Pillow/src/libImaging/Convert.c

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/*
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* The Python Imaging Library
* $Id$
*
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* convert images
*
* history:
* 1995-06-15 fl created
* 1995-11-28 fl added some "RGBA" and "CMYK" conversions
* 1996-04-22 fl added "1" conversions (same as "L")
* 1996-05-05 fl added palette conversions (hack)
* 1996-07-23 fl fixed "1" conversions to zero/non-zero convention
* 1996-11-01 fl fixed "P" to "L" and "RGB" to "1" conversions
* 1996-12-29 fl set alpha byte in RGB converters
* 1997-05-12 fl added ImagingConvert2
* 1997-05-30 fl added floating point support
* 1997-08-27 fl added "P" to "1" and "P" to "F" conversions
* 1998-01-11 fl added integer support
* 1998-07-01 fl added "YCbCr" support
* 1998-07-02 fl added "RGBX" conversions (sort of)
* 1998-07-04 fl added floyd-steinberg dithering
* 1998-07-12 fl changed "YCrCb" to "YCbCr" (!)
* 1998-12-29 fl added basic "I;16" and "I;16B" conversions
* 1999-02-03 fl added "RGBa", and "BGR" conversions (experimental)
* 2003-09-26 fl added "LA" and "PA" conversions (experimental)
* 2005-05-05 fl fixed "P" to "1" threshold
* 2005-12-08 fl fixed palette memory leak in topalette
*
* Copyright (c) 1997-2005 by Secret Labs AB.
* Copyright (c) 1995-1997 by Fredrik Lundh.
*
* See the README file for details on usage and redistribution.
*/
#include "Imaging.h"
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#define MAX(a, b) (a)>(b) ? (a) : (b)
#define MIN(a, b) (a)<(b) ? (a) : (b)
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#define CLIP16(v) ((v) <= -32768 ? -32768 : (v) >= 32767 ? 32767 : (v))
/* ITU-R Recommendation 601-2 (assuming nonlinear RGB) */
#define L(rgb)\
((INT32) (rgb)[0]*299 + (INT32) (rgb)[1]*587 + (INT32) (rgb)[2]*114)
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#define L24(rgb)\
((rgb)[0]*19595 + (rgb)[1]*38470 + (rgb)[2]*7471 + 0x8000)
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#ifndef round
double round(double x) {
return floor(x+0.5);
}
#endif
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/* ------------------- */
/* 1 (bit) conversions */
/* ------------------- */
static void
bit2l(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++)
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*out++ = (*in++ != 0) ? 255 : 0;
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}
static void
bit2rgb(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++) {
UINT8 v = (*in++ != 0) ? 255 : 0;
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*out++ = v;
*out++ = v;
*out++ = v;
*out++ = 255;
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}
}
static void
bit2cmyk(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++) {
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*out++ = 0;
*out++ = 0;
*out++ = 0;
*out++ = (*in++ != 0) ? 0 : 255;
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}
}
static void
bit2ycbcr(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++) {
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*out++ = (*in++ != 0) ? 255 : 0;
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*out++ = 128;
*out++ = 128;
*out++ = 255;
}
}
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static void
bit2hsv(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, out += 4) {
UINT8 v = (*in++ != 0) ? 255 : 0;
out[0] = 0;
out[1] = 0;
out[2] = v;
out[3] = 255;
}
}
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/* ----------------- */
/* RGB/L conversions */
/* ----------------- */
static void
l2bit(UINT8* out, const UINT8* in, int xsize)
{
int x;
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for (x = 0; x < xsize; x++) {
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*out++ = (*in++ >= 128) ? 255 : 0;
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}
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}
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static void
lA2la(UINT8* out, const UINT8* in, int xsize)
{
int x;
unsigned int alpha, pixel, tmp;
for (x = 0; x < xsize; x++, in += 4) {
alpha = in[3];
pixel = MULDIV255(in[0], alpha, tmp);
*out++ = (UINT8) pixel;
*out++ = (UINT8) pixel;
*out++ = (UINT8) pixel;
*out++ = (UINT8) alpha;
}
}
/* RGBa -> RGBA conversion to remove premultiplication
Needed for correct transforms/resizing on RGBA images */
static void
la2lA(UINT8* out, const UINT8* in, int xsize)
{
int x;
unsigned int alpha, pixel;
for (x = 0; x < xsize; x++, in+=4) {
alpha = in[3];
if (alpha == 255 || alpha == 0) {
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pixel = in[0];
} else {
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pixel = CLIP8((255 * in[0]) / alpha);
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}
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*out++ = (UINT8) pixel;
*out++ = (UINT8) pixel;
*out++ = (UINT8) pixel;
*out++ = (UINT8) alpha;
}
}
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static void
l2la(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++) {
UINT8 v = *in++;
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*out++ = v;
*out++ = v;
*out++ = v;
*out++ = 255;
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}
}
static void
l2rgb(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++) {
UINT8 v = *in++;
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*out++ = v;
*out++ = v;
*out++ = v;
*out++ = 255;
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}
}
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static void
l2hsv(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, out += 4) {
UINT8 v = *in++;
out[0] = 0;
out[1] = 0;
out[2] = v;
out[3] = 255;
}
}
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static void
la2l(UINT8* out, const UINT8* in, int xsize)
{
int x;
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for (x = 0; x < xsize; x++, in += 4) {
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*out++ = in[0];
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}
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}
static void
la2rgb(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4) {
UINT8 v = in[0];
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*out++ = v;
*out++ = v;
*out++ = v;
*out++ = in[3];
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}
}
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static void
la2hsv(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4, out += 4) {
UINT8 v = in[0];
out[0] = 0;
out[1] = 0;
out[2] = v;
out[3] = in[3];
}
}
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static void
rgb2bit(UINT8* out, const UINT8* in, int xsize)
{
int x;
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for (x = 0; x < xsize; x++, in += 4) {
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/* ITU-R Recommendation 601-2 (assuming nonlinear RGB) */
*out++ = (L(in) >= 128000) ? 255 : 0;
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}
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}
static void
rgb2l(UINT8* out, const UINT8* in, int xsize)
{
int x;
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for (x = 0; x < xsize; x++, in += 4) {
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/* ITU-R Recommendation 601-2 (assuming nonlinear RGB) */
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*out++ = L24(in) >> 16;
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}
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}
static void
rgb2la(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4, out += 4) {
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/* ITU-R Recommendation 601-2 (assuming nonlinear RGB) */
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out[0] = out[1] = out[2] = L24(in) >> 16;
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out[3] = 255;
}
}
static void
rgb2i(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4, out_ += 4) {
INT32 v = L24(in) >> 16;
memcpy(out_, &v, sizeof(v));
}
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}
static void
rgb2f(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4, out_ += 4) {
FLOAT32 v = (float) L(in) / 1000.0F;
memcpy(out_, &v, sizeof(v));
}
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}
static void
rgb2bgr15(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4, out_ += 2) {
UINT16 v =
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((((UINT16)in[0])<<7)&0x7c00) +
((((UINT16)in[1])<<2)&0x03e0) +
((((UINT16)in[2])>>3)&0x001f);
memcpy(out_, &v, sizeof(v));
}
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}
static void
rgb2bgr16(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4, out_ += 2) {
UINT16 v =
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((((UINT16)in[0])<<8)&0xf800) +
((((UINT16)in[1])<<3)&0x07e0) +
((((UINT16)in[2])>>3)&0x001f);
memcpy(out_, &v, sizeof(v));
}
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}
static void
rgb2bgr24(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4) {
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*out++ = in[2];
*out++ = in[1];
*out++ = in[0];
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}
}
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static void
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rgb2hsv_row(UINT8* out, const UINT8* in)
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{ // following colorsys.py
float h,s,rc,gc,bc,cr;
UINT8 maxc,minc;
UINT8 r, g, b;
UINT8 uh,us,uv;
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r = in[0];
g = in[1];
b = in[2];
maxc = MAX(r,MAX(g,b));
minc = MIN(r,MIN(g,b));
uv = maxc;
if (minc == maxc){
uh = 0;
us = 0;
} else {
cr = (float)(maxc-minc);
s = cr/(float)maxc;
rc = ((float)(maxc-r))/cr;
gc = ((float)(maxc-g))/cr;
bc = ((float)(maxc-b))/cr;
if (r == maxc) {
h = bc-gc;
} else if (g == maxc) {
h = 2.0 + rc-bc;
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} else {
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h = 4.0 + gc-rc;
}
// incorrect hue happens if h/6 is negative.
h = fmod((h/6.0 + 1.0), 1.0);
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uh = (UINT8)CLIP8((int)(h*255.0));
us = (UINT8)CLIP8((int)(s*255.0));
}
out[0] = uh;
out[1] = us;
out[2] = uv;
}
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static void
rgb2hsv(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4, out += 4) {
rgb2hsv_row(out, in);
out[3] = in[3];
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}
}
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static void
hsv2rgb(UINT8* out, const UINT8* in, int xsize)
{ // following colorsys.py
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int p,q,t;
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UINT8 up,uq,ut;
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int i, x;
float f, fs;
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UINT8 h,s,v;
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for (x = 0; x < xsize; x++, in += 4) {
h = in[0];
s = in[1];
v = in[2];
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if (s==0){
*out++ = v;
*out++ = v;
*out++ = v;
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} else {
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i = floor((float)h * 6.0 / 255.0); // 0 - 6
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f = (float)h * 6.0 / 255.0 - (float)i; // 0-1 : remainder.
fs = ((float)s)/255.0;
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p = round((float)v * (1.0-fs));
q = round((float)v * (1.0-fs*f));
t = round((float)v * (1.0-fs*(1.0-f)));
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up = (UINT8)CLIP8(p);
uq = (UINT8)CLIP8(q);
ut = (UINT8)CLIP8(t);
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switch (i%6) {
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case 0:
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*out++ = v;
*out++ = ut;
*out++ = up;
break;
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case 1:
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*out++ = uq;
*out++ = v;
*out++ = up;
break;
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case 2:
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*out++ = up;
*out++ = v;
*out++ = ut;
break;
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case 3:
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*out++ = up;
*out++ = uq;
*out++ = v;
break;
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case 4:
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*out++ = ut;
*out++ = up;
*out++ = v;
break;
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case 5:
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*out++ = v;
*out++ = up;
*out++ = uq;
break;
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}
}
*out++ = in[3];
}
}
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/* ---------------- */
/* RGBA conversions */
/* ---------------- */
static void
rgb2rgba(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++) {
*out++ = *in++;
*out++ = *in++;
*out++ = *in++;
*out++ = 255; in++;
}
}
static void
rgba2la(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4, out += 4) {
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/* ITU-R Recommendation 601-2 (assuming nonlinear RGB) */
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out[0] = out[1] = out[2] = L24(in) >> 16;
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out[3] = in[3];
}
}
static void
rgba2rgb(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++) {
*out++ = *in++;
*out++ = *in++;
*out++ = *in++;
*out++ = 255; in++;
}
}
static void
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rgbA2rgba(UINT8* out, const UINT8* in, int xsize)
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{
int x;
unsigned int alpha, tmp;
for (x = 0; x < xsize; x++) {
alpha = in[3];
*out++ = MULDIV255(*in++, alpha, tmp);
*out++ = MULDIV255(*in++, alpha, tmp);
*out++ = MULDIV255(*in++, alpha, tmp);
*out++ = *in++;
}
}
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/* RGBa -> RGBA conversion to remove premultiplication
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Needed for correct transforms/resizing on RGBA images */
static void
rgba2rgbA(UINT8* out, const UINT8* in, int xsize)
{
int x;
unsigned int alpha;
for (x = 0; x < xsize; x++, in+=4) {
alpha = in[3];
if (alpha == 255 || alpha == 0) {
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*out++ = in[0];
*out++ = in[1];
*out++ = in[2];
} else {
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*out++ = CLIP8((255 * in[0]) / alpha);
*out++ = CLIP8((255 * in[1]) / alpha);
*out++ = CLIP8((255 * in[2]) / alpha);
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}
*out++ = in[3];
}
}
/*
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* Conversion of RGB + single transparent color to RGBA,
* where any pixel that matches the color will have the
* alpha channel set to 0
*/
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static void
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rgbT2rgba(UINT8* out, int xsize, int r, int g, int b)
{
#ifdef WORDS_BIGENDIAN
UINT32 trns = ((r & 0xff)<<24) | ((g & 0xff)<<16) | ((b & 0xff)<<8) | 0xff;
UINT32 repl = trns & 0xffffff00;
#else
UINT32 trns = (0xff <<24) | ((b & 0xff)<<16) | ((g & 0xff)<<8) | (r & 0xff);
UINT32 repl = trns & 0x00ffffff;
#endif
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int i;
for (i=0; i < xsize; i++ ,out += sizeof(trns)) {
UINT32 v;
memcpy(&v, out, sizeof(v));
if (v==trns) {
memcpy(out, &repl, sizeof(repl));
}
}
}
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/* ---------------- */
/* CMYK conversions */
/* ---------------- */
static void
l2cmyk(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++) {
*out++ = 0;
*out++ = 0;
*out++ = 0;
*out++ = ~(*in++);
}
}
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static void
la2cmyk(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4) {
*out++ = 0;
*out++ = 0;
*out++ = 0;
*out++ = ~(in[0]);
}
}
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static void
rgb2cmyk(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++) {
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/* Note: no undercolour removal */
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*out++ = ~(*in++);
*out++ = ~(*in++);
*out++ = ~(*in++);
*out++ = 0; in++;
}
}
static void
cmyk2rgb(UINT8* out, const UINT8* in, int xsize)
{
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int x, nk, tmp;
for (x = 0; x < xsize; x++) {
nk = 255 - in[3];
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out[0] = CLIP8(nk - MULDIV255(in[0], nk, tmp));
out[1] = CLIP8(nk - MULDIV255(in[1], nk, tmp));
out[2] = CLIP8(nk - MULDIV255(in[2], nk, tmp));
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out[3] = 255;
out += 4;
in += 4;
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}
}
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static void
cmyk2hsv(UINT8* out, const UINT8* in, int xsize)
{
int x, nk, tmp;
for (x = 0; x < xsize; x++) {
nk = 255 - in[3];
out[0] = CLIP8(nk - MULDIV255(in[0], nk, tmp));
out[1] = CLIP8(nk - MULDIV255(in[1], nk, tmp));
out[2] = CLIP8(nk - MULDIV255(in[2], nk, tmp));
rgb2hsv_row(out, out);
out[3] = 255;
out += 4;
in += 4;
}
}
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/* ------------- */
/* I conversions */
/* ------------- */
static void
bit2i(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, out_ += 4) {
INT32 v = (*in++ != 0) ? 255 : 0;
memcpy(out_, &v, sizeof(v));
}
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}
static void
l2i(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, out_ += 4) {
INT32 v = *in++;
memcpy(out_, &v, sizeof(v));
}
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}
static void
i2l(UINT8* out, const UINT8* in_, int xsize)
{
int x;
for (x = 0; x < xsize; x++, out++, in_ += 4) {
INT32 v;
memcpy(&v, in_, sizeof(v));
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if (v <= 0) {
*out = 0;
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} else if (v >= 255) {
*out = 255;
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} else {
*out = (UINT8) v;
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}
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}
}
static void
i2f(UINT8* out_, const UINT8* in_, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in_ += 4, out_ += 4) {
INT32 i;
FLOAT32 f;
memcpy(&i, in_, sizeof(i));
f = i;
memcpy(out_, &f, sizeof(f));
}
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}
static void
i2rgb(UINT8* out, const UINT8* in_, int xsize)
{
int x;
INT32* in = (INT32*) in_;
for (x = 0; x < xsize; x++, in++, out+=4) {
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if (*in <= 0) {
out[0] = out[1] = out[2] = 0;
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} else if (*in >= 255) {
out[0] = out[1] = out[2] = 255;
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} else {
out[0] = out[1] = out[2] = (UINT8) *in;
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}
out[3] = 255;
}
}
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static void
i2hsv(UINT8* out, const UINT8* in_, int xsize)
{
int x;
INT32* in = (INT32*) in_;
for (x = 0; x < xsize; x++, in++, out+=4) {
out[0] = 0;
out[1] = 0;
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if (*in <= 0) {
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out[2] = 0;
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} else if (*in >= 255) {
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out[2] = 255;
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} else {
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out[2] = (UINT8) *in;
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}
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out[3] = 255;
}
}
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/* ------------- */
/* F conversions */
/* ------------- */
static void
bit2f(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, out_ += 4) {
FLOAT32 f = (*in++ != 0) ? 255.0F : 0.0F;
memcpy(out_, &f, sizeof(f));
}
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}
static void
l2f(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, out_ += 4) {
FLOAT32 f = (FLOAT32) *in++;
memcpy(out_, &f, sizeof(f));
}
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}
static void
f2l(UINT8* out, const UINT8* in_, int xsize)
{
int x;
for (x = 0; x < xsize; x++, out++, in_ += 4) {
FLOAT32 v;
memcpy(&v, in_, sizeof(v));
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if (v <= 0.0) {
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*out = 0;
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} else if (v >= 255.0) {
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*out = 255;
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} else {
*out = (UINT8) v;
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}
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}
}
static void
f2i(UINT8* out_, const UINT8* in_, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in_ += 4, out_ += 4) {
FLOAT32 f;
INT32 i;
memcpy(&f, in_, sizeof(f));
i = f;
memcpy(out_, &i, sizeof(i));
}
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}
/* ----------------- */
/* YCbCr conversions */
/* ----------------- */
/* See ConvertYCbCr.c for RGB/YCbCr tables */
static void
l2ycbcr(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++) {
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*out++ = *in++;
*out++ = 128;
*out++ = 128;
*out++ = 255;
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}
}
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static void
la2ycbcr(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4) {
*out++ = in[0];
*out++ = 128;
*out++ = 128;
*out++ = 255;
}
}
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static void
ycbcr2l(UINT8* out, const UINT8* in, int xsize)
{
int x;
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for (x = 0; x < xsize; x++, in += 4) {
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*out++ = in[0];
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}
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}
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static void
ycbcr2la(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 4, out += 4) {
out[0] = out[1] = out[2] = in[0];
out[3] = 255;
}
}
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/* ------------------------- */
/* I;16 (16-bit) conversions */
/* ------------------------- */
static void
I_I16L(UINT8* out, const UINT8* in_, int xsize)
{
int x, v;
for (x = 0; x < xsize; x++, in_ += 4) {
INT32 i;
memcpy(&i, in_, sizeof(i));
v = CLIP16(i);
*out++ = (UINT8) v;
*out++ = (UINT8) (v >> 8);
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}
}
static void
I_I16B(UINT8* out, const UINT8* in_, int xsize)
{
int x, v;
for (x = 0; x < xsize; x++, in_ += 4) {
INT32 i;
memcpy(&i, in_, sizeof(i));
v = CLIP16(i);
*out++ = (UINT8) (v >> 8);
*out++ = (UINT8) v;
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}
}
static void
I16L_I(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 2, out_ += 4) {
INT32 v = in[0] + ((int) in[1] << 8);
memcpy(out_, &v, sizeof(v));
}
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}
static void
I16B_I(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 2, out_ += 4) {
INT32 v = in[1] + ((int) in[0] << 8);
memcpy(out_, &v, sizeof(v));
}
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}
static void
I16L_F(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 2, out_ += 4) {
FLOAT32 v = in[0] + ((int) in[1] << 8);
memcpy(out_, &v, sizeof(v));
}
}
static void
I16B_F(UINT8* out_, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in += 2, out_ += 4) {
FLOAT32 v = in[1] + ((int) in[0] << 8);
memcpy(out_, &v, sizeof(v));
}
}
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static void
L_I16L(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in++) {
*out++ = *in;
*out++ = 0;
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}
}
static void
L_I16B(UINT8* out, const UINT8* in, int xsize)
{
int x;
for (x = 0; x < xsize; x++, in++) {
*out++ = 0;
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*out++ = *in;
}
}
static void
I16L_L(UINT8* out, const UINT8* in, int xsize)
{
int x;
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for (x = 0; x < xsize; x++, in += 2) {
if (in[1] != 0) {
*out++ = 255;
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} else {
*out++ = in[0];
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}
}
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}
static void
I16B_L(UINT8* out, const UINT8* in, int xsize)
{
int x;
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for (x = 0; x < xsize; x++, in += 2) {
if (in[0] != 0) {
*out++ = 255;
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} else {
*out++ = in[1];
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}
}
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}
static struct {
const char* from;
const char* to;
ImagingShuffler convert;
} converters[] = {
{ "1", "L", bit2l },
{ "1", "I", bit2i },
{ "1", "F", bit2f },
{ "1", "RGB", bit2rgb },
{ "1", "RGBA", bit2rgb },
{ "1", "RGBX", bit2rgb },
{ "1", "CMYK", bit2cmyk },
{ "1", "YCbCr", bit2ycbcr },
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{ "1", "HSV", bit2hsv },
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{ "L", "1", l2bit },
{ "L", "LA", l2la },
{ "L", "I", l2i },
{ "L", "F", l2f },
{ "L", "RGB", l2rgb },
{ "L", "RGBA", l2rgb },
{ "L", "RGBX", l2rgb },
{ "L", "CMYK", l2cmyk },
{ "L", "YCbCr", l2ycbcr },
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{ "L", "HSV", l2hsv },
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{ "LA", "L", la2l },
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{ "LA", "La", lA2la },
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{ "LA", "RGB", la2rgb },
{ "LA", "RGBA", la2rgb },
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{ "LA", "RGBX", la2rgb },
{ "LA", "CMYK", la2cmyk },
{ "LA", "YCbCr", la2ycbcr },
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{ "LA", "HSV", la2hsv },
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{ "La", "LA", la2lA },
{ "I", "L", i2l },
{ "I", "F", i2f },
{ "I", "RGB", i2rgb },
{ "I", "RGBA", i2rgb },
{ "I", "RGBX", i2rgb },
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{ "I", "HSV", i2hsv },
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{ "F", "L", f2l },
{ "F", "I", f2i },
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{ "RGB", "1", rgb2bit },
{ "RGB", "L", rgb2l },
{ "RGB", "LA", rgb2la },
{ "RGB", "I", rgb2i },
{ "RGB", "F", rgb2f },
{ "RGB", "BGR;15", rgb2bgr15 },
{ "RGB", "BGR;16", rgb2bgr16 },
{ "RGB", "BGR;24", rgb2bgr24 },
{ "RGB", "RGBA", rgb2rgba },
{ "RGB", "RGBX", rgb2rgba },
{ "RGB", "CMYK", rgb2cmyk },
{ "RGB", "YCbCr", ImagingConvertRGB2YCbCr },
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{ "RGB", "HSV", rgb2hsv },
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{ "RGBA", "1", rgb2bit },
{ "RGBA", "L", rgb2l },
{ "RGBA", "LA", rgba2la },
{ "RGBA", "I", rgb2i },
{ "RGBA", "F", rgb2f },
{ "RGBA", "RGB", rgba2rgb },
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{ "RGBA", "RGBa", rgbA2rgba },
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{ "RGBA", "RGBX", rgb2rgba },
{ "RGBA", "CMYK", rgb2cmyk },
{ "RGBA", "YCbCr", ImagingConvertRGB2YCbCr },
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{ "RGBA", "HSV", rgb2hsv },
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2013-10-05 00:24:47 +04:00
{ "RGBa", "RGBA", rgba2rgbA },
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{ "RGBX", "1", rgb2bit },
{ "RGBX", "L", rgb2l },
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{ "RGBX", "LA", rgb2la },
{ "RGBX", "I", rgb2i },
{ "RGBX", "F", rgb2f },
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{ "RGBX", "RGB", rgba2rgb },
{ "RGBX", "CMYK", rgb2cmyk },
{ "RGBX", "YCbCr", ImagingConvertRGB2YCbCr },
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{ "RGBX", "HSV", rgb2hsv },
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{ "CMYK", "RGB", cmyk2rgb },
{ "CMYK", "RGBA", cmyk2rgb },
{ "CMYK", "RGBX", cmyk2rgb },
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{ "CMYK", "HSV", cmyk2hsv },
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{ "YCbCr", "L", ycbcr2l },
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{ "YCbCr", "LA", ycbcr2la },
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{ "YCbCr", "RGB", ImagingConvertYCbCr2RGB },
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{ "HSV", "RGB", hsv2rgb },
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{ "I", "I;16", I_I16L },
{ "I;16", "I", I16L_I },
{ "L", "I;16", L_I16L },
{ "I;16", "L", I16L_L },
{ "I", "I;16L", I_I16L },
{ "I;16L", "I", I16L_I },
{ "I", "I;16B", I_I16B },
{ "I;16B", "I", I16B_I },
{ "L", "I;16L", L_I16L },
{ "I;16L", "L", I16L_L },
{ "L", "I;16B", L_I16B },
{ "I;16B", "L", I16B_L },
{ "I;16", "F", I16L_F },
{ "I;16L", "F", I16L_F },
{ "I;16B", "F", I16B_F },
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{ NULL }
};
/* FIXME: translate indexed versions to pointer versions below this line */
/* ------------------- */
/* Palette conversions */
/* ------------------- */
static void
p2bit(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
/* FIXME: precalculate greyscale palette? */
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for (x = 0; x < xsize; x++) {
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*out++ = (L(&palette[in[x]*4]) >= 128000) ? 255 : 0;
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}
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}
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static void
pa2bit(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
/* FIXME: precalculate greyscale palette? */
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for (x = 0; x < xsize; x++, in += 4) {
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*out++ = (L(&palette[in[0]*4]) >= 128000) ? 255 : 0;
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}
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}
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static void
p2l(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
/* FIXME: precalculate greyscale palette? */
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for (x = 0; x < xsize; x++) {
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*out++ = L(&palette[in[x]*4]) / 1000;
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}
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}
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static void
pa2l(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
/* FIXME: precalculate greyscale palette? */
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for (x = 0; x < xsize; x++, in += 4) {
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*out++ = L(&palette[in[0]*4]) / 1000;
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}
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}
static void
p2pa(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
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for (x = 0; x < xsize; x++, in++) {
const UINT8* rgba = &palette[in[0]];
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*out++ = in[0];
*out++ = in[0];
*out++ = in[0];
*out++ = rgba[3];
}
}
static void
p2la(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
/* FIXME: precalculate greyscale palette? */
for (x = 0; x < xsize; x++, out+=4) {
const UINT8* rgba = &palette[*in++ * 4];
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out[0] = out[1] = out[2] = L(rgba) / 1000;
out[3] = rgba[3];
}
}
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static void
pa2la(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
/* FIXME: precalculate greyscale palette? */
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for (x = 0; x < xsize; x++, in += 4, out += 4) {
out[0] = out[1] = out[2] = L(&palette[in[0]*4]) / 1000;
out[3] = in[3];
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}
}
static void
p2i(UINT8* out_, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
for (x = 0; x < xsize; x++, out_ += 4) {
INT32 v = L(&palette[in[x]*4]) / 1000;
memcpy(out_, &v, sizeof(v));
}
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}
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static void
pa2i(UINT8* out_, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
INT32* out = (INT32*) out_;
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for (x = 0; x < xsize; x++, in += 4) {
*out++ = L(&palette[in[0]*4]) / 1000;
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}
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}
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static void
p2f(UINT8* out_, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
for (x = 0; x < xsize; x++, out_ += 4) {
FLOAT32 v = L(&palette[in[x]*4]) / 1000.0F;
memcpy(out_, &v, sizeof(v));
}
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}
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static void
pa2f(UINT8* out_, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
FLOAT32* out = (FLOAT32*) out_;
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for (x = 0; x < xsize; x++, in += 4) {
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*out++ = (float) L(&palette[in[0]*4]) / 1000.0F;
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}
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}
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static void
p2rgb(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
for (x = 0; x < xsize; x++) {
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const UINT8* rgb = &palette[*in++ * 4];
*out++ = rgb[0];
*out++ = rgb[1];
*out++ = rgb[2];
*out++ = 255;
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}
}
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static void
pa2rgb(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
for (x = 0; x < xsize; x++, in += 4) {
const UINT8* rgb = &palette[in[0] * 4];
*out++ = rgb[0];
*out++ = rgb[1];
*out++ = rgb[2];
*out++ = 255;
}
}
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static void
p2hsv(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
for (x = 0; x < xsize; x++, out += 4) {
const UINT8* rgb = &palette[*in++ * 4];
rgb2hsv_row(out, rgb);
out[3] = 255;
}
}
static void
pa2hsv(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
for (x = 0; x < xsize; x++, in += 4, out += 4) {
const UINT8* rgb = &palette[in[0] * 4];
rgb2hsv_row(out, rgb);
out[3] = 255;
}
}
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static void
p2rgba(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
for (x = 0; x < xsize; x++) {
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const UINT8* rgba = &palette[*in++ * 4];
*out++ = rgba[0];
*out++ = rgba[1];
*out++ = rgba[2];
*out++ = rgba[3];
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}
}
static void
pa2rgba(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
int x;
for (x = 0; x < xsize; x++, in += 4) {
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const UINT8* rgb = &palette[in[0] * 4];
*out++ = rgb[0];
*out++ = rgb[1];
*out++ = rgb[2];
*out++ = in[3];
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}
}
static void
p2cmyk(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
p2rgb(out, in, xsize, palette);
rgb2cmyk(out, out, xsize);
}
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static void
pa2cmyk(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
pa2rgb(out, in, xsize, palette);
rgb2cmyk(out, out, xsize);
}
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static void
p2ycbcr(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
p2rgb(out, in, xsize, palette);
ImagingConvertRGB2YCbCr(out, out, xsize);
}
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static void
pa2ycbcr(UINT8* out, const UINT8* in, int xsize, const UINT8* palette)
{
pa2rgb(out, in, xsize, palette);
ImagingConvertRGB2YCbCr(out, out, xsize);
}
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static Imaging
frompalette(Imaging imOut, Imaging imIn, const char *mode)
{
ImagingSectionCookie cookie;
int alpha;
int y;
void (*convert)(UINT8*, const UINT8*, int, const UINT8*);
/* Map palette image to L, RGB, RGBA, or CMYK */
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if (!imIn->palette) {
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return (Imaging) ImagingError_ValueError("no palette");
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}
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alpha = !strcmp(imIn->mode, "PA");
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if (strcmp(mode, "1") == 0) {
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convert = alpha ? pa2bit : p2bit;
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} else if (strcmp(mode, "L") == 0) {
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convert = alpha ? pa2l : p2l;
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} else if (strcmp(mode, "LA") == 0) {
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convert = alpha ? pa2la : p2la;
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} else if (strcmp(mode, "PA") == 0) {
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convert = p2pa;
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} else if (strcmp(mode, "I") == 0) {
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convert = alpha ? pa2i : p2i;
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} else if (strcmp(mode, "F") == 0) {
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convert = alpha ? pa2f : p2f;
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} else if (strcmp(mode, "RGB") == 0) {
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convert = alpha ? pa2rgb : p2rgb;
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} else if (strcmp(mode, "RGBA") == 0) {
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convert = alpha ? pa2rgba : p2rgba;
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} else if (strcmp(mode, "RGBX") == 0) {
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convert = alpha ? pa2rgba : p2rgba;
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} else if (strcmp(mode, "CMYK") == 0) {
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convert = alpha ? pa2cmyk : p2cmyk;
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} else if (strcmp(mode, "YCbCr") == 0) {
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convert = alpha ? pa2ycbcr : p2ycbcr;
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} else if (strcmp(mode, "HSV") == 0) {
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convert = alpha ? pa2hsv : p2hsv;
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} else {
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return (Imaging) ImagingError_ValueError("conversion not supported");
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}
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imOut = ImagingNew2Dirty(mode, imOut, imIn);
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if (!imOut) {
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return NULL;
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}
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ImagingSectionEnter(&cookie);
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for (y = 0; y < imIn->ysize; y++) {
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(*convert)((UINT8*) imOut->image[y], (UINT8*) imIn->image[y],
imIn->xsize, imIn->palette->palette);
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}
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ImagingSectionLeave(&cookie);
return imOut;
}
#if defined(_MSC_VER)
#pragma optimize("", off)
#endif
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static Imaging
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topalette(Imaging imOut, Imaging imIn, const char *mode, ImagingPalette inpalette, int dither)
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{
ImagingSectionCookie cookie;
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int alpha;
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int x, y;
ImagingPalette palette = inpalette;;
/* Map L or RGB/RGBX/RGBA to palette image */
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if (strcmp(imIn->mode, "L") != 0 && strncmp(imIn->mode, "RGB", 3) != 0) {
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return (Imaging) ImagingError_ValueError("conversion not supported");
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}
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alpha = !strcmp(mode, "PA");
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if (palette == NULL) {
/* FIXME: make user configurable */
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if (imIn->bands == 1) {
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palette = ImagingPaletteNew("RGB"); /* Initialised to grey ramp */
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} else {
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palette = ImagingPaletteNewBrowser(); /* Standard colour cube */
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}
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}
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if (!palette) {
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return (Imaging) ImagingError_ValueError("no palette");
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}
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imOut = ImagingNew2Dirty(mode, imOut, imIn);
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if (!imOut) {
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if (palette != inpalette) {
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ImagingPaletteDelete(palette);
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}
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return NULL;
}
ImagingPaletteDelete(imOut->palette);
imOut->palette = ImagingPaletteDuplicate(palette);
if (imIn->bands == 1) {
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/* greyscale image */
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/* Greyscale palette: copy data as is */
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ImagingSectionEnter(&cookie);
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for (y = 0; y < imIn->ysize; y++) {
if (alpha) {
l2la((UINT8*) imOut->image[y], (UINT8*) imIn->image[y], imIn->xsize);
} else {
memcpy(imOut->image[y], imIn->image[y], imIn->linesize);
}
}
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ImagingSectionLeave(&cookie);
} else {
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/* colour image */
/* Create mapping cache */
if (ImagingPaletteCachePrepare(palette) < 0) {
ImagingDelete(imOut);
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if (palette != inpalette) {
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ImagingPaletteDelete(palette);
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}
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return NULL;
}
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if (dither) {
/* floyd-steinberg dither */
int* errors;
errors = calloc(imIn->xsize + 1, sizeof(int) * 3);
if (!errors) {
ImagingDelete(imOut);
return ImagingError_MemoryError();
}
/* Map each pixel to the nearest palette entry */
ImagingSectionEnter(&cookie);
for (y = 0; y < imIn->ysize; y++) {
int r, r0, r1, r2;
int g, g0, g1, g2;
int b, b0, b1, b2;
UINT8* in = (UINT8*) imIn->image[y];
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UINT8* out = alpha ? (UINT8*) imOut->image32[y] : imOut->image8[y];
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int* e = errors;
r = r0 = r1 = 0;
g = g0 = g1 = 0;
b = b0 = b1 = b2 = 0;
for (x = 0; x < imIn->xsize; x++, in += 4) {
int d2;
INT16* cache;
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r = CLIP8(in[0] + (r + e[3+0])/16);
g = CLIP8(in[1] + (g + e[3+1])/16);
b = CLIP8(in[2] + (b + e[3+2])/16);
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/* get closest colour */
cache = &ImagingPaletteCache(palette, r, g, b);
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if (cache[0] == 0x100) {
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ImagingPaletteCacheUpdate(palette, r, g, b);
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}
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if (alpha) {
out[x*4] = out[x*4+1] = out[x*4+2] = (UINT8) cache[0];
out[x*4+3] = 255;
} else {
out[x] = (UINT8) cache[0];
}
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r -= (int) palette->palette[cache[0]*4];
g -= (int) palette->palette[cache[0]*4+1];
b -= (int) palette->palette[cache[0]*4+2];
/* propagate errors (don't ask ;-) */
r2 = r; d2 = r + r; r += d2; e[0] = r + r0;
r += d2; r0 = r + r1; r1 = r2; r += d2;
g2 = g; d2 = g + g; g += d2; e[1] = g + g0;
g += d2; g0 = g + g1; g1 = g2; g += d2;
b2 = b; d2 = b + b; b += d2; e[2] = b + b0;
b += d2; b0 = b + b1; b1 = b2; b += d2;
e += 3;
}
e[0] = b0;
e[1] = b1;
e[2] = b2;
}
ImagingSectionLeave(&cookie);
free(errors);
} else {
/* closest colour */
ImagingSectionEnter(&cookie);
for (y = 0; y < imIn->ysize; y++) {
int r, g, b;
UINT8* in = (UINT8*) imIn->image[y];
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UINT8* out = alpha ? (UINT8*) imOut->image32[y] : imOut->image8[y];
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for (x = 0; x < imIn->xsize; x++, in += 4) {
INT16* cache;
r = in[0]; g = in[1]; b = in[2];
/* get closest colour */
cache = &ImagingPaletteCache(palette, r, g, b);
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if (cache[0] == 0x100) {
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ImagingPaletteCacheUpdate(palette, r, g, b);
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}
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if (alpha) {
out[x*4] = out[x*4+1] = out[x*4+2] = (UINT8) cache[0];
out[x*4+3] = 255;
} else {
out[x] = (UINT8) cache[0];
}
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}
}
ImagingSectionLeave(&cookie);
}
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if (inpalette != palette) {
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ImagingPaletteCacheDelete(palette);
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}
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}
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if (inpalette != palette) {
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ImagingPaletteDelete(palette);
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}
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return imOut;
}
static Imaging
tobilevel(Imaging imOut, Imaging imIn, int dither)
{
ImagingSectionCookie cookie;
int x, y;
int* errors;
/* Map L or RGB to dithered 1 image */
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if (strcmp(imIn->mode, "L") != 0 && strcmp(imIn->mode, "RGB") != 0) {
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return (Imaging) ImagingError_ValueError("conversion not supported");
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}
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imOut = ImagingNew2Dirty("1", imOut, imIn);
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if (!imOut) {
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return NULL;
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}
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errors = calloc(imIn->xsize + 1, sizeof(int));
if (!errors) {
ImagingDelete(imOut);
return ImagingError_MemoryError();
}
if (imIn->bands == 1) {
/* map each pixel to black or white, using error diffusion */
ImagingSectionEnter(&cookie);
for (y = 0; y < imIn->ysize; y++) {
int l, l0, l1, l2, d2;
UINT8* in = (UINT8*) imIn->image[y];
UINT8* out = imOut->image8[y];
l = l0 = l1 = 0;
for (x = 0; x < imIn->xsize; x++) {
/* pick closest colour */
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l = CLIP8(in[x] + (l + errors[x+1])/16);
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out[x] = (l > 128) ? 255 : 0;
/* propagate errors */
l -= (int) out[x];
l2 = l; d2 = l + l; l += d2; errors[x] = l + l0;
l += d2; l0 = l + l1; l1 = l2; l += d2;
}
errors[x] = l0;
}
ImagingSectionLeave(&cookie);
} else {
/* map each pixel to black or white, using error diffusion */
ImagingSectionEnter(&cookie);
for (y = 0; y < imIn->ysize; y++) {
int l, l0, l1, l2, d2;
UINT8* in = (UINT8*) imIn->image[y];
UINT8* out = imOut->image8[y];
l = l0 = l1 = 0;
for (x = 0; x < imIn->xsize; x++, in += 4) {
/* pick closest colour */
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l = CLIP8(L(in)/1000 + (l + errors[x+1])/16);
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out[x] = (l > 128) ? 255 : 0;
/* propagate errors */
l -= (int) out[x];
l2 = l; d2 = l + l; l += d2; errors[x] = l + l0;
l += d2; l0 = l + l1; l1 = l2; l += d2;
}
errors[x] = l0;
}
ImagingSectionLeave(&cookie);
}
free(errors);
return imOut;
}
#if defined(_MSC_VER)
#pragma optimize("", on)
#endif
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static Imaging
convert(Imaging imOut, Imaging imIn, const char *mode,
ImagingPalette palette, int dither)
{
ImagingSectionCookie cookie;
ImagingShuffler convert;
int y;
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if (!imIn) {
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return (Imaging) ImagingError_ModeError();
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}
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if (!mode) {
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/* Map palette image to full depth */
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if (!imIn->palette) {
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return (Imaging) ImagingError_ModeError();
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}
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mode = imIn->palette->mode;
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} else {
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/* Same mode? */
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if (!strcmp(imIn->mode, mode)) {
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return ImagingCopy2(imOut, imIn);
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}
}
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/* test for special conversions */
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if (strcmp(imIn->mode, "P") == 0 || strcmp(imIn->mode, "PA") == 0) {
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return frompalette(imOut, imIn, mode);
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}
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if (strcmp(mode, "P") == 0 || strcmp(mode, "PA") == 0) {
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return topalette(imOut, imIn, mode, palette, dither);
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}
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if (dither && strcmp(mode, "1") == 0) {
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return tobilevel(imOut, imIn, dither);
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}
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/* standard conversion machinery */
convert = NULL;
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for (y = 0; converters[y].from; y++) {
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if (!strcmp(imIn->mode, converters[y].from) &&
!strcmp(mode, converters[y].to)) {
convert = converters[y].convert;
break;
}
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}
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if (!convert) {
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#ifdef notdef
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return (Imaging) ImagingError_ValueError("conversion not supported");
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#else
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static char buf[256];
/* FIXME: may overflow if mode is too large */
sprintf(buf, "conversion from %s to %s not supported", imIn->mode, mode);
return (Imaging) ImagingError_ValueError(buf);
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#endif
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}
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imOut = ImagingNew2Dirty(mode, imOut, imIn);
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if (!imOut) {
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return NULL;
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}
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ImagingSectionEnter(&cookie);
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for (y = 0; y < imIn->ysize; y++) {
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(*convert)((UINT8*) imOut->image[y], (UINT8*) imIn->image[y],
imIn->xsize);
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}
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ImagingSectionLeave(&cookie);
return imOut;
}
Imaging
ImagingConvert(Imaging imIn, const char *mode,
ImagingPalette palette, int dither)
{
return convert(NULL, imIn, mode, palette, dither);
}
Imaging
ImagingConvert2(Imaging imOut, Imaging imIn)
{
return convert(imOut, imIn, imOut->mode, NULL, 0);
}
Imaging
ImagingConvertTransparent(Imaging imIn, const char *mode,
int r, int g, int b)
{
ImagingSectionCookie cookie;
ImagingShuffler convert;
Imaging imOut = NULL;
int y;
if (!imIn){
return (Imaging) ImagingError_ModeError();
}
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if (!((strcmp(imIn->mode, "RGB") == 0 ||
strcmp(imIn->mode, "1") == 0 ||
strcmp(imIn->mode, "I") == 0 ||
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strcmp(imIn->mode, "L") == 0)
&& strcmp(mode, "RGBA") == 0))
#ifdef notdef
{
return (Imaging) ImagingError_ValueError("conversion not supported");
}
#else
{
static char buf[256];
/* FIXME: may overflow if mode is too large */
sprintf(buf, "conversion from %s to %s not supported in convert_transparent", imIn->mode, mode);
return (Imaging) ImagingError_ValueError(buf);
}
#endif
if (strcmp(imIn->mode, "RGB") == 0) {
convert = rgb2rgba;
} else {
if (strcmp(imIn->mode, "1") == 0) {
convert = bit2rgb;
} else if (strcmp(imIn->mode, "I") == 0) {
convert = i2rgb;
} else {
convert = l2rgb;
}
g = b = r;
}
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imOut = ImagingNew2Dirty(mode, imOut, imIn);
if (!imOut){
return NULL;
}
ImagingSectionEnter(&cookie);
for (y = 0; y < imIn->ysize; y++) {
(*convert)((UINT8*) imOut->image[y], (UINT8*) imIn->image[y],
imIn->xsize);
rgbT2rgba((UINT8*) imOut->image[y], imIn->xsize, r, g, b);
}
ImagingSectionLeave(&cookie);
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return imOut;
}
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Imaging
ImagingConvertInPlace(Imaging imIn, const char* mode)
{
ImagingSectionCookie cookie;
ImagingShuffler convert;
int y;
/* limited support for inplace conversion */
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if (strcmp(imIn->mode, "L") == 0 && strcmp(mode, "1") == 0) {
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convert = l2bit;
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} else if (strcmp(imIn->mode, "1") == 0 && strcmp(mode, "L") == 0) {
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convert = bit2l;
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} else {
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return ImagingError_ModeError();
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}
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ImagingSectionEnter(&cookie);
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for (y = 0; y < imIn->ysize; y++) {
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(*convert)((UINT8*) imIn->image[y], (UINT8*) imIn->image[y],
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imIn->xsize);
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}
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ImagingSectionLeave(&cookie);
return imIn;
}