As Wedge said, you want to multiply to make things brighter, but that only works until one of the colors becomes saturated (i.e. hits 255 or greater). At that point, you can just clamp the values to 255, but you'll be subtly changing the hue as you get lighter. To keep the hue, you want to maintain the ratio of (middle-lowest)/(highest-lowest).
Edit: Someone gave this an upvote today, so I suppose it's time to make good on the promise I made 4 years ago and include an example.
Here are two functions in Python. The first implements the naive approach which just clamps the RGB values to 255 if they go over. The second redistributes the excess values to keep the hue intact.
def clamp_rgb(r, g, b):
return min(255, int(r)), min(255, int(g)), min(255, int(b))
def redistribute_rgb(r, g, b):
threshold = 255.999
m = max(r, g, b)
if m <= threshold:
return int(r), int(g), int(b)
total = r + g + b
if total >= 3 * threshold:
return int(threshold), int(threshold), int(threshold)
x = (3 * threshold - total) / (3 * m - total)
gray = threshold - x * m
return int(gray + x * r), int(gray + x * g), int(gray + x * b)
I created a gradient starting with the RGB value (224,128,0) and multiplying it by 1.0, 1.1, 1.2, etc. up to 2.0. The upper half is the result using
clamp_rgb and the bottom half is the result with
redistribute_rgb. I think it's easy to see that redistributing the overflows gives a much better result, without leaving the RGB color space.