gecko-dev/lib/libcnv/readbmp.c

735 строки
21 KiB
C
Исходник Обычный вид История

1998-03-28 05:44:41 +03:00
/*
* readbmp.c
This file was taken from the Independent JPEG Group and modified extensively
*
* Copyright (C) 1994-1995, Thomas G. Lane.
* This file is part of the Independent JPEG Group's software.
* For conditions of distribution and use, see the accompanying README file.
*
/
/* This code is for reading bmps and translating them to RGB. There are additions that Netscape has
* added to read more formats.
*/
#include "xp_core.h" //used to make library compile faster on win32 do not ifdef this or it wont work
/* readbmp : reads bmp and returns colormap (if any), CMN_IMAGEINFO,bits*/
#include <memory.h>
#include <stdio.h>
#include <malloc.h>
#include "xp_core.h"/*defines of int32 ect*/
#include "xpassert.h"
#include "ntypes.h" /* for MWContext to include libcnv.h*/
#include "libcnv.h"
#include "readbmp.h"
typedef unsigned char U_CHAR;
#define UCH(x) ((int16) (x))
typedef uint16 UINT16;
#define TRUE !FALSE
XP_Bool get_1bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer);
XP_Bool get_4bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer);
XP_Bool get_8bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer);
XP_Bool get_24bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer);
XP_Bool get_16bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer);
XP_Bool get_32bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer);
void process_color_mask(uint32 *p_mask,char *p_shift,uint16 *p_pad);
CONVERT_IMAGERESULT read_colormap_bmp (CONVERT_IMGCONTEXT *p_inputparam, BYTE *p_colormap,int16 cmaplen, int16 mapentrysize);
///////////////////////////////////////
//////////READ BMP/////////////////////
CONVERT_IMAGERESULT
start_input_bmp (CONVERT_IMG_INFO *p_imageinfo, CONVERT_IMGCONTEXT *p_inputparam)
{
CONVERT_IMAGERESULT t_err;
U_CHAR bmpfileheader[14];
U_CHAR bmpinfoheader[64];
#define GET_2B(array,offset) ((uint16) UCH(array[offset]) + \
(((uint16) UCH(array[offset+1])) << 8))
#define GET_4B(array,offset) ((int32) UCH(array[offset]) + \
(((int32) UCH(array[offset+1])) << 8) + \
(((int32) UCH(array[offset+2])) << 16) + \
(((int32) UCH(array[offset+3])) << 24))
int32 bfOffBits;
int32 headerSize;
int32 biWidth = 0; /* initialize to avoid compiler warning */
int32 biHeight = 0;
uint16 biPlanes;
int32 biCompression;
int32 biXPelsPerMeter,biYPelsPerMeter;
int32 biClrUsed = 0;
int16 mapentrysize = 0; /* 0 indicates no colormap */
DWORD t_index=0;/*index to stream*/
int32 bPad;
uint16 row_width;
if (p_inputparam->m_stream.m_type==CONVERT_FILE)
{
if (!read_param(&p_inputparam->m_stream,bmpfileheader,14))
{/*cant read fileheader*/
return CONVERR_INVALIDFILEHEADER;
}
p_imageinfo->m_image_size+=14;
/* Read and verify the bitmap file header */
if (GET_2B(bmpfileheader,0) != 0x4D42) /* 'BM' */
return CONVERR_INVALIDFILEHEADER;
bfOffBits = (int32) GET_4B(bmpfileheader,10);
}
if (! read_param(&p_inputparam->m_stream, bmpinfoheader, 4))
return CONVERR_INVALIDIMAGEHEADER;//cant read 4 bytes
p_imageinfo->m_image_size+=4;
headerSize = (int32) GET_4B(bmpinfoheader,0);
if (headerSize < 12 || headerSize > 64)
return CONVERR_INVALIDIMAGEHEADER;
if (! read_param(
&p_inputparam->m_stream,
bmpinfoheader+4,
(int16)(headerSize-4))) /*casting here is ok beacause of check for >64 above*/
return CONVERR_INVALIDIMAGEHEADER;
p_imageinfo->m_image_size+=headerSize-4;
switch ((int16) headerSize) {
case 12:
/* Decode OS/2 1.x header (Microsoft calls this a BITMAPCOREHEADER) */
biWidth = (int32) GET_2B(bmpinfoheader,4);
biHeight = (int32) GET_2B(bmpinfoheader,6);
biPlanes = GET_2B(bmpinfoheader,8);
p_imageinfo->m_bitsperpixel = (int16) GET_2B(bmpinfoheader,10);
switch (p_imageinfo->m_bitsperpixel) {
case 8: /* colormapped image */
mapentrysize = 3; /* OS/2 uses RGBTRIPLE colormap */
break;
case 16:
case 24: /* RGB image */
break;
default:
return CONVERR_INVALIDBITDEPTH;
break;
}
if (biPlanes != 1)
return CONVERR_INVALIDBITDEPTH;
break;
case 40:
case 64:
/* Decode Windows 3.x header (Microsoft calls this a BITMAPINFOHEADER) */
/* or OS/2 2.x header, which has additional fields that we ignore */
biWidth = GET_4B(bmpinfoheader,4);
biHeight = GET_4B(bmpinfoheader,8);
biPlanes = GET_2B(bmpinfoheader,12);
p_imageinfo->m_bitsperpixel = (int16) GET_2B(bmpinfoheader,14);
biCompression = GET_4B(bmpinfoheader,16);
biXPelsPerMeter = GET_4B(bmpinfoheader,24);
biYPelsPerMeter = GET_4B(bmpinfoheader,28);
biClrUsed = GET_4B(bmpinfoheader,32);
/* biSizeImage, biClrImportant fields are ignored */
switch (p_imageinfo->m_bitsperpixel) {
case 1:
if (!biClrUsed)/* 0 denotes maximum usage of colors*/
biClrUsed=2;
case 4:
if (!biClrUsed)/* 0 denotes maximum usage of colors*/
biClrUsed=16;
case 8: /* colormapped images */
if (!biClrUsed)/* 0 denotes maximum usage of colors*/
biClrUsed=256;
mapentrysize = 4; /* Windows uses RGBQUAD colormap */
break;
case 24: /* RGB image */
break;
case 16:
case 32: /* RGB image with masks*/
if (biCompression==3) /*BI_BITFIELDS*/
{
biClrUsed=3; /*need to get masks for RGB*/
mapentrysize = 4; /* Windows uses RGBQUAD colormap */
}
break;
default:
return CONVERR_INVALIDBITDEPTH;
break;
}
if (biPlanes != 1)
return FALSE;
if (biCompression != 0)
if (3!=biCompression)
return CONVERR_COMPRESSED;//cant handle compressed bitmaps
if (biXPelsPerMeter > 0 && biYPelsPerMeter > 0) {
/* Set JFIF density parameters from the BMP data */
p_imageinfo->m_X_density = (UINT16) (biXPelsPerMeter/100); /* 100 cm per meter */
p_imageinfo->m_Y_density = (UINT16) (biYPelsPerMeter/100);
p_imageinfo->m_density_unit = 2; /* dots/cm */
}
break;
default:
return CONVERR_INVALIDIMAGEHEADER;
break;
}
/* Compute distance to bitmap data --- will adjust for colormap below */
bPad = bfOffBits - (headerSize + 14);
/* Read the colormap, if any */
if (mapentrysize > 0) {
if (biClrUsed <= 0)
biClrUsed = 256; /* assume it's 256 */
else if (biClrUsed > 256)
return CONVERR_INVALIDCOLORMAP;
/* Allocate space to store the colormap */
p_imageinfo->m_colormap = (BYTE *)malloc(biClrUsed*3);
/* and read it from the file */
t_err=read_colormap_bmp(p_inputparam,p_imageinfo->m_colormap, (int16) biClrUsed, mapentrysize);
if (t_err!=CONV_OK)
return t_err;
p_imageinfo->m_image_size+=biClrUsed*mapentrysize;/*mapentrysize for windows bitmaps*/
/* account for size of colormap */
bPad -= biClrUsed * mapentrysize;
}
if (CONVERT_FILE==p_inputparam->m_stream.m_type)/* Skip any remaining pad bytes */
{
if (bPad < 0) /* incorrect bfOffBits value? */
return CONVERR_INVALIDIMAGEHEADER;
while (--bPad >= 0)
{
(void) read_param_byte(&p_inputparam->m_stream);
p_imageinfo->m_image_size++;
}
}
/* Compute row width in file, including padding to 4-byte boundary */
switch (p_imageinfo->m_bitsperpixel)
{
case 1:
row_width = biWidth/8;
if (biWidth&7)
row_width++;
break;
case 4:
row_width = biWidth/2;
if (biWidth&1)
row_width++;
break;
case 8:
row_width = (uint16) biWidth;
break;
case 16:
row_width = (uint16) (biWidth * 2);
break;
case 24:
row_width = (uint16) (biWidth * 3);
break;
case 32:
row_width = (uint16) (biWidth * 4);
break;
default:
return CONVERR_INVALIDBITDEPTH;
}
p_imageinfo->m_stride=row_width;
while ((row_width & 3) != 0)
row_width++;
p_imageinfo->m_row_width = row_width;
p_imageinfo->m_stride=p_imageinfo->m_row_width-p_imageinfo->m_stride;//difference
/* p_imageinfo->m_in_color_space = JCS_RGB;*/
/* in color space is ignored. was only for JPEG PAL format*/
p_imageinfo->m_input_components = 3;
p_imageinfo->m_data_precision = 8;
p_imageinfo->m_image_width = (uint16) biWidth;
p_imageinfo->m_image_height = (uint16) biHeight;
p_imageinfo->m_numcolorentries=(short)biClrUsed;
return CONV_OK;
}
///////////////////////////////////
///////END START READ BMP//////////
///////////////////////////////////
///////////////////////////////////
///////COLOR MAP READ//////////////
///////////////////////////////////
CONVERT_IMAGERESULT
read_colormap_bmp (CONVERT_IMGCONTEXT *p_inputparam, BYTE *p_colormap,int16 cmaplen, int16 mapentrysize)
/* Read the colormap from a BMP file */
{
int16 i;
switch (mapentrysize) {
case 3:
/* BGR format (occurs in OS/2 files) */
for (i = 0; i < cmaplen; i++) {
p_colormap[i*3+2]=read_param_byte(&p_inputparam->m_stream);//file or mem doesnt matter
p_colormap[i*3+1]=read_param_byte(&p_inputparam->m_stream);//file or mem doesnt matter
p_colormap[i*3+0]=read_param_byte(&p_inputparam->m_stream);//file or mem doesnt matter
}
break;
case 4:
/* BGR0 format (occurs in MS Windows files) */
for (i = 0; i < cmaplen; i++) {
p_colormap[i*3+2]=read_param_byte(&p_inputparam->m_stream);//file or mem doesnt matter
p_colormap[i*3+1]=read_param_byte(&p_inputparam->m_stream);//file or mem doesnt matter
p_colormap[i*3+0]=read_param_byte(&p_inputparam->m_stream);//file or mem doesnt matter
(void) read_param_byte(&p_inputparam->m_stream);
}
break;
default:
XP_ASSERT(FALSE);
return CONVERR_INVALIDCOLORMAP;
break;
}
return CONV_OK;
}
///////////////////////////////END COLORMAP READ
CONVERT_IMAGERESULT
finish_input_bmp(CONVERT_IMG_INFO *p_imageinfo, CONVERT_IMGCONTEXT *p_input,CONVERT_IMG_ARRAY *p_returnarray)
{
int16 i;
CONVERT_IMG_ARRAY t_returnarray;
int16 t_absheight=p_imageinfo->m_image_height;
int16 t_start,t_end;
int16 t_direction;
if (t_absheight<0) /* negative height == top down */
{
t_absheight*= -1;
t_start=0;
t_end=t_absheight;
t_direction= 1;
}
else
{
t_start =t_absheight-1;
t_end= -1;
t_direction= -1;
}
t_returnarray=(CONVERT_IMG_ARRAY)malloc(t_absheight*sizeof (CONVERT_IMG_ROW));
if (!t_returnarray) /*out of memory*/
return CONVERR_OUTOFMEMORY;
*p_returnarray=t_returnarray;
memset(t_returnarray,0,t_absheight*sizeof (CONVERT_IMG_ROW *));
/* want to initialize the memory to 0 so in case of error we can free each row.*/
XP_ASSERT(p_imageinfo);
XP_ASSERT(p_input);
for (i=t_start;i!=t_end;i+=t_direction)
{
t_returnarray[i]=(CONVERT_IMG_ROW)malloc(p_imageinfo->m_image_width*3); /* *3 because RGB */; /* pointer to JSAMPLE row[s] */
if (!t_returnarray[i])
{
return CONVERR_BADREAD;
}
switch (p_imageinfo->m_bitsperpixel)
{
case 1:
if (!get_1bit_row_bmp(p_input,p_imageinfo,t_returnarray[i]))/*true if succeeded*/
{
return CONVERR_BADREAD;
}
break;
case 4:
if (!get_4bit_row_bmp(p_input,p_imageinfo,t_returnarray[i]))/*true if succeeded*/
{
return CONVERR_BADREAD;
}
break;
case 8:
if (!get_8bit_row_bmp(p_input,p_imageinfo,t_returnarray[i]))/*true if succeeded*/
{
return CONVERR_BADREAD;
}
break;
case 16:
if (!get_16bit_row_bmp(p_input,p_imageinfo,t_returnarray[i]))/*true if succeeded*/
{
return CONVERR_BADREAD;
}
break;
case 24:
if (!get_24bit_row_bmp(p_input,p_imageinfo,t_returnarray[i]))/*true if succeeded*/
{
return CONVERR_BADREAD;
}
break;
case 32:
if (!get_32bit_row_bmp(p_input,p_imageinfo,t_returnarray[i]))/*true if succeeded*/
{
return CONVERR_BADREAD;
}
break;
default:
{
XP_ASSERT(FALSE); /* what the heck happened!*/
return CONVERR_INVALIDBITDEPTH;
}
}
}
return CONV_OK;
}
XP_Bool
get_8bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer)
/* This version is for reading 8-bit colormap indexes */
{
CONVERT_IMG_ROW outptr = p_outputbuffer;
BYTE t_byte;
int16 col;
if (!p_info->m_colormap||!p_outputbuffer||!p_params||!p_info)
{
XP_ASSERT(FALSE);
return FALSE;
}
for (col = p_info->m_image_width; col > 0; col--)
{
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
if (EOF==t_byte)
return FALSE;
if (t_byte>p_info->m_numcolorentries)/*bad index*/
return FALSE;
*outptr++ = p_info->m_colormap[0+t_byte*3]; /* can omit GETJSAMPLE() safely */
if (EOF==t_byte)
return FALSE;
*outptr++ = p_info->m_colormap[1+t_byte*3];
if (EOF==t_byte)
return FALSE;
*outptr++ = p_info->m_colormap[2+t_byte*3];
}
for (col=0;col<p_info->m_stride;col++) /*read to 4byte multiple*/
{
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
if (EOF==t_byte)
return FALSE;
}
return TRUE;
}
void process_color_mask(uint32 *p_mask,char *p_shift,uint16 *p_pad)
{
uint32 t_mask=*p_mask;
*p_shift=0;
*p_pad=0;
if (!p_mask||!p_shift||!p_pad)
{
XP_ASSERT(FALSE);
return;
}
while (!(t_mask&1))
{
(*p_shift)+=1;
t_mask=t_mask>>1;
}
while (t_mask&256) /*larger than 8bp color key i.e. 10-3-3*/
(*p_shift)+=1;
while (t_mask<128)/* dont know where the mask is that is why we dont put this in the same loop*/
{
(*p_shift)--;
t_mask=t_mask<<1;
(*p_pad)=(*p_pad)<<1;
(*p_pad)++;
}
}
XP_Bool
get_16bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer)
/* This version is for reading 8-bit colormap indexes */
{
CONVERT_IMG_ROW outptr = p_outputbuffer;
BYTE t_byte;
int16 col;
uint32 t_redmask=0x00007C00;
uint32 t_greenmask=0x000003E0;
uint32 t_bluemask=0x0000001F;
char t_redshift=10;
char t_greenshift=5;
char t_blueshift=0;
uint16 t_redpad=0;
uint16 t_greenpad=0;
uint16 t_bluepad=0;
if (!p_outputbuffer||!p_params||!p_info)
{
XP_ASSERT(FALSE);
return FALSE;
}
if (p_info->m_numcolorentries==3)
{
if (!p_info->m_colormap)
{
XP_ASSERT(FALSE);
return FALSE;
}
t_redmask=(p_info->m_colormap[0]<<16)+(p_info->m_colormap[1]<<8)+p_info->m_colormap[2];
t_greenmask=(p_info->m_colormap[3]<<16)+(p_info->m_colormap[4]<<8)+p_info->m_colormap[5];
t_bluemask=(p_info->m_colormap[6]<<16)+(p_info->m_colormap[7]<<8)+p_info->m_colormap[8];
process_color_mask(&t_redmask,&t_redshift,&t_redpad);
process_color_mask(&t_greenmask,&t_greenshift,&t_greenpad);
process_color_mask(&t_bluemask,&t_blueshift,&t_bluepad);
}
for (col = p_info->m_image_width; col > 0; col--)
{
uint16 t_pixel;/*16bits*/
uint16 t_temppixel;
if (-1==read_param(&p_params->m_stream,&t_pixel,sizeof(t_pixel)))
return FALSE;
p_info->m_image_size+=sizeof(t_pixel);
t_temppixel=(uint16)(t_redmask&t_pixel);
if (t_redshift>0)
t_temppixel=t_temppixel>>t_redshift;
else
t_temppixel=t_temppixel<<(-1 *t_redshift);
t_temppixel=t_temppixel+t_redpad;
outptr[0]=(BYTE)t_temppixel;
t_temppixel=(uint16)(t_greenmask&t_pixel);
if (t_greenshift>0)
t_temppixel=t_temppixel>>t_greenshift;
else
t_temppixel=t_temppixel<<(-1 *t_greenshift);
t_temppixel=t_temppixel+t_greenpad;
outptr[1]=(BYTE)t_temppixel;
t_temppixel=(uint16)(t_bluemask&t_pixel);
if (t_blueshift>0)
t_temppixel=t_temppixel>>t_blueshift;
else
t_temppixel=t_temppixel<<(-1 *t_blueshift);
t_temppixel=t_temppixel+t_bluepad;
outptr[2]=(BYTE)t_temppixel;
outptr+=3;
}
for (col=0;col<p_info->m_stride;col++) /*read to 4byte multiple*/
{
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
if (EOF==t_byte)
return FALSE;
}
return TRUE;
}
XP_Bool
get_32bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer)
/* This version is for reading 8-bit colormap indexes */
{
CONVERT_IMG_ROW outptr = p_outputbuffer;
BYTE t_byte;
int16 col;
uint32 t_redmask= 0x00FF0000;/*RGB(8,8,8)*/
uint32 t_greenmask=0x0000FF00;
uint32 t_bluemask= 0x000000FF;
BYTE t_redshift=16;
BYTE t_greenshift=8;
BYTE t_blueshift=0;
uint16 t_redpad=0;
uint16 t_greenpad=0;
uint16 t_bluepad=0;
if (!p_outputbuffer||!p_params||!p_info)
{
XP_ASSERT(FALSE);
return FALSE;
}
if (p_info->m_numcolorentries==3)
{
if (!p_info->m_colormap)
{
XP_ASSERT(FALSE);
return FALSE;
}
t_redmask=(p_info->m_colormap[0]<<16)+(p_info->m_colormap[1]<<8)+p_info->m_colormap[2];
t_greenmask=(p_info->m_colormap[3]<<16)+(p_info->m_colormap[4]<<8)+p_info->m_colormap[5];
t_bluemask=(p_info->m_colormap[6]<<16)+(p_info->m_colormap[7]<<8)+p_info->m_colormap[8];
process_color_mask(&t_redmask,&t_redshift,&t_redpad);
process_color_mask(&t_greenmask,&t_greenshift,&t_greenpad);
process_color_mask(&t_bluemask,&t_blueshift,&t_bluepad);
}
for (col = p_info->m_image_width; col > 0; col--)
{
uint32 t_pixel;
if (-1==read_param(&p_params->m_stream,&t_pixel,sizeof(t_pixel)))
return FALSE;
p_info->m_image_size+=sizeof(t_pixel);
if (t_redshift>0)
outptr[0]=(BYTE)((t_redmask&t_pixel)>>t_redshift);
else
outptr[0]=(BYTE)((t_redmask&t_pixel)<<(-1*t_redshift));
outptr[0]+=t_redpad;
if (t_greenshift>0)
outptr[1]=(BYTE)((t_greenmask&t_pixel)>>t_greenshift);
else
outptr[1]=(BYTE)((t_greenmask&t_pixel)<<(-1*t_greenshift));
outptr[1]+=t_greenpad;
if (t_blueshift>0)
outptr[2]=(BYTE)((t_bluemask&t_pixel)>>t_blueshift);
else
outptr[2]=(BYTE)((t_bluemask&t_pixel)<<(-1*t_blueshift));
outptr[2]+=t_bluepad;
outptr+=3;
}
for (col=0;col<p_info->m_stride;col++) /*read to 4byte multiple*/
{
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
if (EOF==t_byte)
return FALSE;
}
return TRUE;
}
XP_Bool
get_4bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer)
/* This version is for reading 8-bit colormap indexes */
{
CONVERT_IMG_ROW outptr = p_outputbuffer;
BYTE t_byte;
BYTE t_value; /*4bitvalue for index into color table*/
int16 col;
if (!p_info->m_colormap||!p_outputbuffer||!p_params||!p_info)
{
XP_ASSERT(FALSE);
return FALSE;
}
for (col = 0; col <p_info->m_image_width; col++)
{
if (0==(col%2))
{ t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
}
t_value = (t_byte>>4)& 0x0F; /*high order 4 bits, shift right, mask high order crap*/
if (EOF==t_byte)
return FALSE;
if (t_value>p_info->m_numcolorentries)/*bad index*/
return FALSE;
*outptr++ = p_info->m_colormap[0+t_value*3]; /* can omit GETJSAMPLE() safely */
if (EOF==t_byte)
return FALSE;
*outptr++ = p_info->m_colormap[1+t_value*3];
if (EOF==t_byte)
return FALSE;
*outptr++ = p_info->m_colormap[2+t_value*3];
t_byte<<=4; /*next pixel*/
}
for (col=0;col<p_info->m_stride;col++) /*read to 4byte multiple*/
{
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
if (EOF==t_byte)
return FALSE;
}
return TRUE;
}
XP_Bool
get_1bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer)
/* This version is for reading 8-bit colormap indexes */
{
CONVERT_IMG_ROW outptr = p_outputbuffer;
BYTE t_byte;
int16 col,bit;
if (!p_info->m_colormap||!p_outputbuffer||!p_params||!p_info)
{
XP_ASSERT(FALSE);
return FALSE;
}
if (!p_outputbuffer)
return FALSE;
for (bit=0;bit<p_info->m_image_width;bit++)
{
if (0==(bit%8))
{
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
}
//start from left by & with 128 then shift one at a time
if (t_byte&128)
{
*outptr++ = p_info->m_colormap[3];
*outptr++ = p_info->m_colormap[4];
*outptr++ = p_info->m_colormap[5];
}
else
{
*outptr++ = p_info->m_colormap[0];
*outptr++ = p_info->m_colormap[1];
*outptr++ = p_info->m_colormap[2];
}
t_byte<<=1;
}
for (col=0;col<p_info->m_stride;col++) /*read to 4byte multiple*/
{
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
if (EOF==t_byte)
return FALSE;
}
return TRUE;
}
XP_Bool
get_24bit_row_bmp (CONVERT_IMGCONTEXT *p_params,CONVERT_IMG_INFO *p_info,CONVERT_IMG_ROW p_outputbuffer)
/* This version is for reading 24-bit pixels */
{
CONVERT_IMG_ROW outptr = p_outputbuffer;
BYTE t_byte;
int16 col;
if (!p_outputbuffer||!p_params||!p_info)
{
XP_ASSERT(FALSE);
return FALSE;
}
for (col = p_info->m_image_width; col > 0; col--)
{
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
if (EOF==t_byte)
return FALSE;
outptr[2] =t_byte;
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
if (EOF==t_byte)
return FALSE;
outptr[1] =t_byte;
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
if (EOF==t_byte)
return FALSE;
outptr[0] =t_byte;
outptr+=3;/*next RGB*/
}
for (col=0;col<p_info->m_stride;col++) /*read to 4byte multiple*/
{
t_byte = read_param_byte(&p_params->m_stream);
p_info->m_image_size++;
if (EOF==t_byte)
return FALSE;
}
return TRUE;
}
///////////////////////////////////////////////
////////////////////END READ///////////////////
///////////////////////////////////////////////