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#include <opencv2/opencv.hpp>
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#include "opencv2/video/tracking.hpp"
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#include "opencv2/imgproc/imgproc.hpp"
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#include "opencv2/highgui/highgui.hpp"
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using namespace cv;
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using namespace cv::ml;
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struct Data
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{
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Mat img;
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Mat samples; //Set of train samples. Contains points on image
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Mat responses; //Set of responses for train samples
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Data()
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{
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const int WIDTH = 841;
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const int HEIGHT = 594;
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img = Mat::zeros(HEIGHT, WIDTH, CV_8UC3);
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imshow("Train svmsgd", img);
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}
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};
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//Train with SVMSGD algorithm
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//(samples, responses) is a train set
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//weights is a required vector for decision function of SVMSGD algorithm
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bool doTrain(const Mat samples, const Mat responses, Mat &weights, float &shift);
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//function finds two points for drawing line (wx = 0)
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bool findPointsForLine(const Mat &weights, float shift, Point points[], int width, int height);
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// function finds cross point of line (wx = 0) and segment ( (y = HEIGHT, 0 <= x <= WIDTH) or (x = WIDTH, 0 <= y <= HEIGHT) )
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bool findCrossPointWithBorders(const Mat &weights, float shift, const std::pair<Point,Point> &segment, Point &crossPoint);
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//segments' initialization ( (y = HEIGHT, 0 <= x <= WIDTH) and (x = WIDTH, 0 <= y <= HEIGHT) )
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void fillSegments(std::vector<std::pair<Point,Point> > &segments, int width, int height);
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//redraw points' set and line (wx = 0)
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void redraw(Data data, const Point points[2]);
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//add point in train set, train SVMSGD algorithm and draw results on image
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void addPointRetrainAndRedraw(Data &data, int x, int y, int response);
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bool doTrain( const Mat samples, const Mat responses, Mat &weights, float &shift)
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{
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cv::Ptr<SVMSGD> svmsgd = SVMSGD::create();
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cv::Ptr<TrainData> trainData = TrainData::create(samples, cv::ml::ROW_SAMPLE, responses);
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svmsgd->train( trainData );
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if (svmsgd->isTrained())
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{
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weights = svmsgd->getWeights();
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shift = svmsgd->getShift();
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return true;
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}
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return false;
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}
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void fillSegments(std::vector<std::pair<Point,Point> > &segments, int width, int height)
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{
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std::pair<Point,Point> currentSegment;
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currentSegment.first = Point(width, 0);
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currentSegment.second = Point(width, height);
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segments.push_back(currentSegment);
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currentSegment.first = Point(0, height);
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currentSegment.second = Point(width, height);
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segments.push_back(currentSegment);
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currentSegment.first = Point(0, 0);
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currentSegment.second = Point(width, 0);
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segments.push_back(currentSegment);
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currentSegment.first = Point(0, 0);
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currentSegment.second = Point(0, height);
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segments.push_back(currentSegment);
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}
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bool findCrossPointWithBorders(const Mat &weights, float shift, const std::pair<Point,Point> &segment, Point &crossPoint)
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{
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int x = 0;
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int y = 0;
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int xMin = std::min(segment.first.x, segment.second.x);
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int xMax = std::max(segment.first.x, segment.second.x);
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int yMin = std::min(segment.first.y, segment.second.y);
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int yMax = std::max(segment.first.y, segment.second.y);
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CV_Assert(weights.type() == CV_32FC1);
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CV_Assert(xMin == xMax || yMin == yMax);
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if (xMin == xMax && weights.at<float>(1) != 0)
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{
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x = xMin;
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y = static_cast<int>(std::floor( - (weights.at<float>(0) * x + shift) / weights.at<float>(1)));
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if (y >= yMin && y <= yMax)
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{
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crossPoint.x = x;
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crossPoint.y = y;
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return true;
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}
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}
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else if (yMin == yMax && weights.at<float>(0) != 0)
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{
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y = yMin;
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x = static_cast<int>(std::floor( - (weights.at<float>(1) * y + shift) / weights.at<float>(0)));
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if (x >= xMin && x <= xMax)
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{
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crossPoint.x = x;
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crossPoint.y = y;
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return true;
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}
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}
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return false;
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}
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bool findPointsForLine(const Mat &weights, float shift, Point points[2], int width, int height)
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{
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if (weights.empty())
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{
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return false;
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}
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int foundPointsCount = 0;
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std::vector<std::pair<Point,Point> > segments;
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fillSegments(segments, width, height);
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for (uint i = 0; i < segments.size(); i++)
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{
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if (findCrossPointWithBorders(weights, shift, segments[i], points[foundPointsCount]))
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foundPointsCount++;
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if (foundPointsCount >= 2)
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break;
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}
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return true;
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}
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void redraw(Data data, const Point points[2])
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{
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data.img.setTo(0);
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Point center;
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int radius = 3;
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Scalar color;
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CV_Assert((data.samples.type() == CV_32FC1) && (data.responses.type() == CV_32FC1));
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for (int i = 0; i < data.samples.rows; i++)
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{
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center.x = static_cast<int>(data.samples.at<float>(i,0));
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center.y = static_cast<int>(data.samples.at<float>(i,1));
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color = (data.responses.at<float>(i) > 0) ? Scalar(128,128,0) : Scalar(0,128,128);
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circle(data.img, center, radius, color, 5);
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}
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line(data.img, points[0], points[1],cv::Scalar(1,255,1));
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imshow("Train svmsgd", data.img);
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}
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void addPointRetrainAndRedraw(Data &data, int x, int y, int response)
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{
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Mat currentSample(1, 2, CV_32FC1);
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currentSample.at<float>(0,0) = (float)x;
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currentSample.at<float>(0,1) = (float)y;
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data.samples.push_back(currentSample);
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data.responses.push_back(static_cast<float>(response));
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Mat weights(1, 2, CV_32FC1);
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float shift = 0;
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if (doTrain(data.samples, data.responses, weights, shift))
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{
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Point points[2];
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findPointsForLine(weights, shift, points, data.img.cols, data.img.rows);
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redraw(data, points);
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}
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}
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static void onMouse( int event, int x, int y, int, void* pData)
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{
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Data &data = *(Data*)pData;
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switch( event )
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{
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case CV_EVENT_LBUTTONUP:
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addPointRetrainAndRedraw(data, x, y, 1);
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break;
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case CV_EVENT_RBUTTONDOWN:
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addPointRetrainAndRedraw(data, x, y, -1);
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break;
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}
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}
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int main()
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{
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Data data;
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setMouseCallback( "Train svmsgd", onMouse, &data );
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waitKey();
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return 0;
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}
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