Sounds a bit like a homework question, but here's the general idea, or at least, how I would do it.

For each pixel, calculate the average brightness, so add `R`

`G`

and `B`

together then divide by 3 to get the result (you'll need to use a variable greater than 8 bits here!).

Now you have a value back in the range of 0-255 indicating the brightness of the pixel (there are various ways to calculate brightness but this will do for now).

Full blue is `(0,0,255)`

, full yellow is `(255,255,0)`

— so you need to interpolate between these values (we'll use linear interpolation here):

If your brightness is 50 for instance, it's ~20% of 255, so you want a colour that's 80% blue and 20% yellow. You can calculate the valye for the red channel like so:

```
R = (brightness / max) * (R in Yellow - R in Blue);
```

With similar calculations for the other channels, so for our pixel with a brightness of 50 we'd do:

```
R = (50 / 255) * 255;
G = (50 / 255) * 255;
```

Of course, we can't have negative values, and using `B in Yellow - B in Blue`

idea isn't going to cut it for the blue channel, you need to invert the interpolation. By taking our 0.2 and subtracting it from 1 we can work through the range 0-255 in the other direction:

```
B = (1 - (50 / 255)) * 255;
```

Extra note: To work with something like this in C++ I'd suggest using SDL, it's nice and easy this kind of thing.