I noticed that my routine to convert between RGB888 24-bit to 16-bit RGB565 resulted in darkening of the colors progressively each time a conversion took place... The formula uses linear interpolation like so...
typedef struct _RGB24 RGB24;
struct _RGB24 {
BYTE B;
BYTE G;
BYTE R;
};
RGB24 *s; // source
WORD *d; // destination
WORD r;
WORD g;
WORD b;
// Code to convert from 24-bit to 16 bit
r = (WORD)((double)(s[x].r * 31) / 255.0);
g = (WORD)((double)(s[x].g * 63) / 255.0);
b = (WORD)((double)(s[x].b * 31) / 255.0);
d[x] = (r << REDSHIFT) | (g << GREENSHIFT) | (b << BLUESHIFT);
// Code to convert from 16-bit to 24-bit
s[x].r = (BYTE)((double)(((d[x] & REDMASK) >> REDSHIFT) * 255) / 31.0);
s[x].g = (BYTE)((double)(((d[x] & GREENMASK) >> GREENSHIFT) * 255) / 63.0);
s[x].b = (BYTE)((double)(((d[x] & BLUEMASK) >> BLUESHIFT) * 255) / 31.0);
The conversion from 16-bit to 24-bit is similar but with reverse interpolation... I don't understand how the values keep getting lower and lower each time a color is cycled through the equation if they are opposites... Originally there was no cast to double, but I figured if I made it a floating point divide it would not have the falloff... but it still does...