// This file is part of OpenCV project. // It is subject to the license terms in the LICENSE file found in the top-level directory // of this distribution and at http://opencv.org/license.html. #include "test_precomp.hpp" namespace opencv_test { namespace { TEST(ML_RTrees, getVotes) { int n = 12; int count, i; int label_size = 3; int predicted_class = 0; int max_votes = -1; int val; // RTrees for classification Ptr rt = cv::ml::RTrees::create(); //data Mat data(n, 4, CV_32F); randu(data, 0, 10); //labels Mat labels = (Mat_(n,1) << 0,0,0,0, 1,1,1,1, 2,2,2,2); rt->train(data, ml::ROW_SAMPLE, labels); //run function Mat test(1, 4, CV_32F); Mat result; randu(test, 0, 10); rt->getVotes(test, result, 0); //count vote amount and find highest vote count = 0; const int* result_row = result.ptr(1); for( i = 0; i < label_size; i++ ) { val = result_row[i]; //predicted_class = max_votes < val? i; if( max_votes < val ) { max_votes = val; predicted_class = i; } count += val; } EXPECT_EQ(count, (int)rt->getRoots().size()); EXPECT_EQ(result.at(0, predicted_class), rt->predict(test)); } TEST(ML_RTrees, 11142_sample_weights_regression) { int n = 3; // RTrees for regression Ptr rt = cv::ml::RTrees::create(); //simple regression problem of x -> 2x Mat data = (Mat_(n,1) << 1, 2, 3); Mat values = (Mat_(n,1) << 2, 4, 6); Mat weights = (Mat_(n, 1) << 10, 10, 10); Ptr trainData = TrainData::create(data, ml::ROW_SAMPLE, values); rt->train(trainData); double error_without_weights = round(rt->getOOBError()); rt->clear(); Ptr trainDataWithWeights = TrainData::create(data, ml::ROW_SAMPLE, values, Mat(), Mat(), weights ); rt->train(trainDataWithWeights); double error_with_weights = round(rt->getOOBError()); // error with weights should be larger than error without weights EXPECT_GE(error_with_weights, error_without_weights); } TEST(ML_RTrees, 11142_sample_weights_classification) { int n = 12; // RTrees for classification Ptr rt = cv::ml::RTrees::create(); Mat data(n, 4, CV_32F); randu(data, 0, 10); Mat labels = (Mat_(n,1) << 0,0,0,0, 1,1,1,1, 2,2,2,2); Mat weights = (Mat_(n, 1) << 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10); rt->train(data, ml::ROW_SAMPLE, labels); rt->clear(); double error_without_weights = round(rt->getOOBError()); Ptr trainDataWithWeights = TrainData::create(data, ml::ROW_SAMPLE, labels, Mat(), Mat(), weights ); rt->train(data, ml::ROW_SAMPLE, labels); double error_with_weights = round(rt->getOOBError()); std::cout << error_without_weights << std::endl; std::cout << error_with_weights << std::endl; // error with weights should be larger than error without weights EXPECT_GE(error_with_weights, error_without_weights); } }} // namespace