这可以根据您的需要工作:
void cvShowManyImages(char* title, int nArgs, ...) {
// img - Used for getting the arguments
IplImage *img;
// DispImage - the image in which input images are to be copied
IplImage *DispImage;
int size;
int i;
int m, n;
int x, y;
// w - Maximum number of images in a row
// h - Maximum number of images in a column
int w, h;
// scale - How much we have to resize the image
float scale;
int max;
// If the number of arguments is lesser than 0 or greater than 12
// return without displaying
if(nArgs <= 0) {
printf("Number of arguments too small....\n");
return;
}
else if(nArgs > 12) {
printf("Number of arguments too large....\n");
return;
}
// Determine the size of the image,
// and the number of rows/cols
// from number of arguments
else if (nArgs == 1) {
w = h = 1;
size = 300;
}
else if (nArgs == 2) {
w = 2; h = 1;
size = 300;
}
else if (nArgs == 3 || nArgs == 4) {
w = 2; h = 2;
size = 300;
}
else if (nArgs == 5 || nArgs == 6) {
w = 3; h = 2;
size = 200;
}
else if (nArgs == 7 || nArgs == 8) {
w = 4; h = 2;
size = 200;
}
else {
w = 4; h = 3;
size = 150;
}
// Create a new 3 channel image
DispImage = cvCreateImage( cvSize(100 + size*w, 60 + size*h), 8, 3 );
cvZero(DispImage);
// Used to get the arguments passed
va_list args;
va_start(args, nArgs);
// Loop for nArgs number of arguments
for (i = 0, m = 20, n = 20; i < nArgs; i++, m += (20 + size)) {
// Get the Pointer to the IplImage
img = va_arg(args, IplImage*);
// Check whether it is NULL or not
// If it is NULL, release the image, and return
if(img == 0) {
printf("Invalid arguments");
cvReleaseImage(&DispImage);
return;
}
// Find the width and height of the image
x = img->width;
y = img->height;
// Find whether height or width is greater in order to resize the image
max = (x > y)? x: y;
// Find the scaling factor to resize the image
scale = (float) ( (float) max / size );
// Used to Align the images
if( i % w == 0 && m!= 20) {
m = 20;
n+= 20 + size;
}
// Set the image ROI to display the current image
cvSetImageROI(DispImage, cvRect(m, n, (int)( x/scale ), (int)( y/scale )));
// Resize the input image and copy the it to the Single Big Image
cvResize(img, DispImage);
// Reset the ROI in order to display the next image
cvResetImageROI(DispImage);
}
// Create a new window, and show the Single Big Image
// cvNamedWindow( title, 1 );
cvShowImage( title, DispImage);
// cvWaitKey(20);
// End the number of arguments
va_end(args);
// Release the Image Memory
cvReleaseImage(&DispImage);
}
int main() {
IplImage *img1 = cvLoadImage("d:\\ImagesForTest\\cat.bmp");
CvCapture* capture = cvCaptureFromCAM(0);
if ( !capture ) {
fprintf( stderr, "ERROR: capture is NULL \n" );
getchar();
return -1;
}
// Create a window in which the captured images will be presented
cvNamedWindow( "mywindow", CV_WINDOW_AUTOSIZE );
// Show the image captured from the camera in the window and repeat
while ( 1 ) {
// Get one frame
IplImage* frame = cvQueryFrame( capture );
if ( !frame ) {
fprintf( stderr, "ERROR: frame is null...\n" );
getchar();
break;
}
//cvShowImage( "mywindow", frame );
cvShowManyImages("Image", 2, img1, frame);
// Do not release the frame!
//If ESC key pressed, Key=0x10001B under OpenCV 0.9.7(linux version),
//remove higher bits using AND operator
if ( (cvWaitKey(10) & 255) == 27 ) break;
}
// Release the capture device housekeeping
cvReleaseCapture( &capture );
cvDestroyAllWindows();
return 0;
}