/*
Copyright (C) 1999-2006 Id Software, Inc. and contributors.
For a list of contributors, see the accompanying CONTRIBUTORS file.

This file is part of GtkRadiant.

GtkRadiant is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.

GtkRadiant 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 General Public License for more details.

You should have received a copy of the GNU General Public License
along with GtkRadiant; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
*/

// imagelib.c

#include "inout.h"
#include "cmdlib.h"
#include "imagelib.h"
#include "vfs.h"

int fgetLittleShort (FILE *f)
{
	byte	b1, b2;

	b1 = fgetc(f);
	b2 = fgetc(f);

	return (short)(b1 + b2*256);
}

int fgetLittleLong (FILE *f)
{
	byte	b1, b2, b3, b4;

	b1 = fgetc(f);
	b2 = fgetc(f);
	b3 = fgetc(f);
	b4 = fgetc(f);

	return b1 + (b2<<8) + (b3<<16) + (b4<<24);
}

int bufLittleShort (byte *buf, int len, int *pos)
{
  byte	b1, b2;

  if ((len - *pos) < 2)
    Error ("Unexpected buffer end");

  b1 = buf[*pos]; *pos += 1;
  b2 = buf[*pos]; *pos += 1;

  return (short)(b1 + b2*256);
}

int bufLittleLong (byte *buf, int len, int *pos)
{
  byte b1, b2, b3, b4;

  if ((len - *pos) < 4)
    Error ("Unexpected buffer end");

  b1 = buf[*pos]; *pos += 1;
  b2 = buf[*pos]; *pos += 1;
  b3 = buf[*pos]; *pos += 1;
  b4 = buf[*pos]; *pos += 1;

  return b1 + (b2<<8) + (b3<<16) + (b4<<24);
}


/*
============================================================================

						LBM STUFF

============================================================================
*/


typedef unsigned char	UBYTE;
//conflicts with windows typedef short			WORD;
typedef unsigned short	UWORD;
typedef long			LONG;

typedef enum
{
	ms_none,
	ms_mask,
	ms_transcolor,
	ms_lasso
} mask_t;

typedef enum
{
	cm_none,
	cm_rle1
} compress_t;

typedef struct
{
	UWORD		w,h;
	short		x,y;
	UBYTE		nPlanes;
	UBYTE		masking;
	UBYTE		compression;
	UBYTE		pad1;
	UWORD		transparentColor;
	UBYTE		xAspect,yAspect;
	short		pageWidth,pageHeight;
} bmhd_t;

extern	bmhd_t	bmhd;						// will be in native byte order



#define FORMID ('F'+('O'<<8)+((int)'R'<<16)+((int)'M'<<24))
#define ILBMID ('I'+('L'<<8)+((int)'B'<<16)+((int)'M'<<24))
#define PBMID  ('P'+('B'<<8)+((int)'M'<<16)+((int)' '<<24))
#define BMHDID ('B'+('M'<<8)+((int)'H'<<16)+((int)'D'<<24))
#define BODYID ('B'+('O'<<8)+((int)'D'<<16)+((int)'Y'<<24))
#define CMAPID ('C'+('M'<<8)+((int)'A'<<16)+((int)'P'<<24))


bmhd_t  bmhd;

int    Align (int l)
{
	if (l&1)
		return l+1;
	return l;
}



/*
================
LBMRLEdecompress

Source must be evenly aligned!
================
*/
byte  *LBMRLEDecompress (byte *source,byte *unpacked, int bpwidth)
{
	int     count;
	byte    b,rept;

	count = 0;

	do
	{
		rept = *source++;

		if (rept > 0x80)
		{
			rept = (rept^0xff)+2;
			b = *source++;
			memset(unpacked,b,rept);
			unpacked += rept;
		}
		else if (rept < 0x80)
		{
			rept++;
			memcpy(unpacked,source,rept);
			unpacked += rept;
			source += rept;
		}
		else
			rept = 0;               // rept of 0x80 is NOP

		count += rept;

	} while (count<bpwidth);

	if (count>bpwidth)
		Error ("Decompression exceeded width!\n");


	return source;
}


/*
=================
LoadLBM
=================
*/
void LoadLBM (const char *filename, byte **picture, byte **palette)
{
	byte    *LBMbuffer, *picbuffer, *cmapbuffer;
	int             y;
	byte    *LBM_P, *LBMEND_P;
	byte    *pic_p;
	byte    *body_p;

	int    formtype,formlength;
	int    chunktype,chunklength;

// qiet compiler warnings
	picbuffer = NULL;
	cmapbuffer = NULL;

//
// load the LBM
//
	LoadFile (filename, (void **)&LBMbuffer);

//
// parse the LBM header
//
	LBM_P = LBMbuffer;
	if ( *(int *)LBMbuffer != LittleLong(FORMID) )
	   Error ("No FORM ID at start of file!\n");

	LBM_P += 4;
	formlength = BigLong( *(int *)LBM_P );
	LBM_P += 4;
	LBMEND_P = LBM_P + Align(formlength);

	formtype = LittleLong(*(int *)LBM_P);

	if (formtype != ILBMID && formtype != PBMID)
		Error ("Unrecognized form type: %c%c%c%c\n", formtype&0xff
		,(formtype>>8)&0xff,(formtype>>16)&0xff,(formtype>>24)&0xff);

	LBM_P += 4;

//
// parse chunks
//

	while (LBM_P < LBMEND_P)
	{
		chunktype = LBM_P[0] + (LBM_P[1]<<8) + (LBM_P[2]<<16) + (LBM_P[3]<<24);
		LBM_P += 4;
		chunklength = LBM_P[3] + (LBM_P[2]<<8) + (LBM_P[1]<<16) + (LBM_P[0]<<24);
		LBM_P += 4;

		switch ( chunktype )
		{
		case BMHDID:
			memcpy (&bmhd,LBM_P,sizeof(bmhd));
			bmhd.w = BigShort(bmhd.w);
			bmhd.h = BigShort(bmhd.h);
			bmhd.x = BigShort(bmhd.x);
			bmhd.y = BigShort(bmhd.y);
			bmhd.pageWidth = BigShort(bmhd.pageWidth);
			bmhd.pageHeight = BigShort(bmhd.pageHeight);
			break;

		case CMAPID:
			cmapbuffer = safe_malloc (768);
			memset (cmapbuffer, 0, 768);
			memcpy (cmapbuffer, LBM_P, chunklength);
			break;

		case BODYID:
			body_p = LBM_P;

			pic_p = picbuffer = safe_malloc (bmhd.w*bmhd.h);
			if (formtype == PBMID)
			{
			//
			// unpack PBM
			//
				for (y=0 ; y<bmhd.h ; y++, pic_p += bmhd.w)
				{
					if (bmhd.compression == cm_rle1)
						body_p = LBMRLEDecompress ((byte *)body_p
						, pic_p , bmhd.w);
					else if (bmhd.compression == cm_none)
					{
						memcpy (pic_p,body_p,bmhd.w);
						body_p += Align(bmhd.w);
					}
				}

			}
			else
			{
			//
			// unpack ILBM
			//
				Error ("%s is an interlaced LBM, not packed", filename);
			}
			break;
		}

		LBM_P += Align(chunklength);
	}

	free (LBMbuffer);

	*picture = picbuffer;

	if (palette)
		*palette = cmapbuffer;
}


/*
============================================================================

							WRITE LBM

============================================================================
*/

/*
==============
WriteLBMfile
==============
*/
void WriteLBMfile (const char *filename, byte *data,
				   int width, int height, byte *palette)
{
	byte    *lbm, *lbmptr;
	int    *formlength, *bmhdlength, *cmaplength, *bodylength;
	int    length;
	bmhd_t  basebmhd;

	lbm = lbmptr = safe_malloc (width*height+1000);

//
// start FORM
//
	*lbmptr++ = 'F';
	*lbmptr++ = 'O';
	*lbmptr++ = 'R';
	*lbmptr++ = 'M';

	formlength = (int*)lbmptr;
	lbmptr+=4;                      // leave space for length

	*lbmptr++ = 'P';
	*lbmptr++ = 'B';
	*lbmptr++ = 'M';
	*lbmptr++ = ' ';

//
// write BMHD
//
	*lbmptr++ = 'B';
	*lbmptr++ = 'M';
	*lbmptr++ = 'H';
	*lbmptr++ = 'D';

	bmhdlength = (int *)lbmptr;
	lbmptr+=4;                      // leave space for length

	memset (&basebmhd,0,sizeof(basebmhd));
	basebmhd.w = BigShort((short)width);
	basebmhd.h = BigShort((short)height);
	basebmhd.nPlanes = BigShort(8);
	basebmhd.xAspect = BigShort(5);
	basebmhd.yAspect = BigShort(6);
	basebmhd.pageWidth = BigShort((short)width);
	basebmhd.pageHeight = BigShort((short)height);

	memcpy (lbmptr,&basebmhd,sizeof(basebmhd));
	lbmptr += sizeof(basebmhd);

	length = lbmptr-(byte *)bmhdlength-4;
	*bmhdlength = BigLong(length);
	if (length&1)
		*lbmptr++ = 0;          // pad chunk to even offset

//
// write CMAP
//
	*lbmptr++ = 'C';
	*lbmptr++ = 'M';
	*lbmptr++ = 'A';
	*lbmptr++ = 'P';

	cmaplength = (int *)lbmptr;
	lbmptr+=4;                      // leave space for length

	memcpy (lbmptr,palette,768);
	lbmptr += 768;

	length = lbmptr-(byte *)cmaplength-4;
	*cmaplength = BigLong(length);
	if (length&1)
		*lbmptr++ = 0;          // pad chunk to even offset

//
// write BODY
//
	*lbmptr++ = 'B';
	*lbmptr++ = 'O';
	*lbmptr++ = 'D';
	*lbmptr++ = 'Y';

	bodylength = (int *)lbmptr;
	lbmptr+=4;                      // leave space for length

	memcpy (lbmptr,data,width*height);
	lbmptr += width*height;

	length = lbmptr-(byte *)bodylength-4;
	*bodylength = BigLong(length);
	if (length&1)
		*lbmptr++ = 0;          // pad chunk to even offset

//
// done
//
	length = lbmptr-(byte *)formlength-4;
	*formlength = BigLong(length);
	if (length&1)
		*lbmptr++ = 0;          // pad chunk to even offset

//
// write output file
//
	SaveFile (filename, lbm, lbmptr-lbm);
	free (lbm);
}


/*
============================================================================

LOAD PCX

============================================================================
*/

typedef struct
{
    char	manufacturer;
    char	version;
    char	encoding;
    char	bits_per_pixel;
    unsigned short	xmin,ymin,xmax,ymax;
    unsigned short	hres,vres;
    unsigned char	palette[48];
    char	reserved;
    char	color_planes;
    unsigned short	bytes_per_line;
    unsigned short	palette_type;
    char	filler[58];
    unsigned char	data;			// unbounded
} pcx_t;


/*
==============
LoadPCX
==============
*/

/* RR2DO2 */
#define DECODEPCX( b, d, r ) d=*b++;if((d&0xC0)==0xC0){r=d&0x3F;d=*b++;}else{r=1;}

void LoadPCX( const char *filename, byte **pic, byte **palette, int *width, int *height )
{
	byte	*raw;
	pcx_t	*pcx;
	int		x, y, lsize;
	int		len;
	int		dataByte, runLength;
	byte	*out, *pix;
	

	/* load the file */
	len = vfsLoadFile (filename, (void **)&raw, 0);
    if( len == -1 ) 
		Error( "LoadPCX: Couldn't read %s", filename );

	
	/* parse the PCX file */
	pcx = (pcx_t *)raw;
	raw = &pcx->data;

	pcx->xmin = LittleShort(pcx->xmin);
	pcx->ymin = LittleShort(pcx->ymin);
	pcx->xmax = LittleShort(pcx->xmax);
	pcx->ymax = LittleShort(pcx->ymax);
	pcx->hres = LittleShort(pcx->hres);
	pcx->vres = LittleShort(pcx->vres);
	pcx->bytes_per_line = LittleShort(pcx->bytes_per_line);
	pcx->palette_type = LittleShort(pcx->palette_type);

	if (pcx->manufacturer != 0x0a
		|| pcx->version != 5
		|| pcx->encoding != 1
		|| pcx->bits_per_pixel != 8
		|| pcx->xmax >= 640
		|| pcx->ymax >= 480)
		Error ("Bad pcx file %s", filename);
	
	if (palette)
	{
		*palette = safe_malloc(768);
		memcpy (*palette, (byte *)pcx + len - 768, 768);
	}

	if (width)
		*width = pcx->xmax+1;
	if (height)
		*height = pcx->ymax+1;

	if (!pic)
		return;

	out = safe_malloc ( (pcx->ymax+1) * (pcx->xmax+1) );
	if (!out)
		Error( "LoadPCX: couldn't allocate");

	*pic = out;
	pix = out;
	
	/* RR2DO2: pcx fix  */
	lsize = pcx->color_planes * pcx->bytes_per_line;
	
	/* go scanline by scanline */
	for( y = 0; y <= pcx->ymax; y++, pix += pcx->xmax + 1 )
	{
		/* do a scanline */
		for( x=0; x <= pcx->xmax; )
		{
			/* RR2DO2 */
			DECODEPCX( raw, dataByte, runLength );
			while( runLength-- > 0 )
				pix[ x++ ] = dataByte;
		}

		/* RR2DO2: discard any other data */
		while( x < lsize )
		{
			DECODEPCX( raw, dataByte, runLength );
			x++;
		}
		while( runLength-- > 0 )
			x++;
	}
	
	/* validity check */
	if( raw - (byte *) pcx > len)
		Error( "PCX file %s was malformed", filename );
	free( pcx );
}



/* 
============== 
WritePCXfile 
============== 
*/ 
void WritePCXfile (const char *filename, byte *data, 
				   int width, int height, byte *palette) 
{
	int		i, j, length;
	pcx_t	*pcx;
	byte		*pack;
	  
	pcx = safe_malloc (width*height*2+1000);
	memset (pcx, 0, sizeof(*pcx));

	pcx->manufacturer = 0x0a;	// PCX id
	pcx->version = 5;			// 256 color
 	pcx->encoding = 1;		// uncompressed
	pcx->bits_per_pixel = 8;		// 256 color
	pcx->xmin = 0;
	pcx->ymin = 0;
	pcx->xmax = LittleShort((short)(width-1));
	pcx->ymax = LittleShort((short)(height-1));
	pcx->hres = LittleShort((short)width);
	pcx->vres = LittleShort((short)height);
	pcx->color_planes = 1;		// chunky image
	pcx->bytes_per_line = LittleShort((short)width);
	pcx->palette_type = LittleShort(1);		// not a grey scale

	// pack the image
	pack = &pcx->data;
	
	for (i=0 ; i<height ; i++)
	{
		for (j=0 ; j<width ; j++)
		{
			if ( (*data & 0xc0) != 0xc0)
				*pack++ = *data++;
			else
			{
				*pack++ = 0xc1;
				*pack++ = *data++;
			}
		}
	}
			
	// write the palette
	*pack++ = 0x0c;	// palette ID byte
	for (i=0 ; i<768 ; i++)
		*pack++ = *palette++;
		
// write output file 
	length = pack - (byte *)pcx;
	SaveFile (filename, pcx, length);

	free (pcx);
} 
 
/*
============================================================================

LOAD BMP

============================================================================
*/


/*

// we can't just use these structures, because
// compiler structure alignment will not be portable
// on this unaligned stuff

typedef struct tagBITMAPFILEHEADER { // bmfh 
        WORD    bfType;				// BM
        DWORD   bfSize; 
        WORD    bfReserved1; 
        WORD    bfReserved2; 
        DWORD   bfOffBits; 
} BITMAPFILEHEADER; 
 
typedef struct tagBITMAPINFOHEADER{ // bmih 
   DWORD  biSize; 
   LONG   biWidth; 
   LONG   biHeight; 
   WORD   biPlanes; 
   WORD   biBitCount 
   DWORD  biCompression; 
   DWORD  biSizeImage; 
   LONG   biXPelsPerMeter; 
   LONG   biYPelsPerMeter; 
   DWORD  biClrUsed; 
   DWORD  biClrImportant; 
} BITMAPINFOHEADER; 
 
typedef struct tagBITMAPINFO { // bmi 
   BITMAPINFOHEADER bmiHeader; 
   RGBQUAD          bmiColors[1]; 
} BITMAPINFO; 

typedef struct tagBITMAPCOREHEADER { // bmch 
        DWORD   bcSize; 
        WORD    bcWidth; 
        WORD    bcHeight; 
        WORD    bcPlanes; 
        WORD    bcBitCount; 
} BITMAPCOREHEADER; 
 
typedef struct _BITMAPCOREINFO {    // bmci 
        BITMAPCOREHEADER  bmciHeader; 
        RGBTRIPLE         bmciColors[1]; 
} BITMAPCOREINFO; 
 
*/

/*
==============
LoadBMP
==============
*/
void LoadBMP (const char *filename, byte **pic, byte **palette, int *width, int *height)
{
  byte	*out;
  int		i;
  int		bfSize; 
  int		bfOffBits; 
  int		structSize;
  int		bcWidth; 
  int     bcHeight; 
  int	    bcPlanes; 
  int		bcBitCount; 
  byte	bcPalette[1024];
  qboolean	flipped;
  byte *in;
  int len, pos = 0;

  len = vfsLoadFile (filename, (void **)&in, 0);
  if (len == -1) 
  {
    Error ("Couldn't read %s", filename);
  }

  i = bufLittleShort (in, len, &pos);
  if (i != 'B' + ('M'<<8) ) {
    Error ("%s is not a bmp file", filename);
  }

  bfSize = bufLittleLong (in, len, &pos);
  bufLittleShort(in, len, &pos);
  bufLittleShort(in, len, &pos);
  bfOffBits = bufLittleLong (in, len, &pos);

  // the size will tell us if it is a
  // bitmapinfo or a bitmapcore
  structSize = bufLittleLong (in, len, &pos);
  if (structSize == 40)
  {
    // bitmapinfo
    bcWidth = bufLittleLong(in, len, &pos); 
    bcHeight= bufLittleLong(in, len, &pos); 
    bcPlanes = bufLittleShort(in, len, &pos); 
    bcBitCount = bufLittleShort(in, len, &pos); 

    pos += 24;

    if (palette)
    {
      memcpy (bcPalette, in+pos, 1024);
      pos += 1024;
      *palette = safe_malloc(768);

      for (i = 0 ; i < 256 ; i++)
      {
        (*palette)[i * 3 + 0] = bcPalette[i * 4 + 2];
        (*palette)[i * 3 + 1] = bcPalette[i * 4 + 1];
        (*palette)[i * 3 + 2] = bcPalette[i * 4 + 0];
      }
    }
  }
  else if (structSize == 12)
  {
    // bitmapcore
    bcWidth = bufLittleShort(in, len, &pos); 
    bcHeight= bufLittleShort(in, len, &pos); 
    bcPlanes = bufLittleShort(in, len, &pos); 
    bcBitCount = bufLittleShort(in, len, &pos); 

    if (palette)
    {
      memcpy (bcPalette, in+pos, 768);
      pos += 768;
      *palette = safe_malloc(768);

      for (i = 0 ; i < 256 ; i++) {
        (*palette)[i * 3 + 0] = bcPalette[i * 3 + 2];
        (*palette)[i * 3 + 1] = bcPalette[i * 3 + 1];
        (*palette)[i * 3 + 2] = bcPalette[i * 3 + 0];
      }
    }
  } else {
    Error ("%s had strange struct size", filename);
  }

  if (bcPlanes != 1) {
    Error ("%s was not a single plane image", filename);
  }

  if (bcBitCount != 8) {
    Error ("%s was not an 8 bit image", filename);
  }

  if (bcHeight < 0) {
    bcHeight = -bcHeight;
    flipped = qtrue;
  } else {
    flipped = qfalse;
  }

  if (width)
    *width = bcWidth;
  if (height)
    *height = bcHeight;

  if (!pic) {
    free (in);
    return;
  }

  out = safe_malloc ( bcWidth * bcHeight );
  *pic = out;
  pos = bfOffBits;

  if (flipped) {
    for (i = 0 ; i < bcHeight ; i++) {
      memcpy (out + bcWidth * (bcHeight - 1 - i), in+pos, bcWidth);
      pos += bcWidth;
    }
  } else {
    memcpy (out, in+pos, bcWidth*bcHeight);
    pos += bcWidth*bcHeight;
  }

  free (in);
}


/*
============================================================================

LOAD IMAGE

============================================================================
*/

/*
==============
Load256Image

Will load either an lbm or pcx, depending on extension.
Any of the return pointers can be NULL if you don't want them.
==============
*/
void Load256Image (const char *name, byte **pixels, byte **palette, int *width, int *height)
{
  char ext[128];

  ExtractFileExtension (name, ext);
  if (!Q_stricmp (ext, "lbm"))
  {
    LoadLBM (name, pixels, palette);
    if (width)
      *width = bmhd.w;
    if (height)
      *height = bmhd.h;
  }
  else if (!Q_stricmp (ext, "pcx"))
  {
    LoadPCX (name, pixels, palette, width, height);
  }
  else if (!Q_stricmp (ext, "bmp"))
  {
    LoadBMP (name, pixels, palette, width, height);
  }
  else
    Error ("%s doesn't have a known image extension", name);
}


/*
==============
Save256Image

Will save either an lbm or pcx, depending on extension.
==============
*/
void Save256Image (const char *name, byte *pixels, byte *palette,
				   int width, int height)
{
	char	ext[128];

	ExtractFileExtension (name, ext);
	if (!Q_stricmp (ext, "lbm"))
	{
		WriteLBMfile (name, pixels, width, height, palette);
	}
	else if (!Q_stricmp (ext, "pcx"))
	{
		WritePCXfile (name, pixels, width, height, palette);
	}
	else
		Error ("%s doesn't have a known image extension", name);
}




/*
============================================================================

TARGA IMAGE

============================================================================
*/

typedef struct _TargaHeader {
	unsigned char 	id_length, colormap_type, image_type;
	unsigned short	colormap_index, colormap_length;
	unsigned char	colormap_size;
	unsigned short	x_origin, y_origin, width, height;
	unsigned char	pixel_size, attributes;
} TargaHeader;

void TargaError(TargaHeader *t, const char *message)
{
	Sys_Printf("%s\n:TargaHeader:\nuint8 id_length = %i;\nuint8 colormap_type = %i;\nuint8 image_type = %i;\nuint16 colormap_index = %i;\nuint16 colormap_length = %i;\nuint8 colormap_size = %i;\nuint16 x_origin = %i;\nuint16 y_origin = %i;\nuint16 width = %i;\nuint16 height = %i;\nuint8 pixel_size = %i;\nuint8 attributes = %i;\n", message, t->id_length, t->colormap_type, t->image_type, t->colormap_index, t->colormap_length, t->colormap_size, t->x_origin, t->y_origin, t->width, t->height, t->pixel_size, t->attributes);
}

/*
=============
LoadTGABuffer
=============
*/
void LoadTGABuffer (const byte *f, const byte *enddata, byte **pic, int *width, int *height)
{
	int x, y, row_inc, compressed, readpixelcount, red, green, blue, alpha, runlen, pindex, alphabits, image_width, image_height;
	byte *pixbuf, *image_rgba;
	const byte *fin;
	unsigned char *p;
	TargaHeader targa_header;
	unsigned char palette[256*4];

	*pic = NULL;

	// abort if it is too small to parse
	if (enddata - f < 19)
		return;

	targa_header.id_length = f[0];
	targa_header.colormap_type = f[1];
	targa_header.image_type = f[2];

	targa_header.colormap_index = f[3] + f[4] * 256;
	targa_header.colormap_length = f[5] + f[6] * 256;
	targa_header.colormap_size = f[7];
	targa_header.x_origin = f[8] + f[9] * 256;
	targa_header.y_origin = f[10] + f[11] * 256;
	targa_header.width = image_width = f[12] + f[13] * 256;
	targa_header.height = image_height = f[14] + f[15] * 256;

	targa_header.pixel_size = f[16];
	targa_header.attributes = f[17];

	// advance to end of header
	fin = f + 18;

	// skip TARGA image comment (usually 0 bytes)
	fin += targa_header.id_length;

	// read/skip the colormap if present (note: according to the TARGA spec it
	// can be present even on truecolor or greyscale images, just not used by
	// the image data)
	if (targa_header.colormap_type)
	{
		if (targa_header.colormap_length > 256)
		{
			TargaError(&targa_header, "LoadTGA: only up to 256 colormap_length supported\n");
			return;
		}
		if (targa_header.colormap_index)
		{
			TargaError(&targa_header, "LoadTGA: colormap_index not supported\n");
			return;
		}
		if (targa_header.colormap_size == 24)
		{
			for (x = 0;x < targa_header.colormap_length;x++)
			{
				palette[x*4+2] = *fin++;
				palette[x*4+1] = *fin++;
				palette[x*4+0] = *fin++;
				palette[x*4+3] = 255;
			}
		}
		else if (targa_header.colormap_size == 32)
		{
			for (x = 0;x < targa_header.colormap_length;x++)
			{
				palette[x*4+2] = *fin++;
				palette[x*4+1] = *fin++;
				palette[x*4+0] = *fin++;
				palette[x*4+3] = *fin++;
			}
		}
		else
		{
			TargaError(&targa_header, "LoadTGA: Only 32 and 24 bit colormap_size supported\n");
			return;
		}
	}

	// check our pixel_size restrictions according to image_type
	if (targa_header.image_type == 2 || targa_header.image_type == 10)
	{
		if (targa_header.pixel_size != 24 && targa_header.pixel_size != 32)
		{
			TargaError(&targa_header, "LoadTGA: only 24bit and 32bit pixel sizes supported for type 2 and type 10 images\n");
			return;
		}
	}
	else if (targa_header.image_type == 1 || targa_header.image_type == 9)
	{
		if (targa_header.pixel_size != 8)
		{
			TargaError(&targa_header, "LoadTGA: only 8bit pixel size for type 1, 3, 9, and 11 images supported\n");
			return;
		}
	}
	else if (targa_header.image_type == 3 || targa_header.image_type == 11)
	{
		if (targa_header.pixel_size != 8)
		{
			TargaError(&targa_header, "LoadTGA: only 8bit pixel size for type 1, 3, 9, and 11 images supported\n");
			return;
		}
	}
	else
	{
		TargaError(&targa_header, "LoadTGA: Only type 1, 2, 3, 9, 10, and 11 targa RGB images supported");
		return;
	}

	if (targa_header.attributes & 0x10)
	{
		TargaError(&targa_header, "LoadTGA: origin must be in top left or bottom left, top right and bottom right are not supported\n");
		return;
	}

	// number of attribute bits per pixel, we only support 0 or 8
	alphabits = targa_header.attributes & 0x0F;
	if (alphabits != 8 && alphabits != 0)
	{
		TargaError(&targa_header, "LoadTGA: only 0 or 8 attribute (alpha) bits supported\n");
		return;
	}

	image_rgba = safe_malloc(image_width * image_height * 4);
	if (!image_rgba)
	{
		Sys_Printf("LoadTGA: not enough memory for %i by %i image\n", image_width, image_height);
		return;
	}

	// If bit 5 of attributes isn't set, the image has been stored from bottom to top
	if ((targa_header.attributes & 0x20) == 0)
	{
		pixbuf = image_rgba + (image_height - 1)*image_width*4;
		row_inc = -image_width*4*2;
	}
	else
	{
		pixbuf = image_rgba;
		row_inc = 0;
	}

	compressed = targa_header.image_type == 9 || targa_header.image_type == 10 || targa_header.image_type == 11;
	x = 0;
	y = 0;
	red = green = blue = alpha = 255;
	while (y < image_height)
	{
		// decoder is mostly the same whether it's compressed or not
		readpixelcount = 1000000;
		runlen = 1000000;
		if (compressed && fin < enddata)
		{
			runlen = *fin++;
			// high bit indicates this is an RLE compressed run
			if (runlen & 0x80)
				readpixelcount = 1;
			runlen = 1 + (runlen & 0x7f);
		}

		while((runlen--) && y < image_height)
		{
			if (readpixelcount > 0)
			{
				readpixelcount--;
				red = green = blue = alpha = 255;
				if (fin < enddata)
				{
					switch(targa_header.image_type)
					{
					case 1:
					case 9:
						// colormapped
						pindex = *fin++;
						if (pindex >= targa_header.colormap_length)
							pindex = 0; // error
						p = palette + pindex * 4;
						red = p[0];
						green = p[1];
						blue = p[2];
						alpha = p[3];
						break;
					case 2:
					case 10:
						// BGR or BGRA
						blue = *fin++;
						if (fin < enddata)
							green = *fin++;
						if (fin < enddata)
							red = *fin++;
						if (targa_header.pixel_size == 32 && fin < enddata)
							alpha = *fin++;
						break;
					case 3:
					case 11:
						// greyscale
						red = green = blue = *fin++;
						break;
					}
					if (!alphabits)
						alpha = 255;
				}
			}
			*pixbuf++ = red;
			*pixbuf++ = green;
			*pixbuf++ = blue;
			*pixbuf++ = alpha;
			x++;
			if (x == image_width)
			{
				// end of line, advance to next
				x = 0;
				y++;
				pixbuf += row_inc;
			}
		}
	}

	*pic = image_rgba;
	if (width)
		*width = image_width;
	if (height)
		*height = image_height;
}


/*
=============
LoadTGA
=============
*/
void LoadTGA (const char *name, byte **pixels, int *width, int *height)
{
	byte			*buffer;
	int nLen;
	//
	// load the file
	//
	nLen = vfsLoadFile ( ( char * ) name, (void **)&buffer, 0);
	if (nLen == -1)
	{
		Error ("Couldn't read %s", name);
	}

	LoadTGABuffer(buffer, buffer + nLen, pixels, width, height);

}


/*
================
WriteTGA
================
*/
void WriteTGA (const char *filename, byte *data, int width, int height) {
	byte	*buffer;
	int		i;
	int		c;
	FILE	*f;

	buffer = safe_malloc(width*height*4 + 18);
	memset (buffer, 0, 18);
	buffer[2] = 2;		// uncompressed type
	buffer[12] = width&255;
	buffer[13] = width>>8;
	buffer[14] = height&255;
	buffer[15] = height>>8;
	buffer[16] = 32;	// pixel size

	// swap rgb to bgr
	c = 18 + width * height * 4;
	for (i=18 ; i<c ; i+=4)
	{
		buffer[i] = data[i-18+2];		// blue
		buffer[i+1] = data[i-18+1];		// green
		buffer[i+2] = data[i-18+0];		// red
		buffer[i+3] = data[i-18+3];		// alpha
	}

	f = fopen (filename, "wb");
	fwrite (buffer, 1, c, f);
	fclose (f);

	free (buffer);
}

/*
============================================================================

LOAD32BITIMAGE

============================================================================
*/

/*
==============
Load32BitImage

Any of the return pointers can be NULL if you don't want them.
==============
*/
void Load32BitImage (const char *name, unsigned **pixels,  int *width, int *height)
{
	char	ext[128];
	byte	*palette;
	byte	*pixels8;
	byte	*pixels32;
	int		size;
	int		i;
	int		v;

	ExtractFileExtension (name, ext);
	if (!Q_stricmp (ext, "tga")) {
		LoadTGA (name, (byte **)pixels, width, height);
	} else {
		Load256Image (name, &pixels8, &palette, width, height);
		if (!pixels) {
			return;
		}
		size = *width * *height;
		pixels32 = safe_malloc(size * 4);
		*pixels = (unsigned *)pixels32;
		for (i = 0 ; i < size ; i++) {
			v = pixels8[i];
			pixels32[i*4 + 0] = palette[ v * 3 + 0 ];
			pixels32[i*4 + 1] = palette[ v * 3 + 1 ];
			pixels32[i*4 + 2] = palette[ v * 3 + 2 ];
			pixels32[i*4 + 3] = 0xff;
		}
	}
}