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Open Source Computer Vision Library
https://opencv.org/
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445 lines
14 KiB
445 lines
14 KiB
#include <opencv2/opencv.hpp> |
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#include <string> |
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#include <iostream> |
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#include <fstream> |
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#include <vector> |
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#include <time.h> |
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using namespace cv; |
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using namespace cv::ml; |
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using namespace std; |
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void get_svm_detector(const Ptr<SVM>& svm, vector< float > & hog_detector ); |
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void convert_to_ml(const std::vector< cv::Mat > & train_samples, cv::Mat& trainData ); |
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void load_images( const string & prefix, const string & filename, vector< Mat > & img_lst ); |
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void sample_neg( const vector< Mat > & full_neg_lst, vector< Mat > & neg_lst, const Size & size ); |
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Mat get_hogdescriptor_visu(const Mat& color_origImg, vector<float>& descriptorValues, const Size & size ); |
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void compute_hog( const vector< Mat > & img_lst, vector< Mat > & gradient_lst, const Size & size ); |
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void train_svm( const vector< Mat > & gradient_lst, const vector< int > & labels ); |
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void draw_locations( Mat & img, const vector< Rect > & locations, const Scalar & color ); |
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void test_it( const Size & size ); |
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void get_svm_detector(const Ptr<SVM>& svm, vector< float > & hog_detector ) |
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{ |
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// get the support vectors |
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Mat sv = svm->getSupportVectors(); |
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const int sv_total = sv.rows; |
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// get the decision function |
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Mat alpha, svidx; |
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double rho = svm->getDecisionFunction(0, alpha, svidx); |
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CV_Assert( alpha.total() == 1 && svidx.total() == 1 && sv_total == 1 ); |
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CV_Assert( (alpha.type() == CV_64F && alpha.at<double>(0) == 1.) || |
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(alpha.type() == CV_32F && alpha.at<float>(0) == 1.f) ); |
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CV_Assert( sv.type() == CV_32F ); |
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hog_detector.clear(); |
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hog_detector.resize(sv.cols + 1); |
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memcpy(&hog_detector[0], sv.ptr(), sv.cols*sizeof(hog_detector[0])); |
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hog_detector[sv.cols] = (float)-rho; |
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} |
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/* |
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* Convert training/testing set to be used by OpenCV Machine Learning algorithms. |
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* TrainData is a matrix of size (#samples x max(#cols,#rows) per samples), in 32FC1. |
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* Transposition of samples are made if needed. |
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*/ |
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void convert_to_ml(const std::vector< cv::Mat > & train_samples, cv::Mat& trainData ) |
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{ |
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//--Convert data |
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const int rows = (int)train_samples.size(); |
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const int cols = (int)std::max( train_samples[0].cols, train_samples[0].rows ); |
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cv::Mat tmp(1, cols, CV_32FC1); //< used for transposition if needed |
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trainData = cv::Mat(rows, cols, CV_32FC1 ); |
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vector< Mat >::const_iterator itr = train_samples.begin(); |
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vector< Mat >::const_iterator end = train_samples.end(); |
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for( int i = 0 ; itr != end ; ++itr, ++i ) |
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{ |
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CV_Assert( itr->cols == 1 || |
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itr->rows == 1 ); |
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if( itr->cols == 1 ) |
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{ |
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transpose( *(itr), tmp ); |
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tmp.copyTo( trainData.row( i ) ); |
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} |
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else if( itr->rows == 1 ) |
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{ |
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itr->copyTo( trainData.row( i ) ); |
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} |
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} |
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} |
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void load_images( const string & prefix, const string & filename, vector< Mat > & img_lst ) |
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{ |
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string line; |
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ifstream file; |
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file.open( (prefix+filename).c_str() ); |
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if( !file.is_open() ) |
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{ |
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cerr << "Unable to open the list of images from " << filename << " filename." << endl; |
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exit( -1 ); |
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} |
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bool end_of_parsing = false; |
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while( !end_of_parsing ) |
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{ |
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getline( file, line ); |
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if( line.empty() ) // no more file to read |
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{ |
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end_of_parsing = true; |
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break; |
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} |
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Mat img = imread( (prefix+line).c_str() ); // load the image |
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if( img.empty() ) // invalid image, just skip it. |
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continue; |
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#ifdef _DEBUG |
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imshow( "image", img ); |
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waitKey( 10 ); |
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#endif |
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img_lst.push_back( img.clone() ); |
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} |
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} |
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void sample_neg( const vector< Mat > & full_neg_lst, vector< Mat > & neg_lst, const Size & size ) |
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{ |
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Rect box; |
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box.width = size.width; |
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box.height = size.height; |
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const int size_x = box.width; |
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const int size_y = box.height; |
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srand( (unsigned int)time( NULL ) ); |
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vector< Mat >::const_iterator img = full_neg_lst.begin(); |
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vector< Mat >::const_iterator end = full_neg_lst.end(); |
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for( ; img != end ; ++img ) |
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{ |
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box.x = rand() % (img->cols - size_x); |
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box.y = rand() % (img->rows - size_y); |
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Mat roi = (*img)(box); |
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neg_lst.push_back( roi.clone() ); |
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#ifdef _DEBUG |
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imshow( "img", roi.clone() ); |
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waitKey( 10 ); |
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#endif |
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} |
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} |
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// From http://www.juergenwiki.de/work/wiki/doku.php?id=public:hog_descriptor_computation_and_visualization |
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Mat get_hogdescriptor_visu(const Mat& color_origImg, vector<float>& descriptorValues, const Size & size ) |
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{ |
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const int DIMX = size.width; |
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const int DIMY = size.height; |
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float zoomFac = 3; |
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Mat visu; |
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resize(color_origImg, visu, Size( (int)(color_origImg.cols*zoomFac), (int)(color_origImg.rows*zoomFac) ) ); |
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int cellSize = 8; |
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int gradientBinSize = 9; |
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float radRangeForOneBin = (float)(CV_PI/(float)gradientBinSize); // dividing 180 into 9 bins, how large (in rad) is one bin? |
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// prepare data structure: 9 orientation / gradient strenghts for each cell |
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int cells_in_x_dir = DIMX / cellSize; |
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int cells_in_y_dir = DIMY / cellSize; |
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float*** gradientStrengths = new float**[cells_in_y_dir]; |
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int** cellUpdateCounter = new int*[cells_in_y_dir]; |
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for (int y=0; y<cells_in_y_dir; y++) |
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{ |
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gradientStrengths[y] = new float*[cells_in_x_dir]; |
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cellUpdateCounter[y] = new int[cells_in_x_dir]; |
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for (int x=0; x<cells_in_x_dir; x++) |
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{ |
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gradientStrengths[y][x] = new float[gradientBinSize]; |
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cellUpdateCounter[y][x] = 0; |
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for (int bin=0; bin<gradientBinSize; bin++) |
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gradientStrengths[y][x][bin] = 0.0; |
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} |
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} |
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// nr of blocks = nr of cells - 1 |
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// since there is a new block on each cell (overlapping blocks!) but the last one |
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int blocks_in_x_dir = cells_in_x_dir - 1; |
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int blocks_in_y_dir = cells_in_y_dir - 1; |
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// compute gradient strengths per cell |
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int descriptorDataIdx = 0; |
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int cellx = 0; |
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int celly = 0; |
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for (int blockx=0; blockx<blocks_in_x_dir; blockx++) |
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{ |
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for (int blocky=0; blocky<blocks_in_y_dir; blocky++) |
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{ |
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// 4 cells per block ... |
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for (int cellNr=0; cellNr<4; cellNr++) |
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{ |
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// compute corresponding cell nr |
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cellx = blockx; |
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celly = blocky; |
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if (cellNr==1) celly++; |
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if (cellNr==2) cellx++; |
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if (cellNr==3) |
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{ |
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cellx++; |
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celly++; |
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} |
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for (int bin=0; bin<gradientBinSize; bin++) |
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{ |
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float gradientStrength = descriptorValues[ descriptorDataIdx ]; |
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descriptorDataIdx++; |
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gradientStrengths[celly][cellx][bin] += gradientStrength; |
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} // for (all bins) |
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// note: overlapping blocks lead to multiple updates of this sum! |
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// we therefore keep track how often a cell was updated, |
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// to compute average gradient strengths |
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cellUpdateCounter[celly][cellx]++; |
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} // for (all cells) |
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} // for (all block x pos) |
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} // for (all block y pos) |
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// compute average gradient strengths |
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for (celly=0; celly<cells_in_y_dir; celly++) |
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{ |
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for (cellx=0; cellx<cells_in_x_dir; cellx++) |
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{ |
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float NrUpdatesForThisCell = (float)cellUpdateCounter[celly][cellx]; |
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// compute average gradient strenghts for each gradient bin direction |
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for (int bin=0; bin<gradientBinSize; bin++) |
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{ |
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gradientStrengths[celly][cellx][bin] /= NrUpdatesForThisCell; |
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} |
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} |
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} |
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// draw cells |
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for (celly=0; celly<cells_in_y_dir; celly++) |
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{ |
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for (cellx=0; cellx<cells_in_x_dir; cellx++) |
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{ |
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int drawX = cellx * cellSize; |
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int drawY = celly * cellSize; |
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int mx = drawX + cellSize/2; |
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int my = drawY + cellSize/2; |
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rectangle(visu, Point((int)(drawX*zoomFac), (int)(drawY*zoomFac)), Point((int)((drawX+cellSize)*zoomFac), (int)((drawY+cellSize)*zoomFac)), Scalar(100,100,100), 1); |
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// draw in each cell all 9 gradient strengths |
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for (int bin=0; bin<gradientBinSize; bin++) |
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{ |
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float currentGradStrength = gradientStrengths[celly][cellx][bin]; |
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// no line to draw? |
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if (currentGradStrength==0) |
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continue; |
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float currRad = bin * radRangeForOneBin + radRangeForOneBin/2; |
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float dirVecX = cos( currRad ); |
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float dirVecY = sin( currRad ); |
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float maxVecLen = (float)(cellSize/2.f); |
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float scale = 2.5; // just a visualization scale, to see the lines better |
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// compute line coordinates |
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float x1 = mx - dirVecX * currentGradStrength * maxVecLen * scale; |
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float y1 = my - dirVecY * currentGradStrength * maxVecLen * scale; |
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float x2 = mx + dirVecX * currentGradStrength * maxVecLen * scale; |
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float y2 = my + dirVecY * currentGradStrength * maxVecLen * scale; |
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// draw gradient visualization |
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line(visu, Point((int)(x1*zoomFac),(int)(y1*zoomFac)), Point((int)(x2*zoomFac),(int)(y2*zoomFac)), Scalar(0,255,0), 1); |
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} // for (all bins) |
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} // for (cellx) |
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} // for (celly) |
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// don't forget to free memory allocated by helper data structures! |
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for (int y=0; y<cells_in_y_dir; y++) |
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{ |
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for (int x=0; x<cells_in_x_dir; x++) |
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{ |
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delete[] gradientStrengths[y][x]; |
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} |
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delete[] gradientStrengths[y]; |
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delete[] cellUpdateCounter[y]; |
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} |
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delete[] gradientStrengths; |
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delete[] cellUpdateCounter; |
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return visu; |
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} // get_hogdescriptor_visu |
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void compute_hog( const vector< Mat > & img_lst, vector< Mat > & gradient_lst, const Size & size ) |
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{ |
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HOGDescriptor hog; |
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hog.winSize = size; |
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Mat gray; |
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vector< Point > location; |
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vector< float > descriptors; |
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vector< Mat >::const_iterator img = img_lst.begin(); |
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vector< Mat >::const_iterator end = img_lst.end(); |
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for( ; img != end ; ++img ) |
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{ |
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cvtColor( *img, gray, COLOR_BGR2GRAY ); |
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hog.compute( gray, descriptors, Size( 8, 8 ), Size( 0, 0 ), location ); |
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gradient_lst.push_back( Mat( descriptors ).clone() ); |
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#ifdef _DEBUG |
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imshow( "gradient", get_hogdescriptor_visu( img->clone(), descriptors, size ) ); |
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waitKey( 10 ); |
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#endif |
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} |
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} |
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void train_svm( const vector< Mat > & gradient_lst, const vector< int > & labels ) |
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{ |
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Mat train_data; |
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convert_to_ml( gradient_lst, train_data ); |
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clog << "Start training..."; |
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Ptr<SVM> svm = SVM::create(); |
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/* Default values to train SVM */ |
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svm->setCoef0(0.0); |
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svm->setDegree(3); |
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svm->setTermCriteria(TermCriteria( CV_TERMCRIT_ITER+CV_TERMCRIT_EPS, 1000, 1e-3 )); |
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svm->setGamma(0); |
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svm->setKernel(SVM::LINEAR); |
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svm->setNu(0.5); |
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svm->setP(0.1); // for EPSILON_SVR, epsilon in loss function? |
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svm->setC(0.01); // From paper, soft classifier |
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svm->setType(SVM::EPS_SVR); // C_SVC; // EPSILON_SVR; // may be also NU_SVR; // do regression task |
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svm->train(train_data, ROW_SAMPLE, Mat(labels)); |
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clog << "...[done]" << endl; |
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svm->save( "my_people_detector.yml" ); |
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} |
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void draw_locations( Mat & img, const vector< Rect > & locations, const Scalar & color ) |
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{ |
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if( !locations.empty() ) |
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{ |
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vector< Rect >::const_iterator loc = locations.begin(); |
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vector< Rect >::const_iterator end = locations.end(); |
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for( ; loc != end ; ++loc ) |
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{ |
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rectangle( img, *loc, color, 2 ); |
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} |
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} |
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} |
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void test_it( const Size & size ) |
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{ |
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char key = 27; |
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Scalar reference( 0, 255, 0 ); |
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Scalar trained( 0, 0, 255 ); |
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Mat img, draw; |
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Ptr<SVM> svm; |
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HOGDescriptor hog; |
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HOGDescriptor my_hog; |
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my_hog.winSize = size; |
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VideoCapture video; |
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vector< Rect > locations; |
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// Load the trained SVM. |
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svm = StatModel::load<SVM>( "my_people_detector.yml" ); |
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// Set the trained svm to my_hog |
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vector< float > hog_detector; |
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get_svm_detector( svm, hog_detector ); |
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my_hog.setSVMDetector( hog_detector ); |
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// Set the people detector. |
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hog.setSVMDetector( hog.getDefaultPeopleDetector() ); |
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// Open the camera. |
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video.open(0); |
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if( !video.isOpened() ) |
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{ |
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cerr << "Unable to open the device 0" << endl; |
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exit( -1 ); |
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} |
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bool end_of_process = false; |
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while( !end_of_process ) |
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{ |
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video >> img; |
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if( img.empty() ) |
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break; |
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draw = img.clone(); |
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locations.clear(); |
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hog.detectMultiScale( img, locations ); |
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draw_locations( draw, locations, reference ); |
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locations.clear(); |
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my_hog.detectMultiScale( img, locations ); |
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draw_locations( draw, locations, trained ); |
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imshow( "Video", draw ); |
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key = (char)waitKey( 10 ); |
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if( 27 == key ) |
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end_of_process = true; |
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} |
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} |
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int main( int argc, char** argv ) |
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{ |
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cv::CommandLineParser parser(argc, argv, "{help h|| show help message}" |
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"{pd||pos_dir}{p||pos.lst}{nd||neg_dir}{n||neg.lst}"); |
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if (parser.has("help")) |
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{ |
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parser.printMessage(); |
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exit(0); |
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} |
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vector< Mat > pos_lst; |
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vector< Mat > full_neg_lst; |
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vector< Mat > neg_lst; |
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vector< Mat > gradient_lst; |
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vector< int > labels; |
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string pos_dir = parser.get<string>("pd"); |
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string pos = parser.get<string>("p"); |
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string neg_dir = parser.get<string>("nd"); |
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string neg = parser.get<string>("n"); |
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if( pos_dir.empty() || pos.empty() || neg_dir.empty() || neg.empty() ) |
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{ |
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cout << "Wrong number of parameters." << endl |
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<< "Usage: " << argv[0] << " --pd=pos_dir -p=pos.lst --nd=neg_dir -n=neg.lst" << endl |
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<< "example: " << argv[0] << " --pd=/INRIA_dataset/ -p=Train/pos.lst --nd=/INRIA_dataset/ -n=Train/neg.lst" << endl; |
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exit( -1 ); |
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} |
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load_images( pos_dir, pos, pos_lst ); |
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labels.assign( pos_lst.size(), +1 ); |
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const unsigned int old = (unsigned int)labels.size(); |
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load_images( neg_dir, neg, full_neg_lst ); |
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sample_neg( full_neg_lst, neg_lst, Size( 96,160 ) ); |
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labels.insert( labels.end(), neg_lst.size(), -1 ); |
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CV_Assert( old < labels.size() ); |
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compute_hog( pos_lst, gradient_lst, Size( 96, 160 ) ); |
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compute_hog( neg_lst, gradient_lst, Size( 96, 160 ) ); |
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train_svm( gradient_lst, labels ); |
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test_it( Size( 96, 160 ) ); // change with your parameters |
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return 0; |
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}
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