#ifdef _CH_ #pragma package #endif #define CV_NO_BACKWARD_COMPATIBILITY #ifndef _EiC #include "cv.h" #include "highgui.h" #include #include #endif IplImage* color_img0; IplImage* mask; IplImage* color_img; IplImage* gray_img0 = NULL; IplImage* gray_img = NULL; int ffill_case = 1; int lo_diff = 20, up_diff = 20; int connectivity = 4; int is_color = 1; int is_mask = 0; int new_mask_val = 255; void on_mouse( int event, int x, int y, int flags, void* param ) { if( !color_img ) return; switch( event ) { case CV_EVENT_LBUTTONDOWN: { CvPoint seed = cvPoint(x,y); int lo = ffill_case == 0 ? 0 : lo_diff; int up = ffill_case == 0 ? 0 : up_diff; int flags = connectivity + (new_mask_val << 8) + (ffill_case == 1 ? CV_FLOODFILL_FIXED_RANGE : 0); int b = rand() & 255, g = rand() & 255, r = rand() & 255; CvConnectedComp comp; if( is_mask ) cvThreshold( mask, mask, 1, 128, CV_THRESH_BINARY ); if( is_color ) { CvScalar color = CV_RGB( r, g, b ); cvFloodFill( color_img, seed, color, CV_RGB( lo, lo, lo ), CV_RGB( up, up, up ), &comp, flags, is_mask ? mask : NULL ); cvShowImage( "image", color_img ); } else { CvScalar brightness = cvRealScalar((r*2 + g*7 + b + 5)/10); cvFloodFill( gray_img, seed, brightness, cvRealScalar(lo), cvRealScalar(up), &comp, flags, is_mask ? mask : NULL ); cvShowImage( "image", gray_img ); } printf("%g pixels were repainted\n", comp.area ); if( is_mask ) cvShowImage( "mask", mask ); } break; } } int main( int argc, char** argv ) { char* filename = argc >= 2 ? argv[1] : (char*)"fruits.jpg"; if( (color_img0 = cvLoadImage(filename,1)) == 0 ) return 0; printf( "Hot keys: \n" "\tESC - quit the program\n" "\tc - switch color/grayscale mode\n" "\tm - switch mask mode\n" "\tr - restore the original image\n" "\ts - use null-range floodfill\n" "\tf - use gradient floodfill with fixed(absolute) range\n" "\tg - use gradient floodfill with floating(relative) range\n" "\t4 - use 4-connectivity mode\n" "\t8 - use 8-connectivity mode\n" ); color_img = cvCloneImage( color_img0 ); gray_img0 = cvCreateImage( cvSize(color_img->width, color_img->height), 8, 1 ); cvCvtColor( color_img, gray_img0, CV_BGR2GRAY ); gray_img = cvCloneImage( gray_img0 ); mask = cvCreateImage( cvSize(color_img->width + 2, color_img->height + 2), 8, 1 ); cvNamedWindow( "image", 0 ); cvCreateTrackbar( "lo_diff", "image", &lo_diff, 255, NULL ); cvCreateTrackbar( "up_diff", "image", &up_diff, 255, NULL ); cvSetMouseCallback( "image", on_mouse, 0 ); for(;;) { int c; if( is_color ) cvShowImage( "image", color_img ); else cvShowImage( "image", gray_img ); c = cvWaitKey(0); switch( (char) c ) { case '\x1b': printf("Exiting ...\n"); goto exit_main; case 'c': if( is_color ) { printf("Grayscale mode is set\n"); cvCvtColor( color_img, gray_img, CV_BGR2GRAY ); is_color = 0; } else { printf("Color mode is set\n"); cvCopy( color_img0, color_img, NULL ); cvZero( mask ); is_color = 1; } break; case 'm': if( is_mask ) { cvDestroyWindow( "mask" ); is_mask = 0; } else { cvNamedWindow( "mask", 0 ); cvZero( mask ); cvShowImage( "mask", mask ); is_mask = 1; } break; case 'r': printf("Original image is restored\n"); cvCopy( color_img0, color_img, NULL ); cvCopy( gray_img0, gray_img, NULL ); cvZero( mask ); break; case 's': printf("Simple floodfill mode is set\n"); ffill_case = 0; break; case 'f': printf("Fixed Range floodfill mode is set\n"); ffill_case = 1; break; case 'g': printf("Gradient (floating range) floodfill mode is set\n"); ffill_case = 2; break; case '4': printf("4-connectivity mode is set\n"); connectivity = 4; break; case '8': printf("8-connectivity mode is set\n"); connectivity = 8; break; } } exit_main: cvDestroyWindow( "test" ); cvReleaseImage( &gray_img ); cvReleaseImage( &gray_img0 ); cvReleaseImage( &color_img ); cvReleaseImage( &color_img0 ); cvReleaseImage( &mask ); return 1; } #ifdef _EiC main(1,"ffilldemo.c"); #endif