hists(nbins, blockStride.width, blockStride.height, effect_size.height, effect_size.width, grad, qangle, gauss_w_lut, block_hists, block_hist_size)) return false; if(!ocl_normalize_hists(nbins, blockStride.width, blockStride.height, effect_size.height, effect_size.width, block_hists, (float)L2HysThreshold)) return false; Size blocks_per_win = numPartsWithin(winSize, blockSize, blockStride); wins_per_img = numPartsWithin(effect_size, winSize, win_stride); int descr_size = blocks_per_win.area()*(int)block_hist_size; int descr_width = (int)block_hist_size*blocks_per_win.width; UMat descriptors(wins_per_img.area(), static_cast(blocks_per_win.area() * block_hist_size), CV_32F); switch (descr_format) { case DESCR_FORMAT_ROW_BY_ROW: if(!ocl_extract_descrs_by_rows(winSize.height, winSize.width, blockStride.height, blockStride.width, win_stride.height, win_stride.width, effect_size.height, effect_size.width, block_hists, descriptors, (int)block_hist_size, descr_size, descr_width)) return false; break; case DESCR_FORMAT_COL_BY_COL: if(!ocl_extract_descrs_by_cols(winSize.height, winSize.width, blockStride.height, blockStride.width, win_stride.height, win_stride.width, effect_size.height, effect_size.width, block_hists, descriptors, (int)block_hist_size, descr_size, blocks_per_win.width, blocks_per_win.height)) return false; break; default: return false; } descriptors.reshape(1, (int)descriptors.total()).getMat(ACCESS_READ).copyTo(_descriptors); return true; } #endif //HAVE_OPENCL void HOGDescriptor::compute(InputArray _img, std::vector& descriptors, Size winStride, Size padding, const std::vector& locations) const { if( winStride == Size() ) winStride = cellSize; Size cacheStride(gcd(winStride.width, blockStride.width), gcd(winStride.height, blockStride.height)); Size imgSize = _img.size(); size_t nwindows = locations.size(); padding.width = (int)alignSize(std::max(padding.width, 0), cacheStride.width); padding.height = (int)alignSize(std::max(padding.height, 0), cacheStride.height); Size paddedImgSize(imgSize.width + padding.width*2, imgSize.height + padding.height*2); CV_OCL_RUN(_img.dims() <= 2 && _img.type() == CV_8UC1 && _img.isUMat(), ocl_compute(_img, winStride, descriptors, DESCR_FORMAT_COL_BY_COL, blockSize, cellSize, nbins, blockStride, winSize, (float)getWinSigma(), gammaCorrection, L2HysThreshold, signedGradient)) Mat img = _img.getMat(); HOGCache cache(this, img, padding, padding, nwindows == 0, cacheStride); if( !nwindows ) nwindows = cache.windowsInImage(paddedImgSize, winStride).area(); const HOGCache::BlockData* blockData = &cache.blockData[0]; int nblocks = cache.nblocks.area(); int blockHistogramSize = cache.blockHistogramSize; size_t dsize = getDescriptorSize(); descriptors.resize(dsize*nwindows); // for each window for( size_t i = 0; i < nwindows; i++ ) { float* descriptor = &descriptors[i*dsize]; Point pt0; if( !locations.empty() ) { pt0 = locations[i]; if( pt0.x < -padding.width || pt0.x > img.cols + padding.width - winSize.width || pt0.y < -padding.height || pt0.y > img.rows + padding.height - winSize.height ) continue; } else { pt0 = cache.getWindow(paddedImgSize, winStride, (int)i).tl() - Point(padding); // CV_Assert(pt0.x % cacheStride.width == 0 && pt0.y % cacheStride.height == 0); } for( int j = 0; j < nblocks; j++ ) { const HOGCache::BlockData& bj = blockData[j]; Point pt = pt0 + bj.imgOffset; float* dst = descriptor + bj.histOfs; const float* src = cache.getBlock(pt, dst); if( src != dst ) memcpy(dst, src, blockHistogramSize * sizeof(float)); } } } void HOGDescriptor::detect(const Mat& img, std::vector& hits, std::vector& weights, double hitThreshold, Size winStride, Size padding, const std::vector& locations) const { hits.clear(); weights.clear(); if( svmDetector.empty() ) return; if( winStride == Size() ) winStride = cellSize; Size cacheStride(gcd(winStride.width, blockStride.width), gcd(winStride.height, blockStride.height)); size_t nwindows = locations.size(); padding.width = (int)alignSize(std::max(padding.width, 0), cacheStride.width); padding.height = (int)alignSize(std::max(padding.height, 0), cacheStride.height); Size paddedImgSize(img.cols + padding.width*2, img.rows + padding.height*2); HOGCache cache(this, img, padding, padding, nwindows == 0, cacheStride); if( !nwindows ) nwindows = cache.windowsInImage(paddedImgSize, winStride).area(); const HOGCache::BlockData* blockData = &cache.blockData[0]; int nblocks = cache.nblocks.area(); int blockHistogramSize = cache.blockHistogramSize; size_t dsize = getDescriptorSize(); double rho = svmDetector.size() > dsize ? svmDetector[dsize] : 0; std::vector blockHist(blockHistogramSize); #if CV_SSE2 float partSum[4]; #endif for( size_t i = 0; i < nwindows; i++ ) { Point pt0; if( !locations.empty() ) { pt0 = locations[i]; if( pt0.x < -padding.width || pt0.x > img.cols + padding.width - winSize.width || pt0.y < -padding.height || pt0.y > img.rows + padding.height - winSize.height ) continue; } else { pt0 = cache.getWindow(paddedImgSize, winStride, (int)i).tl() - Point(padding); CV_Assert(pt0.x % cacheStride.width == 0 && pt0.y % cacheStride.height == 0); } double s = rho; const float* svmVec = &svmDetector[0]; int j, k; for( j = 0; j < nblocks; j++, svmVec += blockHistogramSize ) { const HOGCache::BlockData& bj = blockData[j]; Point pt = pt0 + bj.imgOffset; const float* vec = cache.getBlock(pt, &blockHist[0]); #if CV_SSE2 __m128 _vec = _mm_loadu_ps(vec); __m128 _svmVec = _mm_loadu_ps(svmVec); __m128 sum = _mm_mul_ps(_svmVec, _vec); for( k = 4; k <= blockHistogramSize - 4; k += 4 ) { _vec = _mm_loadu_ps(vec + k); _svmVec = _mm_loadu_ps(svmVec + k); sum = _mm_add_ps(sum, _mm_mul_ps(_vec, _svmVec)); } _mm_storeu_ps(partSum, sum); double t0 = partSum[0] + partSum[1]; double t1 = partSum[2] + partSum[3]; s += t0 + t1; #else for( k = 0; k <= blockHistogramSize - 4; k += 4 ) s += vec[k]*svmVec[k] + vec[k+1]*svmVec[k+1] + vec[k+2]*svmVec[k+2] + vec[k+3]*svmVec[k+3]; #endif for( ; k < blockHistogramSize; k++ ) s += vec[k]*svmVec[k]; } if( s >= hitThreshold ) { hits.push_back(pt0); weights.push_back(s); } } } void HOGDescriptor::detect(const Mat& img, std::vector& hits, double hitThreshold, Size winStride, Size padding, const std::vector& locations) const { std::vector weightsV; detect(img, hits, weightsV, hitThreshold, winStride, padding, locations); } class HOGInvoker : public ParallelLoopBody { public: HOGInvoker( const HOGDescriptor* _hog, const Mat& _img, double _hitThreshold, const Size& _winStride, const Size& _padding, const double* _levelScale, std::vector * _vec, Mutex* _mtx, std::vector* _weights=0, std::vector* _scales=0 ) { hog = _hog; img = _img; hitThreshold = _hitThreshold; winStride = _winStride; padding = _padding; levelScale = _levelScale; vec = _vec; weights = _weights; scales = _scales; mtx = _mtx; } void operator()( const Range& range ) const { int i, i1 = range.start, i2 = range.end; double minScale = i1 > 0 ? levelScale[i1] : i2 > 1 ? levelScale[i1+1] : std::max(img.cols, img.rows); Size maxSz(cvCeil(img.cols/minScale), cvCeil(img.rows/minScale)); Mat smallerImgBuf(maxSz, img.type()); std::vector locations; std::vector hitsWeights; for( i = i1; i < i2; i++ ) { double scale = levelScale[i]; Size sz(cvRound(img.cols/scale), cvRound(img.rows/scale)); Mat smallerImg(sz, img.type(), smallerImgBuf.ptr()); if( sz == img.size() ) smallerImg = Mat(sz, img.type(), img.data, img.step); else resize(img, smallerImg, sz); hog->detect(smallerImg, locations, hitsWeights, hitThreshold, winStride, padding); Size scaledWinSize = Size(cvRound(hog->winSize.width*scale), cvRound(hog->winSize.height*scale)); mtx->lock(); for( size_t j = 0; j < locations.size(); j++ ) { vec->push_back(Rect(cvRound(locations[j].x*scale), cvRound(locations[j].y*scale), scaledWinSize.width, scaledWinSize.height)); if (scales) scales->push_back(scale); } mtx->unlock(); if (weights && (!hitsWeights.empty())) { mtx->lock(); for (size_t j = 0; j < locations.size(); j++) weights->push_back(hitsWeights[j]); mtx->unlock(); } } } private: const HOGDescriptor* hog; Mat img; double hitThreshold; Size winStride; Size padding; const double* levelScale; std::vector* vec; std::vector* weights; std::vector* scales; Mutex* mtx; }; #ifdef HAVE_OPENCL static bool ocl_classify_hists(int win_height, int win_width, int block_stride_y, int block_stride_x, int win_stride_y, int win_stride_x, int height, int width, const UMat& block_hists, UMat detector, float free_coef, float threshold, UMat& labels, Size descr_size, int block_hist_size) { int nthreads; bool is_cpu = cv::ocl::Device::getDefault().type() == cv::ocl::Device::TYPE_CPU; cv::String opts; ocl::Kernel k; int idx = 0; switch (descr_size.width) { case 180: nthreads = 180; k.create("classify_hists_180_kernel", ocl::objdetect::objdetect_hog_oclsrc, ""); if(k.empty()) return false; if(is_cpu) opts = "-D CPU "; else opts = cv::format("-D WAVE_SIZE=%d", k.preferedWorkGroupSizeMultiple()); k.create("classify_hists_180_kernel", ocl::objdetect::objdetect_hog_oclsrc, opts); if(k.empty()) return false; idx = k.set(idx, descr_size.width); idx = k.set(idx, descr_size.height); break; case 252: nthreads = 256; k.create("classify_hists_252_kernel", ocl::objdetect::objdetect_hog_oclsrc, ""); if(k.empty()) return false; if(is_cpu) opts = "-D CPU "; else opts = cv::format("-D WAVE_SIZE=%d", k.preferedWorkGroupSizeMultiple()); k.create("classify_hists_252_kernel", ocl::objdetect::objdetect_hog_oclsrc, opts); if(k.empty()) return false; idx = k.set(idx, descr_size.width); idx = k.set(idx, descr_size.height); break; default: nthreads = 256; k.create("classify_hists_kernel", ocl::objdetect::objdetect_hog_oclsrc, ""); if(k.empty()) return false; if(is_cpu) opts = "-D CPU "; else opts = cv::format("-D WAVE_SIZE=%d", k.preferedWorkGroupSizeMultiple()); k.create("classify_hists_kernel", ocl::objdetect::objdetect_hog_oclsrc, opts); if(k.empty()) return false; idx = k.set(idx, descr_size.area()); idx = k.set(idx, descr_size.height); } int win_block_stride_x = win_stride_x / block_stride_x; int win_block_stride_y = win_stride_y / block_stride_y; int img_win_width = (width - win_width + win_stride_x) / win_stride_x; int img_win_height = (height - win_height + win_stride_y) / win_stride_y; int img_block_width = (width - CELLS_PER_BLOCK_X * CELL_WIDTH + block_stride_x) / block_stride_x; size_t globalThreads[3] = { img_win_width * nthreads, img_win_height, 1 }; size_t localThreads[3] = { nthreads, 1, 1 }; idx = k.set(idx, block_hist_size); idx = k.set(idx, img_win_width); idx = k.set(idx, img_block_width); idx = k.set(idx, win_block_stride_x); idx = k.set(idx, win_block_stride_y); idx = k.set(idx, ocl::KernelArg::PtrReadOnly(block_hists)); idx = k.set(idx, ocl::KernelArg::PtrReadOnly(detector)); idx = k.set(idx, free_coef); idx = k.set(idx, threshold); idx = k.set(idx, ocl::KernelArg::PtrWriteOnly(labels)); return k.run(2, globalThreads, localThreads, false); } static bool ocl_detect(InputArray img, std::vector &hits, double hit_threshold, Size win_stride, const UMat& oclSvmDetector, Size blockSize, Size cellSize, int nbins, Size blockStride, Size winSize, bool gammaCorrection, double L2HysThreshold, float sigma, float free_coef, bool signedGradient) { hits.clear(); if (oclSvmDetector.empty()) return false; Size imgSize = img.size(); Size effect_size = imgSize; UMat grad(imgSize, CV_32FC2); int qangle_type = ocl::Device::getDefault().isIntel() ? CV_32SC2 : CV_8UC2; UMat qangle(imgSize, qangle_type); const size_t block_hist_size = getBlockHistogramSize(blockSize, cellSize, nbins); const Size blocks_per_img = numPartsWithin(imgSize, blockSize, blockStride); UMat block_hists(1, static_cast(block_hist_size * blocks_per_img.area()) + 256, CV_32F); Size wins_per_img = numPartsWithin(imgSize, winSize, win_stride); UMat labels(1, wins_per_img.area(), CV_8U); float scale = 1.f / (2.f * sigma * sigma); Mat gaussian_lut(1, 512, CV_32FC1); int idx = 0; for(int i=-8; i<8; i++) for(int j=-8; j<8; j++) gaussian_lut.at(idx++) = std::exp(-(j * j + i * i) * scale); for(int i=-8; i<8; i++) for(int j=-8; j<8; j++) gaussian_lut.at(idx++) = (8.f - fabs(j + 0.5f)) * (8.f - fabs(i + 0.5f)) / 64.f; if(!ocl_computeGradient(img, grad, qangle, nbins, effect_size, gammaCorrection, signedGradient)) return false; UMat gauss_w_lut; gaussian_lut.copyTo(gauss_w_lut); if(!ocl_compute_hists(nbins, blockStride.width, blockStride.height, effect_size.height, effect_size.width, grad, qangle, gauss_w_lut, block_hists, block_hist_size)) return false; if(!ocl_normalize_hists(nbins, blockStride.width, blockStride.height, effect_size.height, effect_size.width, block_hists, (float)L2HysThreshold)) return false; Size blocks_per_win = numPartsWithin(winSize, blockSize, blockStride); Size descr_size((int)block_hist_size*blocks_per_win.width, blocks_per_win.height); if(!ocl_classify_hists(winSize.height, winSize.width, blockStride.height, blockStride.width, win_stride.height, win_stride.width, effect_size.height, effect_size.width, block_hists, oclSvmDetector, free_coef, (float)hit_threshold, labels, descr_size, (int)block_hist_size)) return false; Mat labels_host = labels.getMat(ACCESS_READ); unsigned char *vec = labels_host.ptr(); for (int i = 0; i < wins_per_img.area(); i++) { int y = i / wins_per_img.width; int x = i - wins_per_img.width * y; if (vec[i]) { hits.push_back(Point(x * win_stride.width, y * win_stride.height)); } } return true; } static bool ocl_detectMultiScale(InputArray _img, std::vector &found_locations, std::vector& level_scale, double hit_threshold, Size win_stride, double group_threshold, const UMat& oclSvmDetector, Size blockSize, Size cellSize, int nbins, Size blockStride, Size winSize, bool gammaCorrection, double L2HysThreshold, float sigma, float free_coef, bool signedGradient) { std::vector all_candidates; std::vector locations; UMat image_scale; Size imgSize = _img.size(); image_scale.create(imgSize, _img.type()); for (size_t i = 0; i& foundLocations, std::vector& foundWeights, double hitThreshold, Size winStride, Size padding, double scale0, double finalThreshold, bool useMeanshiftGrouping) const { double scale = 1.; int levels = 0; Size imgSize = _img.size(); std::vector levelScale; for( levels = 0; levels < nlevels; levels++ ) { levelScale.push_back(scale); if( cvRound(imgSize.width/scale) < winSize.width || cvRound(imgSize.height/scale) < winSize.height || scale0 <= 1 ) break; scale *= scale0; } levels = std::max(levels, 1); levelScale.resize(levels); if(winStride == Size()) winStride = blockStride; CV_OCL_RUN(_img.dims() <= 2 && _img.type() == CV_8UC1 && scale0 > 1 && winStride.width % blockStride.width == 0 && winStride.height % blockStride.height == 0 && padding == Size(0,0) && _img.isUMat(), ocl_detectMultiScale(_img, foundLocations, levelScale, hitThreshold, winStride, finalThreshold, oclSvmDetector, blockSize, cellSize, nbins, blockStride, winSize, gammaCorrection, L2HysThreshold, (float)getWinSigma(), free_coef, signedGradient)); std::vector allCandidates; std::vector tempScales; std::vector tempWeights; std::vector foundScales; Mutex mtx; Mat img = _img.getMat(); Range range(0, (int)levelScale.size()); HOGInvoker invoker(this, img, hitThreshold, winStride, padding, &levelScale[0], &allCandidates, &mtx, &tempWeights, &tempScales); parallel_for_(range, invoker); std::copy(tempScales.begin(), tempScales.end(), back_inserter(foundScales)); foundLocations.clear(); std::copy(allCandidates.begin(), allCandidates.end(), back_inserter(foundLocations)); foundWeights.clear(); std::copy(tempWeights.begin(), tempWeights.end(), back_inserter(foundWeights)); if ( useMeanshiftGrouping ) groupRectangles_meanshift(foundLocations, foundWeights, foundScales, finalThreshold, winSize); else groupRectangles(foundLocations, foundWeights, (int)finalThreshold, 0.2); clipObjects(imgSize, foundLocations, 0, &foundWeights); } void HOGDescriptor::detectMultiScale(InputArray img, std::vector& foundLocations, double hitThreshold, Size winStride, Size padding, double scale0, double finalThreshold, bool useMeanshiftGrouping) const { std::vector foundWeights; detectMultiScale(img, foundLocations, foundWeights, hitThreshold, winStride, padding, scale0, finalThreshold, useMeanshiftGrouping); } template struct RTTIImpl { public: static int isInstance(const void* ptr) { static _ClsName dummy; static void* dummyp = &dummy; union { const void* p; const void** pp; } a, b; a.p = dummyp; b.p = ptr; return *a.pp == *b.pp; } static void release(void** dbptr) { if(dbptr && *dbptr) { delete (_ClsName*)*dbptr; *dbptr = 0; } } static void* read(CvFileStorage* fs, CvFileNode* n) { FileNode fn(fs, n); _ClsName* obj = new _ClsName; if(obj->read(fn)) return obj; delete obj; return 0; } static void write(CvFileStorage* _fs, const char* name, const void* ptr, CvAttrList) { if(ptr && _fs) { FileStorage fs(_fs, false); ((const _ClsName*)ptr)->write(fs, String(name)); } } static void* clone(const void* ptr) { if(!ptr) return 0; return new _ClsName(*(const _ClsName*)ptr); } }; typedef RTTIImpl HOGRTTI; CvType hog_type( CV_TYPE_NAME_HOG_DESCRIPTOR, HOGRTTI::isInstance, HOGRTTI::release, HOGRTTI::read, HOGRTTI::write, HOGRTTI::clone); std::vector HOGDescriptor::getDefaultPeopleDetector() { static const float detector[] = { 0.05359386f, -0.14721455f, -0.05532170f, 0.05077307f, 0.11547081f, -0.04268804f, 0.04635834f, -0.05468199f, 0.08232084f, 0.10424068f, -0.02294518f, 0.01108519f, 0.01378693f, 0.11193510f, 0.01268418f, 0.08528346f, -0.06309239f, 0.13054633f, 0.08100729f, -0.05209739f, -0.04315529f, 0.09341384f, 0.11035026f, -0.07596218f, -0.05517511f, -0.04465296f, 0.02947334f, 0.04555536f, -3.55954492e-003f, 0.07818956f, 0.07730991f, 0.07890715f, 0.06222893f, 0.09001380f, -0.03574381f, 0.03414327f, 0.05677258f, -0.04773581f, 0.03746637f, -0.03521175f, 0.06955440f, -0.03849038f, 0.01052293f, 0.01736112f, 0.10867710f, 0.08748853f, 3.29739624e-003f, 0.10907028f, 0.07913758f, 0.10393070f, 0.02091867f, 0.11594022f, 0.13182420f, 0.09879354f, 0.05362710f, -0.06745391f, -7.01260753e-003f, 5.24702156e-003f, 0.03236255f, 0.01407916f, 0.02207983f, 0.02537322f, 0.04547948f, 0.07200756f, 0.03129894f, -0.06274468f, 0.02107014f, 0.06035208f, 0.08636236f, 4.53164103e-003f, 0.02193363f, 0.02309801f, 0.05568166f, -0.02645093f, 0.04448695f, 0.02837519f, 0.08975694f, 0.04461516f, 0.08975355f, 0.07514391f, 0.02306982f, 0.10410084f, 0.06368385f, 0.05943464f, 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0.03355330f, 0.04418742f, -0.05580705f, -0.05037573f, -0.04548179f, 0.01379514f, 0.02150671f, -0.02194211f, -0.13682702f, 0.05464972f, 0.01608082f, 0.05309116f, 0.04701022f, 1.33690401e-003f, 0.07575664f, 0.09625306f, 8.92647635e-003f, -0.02819123f, 0.10866830f, -0.03439325f, -0.07092371f, -0.06004780f, -0.02712298f, -7.07467366e-003f, -0.01637020f, 0.01336790f, -0.10313606f, 0.04906582f, -0.05732445f, -0.02731079f, 0.01042235f, -0.08340668f, 0.03686501f, 0.06108340f, 0.01322748f, -0.07809529f, 0.03774724f, -0.03413248f, -0.06096525f, -0.04212124f, -0.07982176f, -1.25973229e-003f, -0.03045501f, -0.01236493f, -0.06312395f, 0.04789570f, -0.04602066f, 0.08576570f, 0.02521080f, 0.02988098f, 0.10314583f, 0.07060035f, 0.04520544f, -0.04426654f, 0.13146530f, 0.08386490f, 0.02164590f, -2.12280243e-003f, -0.03686353f, -0.02074944f, -0.03829959f, -0.01530596f, 0.02689708f, 0.11867401f, -0.06043470f, -0.02785023f, -0.04775074f, 0.04878745f, 0.06350956f, 0.03494788f, 0.01467400f, 1.17890188e-003f, 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0.06254654f, 0.02895772f, -0.01664000f, -0.03620280f, -0.01612278f, -1.46097376e-003f, 0.14013411f, -8.96181818e-003f, -0.03250246f, 3.38630192e-003f, 2.64779478e-003f, 0.03359732f, -0.02411991f, -0.04229729f, 0.10666174f, -6.66579151f }; return std::vector(detector, detector + sizeof(detector)/sizeof(detector[0])); } // This function renurn 1981 SVM coeffs obtained from daimler's base. // To use these coeffs the detection window size should be (48,96) std::vector HOGDescriptor::getDaimlerPeopleDetector() { static const float detector[] = { 0.294350f, -0.098796f, -0.129522f, 0.078753f, 0.387527f, 0.261529f, 0.145939f, 0.061520f, 0.328699f, 0.227148f, -0.066467f, -0.086723f, 0.047559f, 0.106714f, 0.037897f, 0.111461f, -0.024406f, 0.304769f, 0.254676f, -0.069235f, 0.082566f, 0.147260f, 0.326969f, 0.148888f, 0.055270f, -0.087985f, 0.261720f, 0.143442f, 0.026812f, 0.238212f, 0.194020f, 0.056341f, -0.025854f, -0.034444f, -0.156631f, 0.205174f, 0.089008f, -0.139811f, -0.100147f, -0.037830f, 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0.124571f, 0.110829f, 0.010322f, -0.174477f, -0.067627f, -0.001979f, 0.142913f, 0.040597f, 0.019907f, 0.025963f, -0.043585f, -0.120732f, 0.099937f, 0.091059f, 0.247307f, 0.204226f, -0.042753f, -0.068580f, -0.119002f, 0.026722f, 0.034853f, -0.060934f, -0.025054f, -0.093026f, -0.035372f, -0.233209f, -0.049869f, -0.039151f, -0.022279f, -0.065380f, -9.063785f}; return std::vector(detector, detector + sizeof(detector)/sizeof(detector[0])); } class HOGConfInvoker : public ParallelLoopBody { public: HOGConfInvoker( const HOGDescriptor* _hog, const Mat& _img, double _hitThreshold, const Size& _padding, std::vector* locs, std::vector* _vec, Mutex* _mtx ) { hog = _hog; img = _img; hitThreshold = _hitThreshold; padding = _padding; locations = locs; vec = _vec; mtx = _mtx; } void operator()( const Range& range ) const { int i, i1 = range.start, i2 = range.end; Size maxSz(cvCeil(img.cols/(*locations)[0].scale), cvCeil(img.rows/(*locations)[0].scale)); Mat smallerImgBuf(maxSz, img.type()); std::vector dets; for( i = i1; i < i2; i++ ) { double scale = (*locations)[i].scale; Size sz(cvRound(img.cols / scale), cvRound(img.rows / scale)); Mat smallerImg(sz, img.type(), smallerImgBuf.ptr()); if( sz == img.size() ) smallerImg = Mat(sz, img.type(), img.data, img.step); else resize(img, smallerImg, sz); hog->detectROI(smallerImg, (*locations)[i].locations, dets, (*locations)[i].confidences, hitThreshold, Size(), padding); Size scaledWinSize = Size(cvRound(hog->winSize.width*scale), cvRound(hog->winSize.height*scale)); mtx->lock(); for( size_t j = 0; j < dets.size(); j++ ) vec->push_back(Rect(cvRound(dets[j].x*scale), cvRound(dets[j].y*scale), scaledWinSize.width, scaledWinSize.height)); mtx->unlock(); } } const HOGDescriptor* hog; Mat img; double hitThreshold; std::vector* locations; Size padding; std::vector* vec; Mutex* mtx; }; void HOGDescriptor::detectROI(const cv::Mat& img, const std::vector &locations, CV_OUT std::vector& foundLocations, CV_OUT std::vector& confidences, double hitThreshold, cv::Size winStride, cv::Size padding) const { foundLocations.clear(); confidences.clear(); if( svmDetector.empty() || locations.empty()) return; if( winStride == Size() ) winStride = cellSize; Size cacheStride(gcd(winStride.width, blockStride.width), gcd(winStride.height, blockStride.height)); size_t nwindows = locations.size(); padding.width = (int)alignSize(std::max(padding.width, 0), cacheStride.width); padding.height = (int)alignSize(std::max(padding.height, 0), cacheStride.height); Size paddedImgSize(img.cols + padding.width*2, img.rows + padding.height*2); // HOGCache cache(this, img, padding, padding, nwindows == 0, cacheStride); HOGCache cache(this, img, padding, padding, true, cacheStride); if( !nwindows ) nwindows = cache.windowsInImage(paddedImgSize, winStride).area(); const HOGCache::BlockData* blockData = &cache.blockData[0]; int nblocks = cache.nblocks.area(); int blockHistogramSize = cache.blockHistogramSize; size_t dsize = getDescriptorSize(); double rho = svmDetector.size() > dsize ? svmDetector[dsize] : 0; std::vector blockHist(blockHistogramSize); #if CV_SSE2 float partSum[4]; #endif for( size_t i = 0; i < nwindows; i++ ) { Point pt0; pt0 = locations[i]; if( pt0.x < -padding.width || pt0.x > img.cols + padding.width - winSize.width || pt0.y < -padding.height || pt0.y > img.rows + padding.height - winSize.height ) { // out of image confidences.push_back(-10.0); continue; } double s = rho; const float* svmVec = &svmDetector[0]; int j, k; for( j = 0; j < nblocks; j++, svmVec += blockHistogramSize ) { const HOGCache::BlockData& bj = blockData[j]; Point pt = pt0 + bj.imgOffset; // need to devide this into 4 parts! const float* vec = cache.getBlock(pt, &blockHist[0]); #if CV_SSE2 __m128 _vec = _mm_loadu_ps(vec); __m128 _svmVec = _mm_loadu_ps(svmVec); __m128 sum = _mm_mul_ps(_svmVec, _vec); for( k = 4; k <= blockHistogramSize - 4; k += 4 ) { _vec = _mm_loadu_ps(vec + k); _svmVec = _mm_loadu_ps(svmVec + k); sum = _mm_add_ps(sum, _mm_mul_ps(_vec, _svmVec)); } _mm_storeu_ps(partSum, sum); double t0 = partSum[0] + partSum[1]; double t1 = partSum[2] + partSum[3]; s += t0 + t1; #else for( k = 0; k <= blockHistogramSize - 4; k += 4 ) s += vec[k]*svmVec[k] + vec[k+1]*svmVec[k+1] + vec[k+2]*svmVec[k+2] + vec[k+3]*svmVec[k+3]; #endif for( ; k < blockHistogramSize; k++ ) s += vec[k]*svmVec[k]; } confidences.push_back(s); if( s >= hitThreshold ) foundLocations.push_back(pt0); } } void HOGDescriptor::detectMultiScaleROI(const cv::Mat& img, CV_OUT std::vector& foundLocations, std::vector& locations, double hitThreshold, int groupThreshold) const { std::vector allCandidates; Mutex mtx; parallel_for_(Range(0, (int)locations.size()), HOGConfInvoker(this, img, hitThreshold, Size(8, 8), &locations, &allCandidates, &mtx)); foundLocations.resize(allCandidates.size()); std::copy(allCandidates.begin(), allCandidates.end(), foundLocations.begin()); cv::groupRectangles(foundLocations, groupThreshold, 0.2); } void HOGDescriptor::readALTModel(String modelfile) { // read model from SVMlight format.. FILE *modelfl; if ((modelfl = fopen(modelfile.c_str(), "rb")) == NULL) { String eerr("file not exist"); String efile(__FILE__); String efunc(__FUNCTION__); throw Exception(Error::StsError, eerr, efile, efunc, __LINE__); } char version_buffer[10]; if (!fread (&version_buffer,sizeof(char),10,modelfl)) { String eerr("version?"); String efile(__FILE__); String efunc(__FUNCTION__); throw Exception(Error::StsError, eerr, efile, efunc, __LINE__); } if(strcmp(version_buffer,"V6.01")) { String eerr("version doesnot match"); String efile(__FILE__); String efunc(__FUNCTION__); throw Exception(Error::StsError, eerr, efile, efunc, __LINE__); } /* read version number */ int version = 0; if (!fread (&version,sizeof(int),1,modelfl)) { throw Exception(); } if (version < 200) { String eerr("version doesnot match"); String efile(__FILE__); String efunc(__FUNCTION__); throw Exception(); } int kernel_type; size_t nread; nread=fread(&(kernel_type),sizeof(int),1,modelfl); {// ignore these int poly_degree; nread=fread(&(poly_degree),sizeof(int),1,modelfl); double rbf_gamma; nread=fread(&(rbf_gamma),sizeof(double), 1, modelfl); double coef_lin; nread=fread(&(coef_lin),sizeof(double),1,modelfl); double coef_const; nread=fread(&(coef_const),sizeof(double),1,modelfl); int l; nread=fread(&l,sizeof(int),1,modelfl); char* custom = new char[l]; nread=fread(custom,sizeof(char),l,modelfl); delete[] custom; } int totwords; nread=fread(&(totwords),sizeof(int),1,modelfl); {// ignore these int totdoc; nread=fread(&(totdoc),sizeof(int),1,modelfl); int sv_num; nread=fread(&(sv_num), sizeof(int),1,modelfl); } double linearbias; nread=fread(&linearbias, sizeof(double), 1, modelfl); std::vector detector; detector.clear(); if(kernel_type == 0) { /* linear kernel */ /* save linear wts also */ double *linearwt = new double[totwords+1]; int length = totwords; nread = fread(linearwt, sizeof(double), totwords + 1, modelfl); if(nread != static_cast(length) + 1) { delete [] linearwt; throw Exception(); } for(int i = 0; i < length; i++) detector.push_back((float)linearwt[i]); detector.push_back((float)-linearbias); setSVMDetector(detector); delete [] linearwt; } else { throw Exception(); } fclose(modelfl); } void HOGDescriptor::groupRectangles(std::vector& rectList, std::vector& weights, int groupThreshold, double eps) const { if( groupThreshold <= 0 || rectList.empty() ) { return; } CV_Assert(rectList.size() == weights.size()); std::vector labels; int nclasses = partition(rectList, labels, SimilarRects(eps)); std::vector > rrects(nclasses); std::vector numInClass(nclasses, 0); std::vector foundWeights(nclasses, -std::numeric_limits::max()); int i, j, nlabels = (int)labels.size(); for( i = 0; i < nlabels; i++ ) { int cls = labels[i]; rrects[cls].x += rectList[i].x; rrects[cls].y += rectList[i].y; rrects[cls].width += rectList[i].width; rrects[cls].height += rectList[i].height; foundWeights[cls] = max(foundWeights[cls], weights[i]); numInClass[cls]++; } for( i = 0; i < nclasses; i++ ) { // find the average of all ROI in the cluster cv::Rect_ r = rrects[i]; double s = 1.0/numInClass[i]; rrects[i] = cv::Rect_(cv::saturate_cast(r.x*s), cv::saturate_cast(r.y*s), cv::saturate_cast(r.width*s), cv::saturate_cast(r.height*s)); } rectList.clear(); weights.clear(); for( i = 0; i < nclasses; i++ ) { cv::Rect r1 = rrects[i]; int n1 = numInClass[i]; double w1 = foundWeights[i]; if( n1 <= groupThreshold ) continue; // filter out small rectangles inside large rectangles for( j = 0; j < nclasses; j++ ) { int n2 = numInClass[j]; if( j == i || n2 <= groupThreshold ) continue; cv::Rect r2 = rrects[j]; int dx = cv::saturate_cast( r2.width * eps ); int dy = cv::saturate_cast( r2.height * eps ); if( r1.x >= r2.x - dx && r1.y >= r2.y - dy && r1.x + r1.width <= r2.x + r2.width + dx && r1.y + r1.height <= r2.y + r2.height + dy && (n2 > std::max(3, n1) || n1 < 3) ) break; } if( j == nclasses ) { rectList.push_back(r1); weights.push_back(w1); } } } }