tibia-client/src/framework/thirdparty/apngloader.cpp

873 lines
30 KiB
C++

/*
* Based on APNG Disassembler 2.3
*
* Copyright (c) 2009 Max Stepin
* maxst at users.sourceforge.net
*
* GNU LGPL information
* --------------------
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
#include <stdio.h>
#include <stdlib.h>
#include <memory.h>
#include <zlib.h>
#include "apngloader.h"
#include <iostream>
#include <sstream>
#include <fstream>
#if defined(_MSC_VER) && _MSC_VER >= 1300
#define swap16(data) _byteswap_ushort(data)
#define swap32(data) _byteswap_ulong(data)
#elif __linux__
#include <byteswap.h>
#define swap16(data) bswap_16(data)
#define swap32(data) bswap_32(data)
#else
#define swap16(data) (((data >> 8) & 255) | ((data & 255) << 8))
#define swap32(data) ((swap16(data) << 16) | swap16(data >> 16))
#endif
#define PNG_ZBUF_SIZE 32768
#define PNG_DISPOSE_OP_NONE 0x00
#define PNG_DISPOSE_OP_BACKGROUND 0x01
#define PNG_DISPOSE_OP_PREVIOUS 0x02
#define PNG_BLEND_OP_SOURCE 0x00
#define PNG_BLEND_OP_OVER 0x01
#define notabc(c) ((c) < 65 || (c) > 122 || ((c) > 90 && (c) < 97))
#define ROWBYTES(pixel_bits, width) \
((pixel_bits) >= 8 ? \
((width) * (((unsigned int)(pixel_bits)) >> 3)) : \
(( ((width) * ((unsigned int)(pixel_bits))) + 7) >> 3) )
unsigned char png_sign[8] = {137, 80, 78, 71, 13, 10, 26, 10};
int mask4[2]={240,15};
int shift4[2]={4,0};
int mask2[4]={192,48,12,3};
int shift2[4]={6,4,2,0};
int mask1[8]={128,64,32,16,8,4,2,1};
int shift1[8]={7,6,5,4,3,2,1,0};
unsigned int keep_original = 1;
unsigned char pal[256][3];
unsigned char trns[256];
unsigned int palsize, trnssize;
unsigned int hasTRNS;
unsigned short trns1, trns2, trns3;
unsigned int read32(std::istream& f1)
{
unsigned char a, b, c, d;
f1.read((char*)&a, 1);
f1.read((char*)&b, 1);
f1.read((char*)&c, 1);
f1.read((char*)&d, 1);
return ((unsigned int)a<<24)+((unsigned int)b<<16)+((unsigned int)c<<8)+(unsigned int)d;
}
unsigned short read16(std::istream& f1)
{
unsigned char a, b;
f1.read((char*)&a, 1);
f1.read((char*)&b, 1);
return ((unsigned short)a<<8)+(unsigned short)b;
}
unsigned short readshort(unsigned char * p)
{
return ((unsigned short)(*p)<<8)+(unsigned short)(*(p+1));
}
void read_sub_row(unsigned char * row, unsigned int rowbytes, unsigned int bpp)
{
unsigned int i;
for (i=bpp; i<rowbytes; i++)
row[i] += row[i-bpp];
}
void read_up_row(unsigned char * row, unsigned char * prev_row, unsigned int rowbytes, unsigned int bpp)
{
unsigned int i;
if (prev_row)
for (i=0; i<rowbytes; i++)
row[i] += prev_row[i];
}
void read_average_row(unsigned char * row, unsigned char * prev_row, unsigned int rowbytes, unsigned int bpp)
{
unsigned int i;
if (prev_row)
{
for (i=0; i<bpp; i++)
row[i] += prev_row[i]>>1;
for (i=bpp; i<rowbytes; i++)
row[i] += (prev_row[i] + row[i-bpp])>>1;
}
else
{
for (i=bpp; i<rowbytes; i++)
row[i] += row[i-bpp]>>1;
}
}
void read_paeth_row(unsigned char * row, unsigned char * prev_row, unsigned int rowbytes, unsigned int bpp)
{
unsigned int i;
int a, b, c, pa, pb, pc, p;
if (prev_row)
{
for (i=0; i<bpp; i++)
row[i] += prev_row[i];
for (i=bpp; i<rowbytes; i++)
{
a = row[i-bpp];
b = prev_row[i];
c = prev_row[i-bpp];
p = b - c;
pc = a - c;
pa = abs(p);
pb = abs(pc);
pc = abs(p + pc);
row[i] += ((pa <= pb && pa <= pc) ? a : (pb <= pc) ? b : c);
}
}
else
{
for (i=bpp; i<rowbytes; i++)
row[i] += row[i-bpp];
}
}
void unpack(z_stream zstream, unsigned char * dst, unsigned int dst_size, unsigned char * src, unsigned int src_size, unsigned int h, unsigned int rowbytes, unsigned char bpp)
{
unsigned int j;
unsigned char * row = dst;
unsigned char * prev_row = NULL;
zstream.next_out = dst;
zstream.avail_out = dst_size;
zstream.next_in = src;
zstream.avail_in = src_size;
inflate(&zstream, Z_FINISH);
inflateReset(&zstream);
for (j=0; j<h; j++)
{
switch (*row++)
{
case 0: break;
case 1: read_sub_row(row, rowbytes, bpp); break;
case 2: read_up_row(row, prev_row, rowbytes, bpp); break;
case 3: read_average_row(row, prev_row, rowbytes, bpp); break;
case 4: read_paeth_row(row, prev_row, rowbytes, bpp); break;
}
prev_row = row;
row += rowbytes;
}
}
void compose0(unsigned char * dst1, unsigned int dstbytes1, unsigned char * dst2, unsigned int dstbytes2, unsigned char * src, unsigned int srcbytes, unsigned int w, unsigned int h, unsigned int bop, unsigned char depth)
{
unsigned int i, j, g, a;
unsigned char * sp;
unsigned char * dp1;
unsigned int * dp2;
for (j=0; j<h; j++)
{
sp = src+1;
dp1 = dst1;
dp2 = (unsigned int*)dst2;
if (bop == PNG_BLEND_OP_SOURCE)
{
switch (depth)
{
case 16: for (i=0; i<w; i++) { a = 0xFF; if (hasTRNS && readshort(sp)==trns1) a = 0; *dp1++ = *sp; *dp2++ = (a << 24) + (*sp << 16) + (*sp << 8) + *sp; sp+=2; } break;
case 8: for (i=0; i<w; i++) { a = 0xFF; if (hasTRNS && *sp==trns1) a = 0; *dp1++ = *sp; *dp2++ = (a << 24) + (*sp << 16) + (*sp << 8) + *sp; sp++; } break;
case 4: for (i=0; i<w; i++) { g = (sp[i>>1] & mask4[i&1]) >> shift4[i&1]; a = 0xFF; if (hasTRNS && g==trns1) a = 0; *dp1++ = g*0x11; *dp2++ = (a<<24) + g*0x111111; } break;
case 2: for (i=0; i<w; i++) { g = (sp[i>>2] & mask2[i&3]) >> shift2[i&3]; a = 0xFF; if (hasTRNS && g==trns1) a = 0; *dp1++ = g*0x55; *dp2++ = (a<<24) + g*0x555555; } break;
case 1: for (i=0; i<w; i++) { g = (sp[i>>3] & mask1[i&7]) >> shift1[i&7]; a = 0xFF; if (hasTRNS && g==trns1) a = 0; *dp1++ = g*0xFF; *dp2++ = (a<<24) + g*0xFFFFFF; } break;
}
}
else /* PNG_BLEND_OP_OVER */
{
switch (depth)
{
case 16: for (i=0; i<w; i++, dp1++, dp2++) { if (readshort(sp) != trns1) { *dp1 = *sp; *dp2 = 0xFF000000 + (*sp << 16) + (*sp << 8) + *sp; } sp+=2; } break;
case 8: for (i=0; i<w; i++, dp1++, dp2++) { if (*sp != trns1) { *dp1 = *sp; *dp2 = 0xFF000000 + (*sp << 16) + (*sp << 8) + *sp; } sp++; } break;
case 4: for (i=0; i<w; i++, dp1++, dp2++) { g = (sp[i>>1] & mask4[i&1]) >> shift4[i&1]; if (g != trns1) { *dp1 = g*0x11; *dp2 = 0xFF000000+g*0x111111; } } break;
case 2: for (i=0; i<w; i++, dp1++, dp2++) { g = (sp[i>>2] & mask2[i&3]) >> shift2[i&3]; if (g != trns1) { *dp1 = g*0x55; *dp2 = 0xFF000000+g*0x555555; } } break;
case 1: for (i=0; i<w; i++, dp1++, dp2++) { g = (sp[i>>3] & mask1[i&7]) >> shift1[i&7]; if (g != trns1) { *dp1 = g*0xFF; *dp2 = 0xFF000000+g*0xFFFFFF; } } break;
}
}
src += srcbytes;
dst1 += dstbytes1;
dst2 += dstbytes2;
}
}
void compose2(unsigned char * dst1, unsigned int dstbytes1, unsigned char * dst2, unsigned int dstbytes2, unsigned char * src, unsigned int srcbytes, unsigned int w, unsigned int h, unsigned int bop, unsigned char depth)
{
unsigned int i, j;
unsigned int r, g, b, a;
unsigned char * sp;
unsigned char * dp1;
unsigned int * dp2;
for (j=0; j<h; j++)
{
sp = src+1;
dp1 = dst1;
dp2 = (unsigned int*)dst2;
if (bop == PNG_BLEND_OP_SOURCE)
{
if (depth == 8)
{
for (i=0; i<w; i++)
{
b = *sp++;
g = *sp++;
r = *sp++;
a = 0xFF;
if (hasTRNS && b==trns1 && g==trns2 && r==trns3)
a = 0;
*dp1++ = b; *dp1++ = g; *dp1++ = r;
*dp2++ = (a << 24) + (r << 16) + (g << 8) + b;
}
}
else
{
for (i=0; i<w; i++, sp+=6)
{
b = *sp;
g = *(sp+2);
r = *(sp+4);
a = 0xFF;
if (hasTRNS && readshort(sp)==trns1 && readshort(sp+2)==trns2 && readshort(sp+4)==trns3)
a = 0;
*dp1++ = b; *dp1++ = g; *dp1++ = r;
*dp2++ = (a << 24) + (r << 16) + (g << 8) + b;
}
}
}
else /* PNG_BLEND_OP_OVER */
{
if (depth == 8)
{
for (i=0; i<w; i++, sp+=3, dp1+=3, dp2++)
if ((*sp != trns1) || (*(sp+1) != trns2) || (*(sp+2) != trns3))
{
*dp1 = *sp; *(dp1+1) = *(sp+1); *(dp1+2) = *(sp+2);
*dp2 = 0xFF000000 + (*(sp+2) << 16) + (*(sp+1) << 8) + *sp;
}
}
else
{
for (i=0; i<w; i++, sp+=6, dp1+=3, dp2++)
if ((readshort(sp) != trns1) || (readshort(sp+2) != trns2) || (readshort(sp+4) != trns3))
{
*dp1 = *sp; *(dp1+1) = *(sp+2); *(dp1+2) = *(sp+4);
*dp2 = 0xFF000000 + (*(sp+4) << 16) + (*(sp+2) << 8) + *sp;
}
}
}
src += srcbytes;
dst1 += dstbytes1;
dst2 += dstbytes2;
}
}
void compose3(unsigned char * dst1, unsigned int dstbytes1, unsigned char * dst2, unsigned int dstbytes2, unsigned char * src, unsigned int srcbytes, unsigned int w, unsigned int h, unsigned int bop, unsigned char depth)
{
unsigned int i, j;
unsigned int r, g, b, a;
unsigned int r2, g2, b2, a2;
int u, v, al;
unsigned char col = 0;
unsigned char * sp;
unsigned char * dp1;
unsigned int * dp2;
for (j=0; j<h; j++)
{
sp = src+1;
dp1 = dst1;
dp2 = (unsigned int*)dst2;
for (i=0; i<w; i++)
{
switch (depth)
{
case 8: col = sp[i]; break;
case 4: col = (sp[i>>1] & mask4[i&1]) >> shift4[i&1]; break;
case 2: col = (sp[i>>2] & mask2[i&3]) >> shift2[i&3]; break;
case 1: col = (sp[i>>3] & mask1[i&7]) >> shift1[i&7]; break;
}
b = pal[col][0];
g = pal[col][1];
r = pal[col][2];
a = trns[col];
if (bop == PNG_BLEND_OP_SOURCE)
{
*dp1++ = col;
*dp2++ = (a << 24) + (r << 16) + (g << 8) + b;
}
else /* PNG_BLEND_OP_OVER */
{
if (a == 255)
{
*dp1++ = col;
*dp2++ = (a << 24) + (r << 16) + (g << 8) + b;
}
else
if (a != 0)
{
if ((a2 = (*dp2)>>24))
{
keep_original = 0;
u = a*255;
v = (255-a)*a2;
al = 255*255-(255-a)*(255-a2);
b2 = ((*dp2)&255);
g2 = (((*dp2)>>8)&255);
r2 = (((*dp2)>>16)&255);
b = (b*u + b2*v)/al;
g = (g*u + g2*v)/al;
r = (r*u + r2*v)/al;
a = al/255;
}
*dp1++ = col;
*dp2++ = (a << 24) + (r << 16) + (g << 8) + b;
}
else
{
dp1++;
dp2++;
}
}
}
src += srcbytes;
dst1 += dstbytes1;
dst2 += dstbytes2;
}
}
void compose4(unsigned char * dst, unsigned int dstbytes, unsigned char * src, unsigned int srcbytes, unsigned int w, unsigned int h, unsigned int bop, unsigned char depth)
{
unsigned int i, j, step;
unsigned int g, a, g2, a2;
int u, v, al;
unsigned char * sp;
unsigned char * dp;
step = (depth+7)/8;
for (j=0; j<h; j++)
{
sp = src+1;
dp = dst;
if (bop == PNG_BLEND_OP_SOURCE)
{
for (i=0; i<w; i++)
{
g = *sp; sp += step;
a = *sp; sp += step;
*dp++ = g;
*dp++ = a;
}
}
else /* PNG_BLEND_OP_OVER */
{
for (i=0; i<w; i++)
{
g = *sp; sp += step;
a = *sp; sp += step;
if (a == 255)
{
*dp++ = g;
*dp++ = a;
}
else
if (a != 0)
{
if ((a2 = *(dp+1)))
{
u = a*255;
v = (255-a)*a2;
al = 255*255-(255-a)*(255-a2);
g2 = ((*dp)&255);
g = (g*u + g2*v)/al;
a = al/255;
}
*dp++ = g;
*dp++ = a;
}
else
dp+=2;
}
}
src += srcbytes;
dst += dstbytes;
}
}
void compose6(unsigned char * dst, unsigned int dstbytes, unsigned char * src, unsigned int srcbytes, unsigned int w, unsigned int h, unsigned int bop, unsigned char depth)
{
unsigned int i, j, step;
unsigned int r, g, b, a;
unsigned int r2, g2, b2, a2;
int u, v, al;
unsigned char * sp;
unsigned int * dp;
step = (depth+7)/8;
for (j=0; j<h; j++)
{
sp = src+1;
dp = (unsigned int*)dst;
if (bop == PNG_BLEND_OP_SOURCE)
{
for (i=0; i<w; i++)
{
b = *sp; sp += step;
g = *sp; sp += step;
r = *sp; sp += step;
a = *sp; sp += step;
*dp++ = (a << 24) + (r << 16) + (g << 8) + b;
}
}
else /* PNG_BLEND_OP_OVER */
{
for (i=0; i<w; i++)
{
b = *sp; sp += step;
g = *sp; sp += step;
r = *sp; sp += step;
a = *sp; sp += step;
if (a == 255)
*dp++ = (a << 24) + (r << 16) + (g << 8) + b;
else
if (a != 0)
{
if ((a2 = (*dp)>>24))
{
u = a*255;
v = (255-a)*a2;
al = 255*255-(255-a)*(255-a2);
b2 = ((*dp)&255);
g2 = (((*dp)>>8)&255);
r2 = (((*dp)>>16)&255);
b = (b*u + b2*v)/al;
g = (g*u + g2*v)/al;
r = (r*u + r2*v)/al;
a = al/255;
}
*dp++ = (a << 24) + (r << 16) + (g << 8) + b;
}
else
dp++;
}
}
src += srcbytes;
dst += dstbytes;
}
}
int load_apng(std::stringstream& file, struct apng_data *apng)
{
unsigned int i, j;
unsigned int rowbytes;
int imagesize, zbuf_size, zsize, trns_idx;
unsigned int len, chunk, crc;
unsigned int w, h, seq, w0, h0, x0, y0;
unsigned int frames, loops, first_frame, cur_frame;
unsigned int outrow1, outrow2, outimg1, outimg2;
unsigned short d1, d2;
unsigned char c, dop, bop;
unsigned char channels, depth, pixeldepth, bpp;
unsigned char coltype, compr, filter, interl;
z_stream zstream;
memset(apng, 0, sizeof(struct apng_data));
for (i=0; i<256; i++)
{
pal[i][0] = i;
pal[i][1] = i;
pal[i][2] = i;
trns[i] = 255;
}
zstream.zalloc = Z_NULL;
zstream.zfree = Z_NULL;
zstream.opaque = Z_NULL;
inflateInit(&zstream);
frames = 1;
first_frame = 0;
cur_frame = 0;
zsize = 0;
hasTRNS = 0;
trns_idx = -1;
x0 = 0;
y0 = 0;
loops = 0;
bop = PNG_BLEND_OP_SOURCE;
unsigned char sig[8];
unsigned char * pOut1;
unsigned char * pOut2;
unsigned char * pTemp;
unsigned char * pData;
unsigned char * pImg1;
unsigned char * pImg2;
unsigned char * pDst1;
unsigned char * pDst2;
unsigned int * frames_delay;
file.read((char*)sig, 8);
if(!file.eof() && memcmp(sig, png_sign, 8) == 0) {
len = read32(file);
chunk = read32(file);
if ((len == 13) && (chunk == 0x49484452)) /* IHDR */
{
w = w0 = read32(file);
h = h0 = read32(file);
file.read((char*)&depth, 1);
file.read((char*)&coltype, 1);
file.read((char*)&compr, 1);
file.read((char*)&filter, 1);
file.read((char*)&interl, 1);
crc = read32(file);
channels = 1;
if (coltype == 2)
channels = 3;
else if (coltype == 4)
channels = 2;
else if (coltype == 6)
channels = 4;
pixeldepth = depth*channels;
bpp = (pixeldepth + 7) >> 3;
rowbytes = ROWBYTES(pixeldepth, w);
imagesize = (rowbytes + 1) * h;
zbuf_size = imagesize + ((imagesize + 7) >> 3) + ((imagesize + 63) >> 6) + 11;
/*
* We'll render into 2 output buffers, first in original coltype,
* second in RGBA.
*
* It's better to try to keep the original coltype, but if dispose/blend
* operations will make it impossible, then we'll save RGBA version instead.
*/
outrow1 = w*channels; /* output coltype = input coltype */
outrow2 = w*4; /* output coltype = RGBA */
outimg1 = h*outrow1;
outimg2 = h*outrow2;
pOut1=(unsigned char *)malloc(outimg1);
pOut2=(unsigned char *)malloc(outimg2);
pTemp=(unsigned char *)malloc(imagesize);
pData=(unsigned char *)malloc(zbuf_size);
pImg1=pOut1;
pImg2=pOut2;
frames_delay = NULL;
/* apng decoding - begin */
memset(pOut1, 0, outimg1);
memset(pOut2, 0, outimg2);
while (!file.eof())
{
len = read32(file);
chunk = read32(file);
if (chunk == 0x504C5445) /* PLTE */
{
unsigned int col;
for (i=0; i<len; i++)
{
file.read((char*)&c, 1);
col = i/3;
if (col<256)
{
pal[col][i%3] = c;
palsize = col+1;
}
}
crc = read32(file);
}
else if (chunk == 0x74524E53) /* tRNS */
{
hasTRNS = 1;
for (i=0; i<len; i++)
{
file.read((char*)&c, 1);
if (i<256)
{
trns[i] = c;
trnssize = i+1;
if (c == 0 && coltype == 3 && trns_idx == -1)
trns_idx = i;
}
}
if (coltype == 0)
{
trns1 = readshort(&trns[0]);
if (depth == 16)
{
trns[1] = trns[0]; trns[0] = 0;
}
}
else
if (coltype == 2)
{
trns1 = readshort(&trns[0]);
trns2 = readshort(&trns[2]);
trns3 = readshort(&trns[4]);
if (depth == 16)
{
trns[1] = trns[0]; trns[0] = 0;
trns[3] = trns[2]; trns[2] = 0;
trns[5] = trns[4]; trns[4] = 0;
}
}
crc = read32(file);
}
else if (chunk == 0x6163544C) /* acTL */
{
frames = read32(file);
if(frames_delay)
free(frames_delay);
frames_delay = (unsigned int*)malloc(frames*sizeof(int));
loops = read32(file);
crc = read32(file);
if (pOut1)
free(pOut1);
if (pOut2)
free(pOut2);
pOut1 = (unsigned char *)malloc((frames+1)*outimg1);
pOut2 = (unsigned char *)malloc((frames+1)*outimg2);
pImg1 = pOut1;
pImg2 = pOut2;
memset(pOut1, 0, outimg1);
memset(pOut2, 0, outimg2);
}
else if (chunk == 0x6663544C) /* fcTL */
{
if (zsize == 0)
first_frame = 1;
else
{
if (dop == PNG_DISPOSE_OP_PREVIOUS)
{
if (coltype != 6)
memcpy(pImg1 + outimg1, pImg1, outimg1);
if (coltype != 4)
memcpy(pImg2 + outimg2, pImg2, outimg2);
}
pDst1 = pImg1 + y0*outrow1 + x0*channels;
pDst2 = pImg2 + y0*outrow2 + x0*4;
unpack(zstream, pTemp, imagesize, pData, zsize, h0, rowbytes, bpp);
switch (coltype)
{
case 0: compose0(pDst1, outrow1, pDst2, outrow2, pTemp, rowbytes+1, w0, h0, bop, depth); break;
case 2: compose2(pDst1, outrow1, pDst2, outrow2, pTemp, rowbytes+1, w0, h0, bop, depth); break;
case 3: compose3(pDst1, outrow1, pDst2, outrow2, pTemp, rowbytes+1, w0, h0, bop, depth); break;
case 4: compose4(pDst1, outrow1, pTemp, rowbytes+1, w0, h0, bop, depth); break;
case 6: compose6( pDst2, outrow2, pTemp, rowbytes+1, w0, h0, bop, depth); break;
}
zsize = 0;
if (dop != PNG_DISPOSE_OP_PREVIOUS)
{
if (coltype != 6)
memcpy(pImg1 + outimg1, pImg1, outimg1);
if (coltype != 4)
memcpy(pImg2 + outimg2, pImg2, outimg2);
if (dop == PNG_DISPOSE_OP_BACKGROUND)
{
pDst1 += outimg1;
pDst2 += outimg2;
for (j=0; j<h0; j++)
{
switch (coltype)
{
case 0: memset(pDst2, 0, w0*4); if (hasTRNS) memset(pDst1, trns[1], w0); else keep_original = 0; break;
case 2: memset(pDst2, 0, w0*4); if (hasTRNS) for (i=0; i<w0; i++) { pDst1[i*3] = trns[1]; pDst1[i*3+1] = trns[3]; pDst1[i*3+2] = trns[5]; } else keep_original = 0; break;
case 3: memset(pDst2, 0, w0*4); if (trns_idx >= 0) memset(pDst1, trns_idx, w0); else keep_original = 0; break;
case 4: memset(pDst1, 0, w0*2); break;
case 6: memset(pDst2, 0, w0*4); break;
}
pDst1 += outrow1;
pDst2 += outrow2;
}
}
}
}
seq = read32(file);
w0 = read32(file);
h0 = read32(file);
x0 = read32(file);
y0 = read32(file);
d1 = read16(file);
d2 = read16(file);
file.read((char*)&dop, 1);
file.read((char*)&bop, 1);
crc = read32(file);
if(d2 == 0)
d2 = 100;
frames_delay[cur_frame] = (d1 * 1000)/d2;
if (cur_frame == 0)
{
bop = PNG_BLEND_OP_SOURCE;
if (dop == PNG_DISPOSE_OP_PREVIOUS)
dop = PNG_DISPOSE_OP_BACKGROUND;
}
if (!(coltype & 4) && !(hasTRNS))
bop = PNG_BLEND_OP_SOURCE;
rowbytes = ROWBYTES(pixeldepth, w0);
cur_frame++;
pImg1 += outimg1;
pImg2 += outimg2;
}
else if (chunk == 0x49444154) /* IDAT */
{
file.read((char*)(pData + zsize), len);
zsize += len;
crc = read32(file);
}
else if (chunk == 0x66644154) /* fdAT */
{
seq = read32(file);
len -= 4;
file.read((char*)(pData + zsize), len);
zsize += len;
crc = read32(file);
}
else if (chunk == 0x49454E44) /* IEND */
{
pDst1 = pImg1 + y0*outrow1 + x0*channels;
pDst2 = pImg2 + y0*outrow2 + x0*4;
unpack(zstream, pTemp, imagesize, pData, zsize, h0, rowbytes, bpp);
switch (coltype)
{
case 0: compose0(pDst1, outrow1, pDst2, outrow2, pTemp, rowbytes+1, w0, h0, bop, depth); break;
case 2: compose2(pDst1, outrow1, pDst2, outrow2, pTemp, rowbytes+1, w0, h0, bop, depth); break;
case 3: compose3(pDst1, outrow1, pDst2, outrow2, pTemp, rowbytes+1, w0, h0, bop, depth); break;
case 4: compose4(pDst1, outrow1, pTemp, rowbytes+1, w0, h0, bop, depth); break;
case 6: compose6( pDst2, outrow2, pTemp, rowbytes+1, w0, h0, bop, depth); break;
}
break;
}
else
{
c = (unsigned char)(chunk>>24);
if (notabc(c)) break;
c = (unsigned char)((chunk>>16) & 0xFF);
if (notabc(c)) break;
c = (unsigned char)((chunk>>8) & 0xFF);
if (notabc(c)) break;
c = (unsigned char)(chunk & 0xFF);
if (notabc(c)) break;
file.seekg(len, std::ios_base::cur);
crc = read32(file);
}
}
/* apng decoding - end */
if (coltype == 0)
{
switch (depth)
{
case 4: trns[1] *= 0x11; break;
case 2: trns[1] *= 0x55; break;
case 1: trns[1] *= 0xFF; break;
}
}
inflateEnd(&zstream);
apng->bpp = channels;
apng->coltype = coltype;
apng->last_frame = cur_frame;
apng->first_frame = first_frame;
apng->height = h;
apng->width = w;
apng->num_frames = frames;
apng->num_plays = loops;
apng->frames_delay = frames_delay;
apng->pdata = pOut2;
apng->bpp = 4;
apng->coltype = 6;
if(pData)
free(pData);
if(pTemp)
free(pTemp);
if(pOut1)
free(pOut1);
} else
return -1;
} else
return -1;
return 0;
}
void free_apng(struct apng_data *apng)
{
if(apng->pdata)
free(apng->pdata);
if(apng->frames_delay)
free(apng->frames_delay);
}