#include #include #include using namespace cv; void help() { std::cout << "\nThis program demonstrates OpenCV drawing and text output functions.\n" "Call:\n" "./drawing\n" << std::endl; } static Scalar randomColor(RNG& rng) { int icolor = (unsigned)rng; return Scalar(icolor&255, (icolor>>8)&255, (icolor>>16)&255); } int main( int, char** ) { char wndname[] = "Drawing Demo"; const int NUMBER = 100; const int DELAY = 5; int lineType = CV_AA; // change it to 8 to see non-antialiased graphics int i, width = 1000, height = 700; int x1 = -width/2, x2 = width*3/2, y1 = -height/2, y2 = height*3/2; RNG rng(0xFFFFFFFF); Mat image = Mat::zeros(height, width, CV_8UC3); imshow(wndname, image); waitKey(DELAY); for (i = 0; i < NUMBER; i++) { Point pt1, pt2; pt1.x = rng.uniform(x1, x2); pt1.y = rng.uniform(y1, y2); pt2.x = rng.uniform(x1, x2); pt2.y = rng.uniform(y1, y2); line( image, pt1, pt2, randomColor(rng), rng.uniform(1,10), lineType ); imshow(wndname, image); if(waitKey(DELAY) >= 0) return 0; } for (i = 0; i < NUMBER; i++) { Point pt1, pt2; pt1.x = rng.uniform(x1, x2); pt1.y = rng.uniform(y1, y2); pt2.x = rng.uniform(x1, x2); pt2.y = rng.uniform(y1, y2); int thickness = rng.uniform(-3, 10); rectangle( image, pt1, pt2, randomColor(rng), MAX(thickness, -1), lineType ); imshow(wndname, image); if(waitKey(DELAY) >= 0) return 0; } for (i = 0; i < NUMBER; i++) { Point center; center.x = rng.uniform(x1, x2); center.y = rng.uniform(y1, y2); Size axes; axes.width = rng.uniform(0, 200); axes.height = rng.uniform(0, 200); double angle = rng.uniform(0, 180); ellipse( image, center, axes, angle, angle - 100, angle + 200, randomColor(rng), rng.uniform(-1,9), lineType ); imshow(wndname, image); if(waitKey(DELAY) >= 0) return 0; } for (i = 0; i< NUMBER; i++) { Point pt[2][3]; pt[0][0].x = rng.uniform(x1, x2); pt[0][0].y = rng.uniform(y1, y2); pt[0][1].x = rng.uniform(x1, x2); pt[0][1].y = rng.uniform(y1, y2); pt[0][2].x = rng.uniform(x1, x2); pt[0][2].y = rng.uniform(y1, y2); pt[1][0].x = rng.uniform(x1, x2); pt[1][0].y = rng.uniform(y1, y2); pt[1][1].x = rng.uniform(x1, x2); pt[1][1].y = rng.uniform(y1, y2); pt[1][2].x = rng.uniform(x1, x2); pt[1][2].y = rng.uniform(y1, y2); const Point* ppt[2] = {pt[0], pt[1]}; int npt[] = {3, 3}; polylines(image, ppt, npt, 2, true, randomColor(rng), rng.uniform(1,10), lineType); imshow(wndname, image); if(waitKey(DELAY) >= 0) return 0; } for (i = 0; i< NUMBER; i++) { Point pt[2][3]; pt[0][0].x = rng.uniform(x1, x2); pt[0][0].y = rng.uniform(y1, y2); pt[0][1].x = rng.uniform(x1, x2); pt[0][1].y = rng.uniform(y1, y2); pt[0][2].x = rng.uniform(x1, x2); pt[0][2].y = rng.uniform(y1, y2); pt[1][0].x = rng.uniform(x1, x2); pt[1][0].y = rng.uniform(y1, y2); pt[1][1].x = rng.uniform(x1, x2); pt[1][1].y = rng.uniform(y1, y2); pt[1][2].x = rng.uniform(x1, x2); pt[1][2].y = rng.uniform(y1, y2); const Point* ppt[2] = {pt[0], pt[1]}; int npt[] = {3, 3}; fillPoly(image, ppt, npt, 2, randomColor(rng), lineType); imshow(wndname, image); if(waitKey(DELAY) >= 0) return 0; } for (i = 0; i < NUMBER; i++) { Point center; center.x = rng.uniform(x1, x2); center.y = rng.uniform(y1, y2); circle(image, center, rng.uniform(0, 300), randomColor(rng), rng.uniform(-1, 9), lineType); imshow(wndname, image); if(waitKey(DELAY) >= 0) return 0; } for (i = 1; i < NUMBER; i++) { Point org; org.x = rng.uniform(x1, x2); org.y = rng.uniform(y1, y2); putText(image, "Testing text rendering", org, rng.uniform(0,8), rng.uniform(0,100)*0.05+0.1, randomColor(rng), rng.uniform(1, 10), lineType); imshow(wndname, image); if(waitKey(DELAY) >= 0) return 0; } Size textsize = getTextSize("OpenCV forever!", CV_FONT_HERSHEY_COMPLEX, 3, 5, 0); Point org((width - textsize.width)/2, (height - textsize.height)/2); Mat image2; for( i = 0; i < 255; i += 2 ) { image2 = image - Scalar::all(i); putText(image2, "OpenCV forever!", org, CV_FONT_HERSHEY_COMPLEX, 3, Scalar(i, i, 255), 5, lineType); imshow(wndname, image2); if(waitKey(DELAY) >= 0) return 0; } waitKey(); return 0; } #ifdef _EiC main(1,"drawing.c"); #endif