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[code segments] OpenCV3.0 SVM with C++ interface

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/************************************************************************/
/* Name   : OpenCV SVM test                                             */
/* Date   : 2015/11/7                                                   */
/* Author : aban                                                        */
/************************************************************************/
// note : the code is modified from internet. 

#include <iostream>
#include <cmath>
#include <string>
using namespace std;

#include <opencv2/opencv.hpp>
#include <opencv2/ml.hpp>
using namespace cv;

bool plotSupportVectors = true;
int numTrainingPoints = 200;
int numTestPoints = 2000;
int size = 200;
int eq = 0;

// accuracy
float evaluate(cv::Mat& predicted, cv::Mat& actual) {
  assert(predicted.rows == actual.rows);
  int t = 0;
  int f = 0;
  for (int i = 0; i < actual.rows; i++) {
    float p = predicted.at<float>(i, 0);
    float a = actual.at<float>(i, 0);
    if ((p >= 0.0 && a >= 0.0) || (p <= 0.0 &&  a <= 0.0)) {
      t++;
    }
    else {
      f++;
    }
  }
  return (t * 1.0) / (t + f);
}

// plot data and class
void plot_binary(cv::Mat& data, cv::Mat& classes, string name) {
  cv::Mat plot(size, size, CV_8UC3);
  plot.setTo(cv::Scalar(255.0, 255.0, 255.0));
  for (int i = 0; i < data.rows; i++) {

    float x = data.at<float>(i, 0) * size;
    float y = data.at<float>(i, 1) * size;

    if (classes.at<float>(i, 0) > 0) {
      cv::circle(plot, Point(x, y), 2, CV_RGB(255, 0, 0), 1);
    }
    else {
      cv::circle(plot, Point(x, y), 2, CV_RGB(0, 255, 0), 1);
    }
  }
  cv::namedWindow(name, CV_WINDOW_KEEPRATIO);
  cv::imshow(name, plot);
}

// function to learn
int f(float x, float y, int equation) {
  switch (equation) {
  case 0:
    return y > sin(x * 10) ?

-1 : 1; break; case 1: return y > cos(x * 10) ? -1 : 1; break; case 2: return y > 2 * x ?

-1 : 1; break; case 3: return y > tan(x * 10) ?

-1 : 1; break; default: return y > cos(x * 10) ?

-1 : 1; } } // label data with equation cv::Mat labelData(cv::Mat points, int equation) { cv::Mat labels(points.rows, 1, CV_32FC1); for (int i = 0; i < points.rows; i++) { float x = points.at<float>(i, 0); float y = points.at<float>(i, 1); labels.at<float>(i, 0) = f(x, y, equation); } return labels; } void svm(cv::Mat& trainingData, cv::Mat& trainingClasses, cv::Mat& testData, cv::Mat& testClasses) { Mat traning_label(trainingClasses.rows, 1, CV_32SC1); for (int i = 0; i < trainingClasses.rows; i++){ traning_label.at<int>(i, 0) = trainingClasses.at<float>(i, 0); } cv::Ptr<cv::ml::SVM> svm = ml::SVM::create(); svm->setType(ml::SVM::Types::C_SVC); svm->setKernel(ml::SVM::KernelTypes::RBF); //svm->setDegree(0); // for poly svm->setGamma(20); // for poly/rbf/sigmoid //svm->setCoef0(0); // for poly/sigmoid svm->setC(7); // for CV_SVM_C_SVC, CV_SVM_EPS_SVR and CV_SVM_NU_SVR //svm->setNu(0); // for CV_SVM_NU_SVC, CV_SVM_ONE_CLASS, and CV_SVM_NU_SVR //svm->setP(0); // for CV_SVM_EPS_SVR svm->setTermCriteria(TermCriteria(TermCriteria::COUNT + TermCriteria::EPS, 1000, 1E-6)); svm->train(trainingData, ml::SampleTypes::ROW_SAMPLE, traning_label); cv::Mat predicted(testClasses.rows, 1, CV_32F); svm->predict(testData, predicted); cout << "Accuracy_{SVM} = " << evaluate(predicted, testClasses) << endl; plot_binary(testData, predicted, "Predictions SVM"); // plot support vectors if (plotSupportVectors) { cv::Mat plot_sv(size, size, CV_8UC3); plot_sv.setTo(cv::Scalar(255.0, 255.0, 255.0)); Mat support_vectors = svm->getSupportVectors(); for (int vecNum = 0; vecNum < support_vectors.rows; vecNum++){ cv::circle(plot_sv, Point(support_vectors.row(vecNum).at<float>(0)*size, support_vectors.row(vecNum).at<float>(1)*size), 3, CV_RGB(0, 0, 0)); } namedWindow("Support Vectors", CV_WINDOW_KEEPRATIO); cv::imshow("Support Vectors", plot_sv); } } int main(){ cv::Mat trainingData(numTrainingPoints, 2, CV_32FC1); cv::Mat testData(numTestPoints, 2, CV_32FC1); cv::randu(trainingData, 0, 1); cv::randu(testData, 0, 1); cv::Mat trainingClasses = labelData(trainingData, eq); cv::Mat testClasses = labelData(testData, eq); plot_binary(trainingData, trainingClasses, "Training Data"); plot_binary(testData, testClasses, "Test Data"); svm(trainingData, trainingClasses, testData, testClasses); waitKey(0); return 0; }

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[code segments] OpenCV3.0 SVM with C++ interface