/* * cloning.cpp * * Author: * Siddharth Kherada * * This tutorial demonstrates how to use OpenCV seamless cloning * module. * * 1- Normal Cloning * 2- Mixed Cloning * 3- Monochrome Transfer * 4- Color Change * 5- Illumination change * 6- Texture Flattening * The program takes as input a source and a destination image (for 1-3 methods) * and ouputs the cloned image. * Step 1: * -> In the source image, select the region of interest by left click mouse button. A Polygon ROI will be created by left clicking mouse button. * -> To set the Polygon ROI, click the right mouse button or 'd' key. * -> To reset the region selected, click the middle mouse button or 'r' key. * Step 2: * -> In the destination image, select the point where you want to place the ROI in the image by left clicking mouse button. * -> To get the cloned result, click the right mouse button or 'c' key. * -> To quit the program, use 'q' key. * * Result: The cloned image will be displayed. */ #include #include "opencv2/photo.hpp" #include "opencv2/imgproc.hpp" #include "opencv2/imgcodecs.hpp" #include "opencv2/highgui.hpp" #include "opencv2/core.hpp" #include #include using namespace std; using namespace cv; Mat img0, img1, img2, res, res1, final, final1, blend; Point point; int drag = 0; int destx, desty; int numpts = 100; Point* pts = new Point[100]; Point* pts2 = new Point[100]; Point* pts_diff = new Point[100]; int var = 0; int flag = 0, flag1 = 0, flag4 = 0; int minx, miny, maxx, maxy, lenx, leny; int minxd, minyd, maxxd, maxyd, lenxd, lenyd; int channel, num, kernel_size; float alpha,beta; float red, green, blue; double low_t, high_t; void source(int, int, int, int, void*); void destination(int, int, int, int, void*); void checkfile(char*); void source(int event, int x, int y, int, void*) { if (event == EVENT_LBUTTONDOWN && !drag) { if(flag1 == 0) { if(var==0) img1 = img0.clone(); point = Point(x, y); circle(img1,point,2,Scalar(0, 0, 255),-1, 8, 0); pts[var] = point; var++; drag = 1; if(var>1) line(img1,pts[var-2], point, Scalar(0, 0, 255), 2, 8, 0); imshow("Source", img1); } } if (event == EVENT_LBUTTONUP && drag) { imshow("Source", img1); drag = 0; } if (event == EVENT_RBUTTONDOWN) { flag1 = 1; img1 = img0.clone(); for(int i = var; i < numpts ; i++) pts[i] = point; if(var!=0) { const Point* pts3[1] = {&pts[0]}; polylines( img1, pts3, &numpts,1, 1, Scalar(0,0,0), 2, 8, 0); } for(int i=0;i im1.size().width || maxyd > im1.size().height || minxd < 0 || minyd < 0) { cout << "Index out of range" << endl; exit(0); } final1 = Mat::zeros(img2.size(),CV_8UC3); res = Mat::zeros(img2.size(),CV_8UC1); for(int i=miny, k=minyd;i<(miny+leny);i++,k++) for(int j=minx,l=minxd ;j<(minx+lenx);j++,l++) { for(int c=0;c(k,l*channel+c) = final.at(i,j*channel+c); } } const Point* pts6[1] = {&pts2[0]}; fillPoly(res, pts6, &numpts, 1, Scalar(255, 255, 255), 8, 0); if(num == 1 || num == 2 || num == 3) { seamlessClone(img0,img2,res1,point,blend,num); imshow("Cloned Image", blend); imwrite("cloned.png",blend); waitKey(0); } for(int i = 0; i < flag ; i++) { pts2[i].x=0; pts2[i].y=0; } minxd = INT_MAX; minyd = INT_MAX; maxxd = INT_MIN; maxyd = INT_MIN; } im1.release(); } int main() { cout << endl; cout << "Cloning Module" << endl; cout << "---------------" << endl; cout << "Step 1:" << endl; cout << " -> In the source image, select the region of interest by left click mouse button. A Polygon ROI will be created by left clicking mouse button." << endl; cout << " -> To set the Polygon ROI, click the right mouse button or use 'd' key" << endl; cout << " -> To reset the region selected, click the middle mouse button or use 'r' key." << endl; cout << "Step 2:" << endl; cout << " -> In the destination image, select the point where you want to place the ROI in the image by left clicking mouse button." << endl; cout << " -> To get the cloned result, click the right mouse button or use 'c' key." << endl; cout << " -> To quit the program, use 'q' key." << endl; cout << endl; cout << "Options: " << endl; cout << endl; cout << "1) Normal Cloning " << endl; cout << "2) Mixed Cloning " << endl; cout << "3) Monochrome Transfer " << endl; cout << "4) Local Color Change " << endl; cout << "5) Local Illumination Change " << endl; cout << "6) Texture Flattening " << endl; cout << endl; cout << "Press number 1-6 to choose from above techniques: "; cin >> num; cout << endl; minx = INT_MAX; miny = INT_MAX; maxx = INT_MIN; maxy = INT_MIN; minxd = INT_MAX; minyd = INT_MAX; maxxd = INT_MIN; maxyd = INT_MIN; int flag3 = 0; if(num == 1 || num == 2 || num == 3) { string src,dest; cout << "Enter Source Image: "; cin >> src; cout << "Enter Destination Image: "; cin >> dest; img0 = imread(src); img2 = imread(dest); if(!img0.data) { cout << "Source Image does not exist" << endl; exit(0); } if(!img2.data) { cout << "Destination Image does not exist" << endl; exit(0); } channel = img0.channels(); res = Mat::zeros(img2.size(),CV_8UC1); res1 = Mat::zeros(img0.size(),CV_8UC1); final = Mat::zeros(img0.size(),CV_8UC3); final1 = Mat::zeros(img2.size(),CV_8UC3); //////////// source image /////////////////// namedWindow("Source", 1); setMouseCallback("Source", source, NULL); imshow("Source", img0); /////////// destination image /////////////// namedWindow("Destination", 1); setMouseCallback("Destination", destination, NULL); imshow("Destination",img2); } else if(num == 4) { string src; cout << "Enter Source Image: "; cin >> src; cout << "Enter RGB values: " << endl; cout << "Red: "; cin >> red; cout << "Green: "; cin >> green; cout << "Blue: "; cin >> blue; img0 = imread(src); if(!img0.data) { cout << "Source Image does not exist" << endl; exit(0); } res1 = Mat::zeros(img0.size(),CV_8UC1); final = Mat::zeros(img0.size(),CV_8UC3); //////////// source image /////////////////// namedWindow("Source", 1); setMouseCallback("Source", source, NULL); imshow("Source", img0); } else if(num == 5) { string src; cout << "Enter Source Image: "; cin >> src; cout << "alpha: "; cin >> alpha; cout << "beta: "; cin >> beta; img0 = imread(src); if(!img0.data) { cout << "Source Image does not exist" << endl; exit(0); } res1 = Mat::zeros(img0.size(),CV_8UC1); final = Mat::zeros(img0.size(),CV_8UC3); //////////// source image /////////////////// namedWindow("Source", 1); setMouseCallback("Source", source, NULL); imshow("Source", img0); } else if(num == 6) { string src; cout << "Enter Source Image: "; cin >> src; cout << "low_threshold: "; cin >> low_t; cout << "high_threshold: "; cin >> high_t; cout << "kernel_size: "; cin >> kernel_size; img0 = imread(src); if(!img0.data) { cout << "Source Image does not exist" << endl; exit(0); } res1 = Mat::zeros(img0.size(),CV_8UC1); final = Mat::zeros(img0.size(),CV_8UC3); //////////// source image /////////////////// namedWindow("Source", 1); setMouseCallback("Source", source, NULL); imshow("Source", img0); } else { cout << "Wrong Option Choosen" << endl; exit(0); } for(;;) { char key = (char) waitKey(0); if(key == 'd' && flag3 == 0) { flag1 = 1; flag3 = 1; img1 = img0.clone(); for(int i = var; i < numpts ; i++) pts[i] = point; if(var!=0) { const Point* pts3[1] = {&pts[0]}; polylines( img1, pts3, &numpts,1, 1, Scalar(0,0,0), 2, 8, 0); } for(int i=0;i