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Open Source Computer Vision Library
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183 lines
5.7 KiB
183 lines
5.7 KiB
#include <vector> |
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#include <iostream> |
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#include <string> |
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#include "opencv2/core.hpp" |
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#include "opencv2/core/utility.hpp" |
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#include "opencv2/imgproc.hpp" |
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#include "opencv2/gpuimgproc.hpp" |
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#include "opencv2/highgui.hpp" |
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#include "opencv2/contrib.hpp" |
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using namespace std; |
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using namespace cv; |
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static Mat loadImage(const string& name) |
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{ |
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Mat image = imread(name, IMREAD_GRAYSCALE); |
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if (image.empty()) |
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{ |
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cerr << "Can't load image - " << name << endl; |
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exit(-1); |
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} |
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return image; |
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} |
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int main(int argc, const char* argv[]) |
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{ |
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CommandLineParser cmd(argc, argv, |
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"{ image i | pic1.png | input image }" |
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"{ template t | templ.png | template image }" |
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"{ full | | estimate scale and rotation }" |
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"{ gpu | | use gpu version }" |
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"{ minDist | 100 | minimum distance between the centers of the detected objects }" |
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"{ levels | 360 | R-Table levels }" |
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"{ votesThreshold | 30 | the accumulator threshold for the template centers at the detection stage. The smaller it is, the more false positions may be detected }" |
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"{ angleThresh | 10000 | angle votes treshold }" |
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"{ scaleThresh | 1000 | scale votes treshold }" |
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"{ posThresh | 100 | position votes threshold }" |
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"{ dp | 2 | inverse ratio of the accumulator resolution to the image resolution }" |
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"{ minScale | 0.5 | minimal scale to detect }" |
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"{ maxScale | 2 | maximal scale to detect }" |
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"{ scaleStep | 0.05 | scale step }" |
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"{ minAngle | 0 | minimal rotation angle to detect in degrees }" |
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"{ maxAngle | 360 | maximal rotation angle to detect in degrees }" |
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"{ angleStep | 1 | angle step in degrees }" |
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"{ maxBufSize | 1000 | maximal size of inner buffers }" |
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"{ help h ? | | print help message }" |
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); |
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cmd.about("This program demonstrates arbitary object finding with the Generalized Hough transform."); |
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if (cmd.has("help")) |
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{ |
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cmd.printMessage(); |
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return 0; |
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} |
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const string templName = cmd.get<string>("template"); |
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const string imageName = cmd.get<string>("image"); |
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const bool full = cmd.has("full"); |
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const bool useGpu = cmd.has("gpu"); |
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const double minDist = cmd.get<double>("minDist"); |
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const int levels = cmd.get<int>("levels"); |
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const int votesThreshold = cmd.get<int>("votesThreshold"); |
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const int angleThresh = cmd.get<int>("angleThresh"); |
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const int scaleThresh = cmd.get<int>("scaleThresh"); |
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const int posThresh = cmd.get<int>("posThresh"); |
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const double dp = cmd.get<double>("dp"); |
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const double minScale = cmd.get<double>("minScale"); |
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const double maxScale = cmd.get<double>("maxScale"); |
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const double scaleStep = cmd.get<double>("scaleStep"); |
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const double minAngle = cmd.get<double>("minAngle"); |
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const double maxAngle = cmd.get<double>("maxAngle"); |
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const double angleStep = cmd.get<double>("angleStep"); |
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const int maxBufSize = cmd.get<int>("maxBufSize"); |
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if (!cmd.check()) |
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{ |
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cmd.printErrors(); |
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return -1; |
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} |
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Mat templ = loadImage(templName); |
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Mat image = loadImage(imageName); |
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Ptr<GeneralizedHough> alg; |
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if (!full) |
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{ |
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Ptr<GeneralizedHoughBallard> ballard = useGpu ? cuda::createGeneralizedHoughBallard() : createGeneralizedHoughBallard(); |
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ballard->setMinDist(minDist); |
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ballard->setLevels(levels); |
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ballard->setDp(dp); |
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ballard->setMaxBufferSize(maxBufSize); |
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ballard->setVotesThreshold(votesThreshold); |
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alg = ballard; |
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} |
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else |
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{ |
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Ptr<GeneralizedHoughGuil> guil = useGpu ? cuda::createGeneralizedHoughGuil() : createGeneralizedHoughGuil(); |
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guil->setMinDist(minDist); |
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guil->setLevels(levels); |
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guil->setDp(dp); |
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guil->setMaxBufferSize(maxBufSize); |
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guil->setMinAngle(minAngle); |
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guil->setMaxAngle(maxAngle); |
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guil->setAngleStep(angleStep); |
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guil->setAngleThresh(angleThresh); |
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guil->setMinScale(minScale); |
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guil->setMaxScale(maxScale); |
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guil->setScaleStep(scaleStep); |
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guil->setScaleThresh(scaleThresh); |
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guil->setPosThresh(posThresh); |
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alg = guil; |
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} |
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vector<Vec4f> position; |
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TickMeter tm; |
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if (useGpu) |
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{ |
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cuda::GpuMat d_templ(templ); |
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cuda::GpuMat d_image(image); |
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cuda::GpuMat d_position; |
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alg->setTemplate(d_templ); |
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tm.start(); |
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alg->detect(d_image, d_position); |
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d_position.download(position); |
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tm.stop(); |
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} |
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else |
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{ |
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alg->setTemplate(templ); |
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tm.start(); |
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alg->detect(image, position); |
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tm.stop(); |
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} |
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cout << "Found : " << position.size() << " objects" << endl; |
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cout << "Detection time : " << tm.getTimeMilli() << " ms" << endl; |
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Mat out; |
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cv::cvtColor(image, out, COLOR_GRAY2BGR); |
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for (size_t i = 0; i < position.size(); ++i) |
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{ |
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Point2f pos(position[i][0], position[i][1]); |
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float scale = position[i][2]; |
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float angle = position[i][3]; |
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RotatedRect rect; |
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rect.center = pos; |
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rect.size = Size2f(templ.cols * scale, templ.rows * scale); |
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rect.angle = angle; |
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Point2f pts[4]; |
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rect.points(pts); |
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line(out, pts[0], pts[1], Scalar(0, 0, 255), 3); |
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line(out, pts[1], pts[2], Scalar(0, 0, 255), 3); |
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line(out, pts[2], pts[3], Scalar(0, 0, 255), 3); |
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line(out, pts[3], pts[0], Scalar(0, 0, 255), 3); |
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} |
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imshow("out", out); |
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waitKey(); |
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return 0; |
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}
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