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-rw-r--r--src/base/UImage.pas159
1 files changed, 99 insertions, 60 deletions
diff --git a/src/base/UImage.pas b/src/base/UImage.pas
index dfd47d12..01dfe9ea 100644
--- a/src/base/UImage.pas
+++ b/src/base/UImage.pas
@@ -798,7 +798,7 @@ end;
* Image manipulation
*******************************************************)
-
+
function PixelFormatEquals(fmt1, fmt2: PSDL_PixelFormat): boolean;
begin
if (fmt1^.BitsPerPixel = fmt2^.BitsPerPixel) and
@@ -828,7 +828,7 @@ end;
procedure FitImage(var ImgSurface: PSDL_Surface; Width, Height: Cardinal);
var
TempSurface: PSDL_Surface;
- ImgFmt: PSDL_PixelFormat;
+ ImgFmt: PSDL_PixelFormat;
begin
TempSurface := ImgSurface;
@@ -894,89 +894,128 @@ end;
procedure ColorizeImage(ImgSurface: PSDL_Surface; NewColor: cardinal);
- // returns hue within the range [0.0-6.0)
- function col2hue(Color: longword): double;
+ // for the conversion of colors from rgb to hsv space and back
+ // simply check the wikipedia.
+
+ function col2hue(const Color: longword): longword;
+ // returns hue within the range [0.0-6.0] but shl 10, ie. times 1024
var
- clr: array[0..2] of double;
- hue, max, delta: double;
+ red, green, blue: longword;
+ min, max, delta: longword;
+ hue: double;
begin
- // division by 255 is omitted, since it is implicitly done when deviding by delta
- clr[0] := ((Color and $ff0000) shr 16); // R
- clr[1] := ((Color and $ff00) shr 8); // G
- clr[2] := (Color and $ff) ; // B
- max := maxvalue(clr);
- delta := max - minvalue(clr);
+ // extract the colors
+ // division by 255 is omitted, since it is implicitly done
+ // when deviding by delta
+ red := ((Color and $ff0000) shr 16); // R
+ green := ((Color and $ff00) shr 8); // G
+ blue := (Color and $ff) ; // B
+
+ min := red;
+ if green < min then min := green;
+ if blue < min then min := blue;
+
+ max := red;
+ if green > max then max := green;
+ if blue > max then max := blue;
+
// calc hue
- if (delta = 0.0) then hue := 0
- else if (clr[0] = max) then hue := (clr[1]-clr[2])/delta
- else if (clr[1] = max) then hue := 2.0+(clr[2]-clr[0])/delta
- else if (clr[2] = max) then hue := 4.0+(clr[0]-clr[1])/delta;
- if (hue < 0.0) then
- hue := hue + 6.0;
- Result := hue;
+ delta := max - min;
+ if (delta = 0) then
+ Result := 0
+ else
+ begin
+ if (max = red ) then hue := (green - blue )/delta
+ else if (max = green) then hue := 2.0 + (blue - red )/delta
+ else if (max = blue ) then hue := 4.0 + (red - green)/delta;
+ if (hue < 0.0) then
+ hue := hue + 6.0;
+ Result := trunc(hue*1024); // '*1024' is shl 10
+ end;
end;
var
- DestinationHue: double;
PixelIndex: longword;
Pixel: PByte;
PixelColors: PByteArray;
- clr: array[0..2] of longword; // [0: R, 1: G, 2: B]
- hsv: array[0..2] of longword; // [0: H(ue), 1: S(aturation), 2: V(alue)]
- dhue: longword;
- delta, max: longword;
- h_int: longword;
+ red, green, blue: longword;
+ hue, sat: longword;
+ min, max, delta: longword;
+ HueInteger: longword;
f, p, q, t: longword;
begin
- DestinationHue := col2hue(NewColor);
-
- dhue := Trunc(DestinationHue*1024);
Pixel := ImgSurface^.Pixels;
+ hue := col2hue(NewColor); // hue is shl 10
+ f := hue and $3ff;
+ HueInteger := hue shr 10;
+
for PixelIndex := 0 to (ImgSurface^.W * ImgSurface^.H)-1 do
begin
PixelColors := PByteArray(Pixel);
// inlined colorize per pixel
// uses fixed point math
+ // shl 10 is used for divisions
+
// get color values
- clr[0] := PixelColors[0] shl 10;
- clr[1] := PixelColors[1] shl 10;
- clr[2] := PixelColors[2] shl 10;
+
+ red := PixelColors[0];
+ green := PixelColors[1];
+ blue := PixelColors[2];
+
//calculate luminance and saturation from rgb
- max := clr[0];
- if clr[1] > max then max := clr[1];
- if clr[2] > max then max := clr[2];
- delta := clr[0];
- if clr[1] < delta then delta := clr[1];
- if clr[2] < delta then delta := clr[2];
- delta := max-delta;
- hsv[0] := dhue; // shl 8
- hsv[2] := max; // shl 8
- if (max = 0) then
- hsv[1] := 0
+ max := red;
+ if green > max then max := green;
+ if blue > max then max := blue ;
+
+ if (max = 0) then // the color is black
+ begin
+ PixelColors[0] := 0;
+ PixelColors[1] := 0;
+ PixelColors[2] := 0;
+ end
else
- hsv[1] := (delta shl 10) div max; // shl 8
- h_int := hsv[0] and $fffffC00;
- f := hsv[0]-h_int; //shl 10
- p := (hsv[2]*(1024-hsv[1])) shr 10;
- q := (hsv[2]*(1024-(hsv[1]*f) shr 10)) shr 10;
- t := (hsv[2]*(1024-(hsv[1]*(1024-f)) shr 10)) shr 10;
- h_int := h_int shr 10;
- case h_int of
- 0: begin clr[0] := hsv[2]; clr[1] := t; clr[2] := p; end; // (v,t,p)
- 1: begin clr[0] := q; clr[1] := hsv[2]; clr[2] := p; end; // (q,v,p)
- 2: begin clr[0] := p; clr[1] := hsv[2]; clr[2] := t; end; // (p,v,t)
- 3: begin clr[0] := p; clr[1] := q; clr[2] := hsv[2]; end; // (p,q,v)
- 4: begin clr[0] := t; clr[1] := p; clr[2] := hsv[2]; end; // (t,p,v)
- 5: begin clr[0] := hsv[2]; clr[1] := p; clr[2] := q; end; // (v,p,q)
- end;
+ begin
+ min := red;
+ if green < min then min := green;
+ if blue < min then min := blue ;
+
+ if (min = 255) then // the color is white
+ begin
+ PixelColors[0] := 255;
+ PixelColors[1] := 255;
+ PixelColors[2] := 255;
+ end
+ else // all colors except black and white
+ begin
+ delta := max - min;
+ sat := (delta shl 10) div max; // shl 10
- PixelColors[0] := clr[0] shr 10;
- PixelColors[1] := clr[1] shr 10;
- PixelColors[2] := clr[2] shr 10;
+ // take into account that sat and f are shl 10
+ // the final p, q and t are unshifted
+
+ p := (max*(1024-sat)) shr 10;
+ q := (max*(1024-(sat*f) shr 10)) shr 10;
+ t := (max*(1024-(sat*(1024-f)) shr 10)) shr 10;
+
+ case HueInteger of
+ 0: begin red := max; green := t; blue := p; end; // (v,t,p)
+ 1: begin red := q; green := max; blue := p; end; // (q,v,p)
+ 2: begin red := p; green := max; blue := t; end; // (p,v,t)
+ 3: begin red := p; green := q; blue := max; end; // (p,q,v)
+ 4: begin red := t; green := p; blue := max; end; // (t,p,v)
+ 5: begin red := max; green := p; blue := q; end; // (v,p,q)
+ end;
+
+ PixelColors[0] := red ;
+ PixelColors[1] := green ;
+ PixelColors[2] := blue ;
+
+ end;
+ end;
Inc(Pixel, ImgSurface^.format.BytesPerPixel);
end;