raze/polymer/build/src/kplib.c

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/**************************************************************************************************
KPLIB.C: Ken's Picture LIBrary written by Ken Silverman
Copyright (c) 1998-2005 Ken Silverman
Ken Silverman's official web site: http://advsys.net/ken
Features of KPLIB.C:
* Routines for decoding JPG, PNG, GIF, PCX, TGA, BMP, CEL.
See kpgetdim(), kprender(), and optional helper function: kpzload().
* Routines for ZIP decompression. All ZIP functions start with the letters "kz".
* Multi-platform support: Dos/Windows/Linux/Mac/etc..
* Compact code, all in a single source file. Yeah, bad design on my part... but makes life
easier for everyone else - you simply add a single C file to your project, throw a few
externs in there, add the function calls, and you're done!
Brief history:
1998?: Wrote KPEG, a JPEG viewer for DOS
2000: Wrote KPNG, a PNG viewer for DOS
2001: Combined KPEG & KPNG, ported to Visual C, and made it into a library called KPLIB.C
2002: Added support for TGA, GIF, CEL, ZIP
2003: Added support for BMP
05/18/2004: Added support for 8&24 bit PCX
12/09/2005: Added support for progressive JPEG
I offer this code to the community for free use - all I ask is that my name be included in the
credits.
-Ken S.
**************************************************************************************************/
#include <string.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <stdio.h>
#include <stdlib.h>
#if defined(__POWERPC__)
#define BIGENDIAN 1
#endif
#ifdef BIGENDIAN
static unsigned long LSWAPIB (unsigned long a) { return(((a>>8)&0xff00)+((a&0xff00)<<8)+(a<<24)+(a>>24)); }
static unsigned short SSWAPIB (unsigned short a) { return((a>>8)+(a<<8)); }
#define LSWAPIL(a) (a)
#define SSWAPIL(a) (a)
#else
#define LSWAPIB(a) (a)
#define SSWAPIB(a) (a)
static unsigned long LSWAPIL (unsigned long a) { return(((a>>8)&0xff00)+((a&0xff00)<<8)+(a<<24)+(a>>24)); }
static unsigned short SSWAPIL (unsigned short a) { return((a>>8)+(a<<8)); }
#endif
#if !defined(_WIN32) && !defined(__DOS__)
#include <unistd.h>
#include <dirent.h>
typedef long long __int64;
static __inline long _lrotl (long i, int sh)
{ return((i>>(-sh))|(i<<sh)); }
static __inline long filelength (int h)
{
struct stat st;
if (fstat(h,&st) < 0) return(-1);
return(st.st_size);
}
#define _fileno fileno
#else
#include <io.h>
#endif
#if defined(__DOS__)
#include <dos.h>
#elif defined(_WIN32)
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#endif
#ifndef O_BINARY
#define O_BINARY 0
#endif
#if !defined(max)
#define max(a,b) (((a) > (b)) ? (a) : (b))
#endif
#if !defined(min)
#define min(a,b) (((a) < (b)) ? (a) : (b))
#endif
#if defined(__GNUC__)
#define _inline inline
#endif
//use GCC-specific extension to force symbol name to be something in particular to override underscoring.
#if defined(__GNUC__) && defined(__i386__) && !defined(NOASM)
#define ASMNAME(x) asm(x)
#else
#define ASMNAME(x)
#endif
static long frameplace, bytesperline, xres, yres, globxoffs, globyoffs;
static const long pow2mask[32] =
{
0x00000000,0x00000001,0x00000003,0x00000007,
0x0000000f,0x0000001f,0x0000003f,0x0000007f,
0x000000ff,0x000001ff,0x000003ff,0x000007ff,
0x00000fff,0x00001fff,0x00003fff,0x00007fff,
0x0000ffff,0x0001ffff,0x0003ffff,0x0007ffff,
0x000fffff,0x001fffff,0x003fffff,0x007fffff,
0x00ffffff,0x01ffffff,0x03ffffff,0x07ffffff,
0x0fffffff,0x1fffffff,0x3fffffff,0x7fffffff,
};
static const long pow2long[32] =
{
0x00000001,0x00000002,0x00000004,0x00000008,
0x00000010,0x00000020,0x00000040,0x00000080,
0x00000100,0x00000200,0x00000400,0x00000800,
0x00001000,0x00002000,0x00004000,0x00008000,
0x00010000,0x00020000,0x00040000,0x00080000,
0x00100000,0x00200000,0x00400000,0x00800000,
0x01000000,0x02000000,0x04000000,0x08000000,
0x10000000,0x20000000,0x40000000,0x80000000,
};
//Hack for peekbits,getbits,suckbits (to prevent lots of duplicate code)
// 0: PNG: do 12-byte chunk_header removal hack
// !=0: ZIP: use 64K buffer (olinbuf)
static long zipfilmode;
typedef struct
{
FILE *fil; //0:no file open, !=0:open file (either stand-alone or zip)
long comptyp; //0:raw data (can be ZIP or stand-alone), 8:PKZIP LZ77 *flate
long seek0; //0:stand-alone file, !=0: start of zip compressed stream data
long compleng;//Global variable for compression FIFO
long comptell;//Global variable for compression FIFO
long leng; //Uncompressed file size (bytes)
long pos; //Current uncompressed relative file position (0<=pos<=leng)
long endpos; //Temp global variable for kzread
long jmpplc; //Store place where decompression paused
long i; //For stand-alone/ZIP comptyp#0, this is like "uncomptell"
//For ZIP comptyp#8&btype==0 "<64K store", this saves i state
long bfinal; //LZ77 decompression state (for later calls)
} kzfilestate;
static kzfilestate kzfs;
//Initialized tables (can't be in union)
//jpg: png:
// crmul 16384 abstab10 4096
// cbmul 16384 hxbit 472
// dct 4608 pow2mask 128*
// colclip 4096
// colclipup8 4096
// colclipup16 4096
// unzig 256
// pow2mask 128*
// dcflagor 64
long palcol[256] ASMNAME("palcol"), paleng;
unsigned char coltype, bitdepth;
//============================ KPNGILIB begins ===============================
#define PROCESSALPHAHERE 0 //Set to 1 for KPNG, 0 in all other cases
//07/31/2000: KPNG.C first ported to C from READPNG.BAS
//10/11/2000: KPNG.C split into 2 files: KPNG.C and PNGINLIB.C
//11/24/2000: Finished adding support for coltypes 4&6
//03/31/2001: Added support for Adam7-type interlaced images
//Currently, there is no support for:
// * 16-bit color depth
// * Some useless ancillary chunks, like: gAMA(gamma) & pHYs(aspect ratio)
//.PNG specific variables:
static long bakcol = 0xff808080, bakr = 0x80, bakg = 0x80, bakb = 0x80; //this used to be public...
static long gslidew = 0, gslider = 0, xm, xmn[4], xr0, xr1, xplc, yplc, nfplace;
static long clen[320], cclen[19], bitpos, filt, xsiz, ysiz;
static long xsizbpl, ixsiz, ixoff, iyoff, ixstp, iystp, intlac, nbpl, trnsrgb ASMNAME("trnsrgb");
static long ccind[19] = {16,17,18,0,8,7,9,6,10,5,11,4,12,3,13,2,14,1,15};
static long hxbit[59][2], ibuf0[288], nbuf0[32], ibuf1[32], nbuf1[32];
static const unsigned char *filptr;
static unsigned char slidebuf[32768], opixbuf0[4], opixbuf1[4];
static unsigned char pnginited = 0, olinbuf[65536] ASMNAME("olinbuf"); //WARNING:max xres is: 65536/bpp-1
static long gotcmov = -2, abstab10[1024] ASMNAME("abstab10");
//Variables to speed up dynamic Huffman decoding:
#define LOGQHUFSIZ0 9
#define LOGQHUFSIZ1 6
static long qhufval0[1<<LOGQHUFSIZ0], qhufval1[1<<LOGQHUFSIZ1];
static unsigned char qhufbit0[1<<LOGQHUFSIZ0], qhufbit1[1<<LOGQHUFSIZ1];
#if defined(NOASM)
static inline unsigned long bswap (unsigned long a)
{
return(((a&0xff0000)>>8) + ((a&0xff00)<<8) + (a<<24) + (a>>24));
}
static inline long bitrev (long b, long c)
{
long i, j;
for(i=1,j=0,c=(1<<c);i<c;i+=i) { j += j; if (b&i) j++; }
return(j);
}
static inline long testflag (long c) { return(0); }
static inline void cpuid(long a, long *s) {}
#elif defined(__WATCOMC__)
long bswap (long);
#pragma aux bswap =\
".586"\
"bswap eax"\
parm [eax]\
modify nomemory exact [eax]\
value [eax]
long bitrev (long, long);
#pragma aux bitrev =\
"xor eax, eax"\
"beg: shr ebx, 1"\
"adc eax, eax"\
"dec ecx"\
"jnz short beg"\
parm [ebx][ecx]\
modify nomemory exact [eax ebx ecx]\
value [eax]
long testflag (long);
#pragma aux testflag =\
"pushfd"\
"pop eax"\
"mov ebx, eax"\
"xor eax, ecx"\
"push eax"\
"popfd"\
"pushfd"\
"pop eax"\
"xor eax, ebx"\
"mov eax, 1"\
"jne menostinx"\
"xor eax, eax"\
"menostinx:"\
parm nomemory [ecx]\
modify exact [eax ebx]\
value [eax]
void cpuid (long, long *);
#pragma aux cpuid =\
".586"\
"cpuid"\
"mov dword ptr [esi], eax"\
"mov dword ptr [esi+4], ebx"\
"mov dword ptr [esi+8], ecx"\
"mov dword ptr [esi+12], edx"\
parm [eax][esi]\
modify exact [eax ebx ecx edx]\
value
#elif defined(_MSC_VER)
static _inline unsigned long bswap (unsigned long a)
{
_asm
{
mov eax, a
bswap eax
}
}
static _inline long bitrev (long b, long c)
{
_asm
{
mov edx, b
mov ecx, c
xor eax, eax
beg: shr edx, 1
adc eax, eax
sub ecx, 1
jnz short beg
}
}
static _inline long testflag (long c)
{
_asm
{
mov ecx, c
pushfd
pop eax
mov edx, eax
xor eax, ecx
push eax
popfd
pushfd
pop eax
xor eax, edx
mov eax, 1
jne menostinx
xor eax, eax
menostinx:
}
}
static _inline void cpuid (long a, long *s)
{
_asm
{
push ebx
push esi
mov eax, a
cpuid
mov esi, s
mov dword ptr [esi+0], eax
mov dword ptr [esi+4], ebx
mov dword ptr [esi+8], ecx
mov dword ptr [esi+12], edx
pop esi
pop ebx
}
}
#elif defined(__GNUC__) && defined(__i386__)
static inline unsigned long bswap (unsigned long a)
{
__asm__ __volatile__ ("bswap %0" : "+r" (a) : : "cc" );
return a;
}
static inline long bitrev (long b, long c)
{
long a;
__asm__ __volatile__ (
"xorl %%eax, %%eax\n\t0:\n\tshrl $1, %%ebx\n\tadcl %%eax, %%eax\n\tsubl $1, %%ecx\n\tjnz 0b"
: "+a" (a), "+b" (b), "+c" (c) : : "cc");
return a;
}
static inline long testflag (long c)
{
long a;
__asm__ __volatile__ (
"pushf\n\tpopl %%eax\n\tmovl %%eax, %%ebx\n\txorl %%ecx, %%eax\n\tpushl %%eax\n\t"
"popf\n\tpushf\n\tpopl %%eax\n\txorl %%ebx, %%eax\n\tmovl $1, %%eax\n\tjne 0f\n\t"
"xorl %%eax, %%eax\n\t0:"
: "=a" (a) : "c" (c) : "ebx","cc" );
return a;
}
static inline void cpuid (long a, long *s)
{
__asm__ __volatile__ (
"cpuid\n\tmovl %%eax, (%%esi)\n\tmovl %%ebx, 4(%%esi)\n\t"
"movl %%ecx, 8(%%esi)\n\tmovl %%edx, 12(%%esi)"
: "+a" (a) : "S" (s) : "ebx","ecx","edx","memory","cc");
}
#else
#error Unsupported compiler or architecture.
#endif
//Bit numbers of return value:
//0:FPU, 4:RDTSC, 15:CMOV, 22:MMX+, 23:MMX, 25:SSE, 26:SSE2, 30:3DNow!+, 31:3DNow!
static long getcputype ()
{
long i, cpb[4], cpid[4];
if (!testflag(0x200000)) return(0);
cpuid(0,cpid); if (!cpid[0]) return(0);
cpuid(1,cpb); i = (cpb[3]&~((1<<22)|(1<<30)|(1<<31)));
cpuid(0x80000000,cpb);
if (((unsigned long)cpb[0]) > 0x8000000)
{
cpuid(0x80000001,cpb);
i |= (cpb[3]&(1<<31));
if (!((cpid[1]^0x68747541)|(cpid[3]^0x69746e65)|(cpid[2]^0x444d4163))) //AuthenticAMD
i |= (cpb[3]&((1<<22)|(1<<30)));
}
if (i&(1<<25)) i |= (1<<22); //SSE implies MMX+ support
return(i);
}
static unsigned char fakebuf[8], *nfilptr;
static long nbitpos;
static void suckbitsnextblock ()
{
long n;
if (!zipfilmode)
{
if (!nfilptr)
{ //|===|===|crc|lng|typ|===|===|
// \ fakebuf: /
// |===|===|
//----x O---x O--------
nbitpos = LSWAPIL(*(long *)&filptr[8]);
nfilptr = (unsigned char *)&filptr[nbitpos+12];
*(long *)&fakebuf[0] = *(long *)&filptr[0]; //Copy last dword of IDAT chunk
if (*(long *)&filptr[12] == LSWAPIB(0x54414449)) //Copy 1st dword of next IDAT chunk
*(long *)&fakebuf[4] = *(long *)&filptr[16];
filptr = &fakebuf[4]; bitpos -= 32;
}
else
{
filptr = nfilptr; nfilptr = 0;
bitpos -= ((nbitpos-4)<<3);
}
//if (n_from_suckbits < 4) will it crash?
}
else
{
//NOTE: should only read bytes inside compsize, not 64K!!! :/
*(long *)&olinbuf[0] = *(long *)&olinbuf[sizeof(olinbuf)-4];
n = min((unsigned)(kzfs.compleng-kzfs.comptell),sizeof(olinbuf)-4);
fread(&olinbuf[4],n,1,kzfs.fil);
kzfs.comptell += n;
bitpos -= ((sizeof(olinbuf)-4)<<3);
}
}
static _inline long peekbits (long n) { return((LSWAPIB(*(long *)&filptr[bitpos>>3])>>(bitpos&7))&pow2mask[n]); }
static _inline void suckbits (long n) { bitpos += n; if (bitpos >= 0) suckbitsnextblock(); }
static _inline long getbits (long n) { long i = peekbits(n); suckbits(n); return(i); }
static long hufgetsym (long *hitab, long *hbmax)
{
long v, n;
v = n = 0;
do { v = (v<<1)+getbits(1)+hbmax[n]-hbmax[n+1]; n++; } while (v >= 0);
return(hitab[hbmax[n]+v]);
}
//This did not result in a speed-up on P4-3.6Ghz (02/22/2005)
//static long hufgetsym_skipb (long *hitab, long *hbmax, long n, long addit)
//{
// long v;
//
// v = bitrev(getbits(n),n)+addit;
// do { v = (v<<1)+getbits(1)+hbmax[n]-hbmax[n+1]; n++; } while (v >= 0);
// return(hitab[hbmax[n]+v]);
//}
static void qhufgencode (long *hitab, long *hbmax, long *qhval, unsigned char *qhbit, long numbits)
{
long i, j, k, n, r;
//r is the bit reverse of i. Ex: if: i = 1011100111, r = 1110011101
i = r = 0;
for(n=1;n<=numbits;n++)
for(k=hbmax[n-1];k<hbmax[n];k++)
for(j=i+pow2mask[numbits-n];i<=j;i++)
{
r = bitrev(i,numbits);
qhval[r] = hitab[k];
qhbit[r] = (char)n;
}
for(j=pow2mask[numbits];i<=j;i++)
{
r = bitrev(i,numbits);
//k = 0;
//for(n=0;n<numbits;n++)
// k = (k<<1) + ((r>>n)&1) + hbmax[n]-hbmax[n+1];
//
//n = numbits;
//k = hbmax[n]-r;
//
//j = peekbits(LOGQHUFSIZ); i = qhufval[j]; j = qhufbit[j];
//
//i = j = 0;
//do
//{
// i = (i<<1)+getbits(1)+nbuf0[j]-nbuf0[j+1]; j++;
//} while (i >= 0);
//i = ibuf0[nbuf0[j]+i];
//qhval[r] = k;
qhbit[r] = 0; //n-32;
}
// //hufgetsym_skipb related code:
//for(k=n=0;n<numbits;n++) k = (k<<1)+hbmax[n]-hbmax[n+1];
//return(k);
}
//inbuf[inum] : Bit length of each symbol
//inum : Number of indices
//hitab[inum] : Indices from size-ordered list to original symbol
//hbmax[0-31] : Highest index (+1) of n-bit symbol
static void hufgencode (long *inbuf, long inum, long *hitab, long *hbmax)
{
long i, tbuf[31];
for(i=30;i;i--) tbuf[i] = 0;
for(i=inum-1;i>=0;i--) tbuf[inbuf[i]]++;
tbuf[0] = hbmax[0] = 0; //Hack to remove symbols of length 0?
for(i=0;i<31;i++) hbmax[i+1] = hbmax[i]+tbuf[i];
for(i=0;i<inum;i++) if (inbuf[i]) hitab[hbmax[inbuf[i]]++] = i;
}
static long initpass () //Interlaced images have 7 "passes", non-interlaced have 1
{
long i, j, k;
do
{
i = (intlac<<2);
ixoff = ((0x04020100>>i)&15);
iyoff = ((0x00402010>>i)&15);
if (((ixoff >= xsiz) || (iyoff >= ysiz)) && (intlac >= 2)) { i = -1; intlac--; }
} while (i < 0);
j = ((0x33221100>>i)&15); ixstp = (1<<j);
k = ((0x33322110>>i)&15); iystp = (1<<k);
//xsiz=12 0123456789ab
//j=3,ixoff=0 0 1 ((12+(1<<3)-1 - 0)>>3) = 2
//j=3,ixoff=4 2 ((12+(1<<3)-1 - 4)>>3) = 1
//j=2,ixoff=2 3 4 5 ((12+(1<<2)-1 - 2)>>2) = 3
//j=1,ixoff=1 6 7 8 9 a b ((12+(1<<1)-1 - 1)>>1) = 6
ixsiz = ((xsiz+ixstp-1-ixoff)>>j); //It's confusing! See the above example.
nbpl = (bytesperline<<k);
//Initialize this to make filters fast:
xsizbpl = ((0x04021301>>(coltype<<2))&15)*ixsiz;
switch (bitdepth)
{
case 1: xsizbpl = ((xsizbpl+7)>>3); break;
case 2: xsizbpl = ((xsizbpl+3)>>2); break;
case 4: xsizbpl = ((xsizbpl+1)>>1); break;
}
memset(olinbuf,0,(xsizbpl+1)*sizeof(olinbuf[0]));
*(long *)&opixbuf0[0] = *(long *)&opixbuf1[0] = 0;
xplc = xsizbpl; yplc = globyoffs+iyoff; xm = 0; filt = -1;
i = globxoffs+ixoff; i = (((-(i>=0))|(ixstp-1))&i);
k = (((-(yplc>=0))|(iystp-1))&yplc);
nfplace = k*bytesperline + (i<<2) + frameplace;
//Precalculate x-clipping to screen borders (speeds up putbuf)
//Equation: (0 <= xr <= ixsiz) && (0 <= xr*ixstp+globxoffs+ixoff <= xres)
xr0 = max((-globxoffs-ixoff+(1<<j)-1)>>j,0);
xr1 = min((xres-globxoffs-ixoff+(1<<j)-1)>>j,ixsiz);
xr0 = ixsiz-xr0;
xr1 = ixsiz-xr1;
if (coltype == 4) { xr0 = xr0*2; xr1 = xr1*2; }
else if (coltype == 2) { xr0 = xr0*3-2; xr1 = xr1*3-2; }
else if (coltype == 6) { xr0 = xr0*4-2; xr1 = xr1*4-2; }
else
{
switch(bitdepth)
{
case 1: xr0 += ((-ixsiz)&7)+7;
xr1 += ((-ixsiz)&7)+7; break;
case 2: xr0 = ((xr0+((-ixsiz)&3)+3)<<1);
xr1 = ((xr1+((-ixsiz)&3)+3)<<1); break;
case 4: xr0 = ((xr0+((-ixsiz)&1)+1)<<2);
xr1 = ((xr1+((-ixsiz)&1)+1)<<2); break;
}
}
ixstp <<= 2;
return(0);
}
static long Paeth (long a, long b, long c)
{
long pa, pb, pc;
pa = b-c; pb = a-c; pc = labs(pa+pb); pa = labs(pa); pb = labs(pb);
if ((pa <= pb) && (pa <= pc)) return(a);
if (pb <= pc) return(b); else return(c);
}
#if defined(NOASM)
static inline long Paeth686 (long a, long b, long c)
{
return(Paeth(a,b,c));
}
static inline void rgbhlineasm (long x, long xr1, long p, long ixstp)
{
long i;
if (!trnsrgb)
{
for(;x>xr1;p+=ixstp,x-=3) *(long *)p = (*(long *)&olinbuf[x])|LSWAPIB(0xff000000);
return;
}
for(;x>xr1;p+=ixstp,x-=3)
{
i = (*(long *)&olinbuf[x])|LSWAPIB(0xff000000);
if (i == trnsrgb) i &= LSWAPIB(0xffffff);
*(long *)p = i;
}
}
static inline void pal8hlineasm (long x, long xr1, long p, long ixstp)
{
for(;x>xr1;p+=ixstp,x--) *(long *)p = palcol[olinbuf[x]];
}
#elif defined(__WATCOMC__)
//NOTE: cmov now has correctly ordered registers (thx to bug fix in 11.0c!)
long Paeth686 (long, long, long);
#pragma aux Paeth686 =\
".686"\
"mov edx, ecx"\
"sub edx, eax"\
"sub edx, ebx"\
"lea edx, abstab10[edx*4+2048]"\
"mov esi, [ebx*4+edx]"\
"mov edi, [ecx*4+edx]"\
"cmp edi, esi"\
"cmovge edi, esi"\
"cmovge ecx, ebx"\
"cmp edi, [eax*4+edx]"\
"cmovge ecx, eax"\
parm nomemory [eax][ebx][ecx]\
modify exact [ecx edx esi edi]\
value [ecx]
//Note: "cmove eax,?" may be faster than "jne ?:and eax,?" but who cares
void rgbhlineasm (long, long, long, long);
#pragma aux rgbhlineasm =\
"sub ecx, edx"\
"jle short endit"\
"add edx, offset olinbuf"\
"cmp dword ptr trnsrgb, 0"\
"jz short begit2"\
"begit: mov eax, dword ptr [ecx+edx]"\
"or eax, 0xff000000"\
"cmp eax, dword ptr trnsrgb"\
"jne short skipit"\
"and eax, 0xffffff"\
"skipit: sub ecx, 3"\
"mov [edi], eax"\
"lea edi, [edi+ebx]"\
"jnz short begit"\
"jmp short endit"\
"begit2: mov eax, dword ptr [ecx+edx]"\
"or eax, 0xff000000"\
"sub ecx, 3"\
"mov [edi], eax"\
"lea edi, [edi+ebx]"\
"jnz short begit2"\
"endit:"\
parm [ecx][edx][edi][ebx]\
modify exact [eax ecx edi]\
value
void pal8hlineasm (long, long, long, long);
#pragma aux pal8hlineasm =\
"sub ecx, edx"\
"jle short endit"\
"add edx, offset olinbuf"\
"begit: movzx eax, byte ptr [ecx+edx]"\
"mov eax, dword ptr palcol[eax*4]"\
"dec ecx"\
"mov [edi], eax"\
"lea edi, [edi+ebx]"\
"jnz short begit"\
"endit:"\
parm [ecx][edx][edi][ebx]\
modify exact [eax ecx edi]\
value
#elif defined(_MSC_VER)
static _inline long Paeth686 (long a, long b, long c)
{
_asm
{
mov eax, a
mov ebx, b
mov ecx, c
mov edx, ecx
sub edx, eax
sub edx, ebx
lea edx, abstab10[edx*4+2048]
mov esi, [ebx*4+edx]
mov edi, [ecx*4+edx]
cmp edi, esi
cmovge edi, esi
cmovge ecx, ebx
cmp edi, [eax*4+edx]
cmovl eax, ecx
}
}
static _inline void rgbhlineasm (long c, long d, long t, long b)
{
_asm
{
mov ecx, c
mov edx, d
mov edi, t
mov ebx, b
sub ecx, edx
jle short endit
add edx, offset olinbuf
cmp dword ptr trnsrgb, 0
jz short begit2
begit: mov eax, dword ptr [ecx+edx]
or eax, 0xff000000
cmp eax, dword ptr trnsrgb
jne short skipit
and eax, 0xffffff
skipit: sub ecx, 3
mov [edi], eax
lea edi, [edi+ebx]
jnz short begit
jmp short endit
begit2: mov eax, dword ptr [ecx+edx]
or eax, 0xff000000
sub ecx, 3
mov [edi], eax
lea edi, [edi+ebx]
jnz short begit2
endit:
}
}
static _inline void pal8hlineasm (long c, long d, long t, long b)
{
_asm
{
mov ecx, c
mov edx, d
mov edi, t
mov ebx, b
sub ecx, edx
jle short endit
add edx, offset olinbuf
begit: movzx eax, byte ptr [ecx+edx]
mov eax, dword ptr palcol[eax*4]
sub ecx, 1
mov [edi], eax
lea edi, [edi+ebx]
jnz short begit
endit:
}
}
#elif defined(__GNUC__) && defined(__i386__)
static inline long Paeth686 (long a, long b, long c)
{
__asm__ __volatile__ (
"movl %%ecx, %%edx\n\tsubl %%eax, %%edx\n\tsubl %%ebx, %%edx\n\t"
"leal (abstab10+2048)(,%%edx,4), %%edx\n\t"
"movl (%%edx,%%ebx,4), %%esi\n\tmovl (%%edx,%%ecx,4), %%edi\n\t"
"cmpl %%esi, %%edi\n\tcmovgel %%esi, %%edi\n\tcmovgel %%ebx, %%ecx\n\t"
"cmpl (%%edx,%%eax,4), %%edi\n\tcmovgel %%eax, %%ecx"
: "+c" (c) : "a" (a), "b" (b) : "esi","edi","memory","cc"
);
return c;
}
//Note: "cmove eax,?" may be faster than "jne ?:and eax,?" but who cares
static inline void rgbhlineasm (long c, long d, long t, long b)
{
__asm__ __volatile__ (
"subl %%edx, %%ecx\n\tjle 3f\n\taddl $olinbuf, %%edx\n\t"
"cmpl $0, trnsrgb(,1)\n\tjz 2f\n\t"
"0: movl (%%ecx,%%edx,1), %%eax\n\torl $0xff000000, %%eax\n\tcmpl trnsrgb(,1), %%eax\n\t"
"jne 1f\n\tandl $0xffffff, %%eax\n\t"
"1: subl $3, %%ecx\n\tmovl %%eax, (%%edi)\n\tleal (%%edi,%%ebx,1), %%edi\n\t"
"jnz 0b\n\tjmp 3f\n\t"
"2: movl (%%ecx,%%edx,1), %%eax\n\torl $0xff000000, %%eax\n\tsubl $3, %%ecx\n\t"
"movl %%eax, (%%edi)\n\tleal (%%edi,%%ebx,1), %%edi\n\tjnz 2b\n\t"
"3:"
: "+c" (c), "+D" (t) : "d" (d), "b" (b) : "eax","memory","cc"
);
}
static inline void pal8hlineasm (long c, long d, long t, long b)
{
__asm__ __volatile__ (
"subl %%edx, %%ecx\n\tjle 1f\n\taddl $olinbuf, %%edx\n\t"
"0: movzbl (%%ecx,%%edx,1), %%eax\n\tmovl palcol(,%%eax,4), %%eax\n\t"
"subl $1, %%ecx\n\tmovl %%eax, (%%edi)\n\tleal (%%edi,%%ebx,1), %%edi\n\tjnz 0b\n\t"
"1:"
: "+c" (c), "+D" (t) : "d" (d), "b" (b) : "eax","memory","cc"
);
}
#else
#error Unsupported compiler or architecture.
#endif
static void putbuf (const unsigned char *buf, long leng)
{
long i, x, p;
if (filt < 0)
{
if (leng <= 0) return;
filt = buf[0]; if (filt == gotcmov) filt = 5;
i = 1;
} else i = 0;
while (i < leng)
{
x = i+xplc; if (x > leng) x = leng;
switch (filt)
{
case 0:
while (i < x) { olinbuf[xplc] = buf[i]; xplc--; i++; }
break;
case 1:
while (i < x)
{
olinbuf[xplc] = (opixbuf1[xm] += buf[i]);
xm = xmn[xm]; xplc--; i++;
}
break;
case 2:
while (i < x) { olinbuf[xplc] += buf[i]; xplc--; i++; }
break;
case 3:
while (i < x)
{
opixbuf1[xm] = olinbuf[xplc] = ((opixbuf1[xm]+olinbuf[xplc])>>1)+buf[i];
xm = xmn[xm]; xplc--; i++;
}
break;
case 4:
while (i < x)
{
opixbuf1[xm] = (char)(Paeth(opixbuf1[xm],olinbuf[xplc],opixbuf0[xm])+buf[i]);
opixbuf0[xm] = olinbuf[xplc];
olinbuf[xplc] = opixbuf1[xm];
xm = xmn[xm]; xplc--; i++;
}
break;
case 5: //Special hack for Paeth686 (Doesn't have to be case 5)
while (i < x)
{
opixbuf1[xm] = (char)(Paeth686(opixbuf1[xm],olinbuf[xplc],opixbuf0[xm])+buf[i]);
opixbuf0[xm] = olinbuf[xplc];
olinbuf[xplc] = opixbuf1[xm];
xm = xmn[xm]; xplc--; i++;
}
break;
}
if (xplc > 0) return;
//Draw line!
if ((unsigned long)yplc < (unsigned long)yres)
{
x = xr0; p = nfplace;
switch (coltype)
{
case 2:
rgbhlineasm(x,xr1,p,ixstp);
break;
case 4:
for(;x>xr1;p+=ixstp,x-=2)
{
#if (PROCESSALPHAHERE == 1)
//Enable this code to process alpha right here!
if (olinbuf[x-1] == 255) { *(long *)p = palcol[olinbuf[x]]; continue; }
if (!olinbuf[x-1]) { *(long *)p = bakcol; continue; }
//I do >>8, but theoretically should be: /255
*(char *)(p) = *(char *)(p+1) = *(char *)(p+2) = *(char *)(p+3) =
(((((long)olinbuf[x])-bakr)*(long)olinbuf[x-1])>>8) + bakr;
#else
*(long *)p = (palcol[olinbuf[x]]&LSWAPIB(0xffffff))|LSWAPIL((long)olinbuf[x-1]);
#endif
}
break;
case 6:
for(;x>xr1;p+=ixstp,x-=4)
{
#if (PROCESSALPHAHERE == 1)
//Enable this code to process alpha right here!
if (olinbuf[x-1] == 255) { *(long *)p = *(long *)&olinbuf[x]; continue; }
if (!olinbuf[x-1]) { *(long *)p = bakcol; continue; }
//I do >>8, but theoretically should be: /255
*(char *)(p ) = (((((long)olinbuf[x ])-bakr)*(long)olinbuf[x-1])>>8) + bakr;
*(char *)(p+1) = (((((long)olinbuf[x+1])-bakg)*(long)olinbuf[x-1])>>8) + bakg;
*(char *)(p+2) = (((((long)olinbuf[x+2])-bakb)*(long)olinbuf[x-1])>>8) + bakb;
#else
*(char *)(p ) = olinbuf[x ]; //R
*(char *)(p+1) = olinbuf[x+1]; //G
*(char *)(p+2) = olinbuf[x+2]; //B
*(char *)(p+3) = olinbuf[x-1]; //A
#endif
}
break;
default:
switch(bitdepth)
{
case 1: for(;x>xr1;p+=ixstp,x-- ) *(long *)p = palcol[olinbuf[x>>3]>>(x&7)]; break;
case 2: for(;x>xr1;p+=ixstp,x-=2) *(long *)p = palcol[olinbuf[x>>3]>>(x&6)]; break;
case 4: for(;x>xr1;p+=ixstp,x-=4) *(long *)p = palcol[olinbuf[x>>3]>>(x&4)]; break;
case 8: pal8hlineasm(x,xr1,p,ixstp); break; //for(;x>xr1;p+=ixstp,x--) *(long *)p = palcol[olinbuf[x]]; break;
}
break;
}
nfplace += nbpl;
}
*(long *)&opixbuf0[0] = *(long *)&opixbuf1[0] = 0;
xplc = xsizbpl; yplc += iystp;
if ((intlac) && (yplc >= globyoffs+ysiz)) { intlac--; initpass(); }
if (i < leng) { filt = buf[i++]; if (filt == gotcmov) filt = 5; } else filt = -1;
}
}
static void initpngtables()
{
long i, j, k;
//hxbit[0-58][0-1] is a combination of 4 different tables:
// 1st parameter: [0-29] are distances, [30-58] are lengths
// 2nd parameter: [0]: extra bits, [1]: base number
j = 1; k = 0;
for(i=0;i<30;i++)
{
hxbit[i][1] = j; j += (1<<k);
hxbit[i][0] = k; k += ((i&1) && (i >= 2));
}
j = 3; k = 0;
for(i=257;i<285;i++)
{
hxbit[i+30-257][1] = j; j += (1<<k);
hxbit[i+30-257][0] = k; k += ((!(i&3)) && (i >= 264));
}
hxbit[285+30-257][1] = 258; hxbit[285+30-257][0] = 0;
k = getcputype();
if (k&(1<<15))
{
gotcmov = 4;
for(i=0;i<512;i++) abstab10[512+i] = abstab10[512-i] = i;
}
}
static long kpngrend (const char *kfilebuf, long kfilength,
long daframeplace, long dabytesperline, long daxres, long dayres,
long daglobxoffs, long daglobyoffs)
{
long i, j, k, bfinal, btype, hlit, hdist, leng;
long slidew, slider;
//long qhuf0v, qhuf1v;
if (!pnginited) { pnginited = 1; initpngtables(); }
if ((*(long *)&kfilebuf[0] != LSWAPIB(0x474e5089)) || (*(long *)&kfilebuf[4] != LSWAPIB(0x0a1a0a0d)))
return(-1); //"Invalid PNG file signature"
filptr = (unsigned char *)&kfilebuf[8];
trnsrgb = 0;
while (1)
{
leng = LSWAPIL(*(long *)&filptr[0]); i = *(long *)&filptr[4];
filptr = &filptr[8];
if (i == LSWAPIB(0x52444849)) //IHDR (must be first)
{
xsiz = LSWAPIL(*(long *)&filptr[0]); if (xsiz <= 0) return(-1);
ysiz = LSWAPIL(*(long *)&filptr[4]); if (ysiz <= 0) return(-1);
bitdepth = filptr[8]; if (!((1<<bitdepth)&0x116)) return(-1); //"Bit depth not supported"
coltype = filptr[9]; if (!((1<<coltype)&0x5d)) return(-1); //"Color type not supported"
if (filptr[10]) return(-1); //"Only *flate is supported"
if (filptr[11]) return(-1); //"Filter not supported"
if (filptr[12] >= 2) return(-1); //"Unsupported interlace type"
intlac = filptr[12]*7; //0=no interlace/1=Adam7 interlace
//Save code by making grayscale look like a palette color scheme
if ((!coltype) || (coltype == 4))
{
j = 0xff000000; k = (255 / ((1<<bitdepth)-1))*0x10101;
paleng = (1<<bitdepth);
for(i=0;i<paleng;i++,j+=k) palcol[i] = LSWAPIB(j);
}
}
else if (i == LSWAPIB(0x45544c50)) //PLTE (must be before IDAT)
{
paleng = leng/3;
for(i=paleng-1;i>=0;i--) palcol[i] = LSWAPIB((LSWAPIL(*(long *)&filptr[i*3])>>8)|0xff000000);
}
else if (i == LSWAPIB(0x44474b62)) //bKGD (must be after PLTE and before IDAT)
{
switch(coltype)
{
case 0: case 4:
bakcol = (((long)filptr[0]<<8)+(long)filptr[1])*255/((1<<bitdepth)-1);
bakcol = bakcol*0x10101+0xff000000; break;
case 2: case 6:
if (bitdepth == 8)
{ bakcol = (((long)filptr[0])<<16)+(((long)filptr[2])<<8)+((long)filptr[4])+0xff000000; }
else
{
for(i=0,bakcol=0xff000000;i<3;i++)
bakcol += ((((((long)filptr[i<<1])<<8)+((long)filptr[(i<<1)+1]))/257)<<(16-(i<<3)));
}
break;
case 3:
bakcol = palcol[filptr[0]]; break;
}
bakr = ((bakcol>>16)&255);
bakg = ((bakcol>>8)&255);
bakb = (bakcol&255);
bakcol = LSWAPIB(bakcol);
}
else if (i == LSWAPIB(0x534e5274)) //tRNS (must be after PLTE and before IDAT)
{
switch(coltype)
{
case 0:
if (bitdepth <= 8)
palcol[(long)filptr[1]] &= LSWAPIB(0xffffff);
//else {} // /c0 /d16 not yet supported
break;
case 2:
if (bitdepth == 8)
{ trnsrgb = LSWAPIB((((long)filptr[1])<<16)+(((long)filptr[3])<<8)+((long)filptr[5])+0xff000000); }
//else {} //WARNING: PNG docs say: MUST compare all 48 bits :(
break;
case 3:
for(i=min(leng,paleng)-1;i>=0;i--)
palcol[i] &= LSWAPIB((((long)filptr[i])<<24)|0xffffff);
break;
default:;
}
}
else if (i == LSWAPIB(0x54414449)) { break; } //IDAT
filptr = &filptr[leng+4]; //crc = LSWAPIL(*(long *)&filptr[-4]);
}
//Initialize this for the getbits() function
zipfilmode = 0;
filptr = &filptr[leng-4]; bitpos = -((leng-4)<<3); nfilptr = 0;
//if (leng < 4) will it crash?
frameplace = daframeplace;
bytesperline = dabytesperline;
xres = daxres;
yres = dayres;
globxoffs = daglobxoffs;
globyoffs = daglobyoffs;
switch (coltype)
{
case 4: xmn[0] = 1; xmn[1] = 0; break;
case 2: xmn[0] = 1; xmn[1] = 2; xmn[2] = 0; break;
case 6: xmn[0] = 1; xmn[1] = 2; xmn[2] = 3; xmn[3] = 0; break;
default: xmn[0] = 0; break;
}
switch (bitdepth)
{
case 1: for(i=2;i<256;i++) palcol[i] = palcol[i&1]; break;
case 2: for(i=4;i<256;i++) palcol[i] = palcol[i&3]; break;
case 4: for(i=16;i<256;i++) palcol[i] = palcol[i&15]; break;
}
//coltype: bitdepth: format:
// 0 1,2,4,8,16 I
// 2 8,16 RGB
// 3 1,2,4,8 P
// 4 8,16 IA
// 6 8,16 RGBA
xsizbpl = ((0x04021301>>(coltype<<2))&15)*xsiz;
switch (bitdepth)
{
case 1: xsizbpl = ((xsizbpl+7)>>3); break;
case 2: xsizbpl = ((xsizbpl+3)>>2); break;
case 4: xsizbpl = ((xsizbpl+1)>>1); break;
}
//Tests to see if xsiz > allocated space in olinbuf
//Note: xsizbpl gets re-written inside initpass()
if ((xsizbpl+1)*sizeof(olinbuf[0]) > sizeof(olinbuf)) return(-1);
initpass();
slidew = 0; slider = 16384;
suckbits(16); //Actually 2 fields: 8:compmethflags, 8:addflagscheck
do
{
bfinal = getbits(1); btype = getbits(2);
if (btype == 0)
{
//Raw (uncompressed)
suckbits((-bitpos)&7); //Synchronize to start of next byte
i = getbits(16); if ((getbits(16)^i) != 0xffff) return(-1);
for(;i;i--)
{
if (slidew >= slider)
{
putbuf(&slidebuf[(slider-16384)&32767],16384); slider += 16384;
if ((yplc >= yres) && (intlac < 2)) return(0);
}
slidebuf[(slidew++)&32767] = (char)getbits(8);
}
continue;
}
if (btype == 3) continue;
if (btype == 1) //Fixed Huffman
{
hlit = 288; hdist = 32; i = 0;
for(;i<144;i++) clen[i] = 8; //Fixed bit sizes (literals)
for(;i<256;i++) clen[i] = 9; //Fixed bit sizes (literals)
for(;i<280;i++) clen[i] = 7; //Fixed bit sizes (EOI,lengths)
for(;i<288;i++) clen[i] = 8; //Fixed bit sizes (lengths)
for(;i<320;i++) clen[i] = 5; //Fixed bit sizes (distances)
}
else //Dynamic Huffman
{
hlit = getbits(5)+257; hdist = getbits(5)+1; j = getbits(4)+4;
for(i=0;i<j;i++) cclen[ccind[i]] = getbits(3);
for(;i<19;i++) cclen[ccind[i]] = 0;
hufgencode(cclen,19,ibuf0,nbuf0);
j = 0; k = hlit+hdist;
while (j < k)
{
i = hufgetsym(ibuf0,nbuf0);
if (i < 16) { clen[j++] = i; continue; }
if (i == 16)
{ for(i=getbits(2)+3;i;i--) { clen[j] = clen[j-1]; j++; } }
else
{
if (i == 17) i = getbits(3)+3; else i = getbits(7)+11;
for(;i;i--) clen[j++] = 0;
}
}
}
hufgencode(clen,hlit,ibuf0,nbuf0);
//qhuf0v = //hufgetsym_skipb related code
qhufgencode(ibuf0,nbuf0,qhufval0,qhufbit0,LOGQHUFSIZ0);
hufgencode(&clen[hlit],hdist,ibuf1,nbuf1);
//qhuf1v = //hufgetsym_skipb related code
qhufgencode(ibuf1,nbuf1,qhufval1,qhufbit1,LOGQHUFSIZ1);
while (1)
{
if (slidew >= slider)
{
putbuf(&slidebuf[(slider-16384)&32767],16384); slider += 16384;
if ((yplc >= yres) && (intlac < 2)) return(0);
}
k = peekbits(LOGQHUFSIZ0);
if (qhufbit0[k]) { i = qhufval0[k]; suckbits((long)qhufbit0[k]); } else i = hufgetsym(ibuf0,nbuf0);
//else i = hufgetsym_skipb(ibuf0,nbuf0,LOGQHUFSIZ0,qhuf0v); //hufgetsym_skipb related code
if (i < 256) { slidebuf[(slidew++)&32767] = (char)i; continue; }
if (i == 256) break;
i = getbits(hxbit[i+30-257][0]) + hxbit[i+30-257][1];
k = peekbits(LOGQHUFSIZ1);
if (qhufbit1[k]) { j = qhufval1[k]; suckbits((long)qhufbit1[k]); } else j = hufgetsym(ibuf1,nbuf1);
//else j = hufgetsym_skipb(ibuf1,nbuf1,LOGQHUFSIZ1,qhuf1v); //hufgetsym_skipb related code
j = getbits(hxbit[j][0]) + hxbit[j][1];
i += slidew; do { slidebuf[slidew&32767] = slidebuf[(slidew-j)&32767]; slidew++; } while (slidew < i);
}
} while (!bfinal);
slider -= 16384;
if (!((slider^slidew)&32768))
putbuf(&slidebuf[slider&32767],slidew-slider);
else
{
putbuf(&slidebuf[slider&32767],(-slider)&32767);
putbuf(slidebuf,slidew&32767);
}
return(0);
}
//============================= KPNGILIB ends ================================
//============================ KPEGILIB begins ===============================
//11/01/2000: This code was originally from KPEG.C
// All non 32-bit color drawing was removed
// "Motion" JPG code was removed
// A lot of parameters were added to kpeg() for library usage
static long kpeginited = 0;
static long clipxdim, clipydim;
static long hufmaxatbit[8][20], hufvalatbit[8][20], hufcnt[8];
static unsigned char hufnumatbit[8][20], huftable[8][256];
static long hufquickval[8][1024], hufquickbits[8][1024], hufquickcnt[8];
static long quantab[4][64], dct[12][64], lastdc[4], unzig[64], zigit[64]; //dct:10=MAX (says spec);+2 for hacks
static unsigned char gnumcomponents, dcflagor[64];
static long gcompid[4], gcomphsamp[4], gcompvsamp[4], gcompquantab[4], gcomphsampshift[4], gcompvsampshift[4];
static long lnumcomponents, lcompid[4], lcompdc[4], lcompac[4], lcomphsamp[4], lcompvsamp[4], lcompquantab[4];
static long lcomphvsamp0, lcomphsampshift0, lcompvsampshift0;
static long colclip[1024], colclipup8[1024], colclipup16[1024];
static unsigned char pow2char[8] = {1,2,4,8,16,32,64,128};
#if defined(NOASM)
static inline long mulshr24 (long a, long b)
{
return((long)((((__int64)a)*((__int64)b))>>24));
}
static inline long mulshr32 (long a, long b)
{
return((long)((((__int64)a)*((__int64)b))>>32));
}
#elif defined(__WATCOMC__)
long mulshr24 (long, long);
#pragma aux mulshr24 =\
"imul edx"\
"shrd eax, edx, 24"\
parm nomemory [eax][edx]\
modify exact [eax edx]
long mulshr32 (long, long);
#pragma aux mulshr32 =\
"imul edx"\
parm nomemory [eax][edx]\
modify exact [eax edx]\
value [edx]
#elif defined(_MSC_VER)
static _inline long mulshr24 (long a, long d)
{
_asm
{
mov eax, a
imul d
shrd eax, edx, 24
}
}
static _inline long mulshr32 (long a, long d)
{
_asm
{
mov eax, a
imul d
mov eax, edx
}
}
#elif defined(__GNUC__) && defined(__i386__)
#define mulshr24(a,d) \
({ long __a=(a), __d=(d); \
__asm__ __volatile__ ("imull %%edx; shrdl $24, %%edx, %%eax" \
: "+a" (__a), "+d" (__d) : : "cc"); \
__a; })
#define mulshr32(a,d) \
({ long __a=(a), __d=(d); \
__asm__ __volatile__ ("imull %%edx" \
: "+a" (__a), "+d" (__d) : : "cc"); \
__d; })
#else
#error Unsupported compiler or architecture.
#endif
static long cosqr16[8] = //cosqr16[i] = ((cos(PI*i/16)*sqrt(2))<<24);
{23726566,23270667,21920489,19727919,16777216,13181774,9079764,4628823};
static long crmul[4096], cbmul[4096];
static void initkpeg ()
{
long i, x, y;
x = 0; //Back & forth diagonal pattern (aligning bytes for best compression)
for(i=0;i<16;i+=2)
{
for(y=8-1;y>=0;y--)
if ((unsigned)(i-y) < (unsigned)8) unzig[x++] = (y<<3)+i-y;
for(y=0;y<8;y++)
if ((unsigned)(i+1-y) < (unsigned)8) unzig[x++] = (y<<3)+i+1-y;
}
for(i=64-1;i>=0;i--) zigit[unzig[i]] = i;
for(i=64-1;i>=0;i--) dcflagor[i] = (unsigned char)(1<<(unzig[i]>>3));
for(i=0;i<128;i++) colclip[i] = i+128;
for(i=128;i<512;i++) colclip[i] = 255;
for(i=512;i<896;i++) colclip[i] = 0;
for(i=896;i<1024;i++) colclip[i] = i-896;
for(i=0;i<1024;i++)
{
colclipup8[i] = (colclip[i]<<8);
colclipup16[i] = (colclip[i]<<16)+0xff000000; //Hack: set alphas to 255
}
#if defined(BIGENDIAN)
for(i=0;i<1024;i++)
{
colclip[i] = bswap(colclip[i]);
colclipup8[i] = bswap(colclipup8[i]);
colclipup16[i] = bswap(colclipup16[i]);
}
#endif
for(i=0;i<2048;i++)
{
crmul[(i<<1)+0] = (i-1024)*1470104; //1.402*1048576
crmul[(i<<1)+1] = (i-1024)*-748830; //-0.71414*1048576
cbmul[(i<<1)+0] = (i-1024)*-360857; //-0.34414*1048576
cbmul[(i<<1)+1] = (i-1024)*1858077; //1.772*1048576
}
memset((void *)&dct[10][0],0,64*2*sizeof(dct[0][0]));
}
static void huffgetval (long index, long curbits, long num, long *daval, long *dabits)
{
long b, v, pow2, *hmax;
hmax = &hufmaxatbit[index][0];
pow2 = pow2long[curbits-1];
if (num&pow2) v = 1; else v = 0;
for(b=1;b<=16;b++)
{
if (v < hmax[b])
{
*dabits = b;
*daval = huftable[index][hufvalatbit[index][b]+v];
return;
}
pow2 >>= 1; v <<= 1;
if (num&pow2) v++;
}
*dabits = 16; *daval = 0;
}
static void invdct8x8 (long *dc, unsigned char dcflag)
{
#define SQRT2 23726566 //(sqrt(2))<<24
#define C182 31000253 //(cos(PI/8)*2)<<24
#define C18S22 43840978 //(cos(PI/8)*sqrt(2)*2)<<24
#define C38S22 18159528 //(cos(PI*3/8)*sqrt(2)*2)<<24
long *edc, t0, t1, t2, t3, t4, t5, t6, t7;
edc = dc+64;
do
{
if (dcflag&1) //pow2char[z])
{
t3 = dc[2] + dc[6];
t2 = (mulshr32(dc[2]-dc[6],SQRT2<<6)<<2) - t3;
t4 = dc[0] + dc[4]; t5 = dc[0] - dc[4];
t0 = t4+t3; t3 = t4-t3; t1 = t5+t2; t2 = t5-t2;
t4 = (mulshr32(dc[5]-dc[3]+dc[1]-dc[7],C182<<6)<<2);
t7 = dc[1] + dc[7] + dc[5] + dc[3];
t6 = (mulshr32(dc[3]-dc[5],C18S22<<5)<<3) + t4 - t7;
t5 = (mulshr32(dc[1]+dc[7]-dc[5]-dc[3],SQRT2<<6)<<2) - t6;
t4 = (mulshr32(dc[1]-dc[7],C38S22<<6)<<2) - t4 + t5;
dc[0] = t0+t7; dc[7] = t0-t7; dc[1] = t1+t6; dc[6] = t1-t6;
dc[2] = t2+t5; dc[5] = t2-t5; dc[4] = t3+t4; dc[3] = t3-t4;
}
dc += 8; dcflag >>= 1;
} while (dc < edc);
dc -= 32; edc -= 24;
do
{
t3 = dc[2*8-32] + dc[6*8-32];
t2 = (mulshr32(dc[2*8-32]-dc[6*8-32],SQRT2<<6)<<2) - t3;
t4 = dc[0*8-32] + dc[4*8-32]; t5 = dc[0*8-32] - dc[4*8-32];
t0 = t4+t3; t3 = t4-t3; t1 = t5+t2; t2 = t5-t2;
t4 = (mulshr32(dc[5*8-32]-dc[3*8-32]+dc[1*8-32]-dc[7*8-32],C182<<6)<<2);
t7 = dc[1*8-32] + dc[7*8-32] + dc[5*8-32] + dc[3*8-32];
t6 = (mulshr32(dc[3*8-32]-dc[5*8-32],C18S22<<5)<<3) + t4 - t7;
t5 = (mulshr32(dc[1*8-32]+dc[7*8-32]-dc[5*8-32]-dc[3*8-32],SQRT2<<6)<<2) - t6;
t4 = (mulshr32(dc[1*8-32]-dc[7*8-32],C38S22<<6)<<2) - t4 + t5;
dc[0*8-32] = t0+t7; dc[7*8-32] = t0-t7; dc[1*8-32] = t1+t6; dc[6*8-32] = t1-t6;
dc[2*8-32] = t2+t5; dc[5*8-32] = t2-t5; dc[4*8-32] = t3+t4; dc[3*8-32] = t3-t4;
dc++;
} while (dc < edc);
}
static void yrbrend (long x, long y)
{
long i, j, ox, oy, xx, yy, xxx, yyy, xxxend, yyyend, yv, cr, cb, p, pp, *odc, *dc, *dc2;
odc = dct[0]; dc2 = dct[10];
for(yy=0;yy<(lcompvsamp[0]<<3);yy+=8)
{
oy = y+yy+globyoffs; if ((unsigned)oy >= (unsigned)clipydim) { odc += (lcomphsamp[0]<<6); continue; }
pp = oy*bytesperline + ((x+globxoffs)<<2) + frameplace;
for(xx=0;xx<(lcomphsamp[0]<<3);xx+=8,odc+=64)
{
ox = x+xx+globxoffs; if ((unsigned)ox >= (unsigned)clipxdim) continue;
p = pp+(xx<<2);
dc = odc;
if (lnumcomponents > 1) dc2 = &dct[lcomphvsamp0][((yy>>lcompvsampshift0)<<3)+(xx>>lcomphsampshift0)];
xxxend = min(clipxdim-ox,8);
yyyend = min(clipydim-oy,8);
if ((lcomphsamp[0] == 1) && (xxxend == 8))
{
for(yyy=0;yyy<yyyend;yyy++)
{
for(xxx=0;xxx<8;xxx++)
{
yv = dc[xxx];
cr = (dc2[xxx+64]>>13)&~1;
cb = (dc2[xxx ]>>13)&~1;
((long *)p)[xxx] = colclipup16[(unsigned)(yv+crmul[cr+2048] )>>22]+
colclipup8[(unsigned)(yv+crmul[cr+2049]+cbmul[cb+2048])>>22]+
colclip[(unsigned)(yv+cbmul[cb+2049] )>>22];
}
p += bytesperline;
dc += 8;
if (!((yyy+1)&(lcompvsamp[0]-1))) dc2 += 8;
}
}
else if ((lcomphsamp[0] == 2) && (xxxend == 8))
{
for(yyy=0;yyy<yyyend;yyy++)
{
for(xxx=0;xxx<8;xxx+=2)
{
yv = dc[xxx];
cr = (dc2[(xxx>>1)+64]>>13)&~1;
cb = (dc2[(xxx>>1) ]>>13)&~1;
i = crmul[cr+2049]+cbmul[cb+2048];
cr = crmul[cr+2048];
cb = cbmul[cb+2049];
((long *)p)[xxx] = colclipup16[(unsigned)(yv+cr)>>22]+
colclipup8[(unsigned)(yv+ i)>>22]+
colclip[(unsigned)(yv+cb)>>22];
yv = dc[xxx+1];
((long *)p)[xxx+1] = colclipup16[(unsigned)(yv+cr)>>22]+
colclipup8[(unsigned)(yv+ i)>>22]+
colclip[(unsigned)(yv+cb)>>22];
}
p += bytesperline;
dc += 8;
if (!((yyy+1)&(lcompvsamp[0]-1))) dc2 += 8;
}
}
else
{
for(yyy=0;yyy<yyyend;yyy++)
{
i = 0; j = 1;
for(xxx=0;xxx<xxxend;xxx++)
{
yv = dc[xxx];
j--;
if (!j)
{
j = lcomphsamp[0];
cr = (dc2[i+64]>>13)&~1;
cb = (dc2[i ]>>13)&~1;
i++;
}
((long *)p)[xxx] = colclipup16[(unsigned)(yv+crmul[cr+2048] )>>22]+
colclipup8[(unsigned)(yv+crmul[cr+2049]+cbmul[cb+2048])>>22]+
colclip[(unsigned)(yv+cbmul[cb+2049] )>>22];
}
p += bytesperline;
dc += 8;
if (!((yyy+1)&(lcompvsamp[0]-1))) dc2 += 8;
}
}
}
}
}
static long kpegrend (const char *kfilebuf, long kfilength,
long daframeplace, long dabytesperline, long daxres, long dayres,
long daglobxoffs, long daglobyoffs)
{
long i, j, p, v, leng, xdim, ydim, index, prec, restartcnt, restartinterval;
long x, y, z, xx, yy, zz, *dc, *dc2, num, curbits, c, daval, dabits, *hqval, *hqbits, hqcnt, *quanptr;
long passcnt = 0, ghsampmax, gvsampmax, glhsampmax, glvsampmax, glhstep, glvstep;
long eobrun, Ss, Se, Ah, Al, Alut[2], dctx[12], dcty[12], ldctx[12], ldcty[12], lshx[4], lshy[4];
short *dctbuf = 0, *dctptr[12], *ldctptr[12], *dcs;
unsigned char ch, marker, dcflag;
const unsigned char *kfileptr;
if (!kpeginited) { kpeginited = 1; initkpeg(); }
kfileptr = (unsigned char *)kfilebuf;
if (*(unsigned short *)kfileptr == SSWAPIB(0xd8ff)) kfileptr += 2;
else return(-1); //"%s is not a JPEG file\n",filename
restartinterval = 0;
for(i=0;i<4;i++) lastdc[i] = 0;
for(i=0;i<8;i++) hufcnt[i] = 0;
coltype = 0; bitdepth = 8; //For PNGOUT
do
{
ch = *kfileptr++; if (ch != 255) continue;
do { marker = *kfileptr++; } while (marker == 255);
if (marker != 0xd9) //Don't read past end of buffer
{
leng = ((long)kfileptr[0]<<8)+(long)kfileptr[1]-2;
kfileptr += 2;
}
//printf("fileoffs=%08x, marker=%02x,leng=%d",((long)kfileptr)-((long)kfilebuf)-2,marker,leng);
switch(marker)
{
case 0xc0: case 0xc1: case 0xc2:
//processit!
kfileptr++; //numbits = *kfileptr++;
ydim = SSWAPIL(*(unsigned short *)&kfileptr[0]);
xdim = SSWAPIL(*(unsigned short *)&kfileptr[2]);
//printf("%s: %ld / %ld = %ld\n",filename,xdim*ydim*3,kfilength,(xdim*ydim*3)/kfilength);
frameplace = daframeplace;
bytesperline = dabytesperline;
xres = daxres;
yres = dayres;
globxoffs = daglobxoffs;
globyoffs = daglobyoffs;
gnumcomponents = kfileptr[4];
kfileptr += 5;
ghsampmax = gvsampmax = glhsampmax = glvsampmax = 0;
for(z=0;z<gnumcomponents;z++)
{
gcompid[z] = kfileptr[0];
gcomphsamp[z] = (kfileptr[1]>>4);
gcompvsamp[z] = (kfileptr[1]&15);
gcompquantab[z] = kfileptr[2];
for(i=0;i<8;i++) if (gcomphsamp[z] == pow2long[i]) { gcomphsampshift[z] = i; break; }
for(i=0;i<8;i++) if (gcompvsamp[z] == pow2long[i]) { gcompvsampshift[z] = i; break; }
if (gcomphsamp[z] > ghsampmax) { ghsampmax = gcomphsamp[z]; glhsampmax = gcomphsampshift[z]; }
if (gcompvsamp[z] > gvsampmax) { gvsampmax = gcompvsamp[z]; glvsampmax = gcompvsampshift[z]; }
kfileptr += 3;
}
break;
case 0xc4: //Huffman table
do
{
ch = *kfileptr++; leng--;
if (ch >= 16) { index = ch-12; }
else { index = ch; }
memcpy((void *)&hufnumatbit[index][1],(void *)kfileptr,16); kfileptr += 16;
leng -= 16;
v = 0; hufcnt[index] = 0;
hufquickcnt[index] = 0;
for(i=1;i<=16;i++)
{
hufmaxatbit[index][i] = v+hufnumatbit[index][i];
hufvalatbit[index][i] = hufcnt[index]-v;
memcpy((void *)&huftable[index][hufcnt[index]],(void *)kfileptr,(long)hufnumatbit[index][i]);
if (i <= 10)
for(c=0;c<hufnumatbit[index][i];c++)
for(j=(1<<(10-i));j>0;j--)
{
hufquickval[index][hufquickcnt[index]] = huftable[index][hufcnt[index]+c];
hufquickbits[index][hufquickcnt[index]] = i;
hufquickcnt[index]++;
}
kfileptr += hufnumatbit[index][i];
leng -= hufnumatbit[index][i];
hufcnt[index] += hufnumatbit[index][i];
v = ((v+hufnumatbit[index][i])<<1);
}
} while (leng > 0);
break;
case 0xdb:
do
{
ch = *kfileptr++; leng--;
index = (ch&15);
prec = (ch>>4);
for(z=0;z<64;z++)
{
v = (long)(*kfileptr++);
if (prec) v = (v<<8)+((long)(*kfileptr++));
v <<= 19;
if (unzig[z]&7 ) v = mulshr24(v,cosqr16[unzig[z]&7 ]);
if (unzig[z]>>3) v = mulshr24(v,cosqr16[unzig[z]>>3]);
if (index) v >>= 6;
quantab[index][unzig[z]] = v;
}
leng -= 64;
if (prec) leng -= 64;
} while (leng > 0);
break;
case 0xdd:
restartinterval = SSWAPIL(*(unsigned short *)&kfileptr[0]);
kfileptr += leng;
break;
case 0xda:
if ((xdim <= 0) || (ydim <= 0)) { if (dctbuf) free(dctbuf); return(-1); }
lnumcomponents = (long)(*kfileptr++); if (!lnumcomponents) { if (dctbuf) free(dctbuf); return(-1); }
if (lnumcomponents > 1) coltype = 2;
for(z=0;z<lnumcomponents;z++)
{
lcompid[z] = kfileptr[0];
lcompdc[z] = (kfileptr[1]>>4);
lcompac[z] = (kfileptr[1]&15);
kfileptr += 2;
}
Ss = kfileptr[0];
Se = kfileptr[1];
Ah = (kfileptr[2]>>4);
Al = (kfileptr[2]&15);
kfileptr += 3;
//printf("passcnt=%d, Ss=%d, Se=%d, Ah=%d, Al=%d\n",passcnt,Ss,Se,Ah,Al);
if ((!passcnt) && ((Ss) || (Se != 63) || (Ah) || (Al)))
{
for(z=zz=0;z<gnumcomponents;z++)
{
dctx[z] = ((xdim+(ghsampmax<<3)-1)>>(glhsampmax+3)) << gcomphsampshift[z];
dcty[z] = ((ydim+(gvsampmax<<3)-1)>>(glvsampmax+3)) << gcompvsampshift[z];
zz += dctx[z]*dcty[z];
}
z = zz*64*sizeof(short);
dctbuf = (short *)malloc(z); if (!dctbuf) return(-1);
memset(dctbuf,0,z);
for(z=zz=0;z<gnumcomponents;z++) { dctptr[z] = &dctbuf[zz*64]; zz += dctx[z]*dcty[z]; }
}
glhstep = glvstep = 0x7fffffff;
for(z=0;z<lnumcomponents;z++)
for(zz=0;zz<gnumcomponents;zz++)
if (lcompid[z] == gcompid[zz])
{
ldctptr[z] = dctptr[zz];
ldctx[z] = dctx[zz];
ldcty[z] = dcty[zz];
lcomphsamp[z] = gcomphsamp[zz];
lcompvsamp[z] = gcompvsamp[zz];
lcompquantab[z] = gcompquantab[zz];
if (!z)
{
lcomphsampshift0 = gcomphsampshift[zz];
lcompvsampshift0 = gcompvsampshift[zz];
}
lshx[z] = glhsampmax-gcomphsampshift[zz]+3;
lshy[z] = glvsampmax-gcompvsampshift[zz]+3;
if (gcomphsampshift[zz] < glhstep) glhstep = gcomphsampshift[zz];
if (gcompvsampshift[zz] < glvstep) glvstep = gcompvsampshift[zz];
}
glhstep = (ghsampmax>>glhstep); lcomphsamp[0] = min(lcomphsamp[0],glhstep); glhstep <<= 3;
glvstep = (gvsampmax>>glvstep); lcompvsamp[0] = min(lcompvsamp[0],glvstep); glvstep <<= 3;
lcomphvsamp0 = lcomphsamp[0]*lcompvsamp[0];
clipxdim = min(xdim+globxoffs,xres);
clipydim = min(ydim+globyoffs,yres);
if ((max(globxoffs,0) >= xres) || (min(globxoffs+xdim,xres) <= 0) ||
(max(globyoffs,0) >= yres) || (min(globyoffs+ydim,yres) <= 0))
{ if (dctbuf) free(dctbuf); return(0); }
Alut[0] = (1<<Al); Alut[1] = -Alut[0];
restartcnt = restartinterval; eobrun = 0; marker = 0xd0;
num = 0; curbits = 0;
for(y=0;y<ydim;y+=glvstep)
for(x=0;x<xdim;x+=glhstep)
{
if (kfileptr-4-(unsigned char *)kfilebuf >= kfilength) goto kpegrend_break2; //rest of file is missing!
if (!dctbuf) dc = dct[0];
for(c=0;c<lnumcomponents;c++)
{
hqval = &hufquickval[lcompac[c]+4][0];
hqbits = &hufquickbits[lcompac[c]+4][0];
hqcnt = hufquickcnt[lcompac[c]+4];
if (!dctbuf) quanptr = &quantab[lcompquantab[c]][0];
for(yy=0;yy<(lcompvsamp[c]<<3);yy+=8)
for(xx=0;xx<(lcomphsamp[c]<<3);xx+=8)
{ //NOTE: Might help to split this code into firstime vs. refinement (!Ah vs. Ah!=0)
if (dctbuf) dcs = &ldctptr[c][(((y+yy)>>lshy[c])*ldctx[c] + ((x+xx)>>lshx[c]))<<6];
//Get DC
if (!Ss)
{
while (curbits < 24) //Getbits
{
ch = *kfileptr++; if (ch == 255) kfileptr++;
num = (num<<8)+((long)ch); curbits += 8;
}
if (!Ah)
{
i = ((num>>(curbits-10))&1023);
if (i < hufquickcnt[lcompdc[c]])
{ daval = hufquickval[lcompdc[c]][i]; curbits -= hufquickbits[lcompdc[c]][i]; }
else { huffgetval(lcompdc[c],curbits,num,&daval,&dabits); curbits -= dabits; }
if (daval)
{
while (curbits < 24) //Getbits
{
ch = *kfileptr++; if (ch == 255) kfileptr++;
num = (num<<8)+((long)ch); curbits += 8;
}
curbits -= daval; v = ((unsigned)num >> curbits) & pow2mask[daval];
if (v <= pow2mask[daval-1]) v -= pow2mask[daval];
lastdc[c] += v;
}
if (!dctbuf) dc[0] = lastdc[c]; else dcs[0] = (short)(lastdc[c]<<Al);
}
else if (num&(pow2long[--curbits])) dcs[0] |= ((short)Alut[0]);
}
//Get AC
if (!dctbuf) memset((void *)&dc[1],0,63*4);
z = max(Ss,1); dcflag = 1;
if (eobrun <= 0)
{
for(;z<=Se;z++)
{
while (curbits < 24) //Getbits
{
ch = *kfileptr++; if (ch == 255) kfileptr++;
num = (num<<8)+((long)ch); curbits += 8;
}
i = ((num>>(curbits-10))&1023);
if (i < hqcnt)
{ daval = hqval[i]; curbits -= hqbits[i]; }
else { huffgetval(lcompac[c]+4,curbits,num,&daval,&dabits); curbits -= dabits; }
zz = (daval>>4); daval &= 15;
if (daval)
{
if (Ah)
{
//NOTE: Getbits not needed here - buffer should have enough bits
if (num&(pow2long[--curbits])) daval = Alut[0]; else daval = Alut[1];
}
}
else if (zz < 15)
{
eobrun = pow2long[zz];
if (zz)
{
while (curbits < 24) //Getbits
{
ch = *kfileptr++; if (ch == 255) kfileptr++;
num = (num<<8)+((long)ch); curbits += 8;
}
curbits -= zz; eobrun += ((unsigned)num >> curbits) & pow2mask[zz];
}
if (!Ah) eobrun--;
break;
}
if (Ah)
{
do
{
if (dcs[z])
{
while (curbits < 24) //Getbits
{
ch = *kfileptr++; if (ch == 255) kfileptr++;
num = (num<<8)+((long)ch); curbits += 8;
}
if (num&(pow2long[--curbits])) dcs[z] += ((short)Alut[dcs[z] < 0]);
} else if (--zz < 0) break;
z++;
} while (z <= Se);
if (daval) dcs[z] = daval;
}
else
{
z += zz; if (z > Se) break;
while (curbits < 24) //Getbits
{
ch = *kfileptr++; if (ch == 255) kfileptr++;
num = (num<<8)+((long)ch); curbits += 8;
}
curbits -= daval; v = ((unsigned)num >> curbits) & pow2mask[daval];
if (v <= pow2mask[daval-1]) v -= pow2mask[daval];
dcflag |= dcflagor[z];
if (!dctbuf) dc[unzig[z]] = v; else dcs[z] = (short)(v<<Al);
}
}
} else if (!Ah) eobrun--;
if ((Ah) && (eobrun > 0))
{
eobrun--;
for(;z<=Se;z++)
{
if (!dcs[z]) continue;
while (curbits < 24) //Getbits
{
ch = *kfileptr++; if (ch == 255) kfileptr++;
num = (num<<8)+((long)ch); curbits += 8;
}
if (num&(pow2long[--curbits])) dcs[z] += ((short)Alut[dcs[z] < 0]);
}
}
if (!dctbuf)
{
for(z=64-1;z>=0;z--) dc[z] *= quanptr[z];
invdct8x8(dc,dcflag); dc += 64;
}
}
}
if (!dctbuf) yrbrend(x,y);
restartcnt--;
if (!restartcnt)
{
kfileptr += 1-(curbits>>3); curbits = 0;
if ((kfileptr[-2] != 255) || (kfileptr[-1] != marker)) kfileptr--;
marker++; if (marker >= 0xd8) marker = 0xd0;
restartcnt = restartinterval;
for(i=0;i<4;i++) lastdc[i] = 0;
eobrun = 0;
}
}
kpegrend_break2:;
if (!dctbuf) return(0);
passcnt++; kfileptr -= ((curbits>>3)+1); break;
case 0xd9: break;
default: kfileptr += leng; break;
}
} while (kfileptr-(unsigned char *)kfilebuf < kfilength);
if (!dctbuf) return(0);
lnumcomponents = gnumcomponents;
for(i=0;i<gnumcomponents;i++)
{
lcomphsamp[i] = gcomphsamp[i]; gcomphsamp[i] <<= 3;
lcompvsamp[i] = gcompvsamp[i]; gcompvsamp[i] <<= 3;
lshx[i] = glhsampmax-gcomphsampshift[i]+3;
lshy[i] = glvsampmax-gcompvsampshift[i]+3;
}
lcomphsampshift0 = gcomphsampshift[0];
lcompvsampshift0 = gcompvsampshift[0];
lcomphvsamp0 = (lcomphsamp[0]<<lcompvsampshift0);
for(y=0;y<ydim;y+=gcompvsamp[0])
for(x=0;x<xdim;x+=gcomphsamp[0])
{
dc = dct[0];
for(c=0;c<gnumcomponents;c++)
for(yy=0;yy<gcompvsamp[c];yy+=8)
for(xx=0;xx<gcomphsamp[c];xx+=8,dc+=64)
{
dcs = &dctptr[c][(((y+yy)>>lshy[c])*dctx[c] + ((x+xx)>>lshx[c]))<<6];
quanptr = &quantab[gcompquantab[c]][0];
for(z=0;z<64;z++) dc[z] = ((long)dcs[zigit[z]])*quanptr[z];
invdct8x8(dc,-1);
}
yrbrend(x,y);
}
free(dctbuf); return(0);
}
//============================== KPEGILIB ends ==============================
//================================ GIF begins ================================
static unsigned char suffix[4100], filbuffer[768], tempstack[4096];
static long prefix[4100];
static long kgifrend (const char *kfilebuf, long kfilelength,
long daframeplace, long dabytesperline, long daxres, long dayres,
long daglobxoffs, long daglobyoffs)
{
long i, x, y, xsiz, ysiz, yinc, xend, xspan, yspan, currstr, numbitgoal;
long lzcols, dat, blocklen, bitcnt, xoff, yoff, transcol, backcol, *lptr;
char numbits, startnumbits, chunkind, ilacefirst;
const unsigned char *ptr, *cptr;
coltype = 3; bitdepth = 8; //For PNGOUT
if ((kfilebuf[0] != 'G') || (kfilebuf[1] != 'I') ||
(kfilebuf[2] != 'F') || (kfilebuf[12])) return(-1);
paleng = (1<<((kfilebuf[10]&7)+1));
ptr = (unsigned char *)&kfilebuf[13];
if (kfilebuf[10]&128) { cptr = ptr; ptr += paleng*3; }
transcol = -1;
while ((chunkind = *ptr++) == '!')
{ //! 0xf9 leng flags ?? ?? transcol
if (ptr[0] == 0xf9) { if (ptr[2]&1) transcol = (long)(((unsigned char)ptr[5])); }
ptr++;
do { i = *ptr++; ptr += i; } while (i);
}
if (chunkind != ',') return(-1);
xoff = SSWAPIB(*(unsigned short *)&ptr[0]);
yoff = SSWAPIB(*(unsigned short *)&ptr[2]);
xspan = SSWAPIB(*(unsigned short *)&ptr[4]);
yspan = SSWAPIB(*(unsigned short *)&ptr[6]); ptr += 9;
if (ptr[-1]&64) { yinc = 8; ilacefirst = 1; }
else { yinc = 1; ilacefirst = 0; }
if (ptr[-1]&128)
{
paleng = (1<<((ptr[-1]&7)+1));
cptr = ptr; ptr += paleng*3;
}
for(i=0;i<paleng;i++)
palcol[i] = LSWAPIB((((long)cptr[i*3])<<16) + (((long)cptr[i*3+1])<<8) + ((long)cptr[i*3+2]) + 0xff000000);
for(;i<256;i++) palcol[i] = LSWAPIB(0xff000000);
if (transcol >= 0) palcol[transcol] &= LSWAPIB(~0xff000000);
//Handle GIF files with different logical&image sizes or non-0 offsets (added 05/15/2004)
xsiz = SSWAPIB(*(unsigned short *)&kfilebuf[6]);
ysiz = SSWAPIB(*(unsigned short *)&kfilebuf[8]);
if ((xoff != 0) || (yoff != 0) || (xsiz != xspan) || (ysiz != yspan))
{
long xx[4], yy[4];
if (kfilebuf[10]&128) backcol = palcol[(unsigned char)kfilebuf[11]]; else backcol = 0;
//Fill border to backcol
xx[0] = max(daglobxoffs , 0); yy[0] = max(daglobyoffs , 0);
xx[1] = min(daglobxoffs+xoff ,daxres); yy[1] = min(daglobyoffs+yoff ,dayres);
xx[2] = max(daglobxoffs+xoff+xspan, 0); yy[2] = min(daglobyoffs+yoff+yspan,dayres);
xx[3] = min(daglobxoffs+xsiz ,daxres); yy[3] = min(daglobyoffs+ysiz ,dayres);
lptr = (long *)(yy[0]*dabytesperline+daframeplace);
for(y=yy[0];y<yy[1];y++,lptr=(long *)(((long)lptr)+dabytesperline))
for(x=xx[0];x<xx[3];x++) lptr[x] = backcol;
for(;y<yy[2];y++,lptr=(long *)(((long)lptr)+dabytesperline))
{ for(x=xx[0];x<xx[1];x++) lptr[x] = backcol;
for(x=xx[2];x<xx[3];x++) lptr[x] = backcol;
}
for(;y<yy[3];y++,lptr=(long *)(((long)lptr)+dabytesperline))
for(x=xx[0];x<xx[3];x++) lptr[x] = backcol;
daglobxoffs += xoff; //Offset bitmap image by extra amount
daglobyoffs += yoff;
}
xspan += daglobxoffs;
yspan += daglobyoffs; //UGLY HACK
y = daglobyoffs;
if ((unsigned long)y < (unsigned long)dayres)
{ yoff = y*dabytesperline+daframeplace; x = daglobxoffs; xend = xspan; }
else
{ x = daglobxoffs+0x80000000; xend = xspan+0x80000000; }
lzcols = (1<<(*ptr)); startnumbits = (char)((*ptr)+1); ptr++;
for(i=lzcols-1;i>=0;i--) { suffix[i] = (char)(prefix[i] = i); }
currstr = lzcols+2; numbits = startnumbits; numbitgoal = (lzcols<<1);
blocklen = *ptr++;
memcpy(filbuffer,ptr,blocklen); ptr += blocklen;
bitcnt = 0;
while (1)
{
dat = (LSWAPIB(*(long *)&filbuffer[bitcnt>>3])>>(bitcnt&7)) & (numbitgoal-1);
bitcnt += numbits;
if ((bitcnt>>3) > blocklen-3)
{
*(short *)filbuffer = *(short *)&filbuffer[bitcnt>>3];
i = blocklen-(bitcnt>>3);
blocklen = (long)*ptr++;
memcpy(&filbuffer[i],ptr,blocklen); ptr += blocklen;
bitcnt &= 7; blocklen += i;
}
if (dat == lzcols)
{
currstr = lzcols+2; numbits = startnumbits; numbitgoal = (lzcols<<1);
continue;
}
if ((currstr == numbitgoal) && (numbits < 12))
{ numbits++; numbitgoal <<= 1; }
prefix[currstr] = dat;
for(i=0;dat>=lzcols;dat=prefix[dat]) tempstack[i++] = suffix[dat];
tempstack[i] = (char)prefix[dat];
suffix[currstr-1] = suffix[currstr] = (char)dat;
for(;i>=0;i--)
{
if ((unsigned long)x < (unsigned long)daxres)
*(long *)(yoff+(x<<2)) = palcol[(long)tempstack[i]];
x++;
if (x == xend)
{
y += yinc;
if (y >= yspan)
switch(yinc)
{
case 8: if (!ilacefirst) { y = daglobyoffs+2; yinc = 4; break; }
ilacefirst = 0; y = daglobyoffs+4; yinc = 8; break;
case 4: y = daglobyoffs+1; yinc = 2; break;
case 2: case 1: return(0);
}
if ((unsigned long)y < (unsigned long)dayres)
{ yoff = y*dabytesperline+daframeplace; x = daglobxoffs; xend = xspan; }
else
{ x = daglobxoffs+0x80000000; xend = xspan+0x80000000; }
}
}
currstr++;
}
}
//=============================== GIF ends ==================================
//============================== CEL begins =================================
// //old .CEL format:
//short id = 0x9119, xdim, ydim, xoff, yoff, id = 0x0008;
//long imagebytes, filler[4];
//char pal6bit[256][3], image[ydim][xdim];
static long kcelrend (const char *buf, long fleng,
long daframeplace, long dabytesperline, long daxres, long dayres,
long daglobxoffs, long daglobyoffs)
{
long i, x, y, x0, x1, y0, y1, xsiz, ysiz;
const char *cptr;
if ((buf[0] != 0x19) || (buf[1] != 0x91) ||
(buf[10] != 8) || (buf[11] != 0)) return(-1);
coltype = 3; bitdepth = 8; paleng = 256; //For PNGOUT
xsiz = (long)SSWAPIB(*(unsigned short *)&buf[2]); if (xsiz <= 0) return(-1);
ysiz = (long)SSWAPIB(*(unsigned short *)&buf[4]); if (ysiz <= 0) return(-1);
cptr = &buf[32];
for(i=0;i<256;i++)
{
palcol[i] = (((long)cptr[0])<<18) +
(((long)cptr[1])<<10) +
(((long)cptr[2])<< 2) + LSWAPIB(0xff000000);
cptr += 3;
}
x0 = daglobyoffs; x1 = xsiz+daglobyoffs;
y0 = daglobyoffs; y1 = ysiz+daglobyoffs;
for(y=y0;y<y1;y++)
for(x=x0;x<x1;x++)
{
if (((unsigned long)x < (unsigned long)daxres) && ((unsigned long)y < (unsigned long)dayres))
*(long *)(y*dabytesperline+x*4+daframeplace) = palcol[cptr[0]];
cptr++;
}
return(0);
}
//=============================== CEL ends ==================================
//============================= TARGA begins ================================
static long ktgarend (const char *header, long fleng,
long daframeplace, long dabytesperline, long daxres, long dayres,
long daglobxoffs, long daglobyoffs)
{
long i, p, x, y, pi, xi, yi, x0, x1, y0, y1, xsiz, ysiz, rlestat, colbyte, pixbyte;
const unsigned char *fptr, *cptr, *nptr;
//Ugly and unreliable identification for .TGA!
if ((fleng < 20) || (header[1]&0xfe)) return(-1);
if ((header[2] >= 12) || (!((1<<header[2])&0xe0e))) return(-1);
if ((header[16]&7) || (header[16] == 0) || (header[16] > 32)) return(-1);
if (header[17]&0xc0) return(-1);
fptr = (unsigned char *)&header[header[0]+18];
xsiz = (long)SSWAPIB(*(unsigned short *)&header[12]); if (xsiz <= 0) return(-1);
ysiz = (long)SSWAPIB(*(unsigned short *)&header[14]); if (ysiz <= 0) return(-1);
colbyte = ((((long)header[16])+7)>>3);
if (header[1] == 1)
{
pixbyte = ((((long)header[7])+7)>>3);
cptr = &fptr[-SSWAPIB(*(unsigned short *)&header[3])*pixbyte];
fptr += SSWAPIB(*(unsigned short *)&header[5])*pixbyte;
} else pixbyte = colbyte;
switch(pixbyte) //For PNGOUT
{
case 1: coltype = 0; bitdepth = 8; palcol[0] = LSWAPIB(0xff000000);
for(i=1;i<256;i++) palcol[i] = palcol[i-1]+LSWAPIB(0x10101); break;
case 2: case 3: coltype = 2; break;
case 4: coltype = 6; break;
}
if (!(header[17]&16)) { x0 = 0; x1 = xsiz; xi = 1; }
else { x0 = xsiz-1; x1 = -1; xi =-1; }
if (header[17]&32) { y0 = 0; y1 = ysiz; yi = 1; pi = dabytesperline; }
else { y0 = ysiz-1; y1 = -1; yi =-1; pi =-dabytesperline; }
x0 += daglobxoffs; y0 += daglobyoffs;
x1 += daglobxoffs; y1 += daglobyoffs;
if (header[2] < 8) rlestat = -2; else rlestat = -1;
p = y0*dabytesperline+daframeplace;
for(y=y0;y!=y1;y+=yi,p+=pi)
for(x=x0;x!=x1;x+=xi)
{
if (rlestat < 128)
{
if ((rlestat&127) == 127) { rlestat = (long)fptr[0]; fptr++; }
if (header[1] == 1)
{
if (colbyte == 1) i = fptr[0];
else i = (long)SSWAPIB(*(unsigned short *)&fptr[0]);
nptr = &cptr[i*pixbyte];
} else nptr = fptr;
switch(pixbyte)
{
case 1: i = palcol[(long)nptr[0]]; break;
case 2: i = (long)SSWAPIB(*(unsigned short *)&nptr[0]);
i = LSWAPIB(((i&0x7c00)<<9) + ((i&0x03e0)<<6) + ((i&0x001f)<<3) + 0xff000000);
break;
case 3: i = (*(long *)&nptr[0]) | LSWAPIB(0xff000000); break;
case 4: i = (*(long *)&nptr[0]); break;
}
fptr += colbyte;
}
if (rlestat >= 0) rlestat--;
if (((unsigned long)x < (unsigned long)daxres) && ((unsigned long)y < (unsigned long)dayres))
*(long *)(x*4+p) = i;
}
return(0);
}
//============================== TARGA ends =================================
//============================== BMP begins =================================
//TODO: handle BI_RLE8 and BI_RLE4 (compression types 1&2 respectively)
// <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ä¿
// <20> 0(2): "BM" <20>
// <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ä¿<EFBFBD> 10(4): rastoff<66> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ä¿
// <20>headsiz=12 (OS/2 1.x)<29><> 14(4): headsiz<69> <20> All new formats: <20>
//<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ä¿
//<2F> 18(2): xsiz <20> 18(4): xsiz <20>
//<2F> 20(2): ysiz <20> 22(4): ysiz <20>
//<2F> 22(2): planes (always 1) <20> 26(2): planes (always 1) <20>
//<2F> 24(2): cdim (1,4,8,24) <20> 28(2): cdim (1,4,8,16,24,32) <20>
//<2F> if (cdim < 16) <20> 30(4): compression (0,1,2,3!?,4) <20>
//<2F> 26(rastoff-14-headsiz): pal(bgr) <20> 34(4): (bitmap data size+3)&3 <20>
//<2F> <20> 46(4): N colors (0=2^cdim) <20>
//<2F> <20> if (cdim < 16) <20>
//<2F> <20> 14+headsiz(rastoff-14-headsiz): pal(bgr0) <20>
//<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
// <20> rastoff(?): bitmap data <20>
// <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
static long kbmprend (const char *buf, long fleng,
long daframeplace, long dabytesperline, long daxres, long dayres,
long daglobxoffs, long daglobyoffs)
{
long i, j, x, y, x0, x1, y0, y1, rastoff, headsiz, xsiz, ysiz, cdim, comp, cptrinc, *lptr;
const char *cptr;
headsiz = *(long *)&buf[14];
if (headsiz == LSWAPIB(12)) //OS/2 1.x (old format)
{
if (*(short *)(&buf[22]) != SSWAPIB(1)) return(-1);
xsiz = (long)SSWAPIB(*(unsigned short *)&buf[18]);
ysiz = (long)SSWAPIB(*(unsigned short *)&buf[20]);
cdim = (long)SSWAPIB(*(unsigned short *)&buf[24]);
comp = 0;
}
else //All newer formats...
{
if (*(short *)(&buf[26]) != SSWAPIB(1)) return(-1);
xsiz = LSWAPIB(*(long *)&buf[18]);
ysiz = LSWAPIB(*(long *)&buf[22]);
cdim = (long)SSWAPIB(*(unsigned short *)&buf[28]);
comp = LSWAPIB(*(long *)&buf[30]);
}
if ((xsiz <= 0) || (!ysiz)) return(-1);
//cdim must be: (1,4,8,16,24,32)
if (((unsigned long)(cdim-1) >= (unsigned long)32) || (!((1<<cdim)&0x1010113))) return(-1);
if ((comp != 0) && (comp != 3)) return(-1);
rastoff = LSWAPIB(*(long *)&buf[10]);
if (cdim < 16)
{
if (cdim == 2) { palcol[0] = 0xffffffff; palcol[1] = LSWAPIB(0xff000000); }
if (headsiz == LSWAPIB(12)) j = 3; else j = 4;
for(i=0,cptr=&buf[headsiz+14];cptr<&buf[rastoff];i++,cptr+=j)
palcol[i] = ((*(long *)&cptr[0])|LSWAPIB(0xff000000));
coltype = 3; bitdepth = cdim; paleng = i; //For PNGOUT
}
else if (!(cdim&15))
{
coltype = 2;
switch(cdim)
{
case 16: palcol[0] = 10; palcol[1] = 5; palcol[2] = 0; palcol[3] = 5; palcol[4] = 5; palcol[5] = 5; break;
case 32: palcol[0] = 16; palcol[1] = 8; palcol[2] = 0; palcol[3] = 8; palcol[4] = 8; palcol[5] = 8; break;
}
if (comp == 3) //BI_BITFIELD (RGB masks)
{
for(i=0;i<3;i++)
{
j = *(long *)&buf[headsiz+(i<<2)+14];
for(palcol[i]=0;palcol[i]<32;palcol[i]++)
{
if (j&1) break;
j = (((unsigned long)j)>>1);
}
for(palcol[i+3]=0;palcol[i+3]<32;palcol[i+3]++)
{
if (!(j&1)) break;
j = (((unsigned long)j)>>1);
}
}
}
palcol[0] = 24-(palcol[0]+palcol[3]);
palcol[1] = 16-(palcol[1]+palcol[4]);
palcol[2] = 8-(palcol[2]+palcol[5]);
palcol[3] = ((-1<<(24-palcol[3]))&0x00ff0000);
palcol[4] = ((-1<<(16-palcol[4]))&0x0000ff00);
palcol[5] = ((-1<<( 8-palcol[5]))&0x000000ff);
}
cptrinc = (((xsiz*cdim+31)>>3)&~3); cptr = &buf[rastoff];
if (ysiz < 0) { ysiz = -ysiz; } else { cptr = &cptr[(ysiz-1)*cptrinc]; cptrinc = -cptrinc; }
x0 = daglobxoffs; x1 = xsiz+daglobxoffs;
y0 = daglobyoffs; y1 = ysiz+daglobyoffs;
if ((x0 >= daxres) || (x1 <= 0) || (y0 >= dayres) || (y1 <= 0)) return(0);
if (x0 < 0) x0 = 0;
if (x1 > daxres) x1 = daxres;
for(y=y0;y<y1;y++,cptr=&cptr[cptrinc])
{
if ((unsigned long)y >= (unsigned long)dayres) continue;
lptr = (long *)(y*dabytesperline-(daglobyoffs<<2)+daframeplace);
switch(cdim)
{
case 1: for(x=x0;x<x1;x++) lptr[x] = palcol[(long)((cptr[x>>3]>>((x&7)^7))&1)]; break;
case 4: for(x=x0;x<x1;x++) lptr[x] = palcol[(long)((cptr[x>>1]>>(((x&1)^1)<<2))&15)]; break;
case 8: for(x=x0;x<x1;x++) lptr[x] = palcol[(long)(cptr[x])]; break;
case 16: for(x=x0;x<x1;x++)
{
i = ((long)(*(short *)&cptr[x<<1]));
lptr[x] = (_lrotl(i,palcol[0])&palcol[3]) +
(_lrotl(i,palcol[1])&palcol[4]) +
(_lrotl(i,palcol[2])&palcol[5]) + LSWAPIB(0xff000000);
} break;
case 24: for(x=x0;x<x1;x++) lptr[x] = ((*(long *)&cptr[x*3])|LSWAPIB(0xff000000)); break;
case 32: for(x=x0;x<x1;x++)
{
i = (*(long *)&cptr[x<<2]);
lptr[x] = (_lrotl(i,palcol[0])&palcol[3]) +
(_lrotl(i,palcol[1])&palcol[4]) +
(_lrotl(i,palcol[2])&palcol[5]) + LSWAPIB(0xff000000);
} break;
}
}
return(0);
}
//Note: currently only supports 8 and 24 bit PCX
static long kpcxrend (const char *buf, long fleng,
long daframeplace, long dabytesperline, long daxres, long dayres,
long daglobxoffs, long daglobyoffs)
{
long i, j, x, y, p, nplanes, x0, x1, y0, y1, xsiz, ysiz;
unsigned char c, *cptr;
if (*(long *)buf != LSWAPIB(0x0801050a)) return(-1);
xsiz = SSWAPIB(*(short *)&buf[ 8])-SSWAPIB(*(short *)&buf[4])+1; if (xsiz <= 0) return(-1);
ysiz = SSWAPIB(*(short *)&buf[10])-SSWAPIB(*(short *)&buf[6])+1; if (ysiz <= 0) return(-1);
//buf[3]: bpp/plane:{1,2,4,8}
//bpl = *(short *)&buf[66]; //#bytes per scanline. Must be EVEN. May have unused data.
//nplanes*bpl bytes per scanline; always be decoding break at the end of scan line
nplanes = buf[65];
if (nplanes == 1)
{
//if (buf[fleng-769] != 12) return(-1); //Some PCX are buggy!
cptr = (unsigned char *)&buf[fleng-768];
for(i=0;i<256;i++)
{
palcol[i] = (((long)cptr[0])<<16) +
(((long)cptr[1])<< 8) +
(((long)cptr[2]) ) + LSWAPIB(0xff000000);
cptr += 3;
}
coltype = 3; bitdepth = 8; paleng = 256; //For PNGOUT
}
else if (nplanes == 3)
{
coltype = 2;
//Make sure background is opaque (since 24-bit PCX renderer doesn't do it)
x0 = max(daglobxoffs,0); x1 = min(xsiz+daglobxoffs,daxres);
y0 = max(daglobyoffs,0); y1 = min(ysiz+daglobyoffs,dayres);
i = y0*dabytesperline + daframeplace+3;
for(y=y0;y<y1;y++,i+=dabytesperline)
for(x=x0;x<x1;x++) *(char *)((x<<2)+i) = 255;
}
x = x0 = daglobxoffs; x1 = xsiz+daglobxoffs;
y = y0 = daglobyoffs; y1 = ysiz+daglobyoffs;
cptr = (unsigned char *)&buf[128];
p = y*dabytesperline+daframeplace;
j = nplanes-1; daxres <<= 2; x0 <<= 2; x1 <<= 2; x <<= 2; x += j;
if (nplanes == 1) //8-bit PCX
{
do
{
c = *cptr++; if (c < 192) i = 1; else { i = (c&63); c = *cptr++; }
j = palcol[(long)c];
for(;i;i--)
{
if ((unsigned long)y < (unsigned long)dayres)
if ((unsigned long)x < (unsigned long)daxres) *(long *)(x+p) = j;
x += 4; if (x >= x1) { x = x0; y++; p += dabytesperline; }
}
} while (y < y1);
}
else if (nplanes == 3) //24-bit PCX
{
do
{
c = *cptr++; if (c < 192) i = 1; else { i = (c&63); c = *cptr++; }
for(;i;i--)
{
if ((unsigned long)y < (unsigned long)dayres)
if ((unsigned long)x < (unsigned long)daxres) *(char *)(x+p) = c;
x += 4; if (x >= x1) { j--; if (j < 0) { j = 3-1; y++; p += dabytesperline; } x = x0+j; }
}
} while (y < y1);
}
return(0);
}
//=============================== BMP ends ==================================
//=================== External picture interface begins ======================
void kpgetdim (const char *buf, long leng, long *xsiz, long *ysiz)
{
long *lptr;
const unsigned char *cptr;
unsigned char *ubuf = (unsigned char *)buf;
(*xsiz) = (*ysiz) = 0; if (leng < 16) return;
if ((ubuf[0] == 0x89) && (ubuf[1] == 0x50)) //.PNG
{
lptr = (long *)buf;
if ((lptr[0] != LSWAPIB(0x474e5089)) || (lptr[1] != LSWAPIB(0x0a1a0a0d))) return;
lptr = &lptr[2];
while (((unsigned long)lptr-(unsigned long)buf) < (unsigned long)(leng-16))
{
if (lptr[1] == LSWAPIB(0x52444849)) //IHDR
{ (*xsiz) = LSWAPIL(lptr[2]); (*ysiz) = LSWAPIL(lptr[3]); break; }
lptr = (long *)((long)lptr + LSWAPIL(lptr[0]) + 12);
}
}
else if ((ubuf[0] == 0xff) && (ubuf[1] == 0xd8)) //.JPG
{
cptr = (unsigned char *)&buf[2];
while (((unsigned long)cptr-(unsigned long)buf) < (unsigned long)(leng-8))
{
if (cptr[0] != 255) { cptr = &cptr[1]; continue; }
if ((unsigned long)(cptr[1]-0xc0) < 3)
{
(*ysiz) = SSWAPIL(*(unsigned short *)&cptr[5]);
(*xsiz) = SSWAPIL(*(unsigned short *)&cptr[7]);
break;
}
cptr = &cptr[SSWAPIL(*(unsigned short *)&cptr[2])+2];
}
}
else if ((ubuf[0] == 'G') && (ubuf[1] == 'I') && (ubuf[2] == 'F') && (ubuf[12] == 0)) //.GIF
{
(*xsiz) = (long)SSWAPIB(*(unsigned short *)&buf[6]);
(*ysiz) = (long)SSWAPIB(*(unsigned short *)&buf[8]);
}
else if ((ubuf[0] == 0x19) && (ubuf[1] == 0x91) && (ubuf[10] == 8) && (ubuf[11] == 0)) //old .CEL/.PIC
{
(*xsiz) = (long)SSWAPIB(*(unsigned short *)&buf[2]);
(*ysiz) = (long)SSWAPIB(*(unsigned short *)&buf[4]);
}
else if ((ubuf[0] == 'B') && (ubuf[1] == 'M')) //.BMP
{
if (*(long *)(&buf[14]) == LSWAPIB(12)) //OS/2 1.x (old format)
{
if (*(short *)(&buf[22]) != SSWAPIB(1)) return;
(*xsiz) = (long)SSWAPIB(*(unsigned short *)&buf[18]);
(*ysiz) = (long)SSWAPIB(*(unsigned short *)&buf[20]);
}
else //All newer formats...
{
if (*(short *)(&buf[26]) != SSWAPIB(1)) return;
(*xsiz) = LSWAPIB(*(long *)&buf[18]);
(*ysiz) = LSWAPIB(*(long *)&buf[22]);
}
}
else if (*(long *)ubuf == LSWAPIB(0x0801050a)) //.PCX
{
(*xsiz) = SSWAPIB(*(short *)&buf[ 8])-SSWAPIB(*(short *)&buf[4])+1;
(*ysiz) = SSWAPIB(*(short *)&buf[10])-SSWAPIB(*(short *)&buf[6])+1;
}
else
{ //Unreliable .TGA identification - this MUST be final case!
if ((leng >= 20) && (!(ubuf[1]&0xfe)))
if ((ubuf[2] < 12) && ((1<<ubuf[2])&0xe0e))
if ((!(ubuf[16]&7)) && (ubuf[16] != 0) && (ubuf[16] <= 32))
if (!(buf[17]&0xc0))
{
(*xsiz) = (long)SSWAPIB(*(unsigned short *)&buf[12]);
(*ysiz) = (long)SSWAPIB(*(unsigned short *)&buf[14]);
}
}
}
long kprender (const char *buf, long leng, long frameptr, long bpl,
long xdim, long ydim, long xoff, long yoff)
{
unsigned char *ubuf = (unsigned char *)buf;
if ((ubuf[0] == 0x89) && (ubuf[1] == 0x50)) //.PNG
return(kpngrend(buf,leng,frameptr,bpl,xdim,ydim,xoff,yoff));
if ((ubuf[0] == 0xff) && (ubuf[1] == 0xd8)) //.JPG
return(kpegrend(buf,leng,frameptr,bpl,xdim,ydim,xoff,yoff));
if ((ubuf[0] == 'G') && (ubuf[1] == 'I') && (ubuf[2] == 'F')) //.GIF
return(kgifrend(buf,leng,frameptr,bpl,xdim,ydim,xoff,yoff));
if ((ubuf[0] == 0x19) && (ubuf[1] == 0x91) && (ubuf[10] == 8) && (ubuf[11] == 0)) //old .CEL/.PIC
return(kcelrend(buf,leng,frameptr,bpl,xdim,ydim,xoff,yoff));
if ((ubuf[0] == 'B') && (ubuf[1] == 'M')) //.BMP
return(kbmprend(buf,leng,frameptr,bpl,xdim,ydim,xoff,yoff));
if (*(long *)ubuf == LSWAPIB(0x0801050a)) //.PCX
return(kpcxrend(buf,leng,frameptr,bpl,xdim,ydim,xoff,yoff));
//Unreliable .TGA identification - this MUST be final case!
if ((leng >= 20) && (!(ubuf[1]&0xfe)))
if ((ubuf[2] < 12) && ((1<<ubuf[2])&0xe0e))
if ((!(ubuf[16]&7)) && (ubuf[16] != 0) && (ubuf[16] <= 32))
if (!(ubuf[17]&0xc0))
return(ktgarend(buf,leng,frameptr,bpl,xdim,ydim,xoff,yoff));
return(-1);
}
//==================== External picture interface ends =======================
//Brute-force case-insensitive, slash-insensitive, * and ? wildcard matcher
//Given: string i and string j. string j can have wildcards
//Returns: 1:matches, 0:doesn't match
static long wildmatch (const char *i, const char *j)
{
const char *k;
char c0, c1;
if (!*j) return(1);
do
{
if (*j == '*')
{
for(k=i,j++;*k;k++) if (wildmatch(k,j)) return(1);
continue;
}
if (!*i) return(0);
if (*j == '?') { i++; j++; continue; }
c0 = *i; if ((c0 >= 'a') && (c0 <= 'z')) c0 -= 32;
c1 = *j; if ((c1 >= 'a') && (c1 <= 'z')) c1 -= 32;
if (c0 == '/') c0 = '\\';
if (c1 == '/') c1 = '\\';
if (c0 != c1) return(0);
i++; j++;
} while (*j);
return(!*i);
}
//Same as: stricmp(st0,st1) except: '/' == '\'
static long filnamcmp (const char *st0, const char *st1)
{
long i;
char ch0, ch1;
for(i=0;st0[i];i++)
{
ch0 = st0[i]; if ((ch0 >= 'a') && (ch0 <= 'z')) ch0 -= 32;
ch1 = st1[i]; if ((ch1 >= 'a') && (ch1 <= 'z')) ch1 -= 32;
if (ch0 == '/') ch0 = '\\';
if (ch1 == '/') ch1 = '\\';
if (ch0 != ch1) return(-1);
}
if (!st1[i]) return(0);
return(-1);
}
//===================== ZIP decompression code begins ========================
//format: (used by kzaddstack/kzopen to cache file name&start info)
//[char zipnam[?]\0]
//[next hashindex/-1][next index/-1][zipnam index][zipseek][char filnam[?]\0]
//[next hashindex/-1][next index/-1][zipnam index][zipseek][char filnam[?]\0]
//...
//[char zipnam[?]\0]
//[next hashindex/-1][next index/-1][zipnam index][zipseek][char filnam[?]\0]
//[next hashindex/-1][next index/-1][zipnam index][zipseek][char filnam[?]\0]
//...
#define KZHASHINITSIZE 8192
static char *kzhashbuf = 0;
static long kzhashead[256], kzhashpos, kzlastfnam, kzhashsiz;
static long kzcheckhashsiz (long siz)
{
long i;
if (!kzhashbuf) //Initialize hash table on first call
{
memset(kzhashead,-1,sizeof(kzhashead));
kzhashbuf = (char *)malloc(KZHASHINITSIZE); if (!kzhashbuf) return(0);
kzhashpos = 0; kzlastfnam = -1; kzhashsiz = KZHASHINITSIZE;
}
if (kzhashpos+siz > kzhashsiz) //Make sure string fits in kzhashbuf
{
i = kzhashsiz; do { i <<= 1; } while (kzhashpos+siz > i);
kzhashbuf = (char *)realloc(kzhashbuf,i); if (!kzhashbuf) return(0);
kzhashsiz = i;
}
return(1);
}
static long kzcalchash (const char *st)
{
long i, hashind;
char ch;
for(i=0,hashind=0;st[i];i++)
{
ch = st[i];
if ((ch >= 'a') && (ch <= 'z')) ch -= 32;
if (ch == '/') ch = '\\';
hashind = (ch - hashind*3);
}
return(hashind%(sizeof(kzhashead)/sizeof(kzhashead[0])));
}
static long kzcheckhash (const char *filnam, char **zipnam, long *zipseek)
{
long i;
if (!kzhashbuf) return(0);
if (filnam[0] == '|') filnam++;
for(i=kzhashead[kzcalchash(filnam)];i>=0;i=(*(long *)&kzhashbuf[i]))
if (!filnamcmp(filnam,&kzhashbuf[i+16]))
{
(*zipnam) = &kzhashbuf[*(long *)&kzhashbuf[i+8]];
(*zipseek) = *(long *)&kzhashbuf[i+12];
return(1);
}
return(0);
}
void kzuninit ()
{
if (kzhashbuf) { free(kzhashbuf); kzhashbuf = 0; }
kzhashpos = kzhashsiz = 0;
}
//Load ZIP directory into memory (hash) to allow fast access later
long kzaddstack (const char *zipnam)
{
FILE *fil;
long i, j, hashind, zipnamoffs, numfiles;
char tempbuf[260+46];
fil = fopen(zipnam,"rb"); if (!fil) return(-1);
//Write ZIP filename to hash
i = strlen(zipnam)+1; if (!kzcheckhashsiz(i)) { fclose(fil); return(-1); }
strcpy(&kzhashbuf[kzhashpos],zipnam);
zipnamoffs = kzhashpos; kzhashpos += i;
fseek(fil,-22,SEEK_END);
fread(tempbuf,22,1,fil);
if (*(long *)&tempbuf[0] == LSWAPIB(0x06054b50)) //Fast way of finding dir info
{
numfiles = SSWAPIB(*(short *)&tempbuf[10]);
fseek(fil,LSWAPIB(*(long *)&tempbuf[16]),SEEK_SET);
}
else //Slow way of finding dir info (used when ZIP has junk at end)
{
fseek(fil,0,SEEK_SET); numfiles = 0;
while (1)
{
if (!fread(&j,4,1,fil)) { numfiles = -1; break; }
if (j == LSWAPIB(0x02014b50)) break; //Found central file header :)
if (j != LSWAPIB(0x04034b50)) { numfiles = -1; break; }
fread(tempbuf,26,1,fil);
fseek(fil,LSWAPIB(*(long *)&tempbuf[14]) + SSWAPIB(*(short *)&tempbuf[24]) + SSWAPIB(*(short *)&tempbuf[22]),SEEK_CUR);
numfiles++;
}
if (numfiles < 0) { fclose(fil); return(-1); }
fseek(fil,-4,SEEK_CUR);
}
for(i=0;i<numfiles;i++)
{
fread(tempbuf,46,1,fil);
if (*(long *)&tempbuf[0] != LSWAPIB(0x02014b50)) { fclose(fil); return(0); }
j = SSWAPIB(*(short *)&tempbuf[28]); //filename length
fread(&tempbuf[46],j,1,fil);
tempbuf[j+46] = 0;
//Write information into hash
j = strlen(&tempbuf[46])+17; if (!kzcheckhashsiz(j)) { fclose(fil); return(-1); }
hashind = kzcalchash(&tempbuf[46]);
*(long *)&kzhashbuf[kzhashpos] = kzhashead[hashind];
*(long *)&kzhashbuf[kzhashpos+4] = kzlastfnam;
*(long *)&kzhashbuf[kzhashpos+8] = zipnamoffs;
*(long *)&kzhashbuf[kzhashpos+12] = LSWAPIB(*(long *)&tempbuf[42]); //zipseek
strcpy(&kzhashbuf[kzhashpos+16],&tempbuf[46]);
kzhashead[hashind] = kzhashpos; kzlastfnam = kzhashpos; kzhashpos += j;
j = SSWAPIB(*(short *)&tempbuf[30]); //extra field length
j += SSWAPIB(*(short *)&tempbuf[32]); //file comment length
fseek(fil,j,SEEK_CUR);
}
fclose(fil);
return(0);
}
long kzopen (const char *filnam)
{
FILE *fil;
long zipseek;
char tempbuf[46+260], *zipnam;
//kzfs.fil = 0;
if (filnam[0] != '|')
{
kzfs.fil = fopen(filnam,"rb");
if (kzfs.fil)
{
kzfs.comptyp = 0;
kzfs.seek0 = 0;
kzfs.leng = filelength(_fileno(kzfs.fil));
kzfs.pos = 0;
kzfs.i = 0;
return((long)kzfs.fil);
}
}
if (kzcheckhash(filnam,&zipnam,&zipseek))
{
fil = fopen(zipnam,"rb"); if (!fil) return(0);
fseek(fil,zipseek,SEEK_SET);
fread(tempbuf,30,1,fil);
if (*(long *)&tempbuf[0] != LSWAPIB(0x04034b50)) { fclose(fil); return(0); }
fseek(fil,SSWAPIB(*(short *)&tempbuf[26])+SSWAPIB(*(short *)&tempbuf[28]),SEEK_CUR);
kzfs.fil = fil;
kzfs.comptyp = SSWAPIB(*(short *)&tempbuf[8]);
kzfs.seek0 = ftell(fil);
kzfs.leng = LSWAPIB(*(long *)&tempbuf[22]);
kzfs.pos = 0;
switch(kzfs.comptyp) //Compression method
{
case 0: kzfs.i = 0; return((long)kzfs.fil);
case 8:
if (!pnginited) { pnginited = 1; initpngtables(); }
kzfs.comptell = 0;
kzfs.compleng = LSWAPIB(*(long *)&tempbuf[18]);
//WARNING: No file in ZIP can be > 2GB-32K bytes
gslidew = 0x7fffffff; //Force reload at beginning
return((long)kzfs.fil);
default: fclose(kzfs.fil); kzfs.fil = 0; return(0);
}
}
return(0);
}
// --------------------------------------------------------------------------
static long srchstat = -1, wildstpathleng;
#if defined(__DOS__)
static char wildst[260] = "";
static struct find_t findata;
#elif defined(_WIN32)
static char wildst[MAX_PATH] = "";
static HANDLE hfind = INVALID_HANDLE_VALUE;
static WIN32_FIND_DATA findata;
#else
static char wildst[260] = "";
static DIR *hfind = NULL;
static struct dirent *findata = NULL;
#endif
void kzfindfilestart (const char *st)
{
#ifdef _WIN32
if (hfind != INVALID_HANDLE_VALUE)
{ FindClose(hfind); hfind = INVALID_HANDLE_VALUE; }
#else
if (hfind) { closedir(hfind); hfind = NULL; }
#endif
strcpy(wildst,st);
srchstat = -3;
}
long kzfindfile (char *filnam)
{
long i;
filnam[0] = 0;
if (srchstat == -3)
{
if (!wildst[0]) { srchstat = -1; return(0); }
do
{
srchstat = -2;
//Extract directory from wildcard string for pre-pending
wildstpathleng = 0;
for(i=0;wildst[i];i++)
if ((wildst[i] == '/') || (wildst[i] == '\\'))
wildstpathleng = i+1;
memcpy(filnam,wildst,wildstpathleng);
#if defined(__DOS__)
if (_dos_findfirst(wildst,_A_SUBDIR,&findata))
{ if (!kzhashbuf) return(0); srchstat = kzlastfnam; continue; }
i = wildstpathleng;
if (findata.attrib&16)
if ((findata.name[0] == '.') && (!findata.name[1])) continue;
strcpy(&filnam[i],findata.name);
if (findata.attrib&16) strcat(&filnam[i],"\\");
#elif defined(_WIN32)
hfind = FindFirstFile(wildst,&findata);
if (hfind == INVALID_HANDLE_VALUE)
{ if (!kzhashbuf) return(0); srchstat = kzlastfnam; continue; }
if (findata.dwFileAttributes&FILE_ATTRIBUTE_HIDDEN) continue;
i = wildstpathleng;
if (findata.dwFileAttributes&FILE_ATTRIBUTE_DIRECTORY)
if ((findata.cFileName[0] == '.') && (!findata.cFileName[1])) continue;
strcpy(&filnam[i],findata.cFileName);
if (findata.dwFileAttributes&FILE_ATTRIBUTE_DIRECTORY) strcat(&filnam[i],"\\");
#else
if (!hfind)
{
char *s = ".";
if (wildstpathleng > 0) {
filnam[wildstpathleng] = 0;
s = filnam;
}
hfind = opendir(s);
if (!hfind) { if (!kzhashbuf) return 0; srchstat = kzlastfnam; continue; }
}
break; // process srchstat == -2
#endif
return(1);
} while (0);
}
if (srchstat == -2)
while (1)
{
memcpy(filnam,wildst,wildstpathleng);
#if defined(__DOS__)
if (_dos_findnext(&findata))
{ if (!kzhashbuf) return(0); srchstat = kzlastfnam; break; }
i = wildstpathleng;
if (findata.attrib&16)
if ((findata.name[0] == '.') && (!findata.name[1])) continue;
strcpy(&filnam[i],findata.name);
if (findata.attrib&16) strcat(&filnam[i],"\\");
#elif defined(_WIN32)
if (!FindNextFile(hfind,&findata))
{ FindClose(hfind); if (!kzhashbuf) return(0); srchstat = kzlastfnam; break; }
if (findata.dwFileAttributes&FILE_ATTRIBUTE_HIDDEN) continue;
i = wildstpathleng;
if (findata.dwFileAttributes&FILE_ATTRIBUTE_DIRECTORY)
if ((findata.cFileName[0] == '.') && (!findata.cFileName[1])) continue;
strcpy(&filnam[i],findata.cFileName);
if (findata.dwFileAttributes&FILE_ATTRIBUTE_DIRECTORY) strcat(&filnam[i],"\\");
#else
{
struct stat st;
if ((findata = readdir(hfind)) == NULL)
{ closedir(hfind); hfind = NULL; if (!kzhashbuf) return 0; srchstat = kzlastfnam; break; }
i = wildstpathleng;
strcpy(&filnam[i],findata->d_name);
if (stat(filnam,&st) < 0) continue;
if (st.st_mode & S_IFDIR)
{ if (findata->d_name[0] == '.' && !findata->d_name[1]) continue; } //skip .
else if ((st.st_mode & S_IFREG) || (st.st_mode & S_IFLNK))
{ if (findata->d_name[0] == '.') continue; } //skip hidden (dot) files
else continue; //skip devices and fifos and such
if (!wildmatch(findata->d_name,&wildst[wildstpathleng])) continue;
if (st.st_mode & S_IFDIR) strcat(&filnam[i],"/");
}
#endif
return(1);
}
while (srchstat >= 0)
{
if (wildmatch(&kzhashbuf[srchstat+16],wildst))
{
//strcpy(filnam,&kzhashbuf[srchstat+16]);
filnam[0] = '|'; strcpy(&filnam[1],&kzhashbuf[srchstat+16]);
srchstat = *(long *)&kzhashbuf[srchstat+4];
return(1);
}
srchstat = *(long *)&kzhashbuf[srchstat+4];
}
return(0);
}
//File searching code (supports inside ZIP files!) How to use this code:
// char filnam[MAX_PATH];
// kzfindfilestart("vxl/*.vxl");
// while (kzfindfile(filnam)) puts(filnam);
//NOTES:
// * Directory names end with '\' or '/' (depending on system)
// * Files inside zip begin with '|'
// --------------------------------------------------------------------------
static char *gzbufptr;
static void putbuf4zip (const unsigned char *buf, long uncomp0, long uncomp1)
{
long i0, i1;
// uncomp0 ... uncomp1
// &gzbufptr[kzfs.pos] ... &gzbufptr[kzfs.endpos];
i0 = max(uncomp0,kzfs.pos);
i1 = min(uncomp1,kzfs.endpos);
if (i0 < i1) memcpy(&gzbufptr[i0],&buf[i0-uncomp0],i1-i0);
}
//returns number of bytes copied
long kzread (void *buffer, long leng)
{
long i, j, k, bfinal, btype, hlit, hdist;
if ((!kzfs.fil) || (leng <= 0)) return(0);
if (kzfs.comptyp == 0)
{
if (kzfs.pos != kzfs.i) //Seek only when position changes
fseek(kzfs.fil,kzfs.seek0+kzfs.pos,SEEK_SET);
i = min(kzfs.leng-kzfs.pos,leng);
fread(buffer,i,1,kzfs.fil);
kzfs.i += i; //kzfs.i is a local copy of ftell(kzfs.fil);
}
else if (kzfs.comptyp == 8)
{
zipfilmode = 1;
//Initialize for putbuf4zip
gzbufptr = (char *)buffer; gzbufptr = &gzbufptr[-kzfs.pos];
kzfs.endpos = min(kzfs.pos+leng,kzfs.leng);
if (kzfs.endpos == kzfs.pos) return(0); //Guard against reading 0 length
if (kzfs.pos < gslidew-32768) // Must go back to start :(
{
if (kzfs.comptell) fseek(kzfs.fil,kzfs.seek0,SEEK_SET);
gslidew = 0; gslider = 16384;
kzfs.jmpplc = 0;
//Initialize for suckbits/peekbits/getbits
kzfs.comptell = min((unsigned)kzfs.compleng,sizeof(olinbuf));
fread(&olinbuf[0],kzfs.comptell,1,kzfs.fil);
//Make it re-load when there are < 32 bits left in FIFO
bitpos = -(((long)sizeof(olinbuf)-4)<<3);
//Identity: filptr + (bitpos>>3) = &olinbuf[0]
filptr = &olinbuf[-(bitpos>>3)];
}
else
{
i = max(gslidew-32768,0); j = gslider-16384;
//HACK: Don't unzip anything until you have to...
// (keeps file pointer as low as possible)
if (kzfs.endpos <= gslidew) j = kzfs.endpos;
//write uncompoffs on slidebuf from: i to j
if (!((i^j)&32768))
putbuf4zip(&slidebuf[i&32767],i,j);
else
{
putbuf4zip(&slidebuf[i&32767],i,j&~32767);
putbuf4zip(slidebuf,j&~32767,j);
}
//HACK: Don't unzip anything until you have to...
// (keeps file pointer as low as possible)
if (kzfs.endpos <= gslidew) goto retkzread;
}
switch (kzfs.jmpplc)
{
case 0: goto kzreadplc0;
case 1: goto kzreadplc1;
case 2: goto kzreadplc2;
case 3: goto kzreadplc3;
}
kzreadplc0:;
do
{
bfinal = getbits(1); btype = getbits(2);
#if 0
//Display Huffman block offsets&lengths of input file - for debugging only!
{
static long ouncomppos = 0, ocomppos = 0;
if (kzfs.comptell == sizeof(olinbuf)) i = 0;
else if (kzfs.comptell < kzfs.compleng) i = kzfs.comptell-(sizeof(olinbuf)-4);
else i = kzfs.comptell-(kzfs.comptell%(sizeof(olinbuf)-4));
i += ((long)&filptr[bitpos>>3])-((long)(&olinbuf[0]));
i = (i<<3)+(bitpos&7)-3;
if (gslidew) printf(" ULng:0x%08x CLng:0x%08x.%x",gslidew-ouncomppos,(i-ocomppos)>>3,((i-ocomppos)&7)<<1);
printf("\ntype:%d, Uoff:0x%08x Coff:0x%08x.%x",btype,gslidew,i>>3,(i&7)<<1);
if (bfinal)
{
printf(" ULng:0x%08x CLng:0x%08x.%x",kzfs.leng-gslidew,((kzfs.compleng<<3)-i)>>3,(((kzfs.compleng<<3)-i)&7)<<1);
printf("\n Uoff:0x%08x Coff:0x%08x.0",kzfs.leng,kzfs.compleng);
ouncomppos = ocomppos = 0;
}
else { ouncomppos = gslidew; ocomppos = i; }
}
#endif
if (btype == 0)
{
//Raw (uncompressed)
suckbits((-bitpos)&7); //Synchronize to start of next byte
i = getbits(16); if ((getbits(16)^i) != 0xffff) return(-1);
for(;i;i--)
{
if (gslidew >= gslider)
{
putbuf4zip(&slidebuf[(gslider-16384)&32767],gslider-16384,gslider); gslider += 16384;
if (gslider-16384 >= kzfs.endpos)
{
kzfs.jmpplc = 1; kzfs.i = i; kzfs.bfinal = bfinal;
goto retkzread;
kzreadplc1:; i = kzfs.i; bfinal = kzfs.bfinal;
}
}
slidebuf[(gslidew++)&32767] = (char)getbits(8);
}
continue;
}
if (btype == 3) continue;
if (btype == 1) //Fixed Huffman
{
hlit = 288; hdist = 32; i = 0;
for(;i<144;i++) clen[i] = 8; //Fixed bit sizes (literals)
for(;i<256;i++) clen[i] = 9; //Fixed bit sizes (literals)
for(;i<280;i++) clen[i] = 7; //Fixed bit sizes (EOI,lengths)
for(;i<288;i++) clen[i] = 8; //Fixed bit sizes (lengths)
for(;i<320;i++) clen[i] = 5; //Fixed bit sizes (distances)
}
else //Dynamic Huffman
{
hlit = getbits(5)+257; hdist = getbits(5)+1; j = getbits(4)+4;
for(i=0;i<j;i++) cclen[ccind[i]] = getbits(3);
for(;i<19;i++) cclen[ccind[i]] = 0;
hufgencode(cclen,19,ibuf0,nbuf0);
j = 0; k = hlit+hdist;
while (j < k)
{
i = hufgetsym(ibuf0,nbuf0);
if (i < 16) { clen[j++] = i; continue; }
if (i == 16)
{ for(i=getbits(2)+3;i;i--) { clen[j] = clen[j-1]; j++; } }
else
{
if (i == 17) i = getbits(3)+3; else i = getbits(7)+11;
for(;i;i--) clen[j++] = 0;
}
}
}
hufgencode(clen,hlit,ibuf0,nbuf0);
qhufgencode(ibuf0,nbuf0,qhufval0,qhufbit0,LOGQHUFSIZ0);
hufgencode(&clen[hlit],hdist,ibuf1,nbuf1);
qhufgencode(ibuf1,nbuf1,qhufval1,qhufbit1,LOGQHUFSIZ1);
while (1)
{
if (gslidew >= gslider)
{
putbuf4zip(&slidebuf[(gslider-16384)&32767],gslider-16384,gslider); gslider += 16384;
if (gslider-16384 >= kzfs.endpos)
{
kzfs.jmpplc = 2; kzfs.bfinal = bfinal; goto retkzread;
kzreadplc2:; bfinal = kzfs.bfinal;
}
}
k = peekbits(LOGQHUFSIZ0);
if (qhufbit0[k]) { i = qhufval0[k]; suckbits((long)qhufbit0[k]); }
else i = hufgetsym(ibuf0,nbuf0);
if (i < 256) { slidebuf[(gslidew++)&32767] = (char)i; continue; }
if (i == 256) break;
i = getbits(hxbit[i+30-257][0]) + hxbit[i+30-257][1];
k = peekbits(LOGQHUFSIZ1);
if (qhufbit1[k]) { j = qhufval1[k]; suckbits((long)qhufbit1[k]); }
else j = hufgetsym(ibuf1,nbuf1);
j = getbits(hxbit[j][0]) + hxbit[j][1];
for(;i;i--,gslidew++) slidebuf[gslidew&32767] = slidebuf[(gslidew-j)&32767];
}
} while (!bfinal);
gslider -= 16384;
if (!((gslider^gslidew)&32768))
putbuf4zip(&slidebuf[gslider&32767],gslider,gslidew);
else
{
putbuf4zip(&slidebuf[gslider&32767],gslider,gslidew&~32767);
putbuf4zip(slidebuf,gslidew&~32767,gslidew);
}
kzreadplc3:; kzfs.jmpplc = 3;
}
retkzread:;
i = kzfs.pos;
kzfs.pos += leng; if (kzfs.pos > kzfs.leng) kzfs.pos = kzfs.leng;
return(kzfs.pos-i);
}
long kzfilelength ()
{
if (!kzfs.fil) return(0);
return(kzfs.leng);
}
//WARNING: kzseek(<-32768,SEEK_CUR); or:
// kzseek(0,SEEK_END); can make next kzread very slow!!!
long kzseek (long offset, long whence)
{
if (!kzfs.fil) return(-1);
switch (whence)
{
case SEEK_CUR: kzfs.pos += offset; break;
case SEEK_END: kzfs.pos = kzfs.leng+offset; break;
case SEEK_SET: default: kzfs.pos = offset;
}
if (kzfs.pos < 0) kzfs.pos = 0;
if (kzfs.pos > kzfs.leng) kzfs.pos = kzfs.leng;
return(kzfs.pos);
}
long kztell ()
{
if (!kzfs.fil) return(-1);
return(kzfs.pos);
}
long kzgetc ()
{
char ch;
if (!kzread(&ch,1)) return(-1);
return((long)ch);
}
long kzeof ()
{
if (!kzfs.fil) return(-1);
return(kzfs.pos >= kzfs.leng);
}
void kzclose ()
{
if (kzfs.fil) { fclose(kzfs.fil); kzfs.fil = 0; }
}
//====================== ZIP decompression code ends =========================
//===================== HANDY PICTURE function begins ========================
void kpzload (const char *filnam, long *pic, long *bpl, long *xsiz, long *ysiz)
{
char *buf;
long leng;
(*pic) = 0;
if (!kzopen(filnam)) return;
leng = kzfilelength();
buf = (char *)malloc(leng); if (!buf) return;
kzread(buf,leng);
kzclose();
kpgetdim(buf,leng,xsiz,ysiz);
(*bpl) = ((*xsiz)<<2);
(*pic) = (long)malloc((*ysiz)*(*bpl)); if (!(*pic)) { free(buf); return; }
if (kprender(buf,leng,*pic,*bpl,*xsiz,*ysiz,0,0) < 0) { free(buf); free((void *)*pic); (*pic) = 0; return; }
free(buf);
}
//====================== HANDY PICTURE function ends =========================