#include <iostream>
int main(int argc, char** argv)
{
string in;
CommandLineParser parser(argc, argv,
"{@input|corridor.jpg|input image}{help h||show help message}");
{
return 0;
}
{
return -1;
}
int length_threshold = 10;
float distance_threshold = 1.41421356f;
double canny_th1 = 50.0;
double canny_th2 = 50.0;
int canny_aperture_size = 3;
bool do_merge = false;
distance_threshold, canny_th1, canny_th2, canny_aperture_size,
do_merge);
vector<Vec4f> lines;
for (int run_count = 0; run_count < 5; run_count++) {
lines.clear();
double duration_ms = double(
getTickCount() - start) * 1000 / freq;
cout << "Elapsed time for FLD " << duration_ms << " ms." << endl;
}
Mat line_image_fld(image);
imshow(
"FLD result", line_image_fld);
vector<Vec6d> ellipses;
for (int run_count = 0; run_count < 5; run_count++) {
lines.clear();
double duration_ms = double(
getTickCount() - start) * 1000 / freq;
cout << "Elapsed time for EdgeDrawing detectLines " << duration_ms << " ms." << endl;
cout << "Elapsed time for EdgeDrawing detectEllipses " << duration_ms << " ms." << endl;
}
for (size_t i = 0; i < segments.size(); i++)
{
const Point* pts = &segments[i][0];
int n = (int)segments[i].size();
polylines(edge_image_ed, &pts, &n, 1,
false,
Scalar((rand() & 255), (rand() & 255), (rand() & 255)), 1);
}
imshow(
"EdgeDrawing detected edges", edge_image_ed);
Mat line_image_ed(image);
for (size_t i = 0; i < ellipses.size(); i++)
{
Point center((
int)ellipses[i][0], (
int)ellipses[i][1]);
Size axes((
int)ellipses[i][2] + (
int)ellipses[i][3], (
int)ellipses[i][2] + (
int)ellipses[i][4]);
double angle(ellipses[i][5]);
ellipse(line_image_ed, center, axes, angle, 0, 360, color, 2,
LINE_AA);
}
imshow(
"EdgeDrawing result", line_image_ed);
return 0;
}