// Train svm on the count values in trainData and labels, then draw on // image the classifications associated with each label value in green // (+1.0) or blue (-1.0) according to what the resulting svm predicts. // static void drawSvmRegions(cv::Mat_<cv::Vec3b> &image, cv::SVM &svm, int count, float trainData[][2], float labels[]) { static const cv::Mat zeroIdx; static const cv::Mat varIdx = zeroIdx; static const cv::Mat sampleIdx = zeroIdx; static const cv::SVMParams params = makeSvmParams(); const cv::Mat labelsMat(count, 1, CV_32FC1, labels); const cv::Mat trainDataMat(count, 2, CV_32FC1, trainData); svm.train(trainDataMat, labelsMat, varIdx, sampleIdx, params); for (int i = 0; i < image.rows; ++i) { for (int j = 0; j < image.cols; ++j) { const cv::Mat sampleMat = (cv::Mat_<float>(1, 2) << i, j); const float response = svm.predict(sampleMat); if (response == 1.0) { image(j, i) = green; } else if (response == -1.0) { image(j, i) = blue; } else { std::cerr << "Unexpected response from SVM::predict(): " << response << std::endl; assert(!"expected response from SVM"); } } } }
int TestMultiClassClassifier(const cv::SVM &SVM, const cv::Mat &data, const cv::Mat labels, FILE *report_file) { int confussion_matrix[ACTIONS_NUM][ACTIONS_NUM] = {0}; float accuracy = 0.0f; for (int desc_idx = 0; desc_idx < data.rows; desc_idx++) { float label; int true_idx, predicted_idx; true_idx = (int)labels.at<float>(desc_idx); label = SVM.predict(data.row(desc_idx)); predicted_idx = (int)label; confussion_matrix[predicted_idx][true_idx]++; accuracy += (true_idx == predicted_idx)? 1: 0; } printf("============================================\n"); fprintf(report_file, "============================================\n"); accuracy /= data.rows; printf("accuracy: %2.2f\n", accuracy); fprintf(report_file, "accuracy: %2.2f\n", accuracy); for (int row = 0; row < ACTIONS_NUM; row++) { for (int col=0; col < ACTIONS_NUM; col++) { printf("%d\t\t",confussion_matrix[row][col]); fprintf(report_file,"%d\t\t",confussion_matrix[row][col]); } printf("\n"); fprintf(report_file,"\n"); } return 0; }