# How does one compare one image to another to see if they are similar by a certain percentage, on the iPhone?

I basically want to take two images taken from the camera on the iPhone or iPad 2 and compare them to each other to see if they are pretty much the same. Obviously due to light etc the image will never be EXACTLY the same so I would like to check for around 90% compatibility.

All the other questions like this that I saw on here were either not for iOS or were for locating objects in images. I just want to see if two images are similar.

Thank you.

As a quick, simple algorithm, I'd suggest iterating through about 1% of the pixels in each image and either comparing them directly against each other or keeping a running average and then comparing the two average color values at the end.

You can look at this answer for an idea of how to determine the color of a pixel at a given position in an image. You may want to optimize it somewhat to better suit your use-case (repeatedly querying the same image), but it should provide a good starting point.

Then you can use an algorithm roughly like:

float numDifferences = 0.0f;
float totalCompares = width * height / 100.0f;
for (int yCoord = 0; yCoord < height; yCoord += 10) {
for (int xCoord = 0; xCoord < width; xCoord += 10) {
int img1RGB[] = [image1 getRGBForX:xCoord andY: yCoord];
int img2RGB[] = [image2 getRGBForX:xCoord andY: yCoord];
if (abs(img1RGB[0] - img2RGB[0]) > 25 || abs(img1RGB[1] - img2RGB[1]) > 25 || abs(img1RGB[2] - img2RGB[2]) > 25) {
//one or more pixel components differs by 10% or more
numDifferences++;
}
}
}

if (numDifferences / totalCompares <= 0.1f) {
//images are at least 90% identical 90% of the time
}
else {
//images are less than 90% identical 90% of the time
}

• Very interesting. Two questions, in your second for loop you have img1RGB array, is this array theortically already filled in with the RGB values at this point? If so how would I populate that. That answer link would probably help for the getRGBfor part. Second question is for the if statement you use absolute number 0,1,2....why? Are you only comparing 3 spots and thats why the numbers aren't variables? Like should that remain those numbers for all cases? – SolidSnake4444 Jun 27 '11 at 21:31
• @SolidSnake4444 - The img1GRB/img2RGB arrays would be populated by the call to getRGBForX:andY:. They would contain the pixel channel values for the pixel at the given coordinate (i.e. an int for the red component, an int for the green, and an int for the blue). Use of the array index in the comparisons is just for conciseness. You could easily do something like int img1Red = img1RGB[0]; and int img1Green = img1RGB[1]; and so on, if you prefer. – aroth Jun 27 '11 at 22:33
• So your adding the three int values for the colors and then subtracting it from the sum of the values from the second image and then comparing if it's bigger than 25? If I understood that correctly, why is it compared against 25? – SolidSnake4444 Jun 28 '11 at 4:51
• @SolidSnake4444 - I'm comparing the three int color values, not addings them. I'm taking the red, green, and blue component values from the first pixel and comparing them with the red, green, and blue values (respectively) from the second pixel. To do the comparison I do a simple subtraction, and then compare the result against 25. Why 25? Because the maximum possible difference is 255, and you said anything within 10% should count as a match. And 10% of 255 is 25. So if the difference is less than 25, the component counts as a match (within 10%), otherwise it is tallied as a difference. – aroth Jun 28 '11 at 12:28
• where did you get the width, height and the getRGBForX from? – Stephen Jesse Nov 21 '15 at 12:35

Based on aroth's idea, this is my full implementation. It checks if some random pixels are the same. For what I needed it works flawlessly.

- (bool)isTheImage:(UIImage *)image1 apparentlyEqualToImage:(UIImage *)image2 accordingToRandomPixelsPer1:(float)pixelsPer1
{
if (!CGSizeEqualToSize(image1.size, image2.size))
{
return false;
}

int pixelsWidth = CGImageGetWidth(image1.CGImage);
int pixelsHeight = CGImageGetHeight(image1.CGImage);

int pixelsToCompare = pixelsWidth * pixelsHeight * pixelsPer1;

uint32_t pixel1;
CGContextRef context1 = CGBitmapContextCreate(&pixel1, 1, 1, 8, 4, CGColorSpaceCreateDeviceRGB(), kCGImageAlphaNoneSkipFirst);
uint32_t pixel2;
CGContextRef context2 = CGBitmapContextCreate(&pixel2, 1, 1, 8, 4, CGColorSpaceCreateDeviceRGB(), kCGImageAlphaNoneSkipFirst);

bool isEqual = true;

for (int i = 0; i < pixelsToCompare; i++)
{
int pixelX = arc4random() % pixelsWidth;
int pixelY = arc4random() % pixelsHeight;

CGContextDrawImage(context1, CGRectMake(-pixelX, -pixelY, pixelsWidth, pixelsHeight), image1.CGImage);
CGContextDrawImage(context2, CGRectMake(-pixelX, -pixelY, pixelsWidth, pixelsHeight), image2.CGImage);

if (pixel1 != pixel2)
{
isEqual = false;
break;
}
}
CGContextRelease(context1);
CGContextRelease(context2);

return isEqual;
}


Usage:

[self isTheImage:image1 apparentlyEqualToImage:image2
accordingToRandomPixelsPer1:0.001]; // Use a value between 0.0001 and 0.005


According to my performance tests, 0.005 (0.5% of the pixels) is the maximum value you should use. If you need more precision, just compare the whole images using this. 0.001 seems to be a safe and well-performing value. For large images (like between 0.5 and 2 megapixels or million pixels), I'm using 0.0001 (0.01%) and it works great and incredibly fast, it never makes a mistake.

But of course the mistake-ratio will depend on the type of images you are using. I'm using UIWebView screenshots and 0.0001 performs well, but you can probably use much less if you are comparing real photographs (even just compare one random pixel in fact). If you are dealing with very similar computer designed images you definitely need more precision.

Note: I'm always comparing ARGB images without taking into account the alpha channel. Maybe you'll need to adapt it if that's not exactly your case.

• This looks promising. I'll look into this on the weekend and see if it works the way I need it. From what you are saying I think it will. – SolidSnake4444 Nov 1 '13 at 4:03
• Now that I re-read you question, I'm not sure if it will work for what you want. Even if two photographs are similar to the human eye, all of the pixels might be different. Calculating average colors sounds like a better approach. – cprcrack Nov 1 '13 at 10:22
• Do you have a code example on how one would do that? In terms of getting down to this pixel or RGB level of photos I seem to have trouble grasping how to code that. – SolidSnake4444 Nov 2 '13 at 7:29
• @cprcrack getting image1,image2 use of undeclared identifier on view load can you share some more code so that it will be more understandable – Saad Chaudhry Feb 14 '14 at 18:59
• @cprcrack I have implemented this code, the problem I am facing here is that, the algorithm perfectly finds similar images which have come from WhatsApp or Facebook and are saved in my album, but when I have clicked photos from my camera and they are similar ( I have 20 of them for testing ) it doesn't find any of them. Also I have to set parameters for each phones differently ( which is a wrong approach ) how can I improve this code for the problem I am facing ? – Omkar Jadhav Oct 27 '17 at 15:37