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/*
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* Copyright (C) 2002 RealVNC Ltd. All Rights Reserved.
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* Copyright (C) 2003 Sun Microsystems, Inc.
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*
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* This is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This software is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this software; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307,
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* USA.
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*/
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/*
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* Before including this file, you must define a number of CPP macros.
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*
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* BPP should be 8, 16 or 32 depending on the bits per pixel.
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* GET_IMAGE_INTO_BUF should be some code which gets a rectangle of pixel data
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* into the given buffer. EXTRA_ARGS can be defined to pass any other
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* arguments needed by GET_IMAGE_INTO_BUF.
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*
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* Note that the buf argument to ZRLE_ENCODE needs to be at least one pixel
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* bigger than the largest tile of pixel data, since the ZRLE encoding
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* algorithm writes to the position one past the end of the pixel data.
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*/
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#include "zrleoutstream.h"
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#include "zrlepalettehelper.h"
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#include <assert.h>
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/* __RFB_CONCAT2 concatenates its two arguments. __RFB_CONCAT2E does the same
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but also expands its arguments if they are macros */
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#ifndef __RFB_CONCAT2E
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#define __RFB_CONCAT2(a,b) a##b
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#define __RFB_CONCAT2E(a,b) __RFB_CONCAT2(a,b)
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#endif
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#ifndef __RFB_CONCAT3E
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#define __RFB_CONCAT3(a,b,c) a##b##c
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#define __RFB_CONCAT3E(a,b,c) __RFB_CONCAT3(a,b,c)
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#endif
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#undef END_FIX
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#if ZYWRLE_ENDIAN == ENDIAN_LITTLE
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# define END_FIX LE
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#elif ZYWRLE_ENDIAN == ENDIAN_BIG
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# define END_FIX BE
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#else
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# define END_FIX NE
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#endif
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#ifdef CPIXEL
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#define PIXEL_T __RFB_CONCAT2E(zrle_U,BPP)
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#define zrleOutStreamWRITE_PIXEL __RFB_CONCAT2E(zrleOutStreamWriteOpaque,CPIXEL)
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#define ZRLE_ENCODE __RFB_CONCAT3E(zrleEncode,CPIXEL,END_FIX)
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#define ZRLE_ENCODE_TILE __RFB_CONCAT3E(zrleEncodeTile,CPIXEL,END_FIX)
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#define BPPOUT 24
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#elif BPP==15
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#define PIXEL_T __RFB_CONCAT2E(zrle_U,16)
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#define zrleOutStreamWRITE_PIXEL __RFB_CONCAT2E(zrleOutStreamWriteOpaque,16)
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#define ZRLE_ENCODE __RFB_CONCAT3E(zrleEncode,BPP,END_FIX)
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#define ZRLE_ENCODE_TILE __RFB_CONCAT3E(zrleEncodeTile,BPP,END_FIX)
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#define BPPOUT 16
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#else
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#define PIXEL_T __RFB_CONCAT2E(zrle_U,BPP)
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#define zrleOutStreamWRITE_PIXEL __RFB_CONCAT2E(zrleOutStreamWriteOpaque,BPP)
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#define ZRLE_ENCODE __RFB_CONCAT3E(zrleEncode,BPP,END_FIX)
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#define ZRLE_ENCODE_TILE __RFB_CONCAT3E(zrleEncodeTile,BPP,END_FIX)
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#define BPPOUT BPP
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#endif
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#ifndef ZRLE_ONCE
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#define ZRLE_ONCE
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static const int bitsPerPackedPixel[] = {
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0, 1, 2, 2, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4
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};
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static zrlePaletteHelper paletteHelper;
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#endif /* ZRLE_ONCE */
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void ZRLE_ENCODE_TILE (PIXEL_T* data, int w, int h, zrleOutStream* os,
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int zywrle_level, int *zywrleBuf, void *paletteHelper);
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#if BPP!=8
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#define ZYWRLE_ENCODE
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#include "zywrletemplate.c"
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#endif
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static void ZRLE_ENCODE (int x, int y, int w, int h,
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zrleOutStream* os, void* buf
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EXTRA_ARGS
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)
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{
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int ty;
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for (ty = y; ty < y+h; ty += rfbZRLETileHeight) {
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int tx, th = rfbZRLETileHeight;
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if (th > y+h-ty) th = y+h-ty;
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for (tx = x; tx < x+w; tx += rfbZRLETileWidth) {
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int tw = rfbZRLETileWidth;
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if (tw > x+w-tx) tw = x+w-tx;
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GET_IMAGE_INTO_BUF(tx,ty,tw,th,buf);
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if (cl->paletteHelper == NULL) {
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cl->paletteHelper = (void *) calloc(sizeof(zrlePaletteHelper), 1);
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}
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ZRLE_ENCODE_TILE((PIXEL_T*)buf, tw, th, os,
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cl->zywrleLevel, cl->zywrleBuf, cl->paletteHelper);
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}
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}
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zrleOutStreamFlush(os);
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}
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void ZRLE_ENCODE_TILE(PIXEL_T* data, int w, int h, zrleOutStream* os,
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int zywrle_level, int *zywrleBuf, void *paletteHelper)
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{
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/* First find the palette and the number of runs */
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zrlePaletteHelper *ph;
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int runs = 0;
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int singlePixels = 0;
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rfbBool useRle;
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rfbBool usePalette;
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int estimatedBytes;
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int plainRleBytes;
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int i;
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PIXEL_T* ptr = data;
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PIXEL_T* end = ptr + h * w;
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*end = ~*(end-1); /* one past the end is different so the while loop ends */
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#if 0
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ph = &paletteHelper;
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#else
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ph = (zrlePaletteHelper *) paletteHelper;
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#endif
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zrlePaletteHelperInit(ph);
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while (ptr < end) {
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PIXEL_T pix = *ptr;
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if (*++ptr != pix) {
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singlePixels++;
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} else {
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while (*++ptr == pix) ;
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runs++;
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}
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zrlePaletteHelperInsert(ph, pix);
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}
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/* Solid tile is a special case */
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if (ph->size == 1) {
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zrleOutStreamWriteU8(os, 1);
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zrleOutStreamWRITE_PIXEL(os, ph->palette[0]);
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return;
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}
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/* Try to work out whether to use RLE and/or a palette. We do this by
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estimating the number of bytes which will be generated and picking the
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method which results in the fewest bytes. Of course this may not result
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in the fewest bytes after compression... */
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useRle = FALSE;
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usePalette = FALSE;
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estimatedBytes = w * h * (BPPOUT/8); /* start assuming raw */
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#if BPP!=8
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if (zywrle_level > 0 && !(zywrle_level & 0x80))
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estimatedBytes >>= zywrle_level;
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#endif
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plainRleBytes = ((BPPOUT/8)+1) * (runs + singlePixels);
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if (plainRleBytes < estimatedBytes) {
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useRle = TRUE;
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estimatedBytes = plainRleBytes;
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}
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if (ph->size < 128) {
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int paletteRleBytes = (BPPOUT/8) * ph->size + 2 * runs + singlePixels;
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if (paletteRleBytes < estimatedBytes) {
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useRle = TRUE;
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usePalette = TRUE;
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estimatedBytes = paletteRleBytes;
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}
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if (ph->size < 17) {
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int packedBytes = ((BPPOUT/8) * ph->size +
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w * h * bitsPerPackedPixel[ph->size-1] / 8);
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if (packedBytes < estimatedBytes) {
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useRle = FALSE;
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usePalette = TRUE;
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estimatedBytes = packedBytes;
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}
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}
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}
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if (!usePalette) ph->size = 0;
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zrleOutStreamWriteU8(os, (useRle ? 128 : 0) | ph->size);
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for (i = 0; i < ph->size; i++) {
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zrleOutStreamWRITE_PIXEL(os, ph->palette[i]);
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}
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if (useRle) {
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PIXEL_T* ptr = data;
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PIXEL_T* end = ptr + w * h;
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PIXEL_T* runStart;
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PIXEL_T pix;
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while (ptr < end) {
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int len;
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runStart = ptr;
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pix = *ptr++;
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while (*ptr == pix && ptr < end)
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ptr++;
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len = ptr - runStart;
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if (len <= 2 && usePalette) {
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int index = zrlePaletteHelperLookup(ph, pix);
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if (len == 2)
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zrleOutStreamWriteU8(os, index);
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zrleOutStreamWriteU8(os, index);
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continue;
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}
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if (usePalette) {
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int index = zrlePaletteHelperLookup(ph, pix);
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zrleOutStreamWriteU8(os, index | 128);
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} else {
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zrleOutStreamWRITE_PIXEL(os, pix);
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}
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len -= 1;
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while (len >= 255) {
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zrleOutStreamWriteU8(os, 255);
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len -= 255;
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}
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zrleOutStreamWriteU8(os, len);
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}
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} else {
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/* no RLE */
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if (usePalette) {
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int bppp;
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PIXEL_T* ptr = data;
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/* packed pixels */
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assert (ph->size < 17);
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bppp = bitsPerPackedPixel[ph->size-1];
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for (i = 0; i < h; i++) {
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zrle_U8 nbits = 0;
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zrle_U8 byte = 0;
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PIXEL_T* eol = ptr + w;
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while (ptr < eol) {
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PIXEL_T pix = *ptr++;
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zrle_U8 index = zrlePaletteHelperLookup(ph, pix);
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byte = (byte << bppp) | index;
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nbits += bppp;
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if (nbits >= 8) {
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zrleOutStreamWriteU8(os, byte);
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nbits = 0;
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}
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}
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if (nbits > 0) {
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byte <<= 8 - nbits;
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zrleOutStreamWriteU8(os, byte);
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}
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}
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} else {
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/* raw */
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#if BPP!=8
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if (zywrle_level > 0 && !(zywrle_level & 0x80)) {
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ZYWRLE_ANALYZE(data, data, w, h, w, zywrle_level, zywrleBuf);
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ZRLE_ENCODE_TILE(data, w, h, os, zywrle_level | 0x80, zywrleBuf, paletteHelper);
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}
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else
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#endif
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{
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#ifdef CPIXEL
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PIXEL_T *ptr;
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for (ptr = data; ptr < data+w*h; ptr++)
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zrleOutStreamWRITE_PIXEL(os, *ptr);
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#else
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zrleOutStreamWriteBytes(os, (zrle_U8 *)data, w*h*(BPP/8));
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#endif
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}
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}
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}
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}
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#undef PIXEL_T
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#undef zrleOutStreamWRITE_PIXEL
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#undef ZRLE_ENCODE
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#undef ZRLE_ENCODE_TILE
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#undef ZYWRLE_ENCODE_TILE
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#undef BPPOUT
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