187 lines
5.3 KiB
C
187 lines
5.3 KiB
C
#include "priv.h"
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// Copied mostly from Desk.cpl.
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#define RANGE 240 // range of values for HLS scrollbars
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// HLS-RGB conversions work best when
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// RANGE is divisible by 6
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#define HLSMAX RANGE
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#define RGBMAX 255
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#define UNDEFINED (HLSMAX*2/3) //Hue is undefined if Saturation is 0 (grey-scale)
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// ColorRGBToHLS
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// Purpose: Convert RGB to HLS
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// A point of reference for the algorithms is Foley and Van Dam, pp. 618-19.
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// Their algorithm is in floating point. CHART implements a less general
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// (hardwired ranges) integral algorithm.
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// There are potential roundoff errors lurking throughout here.
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// (0.5 + x/y) without floating point,
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// (x/y) phrased ((x + (y/2))/y)
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// yields very small roundoff error.
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// This makes many of the following divisions look funny.
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// H,L, and S vary over 0-HLSMAX
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// R,G, and B vary over 0-RGBMAX
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// HLSMAX BEST IF DIVISIBLE BY 6
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// RGBMAX, HLSMAX must each fit in a byte.
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STDAPI_(void) ColorRGBToHLS(COLORREF clrRGB, WORD* pwHue, WORD* pwLuminance, WORD* pwSaturation)
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{
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int R,G,B; /* input RGB values */
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WORD cMax,cMin; /* max and min RGB values */
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WORD cSum,cDif;
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int Rdelta,Gdelta,Bdelta; /* intermediate value: % of spread from max */
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int H, L, S;
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/* get R, G, and B out of DWORD */
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R = GetRValue(clrRGB);
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G = GetGValue(clrRGB);
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B = GetBValue(clrRGB);
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/* calculate lightness */
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cMax = max( max(R,G), B);
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cMin = min( min(R,G), B);
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cSum = cMax + cMin;
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L = (WORD)(((cSum * (DWORD)HLSMAX) + RGBMAX )/(2*RGBMAX));
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cDif = cMax - cMin;
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if (!cDif) /* r=g=b --> achromatic case */
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{
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S = 0; /* saturation */
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H = UNDEFINED; /* hue */
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}
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else /* chromatic case */
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{
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/* saturation */
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if (L <= (HLSMAX/2))
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S = (WORD) (((cDif * (DWORD) HLSMAX) + (cSum / 2) ) / cSum);
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else
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S = (WORD) ((DWORD) ((cDif * (DWORD) HLSMAX) + (DWORD)((2*RGBMAX-cSum)/2) )
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/ (2*RGBMAX-cSum));
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/* hue */
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Rdelta = (int) (( ((cMax-R)*(DWORD)(HLSMAX/6)) + (cDif / 2) ) / cDif);
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Gdelta = (int) (( ((cMax-G)*(DWORD)(HLSMAX/6)) + (cDif / 2) ) / cDif);
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Bdelta = (int) (( ((cMax-B)*(DWORD)(HLSMAX/6)) + (cDif / 2) ) / cDif);
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if ((WORD) R == cMax)
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H = Bdelta - Gdelta;
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else if ((WORD) G == cMax)
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H = (HLSMAX/3) + Rdelta - Bdelta;
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else /* B == cMax */
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H = ((2*HLSMAX)/3) + Gdelta - Rdelta;
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if (H < 0)
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H += HLSMAX;
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if (H > HLSMAX)
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H -= HLSMAX;
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}
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ASSERT( pwHue && pwLuminance && pwSaturation );
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*pwHue = (WORD) H;
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*pwLuminance = (WORD) L;
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*pwSaturation = (WORD) S;
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}
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/* utility routine for HLStoRGB */
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WORD HueToRGB(WORD n1, WORD n2, WORD hue)
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{
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/* range check: note values passed add/subtract thirds of range */
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/* The following is redundant for WORD (unsigned int) */
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if (hue > HLSMAX)
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hue -= HLSMAX;
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/* return r,g, or b value from this tridrant */
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if (hue < (HLSMAX/6))
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return ( n1 + (((n2-n1)*hue+(HLSMAX/12))/(HLSMAX/6)) );
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if (hue < (HLSMAX/2))
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return ( n2 );
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if (hue < ((HLSMAX*2)/3))
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return ( n1 + (((n2-n1)*(((HLSMAX*2)/3)-hue)+(HLSMAX/12)) / (HLSMAX/6)) );
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else
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return ( n1 );
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}
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// ColorHLSToRGB
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// Purpose: Convert HLS to RGB
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STDAPI_(COLORREF) ColorHLSToRGB(WORD wHue, WORD wLuminance, WORD wSaturation)
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{
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WORD R,G,B; /* RGB component values */
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WORD Magic1,Magic2; /* calculated magic numbers (really!) */
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if (wSaturation == 0) /* achromatic case */
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{
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R = G = B = (wLuminance * RGBMAX) / HLSMAX;
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if (wHue != UNDEFINED)
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{
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R = G = B = 0;
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}
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}
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else /* chromatic case */
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{
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/* set up magic numbers */
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if (wLuminance <= (HLSMAX/2))
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Magic2 = (WORD)((wLuminance * ((DWORD)HLSMAX + wSaturation) + (HLSMAX/2))/HLSMAX);
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else
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Magic2 = wLuminance + wSaturation - (WORD)(((wLuminance*wSaturation) + (DWORD)(HLSMAX/2))/HLSMAX);
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Magic1 = 2*wLuminance-Magic2;
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/* get RGB, change units from HLSMAX to RGBMAX */
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R = (WORD)((HueToRGB(Magic1,Magic2,(WORD)(wHue+(WORD)(HLSMAX/3)))*(DWORD)RGBMAX + (HLSMAX/2))) / (WORD)HLSMAX;
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G = (WORD)((HueToRGB(Magic1,Magic2,wHue)*(DWORD)RGBMAX + (HLSMAX/2))) / HLSMAX;
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B = (WORD)((HueToRGB(Magic1,Magic2,(WORD)(wHue-(WORD)(HLSMAX/3)))*(DWORD)RGBMAX + (HLSMAX/2))) / (WORD)HLSMAX;
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}
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return(RGB(R,G,B));
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}
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// ColorAdjustLuma
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// Purpose: Adjusts the luma of an RGB value
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STDAPI_(COLORREF) ColorAdjustLuma(COLORREF clrRGB, int n, BOOL fScale)
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{
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WORD H, L, S;
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if (n == 0)
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return clrRGB;
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ColorRGBToHLS(clrRGB, &H, &L, &S);
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if (fScale)
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{
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if (n > 0)
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{
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return ColorHLSToRGB((WORD)H, (WORD)(((long)L * (1000 - n) + (RANGE + 1l) * n) / 1000), (WORD)S);
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}
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else
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{
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return ColorHLSToRGB((WORD)H, (WORD)(((long)L * (n + 1000)) / 1000), (WORD)S);
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}
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}
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L += (int)((long)n * RANGE / 1000);
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if (L < 0)
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L = 0;
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if (L > HLSMAX)
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L = HLSMAX;
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return ColorHLSToRGB((WORD)H, (WORD)L, (WORD)S);
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}
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