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I have a problem: I need to be able to take two colors and make a 'virtual gradient' out of them. I then need to be able to find the color at any point on this line. My current approach is this:

if (fahrenheit < kBottomThreshold)
    return [UIColor colorWithRed:kBottomR/255.0f green:kBottomG/255.0f blue:kBottomB/255.0f alpha:1];
if (fahrenheit > kTopThreshold)
    return [UIColor colorWithRed:kTopR/255.0f green:kTopG/255.0f blue:kTopB/255.0f alpha:1];

double rDiff = kTopR - kBottomR;
double gDiff = kTopG - kBottomG;
double bDiff = kTopB - kBottomB;

double tempDiff = kTopThreshold - kBottomThreshold;

double rValue;
double gValue;
double bValue;

rValue = kBottomR + ((rDiff/tempDiff) * fahrenheit);
gValue = kBottomG + ((gDiff/tempDiff) * fahrenheit);
bValue = kBottomB + ((bDiff/tempDiff) * fahrenheit);

return [UIColor colorWithRed:rValue/255.0f green:gValue/255.0f blue:bValue/255.0f alpha:1];


  • fahrenheit is a variable passed into my function that is the number on this virtual line that I want to find the color for.
  • kTopR, kTopB, and kTopG are the RGB values for one end of the gradient. Same for their kBottom counterparts.
  • kBottomThreshold and kTopThreshold are the endpoints of my gradient.

Here's my problem: When fahrenheit goes over either end of the gradient, the gradient seems to 'jump' to a different value.

I've included an example project, hosted on my S3 server, here.

You really need to download the project and try it on the simulator/device to see what I mean (unless you are crazy smart and can tell just by looking at the code)

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2 Answers 2

up vote 6 down vote accepted

First of all, the correct spelling is “fahrenheit”.

Second, the problem is that you're not subtracting kBottomThreshold from farenheit.

But let's simplify.

First, we want to map the input temperature to a parameter t in the range [0 ... 1]. Then, we want to map t to an output in the range [kBottomR ... kTopR], and also to an output in the range [kBottomG ... kTopG], and also to an output in the range [kBottomB ... kTopB].

UIColor *colorForDegreesFahrenheit(double fahrenheit) {
    double t = (fahrenheit - kBottomThreshold) / (kTopThreshold - kBottomThreshold);

    // Clamp t to the range [0 ... 1].
    t = MAX(0.0, MIN(t, 1.0));

    double r = kBottomR + t * (kTopR - kBottomR);
    double g = kBottomG + t * (kTopG - kBottomG);
    double b = kBottomB + t * (kTopB - kBottomB);

    return [UIColor colorWithRed:r/255 green:g/255 blue:b/255 alpha:1];
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I submitted an edit translating your code to Objective-C. – Undo Feb 22 '13 at 21:01
My code is already Objective-C. – rob mayoff Feb 22 '13 at 21:03
Also there's no point in changing 255 to 255.0f unless you also change r, g, and b to type float. When either operand of / is a double, the other operand is promoted to double also. – rob mayoff Feb 22 '13 at 21:05
Wow - I learned 2 new things today! – Undo Feb 22 '13 at 21:14

In case your gradient is more complex than a 2 color gradient, you may consider drawing a CGGradientRef into a temporary CGImageRef and directly read RGBA values from the image buffer.

Here is something that I had to do with a 5 gradient stops and colors:

    CGFloat tmpImagewidth = 1000.0f; // Make this bigger or smaller if you need more or less resolution (number of different colors).
    CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB();

    // create a gradient
    CGFloat locations[] = { 0.0,
        1.0 };
    NSArray *colors = @[(__bridge id) [UIColor redColor].CGColor,
                        (__bridge id) [UIColor greenColor].CGColor,
                        (__bridge id) [UIColor blueColor].CGColor,
                        (__bridge id) [UIColor yellowColor].CGColor,
                        (__bridge id) [UIColor redColor].CGColor,
    CGGradientRef gradient = CGGradientCreateWithColors(colorSpace, (__bridge CFArrayRef) colors, locations);
    CGPoint startPoint = CGPointMake(0, 0);
    CGPoint endPoint = CGPointMake(tmpImagewidth, 0);

    // create a bitmap context to draw the gradient to, 1 pixel high.
    CGContextRef context = CGBitmapContextCreate(NULL, tmpImagewidth, 1, 8, 0, colorSpace, kCGImageAlphaPremultipliedLast);

    // draw the gradient into it
    CGContextAddRect(context, CGRectMake(0, 0, tmpImagewidth, 1));
    CGContextDrawLinearGradient(context, gradient, startPoint, endPoint, 0);

    // Get our RGB bytes into a buffer with a couple of intermediate steps...
    //      CGImageRef -> CFDataRef -> byte array
    CGImageRef cgImage = CGBitmapContextCreateImage(context);
    CGDataProviderRef provider = CGImageGetDataProvider(cgImage);
    CFDataRef pixelData = CGDataProviderCopyData(provider);

    // cleanup:

    const UInt8* data = CFDataGetBytePtr(pixelData);

    // we got all the data we need.
    // bytes in the data buffer are a succession of R G B A bytes

    // For instance, the color of the point 27% in our gradient is:
    CGFloat x = tmpImagewidth * .27;
    int pixelIndex = (int)x * 4; // 4 bytes per color
    UIColor *color = [UIColor colorWithRed:data[pixelIndex + 0]/255.0f
                                     green:data[pixelIndex + 1]/255.0f
                                      blue:data[pixelIndex + 2]/255.0f
                                     alpha:data[pixelIndex + 3]/255.0f];

    // done fetching color data, finally release the buffer

I am not saying this is better than the "math way" in the answer above, certainly there is a memory and cpu tax that goes into producing the temporary image. The advantage of this however, is that the code complexity stays the same no matter how many gradient stops you need...

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