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/* tgatoppm.c - read a TrueVision Targa file and write a portable pixmap
**
** Partially based on tga2rast, version 1.0, by Ian MacPhedran.
**
** Copyright (C) 1989 by Jef Poskanzer.
**
** Permission to use, copy, modify, and distribute this software and its
** documentation for any purpose and without fee is hereby granted, provided
** that the above copyright notice appear in all copies and that both that
** copyright notice and this permission notice appear in supporting
** documentation. This software is provided "as is" without express or
** implied warranty.
*/
#define _BSD_SOURCE 1 /* Make sure strdup() is in string.h */
#define _XOPEN_SOURCE 500 /* Make sure strdup() is in string.h */
#include <string.h>
#include "ppm.h"
#include "tga.h"
#include "shhopt.h"
#include "nstring.h"
#define MAXCOLORS 16384
static int mapped, rlencoded;
static pixel ColorMap[MAXCOLORS];
static gray AlphaMap[MAXCOLORS];
static int RLE_count = 0, RLE_flag = 0;
struct cmdlineInfo {
/* All the information the user supplied in the command line,
in a form easy for the program to use.
*/
const char *input_filename;
unsigned int headerdump;
const char *alpha_filename;
unsigned int alpha_stdout;
};
static void
parseCommandLine(int argc, char ** argv,
struct cmdlineInfo *cmdlineP) {
/*----------------------------------------------------------------------------
Note that many of the strings that this function returns in the
*cmdlineP structure are actually in the supplied argv array. And
sometimes, one of these strings is actually just a suffix of an entry
in argv!
-----------------------------------------------------------------------------*/
optEntry *option_def = malloc(100*sizeof(optEntry));
/* Instructions to OptParseOptions2 on how to parse our options.
*/
optStruct3 opt;
unsigned int option_def_index;
unsigned int alpha_spec;
option_def_index = 0; /* incremented by OPTENTRY */
OPTENT3(0, "headerdump", OPT_FLAG, NULL, &cmdlineP->headerdump, 0);
OPTENT3(0, "debug", OPT_FLAG, NULL, &cmdlineP->headerdump, 0);
OPTENT3(0, "alphaout", OPT_STRING, &cmdlineP->alpha_filename,
&alpha_spec, 0);
opt.opt_table = option_def;
opt.short_allowed = FALSE; /* We have no short (old-fashioned) options */
opt.allowNegNum = FALSE; /* We have no parms that are negative numbers */
optParseOptions3(&argc, argv, opt, sizeof(opt), 0);
/* Uses and sets argc, argv, and some of *cmdlineP and others. */
if (argc - 1 == 0)
cmdlineP->input_filename = "-"; /* he wants stdin */
else if (argc - 1 == 1)
cmdlineP->input_filename = strdup(argv[1]);
else
pm_error("Too many arguments. The only argument accepted "
"is the input file specification");
if (alpha_spec &&
STREQ(cmdlineP->alpha_filename, "-"))
cmdlineP->alpha_stdout = 1;
else
cmdlineP->alpha_stdout = 0;
if (!alpha_spec)
cmdlineP->alpha_filename = NULL;
}
static unsigned char
getbyte(FILE * const ifP) {
unsigned char c;
if ( fread( (char*) &c, 1, 1, ifP ) != 1 )
pm_error( "EOF / read error" );
return c;
}
static void
get_pixel(FILE * const ifP, pixel * dest, int Size, gray *alpha_p) {
static pixval Red, Grn, Blu;
static pixval Alpha;
unsigned char j, k;
static unsigned int l;
/* Check if run length encoded. */
if ( rlencoded )
{
if ( RLE_count == 0 )
{ /* Have to restart run. */
unsigned char i;
i = getbyte( ifP );
RLE_flag = ( i & 0x80 );
if ( RLE_flag == 0 )
/* Stream of unencoded pixels. */
RLE_count = i + 1;
else
/* Single pixel replicated. */
RLE_count = i - 127;
/* Decrement count & get pixel. */
--RLE_count;
}
else
{ /* Have already read count & (at least) first pixel. */
--RLE_count;
if ( RLE_flag != 0 )
/* Replicated pixels. */
goto PixEncode;
}
}
/* Read appropriate number of bytes, break into RGB. */
switch ( Size )
{
case 8: /* Grayscale, read and triplicate. */
Red = Grn = Blu = l = getbyte( ifP );
Alpha = 0;
break;
case 16: /* 5 bits each of red green and blue. */
case 15: /* Watch byte order. */
j = getbyte( ifP );
k = getbyte( ifP );
l = ( (unsigned int) k << 8 ) + j;
Red = ( k & 0x7C ) >> 2;
Grn = ( ( k & 0x03 ) << 3 ) + ( ( j & 0xE0 ) >> 5 );
Blu = j & 0x1F;
Alpha = 0;
break;
case 32: /* 8 bits each of blue, green, red, and alpha */
case 24: /* 8 bits each of blue, green, and red. */
Blu = getbyte( ifP );
Grn = getbyte( ifP );
Red = getbyte( ifP );
if ( Size == 32 )
Alpha = getbyte( ifP );
else
Alpha = 0;
l = 0;
break;
default:
pm_error( "unknown pixel size (#2) - %d", Size );
}
PixEncode:
if ( mapped ) {
*dest = ColorMap[l];
*alpha_p = AlphaMap[l];
} else {
PPM_ASSIGN( *dest, Red, Grn, Blu );
*alpha_p = Alpha;
}
}
static void
readtga(FILE * const ifP, struct ImageHeader * tgaP) {
unsigned char flags;
ImageIDField junk;
tgaP->IdLength = getbyte( ifP );
tgaP->CoMapType = getbyte( ifP );
tgaP->ImgType = getbyte( ifP );
tgaP->Index_lo = getbyte( ifP );
tgaP->Index_hi = getbyte( ifP );
tgaP->Length_lo = getbyte( ifP );
tgaP->Length_hi = getbyte( ifP );
tgaP->CoSize = getbyte( ifP );
tgaP->X_org_lo = getbyte( ifP );
tgaP->X_org_hi = getbyte( ifP );
tgaP->Y_org_lo = getbyte( ifP );
tgaP->Y_org_hi = getbyte( ifP );
tgaP->Width_lo = getbyte( ifP );
tgaP->Width_hi = getbyte( ifP );
tgaP->Height_lo = getbyte( ifP );
tgaP->Height_hi = getbyte( ifP );
tgaP->PixelSize = getbyte( ifP );
flags = getbyte( ifP );
tgaP->AttBits = flags & 0xf;
tgaP->Rsrvd = ( flags & 0x10 ) >> 4;
tgaP->OrgBit = ( flags & 0x20 ) >> 5;
tgaP->IntrLve = ( flags & 0xc0 ) >> 6;
if ( tgaP->IdLength != 0 )
fread( junk, 1, (int) tgaP->IdLength, ifP );
}
static void
get_map_entry(FILE * const ifP, pixel * Value, int Size, gray * Alpha) {
unsigned char j, k, r, g, b, a;
/* Read appropriate number of bytes, break into rgb & put in map. */
switch ( Size )
{
case 8: /* Grayscale, read and triplicate. */
r = g = b = getbyte( ifP );
a = 0;
break;
case 16: /* 5 bits each of red green and blue. */
case 15: /* Watch for byte order. */
j = getbyte( ifP );
k = getbyte( ifP );
r = ( k & 0x7C ) >> 2;
g = ( ( k & 0x03 ) << 3 ) + ( ( j & 0xE0 ) >> 5 );
b = j & 0x1F;
a = 0;
break;
case 32: /* 8 bits each of blue, green, red, and alpha */
case 24: /* 8 bits each of blue green and red. */
b = getbyte( ifP );
g = getbyte( ifP );
r = getbyte( ifP );
if ( Size == 32 )
a = getbyte( ifP );
else
a = 0;
break;
default:
pm_error( "unknown colormap pixel size (#2) - %d", Size );
}
PPM_ASSIGN( *Value, r, g, b );
*Alpha = a;
}
static void
dumpHeader(struct ImageHeader const tga_head) {
const char * imgTypeName;
switch(tga_head.ImgType) {
case TGA_Map: imgTypeName = "TGA_Map"; break;
case TGA_RGB: imgTypeName = "TGA_RGB"; break;
case TGA_Mono: imgTypeName = "TGA_Mono"; break;
case TGA_RLEMap: imgTypeName = "TGA_RLEMap"; break;
case TGA_RLERGB: imgTypeName = "TGA_RLERGB"; break;
case TGA_RLEMono: imgTypeName = "TGA_RLEMono"; break;
case TGA_CompMap: imgTypeName = "TGA_CompMap"; break;
case TGA_CompMap4: imgTypeName = "TGA_CompMap4"; break;
default: imgTypeName = "unknown";
}
pm_message( "IdLength = %d", (int) tga_head.IdLength );
pm_message( "CoMapType = %d", (int) tga_head.CoMapType );
pm_message( "ImgType = %d (%s)", (int) tga_head.ImgType, imgTypeName );
pm_message( "Index_lo = %d", (int) tga_head.Index_lo );
pm_message( "Index_hi = %d", (int) tga_head.Index_hi );
pm_message( "Length_lo = %d", (int) tga_head.Length_lo );
pm_message( "Length_hi = %d", (int) tga_head.Length_hi );
pm_message( "CoSize = %d", (int) tga_head.CoSize );
pm_message( "X_org_lo = %d", (int) tga_head.X_org_lo );
pm_message( "X_org_hi = %d", (int) tga_head.X_org_hi );
pm_message( "Y_org_lo = %d", (int) tga_head.Y_org_lo );
pm_message( "Y_org_hi = %d", (int) tga_head.Y_org_hi );
pm_message( "Width_lo = %d", (int) tga_head.Width_lo );
pm_message( "Width_hi = %d", (int) tga_head.Width_hi );
pm_message( "Height_lo = %d", (int) tga_head.Height_lo );
pm_message( "Height_hi = %d", (int) tga_head.Height_hi );
pm_message( "PixelSize = %d", (int) tga_head.PixelSize );
pm_message( "AttBits = %d", (int) tga_head.AttBits );
pm_message( "Rsrvd = %d", (int) tga_head.Rsrvd );
pm_message( "OrgBit = %d", (int) tga_head.OrgBit );
pm_message( "IntrLve = %d", (int) tga_head.IntrLve );
}
int
main(int argc, char * argv[]) {
struct cmdlineInfo cmdline;
struct ImageHeader tga_head;
FILE* ifP;
FILE *imageout_file, *alpha_file;
int rows, cols, row, realrow, truerow, baserow;
int maxval;
pixel** pixels; /* The image array in ppm format */
gray** alpha; /* The alpha channel array in pgm format */
ppm_init(&argc, argv);
parseCommandLine(argc, argv, &cmdline);
ifP = pm_openr(cmdline.input_filename);
if (cmdline.alpha_stdout)
alpha_file = stdout;
else if (cmdline.alpha_filename == NULL)
alpha_file = NULL;
else
alpha_file = pm_openw(cmdline.alpha_filename);
if (cmdline.alpha_stdout)
imageout_file = NULL;
else
imageout_file = stdout;
/* Read the Targa file header. */
readtga(ifP, &tga_head);
if (cmdline.headerdump)
dumpHeader(tga_head);
rows = ((int) tga_head.Height_lo) + ((int) tga_head.Height_hi) * 256;
cols = ((int) tga_head.Width_lo) + ((int) tga_head.Width_hi) * 256;
switch (tga_head.ImgType) {
case TGA_Map:
case TGA_RGB:
case TGA_Mono:
case TGA_RLEMap:
case TGA_RLERGB:
case TGA_RLEMono:
break;
default:
pm_error("unknown Targa image type %d", tga_head.ImgType);
}
if (tga_head.ImgType == TGA_Map ||
tga_head.ImgType == TGA_RLEMap ||
tga_head.ImgType == TGA_CompMap ||
tga_head.ImgType == TGA_CompMap4)
{ /* Color-mapped image */
if (tga_head.CoMapType != 1)
pm_error(
"mapped image (type %d) with color map type != 1",
tga_head.ImgType );
mapped = true;
/* Figure maxval from CoSize. */
switch (tga_head.CoSize) {
case 8:
case 24:
case 32:
maxval = 255;
break;
case 15:
case 16:
maxval = 31;
break;
default:
pm_error(
"unknown colormap pixel size - %d", tga_head.CoSize );
}
} else {
/* Not colormap, so figure maxval from PixelSize. */
mapped = false;
switch ( tga_head.PixelSize ) {
case 8:
case 24:
case 32:
maxval = 255;
break;
case 15:
case 16:
maxval = 31;
break;
default:
pm_error("unknown pixel size - %d", tga_head.PixelSize);
}
}
/* If required, read the color map information. */
if ( tga_head.CoMapType != 0 ) {
unsigned int i;
unsigned int temp1, temp2;
temp1 = tga_head.Index_lo + tga_head.Index_hi * 256;
temp2 = tga_head.Length_lo + tga_head.Length_hi * 256;
if ((temp1 + temp2 + 1) >= MAXCOLORS)
pm_error("too many colors - %d", (temp1 + temp2 + 1));
for (i = temp1; i < (temp1 + temp2); ++i)
get_map_entry(ifP, &ColorMap[i], (int) tga_head.CoSize,
&AlphaMap[i]);
}
/* Check run-length encoding. */
if (tga_head.ImgType == TGA_RLEMap ||
tga_head.ImgType == TGA_RLERGB ||
tga_head.ImgType == TGA_RLEMono)
rlencoded = 1;
else
rlencoded = 0;
/* Read the Targa file body and convert to portable format. */
pixels = ppm_allocarray( cols, rows );
alpha = pgm_allocarray( cols, rows );
truerow = 0;
baserow = 0;
for (row = 0; row < rows; ++row) {
unsigned int col;
realrow = truerow;
if (tga_head.OrgBit == 0)
realrow = rows - realrow - 1;
for (col = 0; col < cols; ++col)
get_pixel(ifP, &(pixels[realrow][col]), (int) tga_head.PixelSize,
&(alpha[realrow][col]));
if (tga_head.IntrLve == TGA_IL_Four)
truerow += 4;
else if (tga_head.IntrLve == TGA_IL_Two)
truerow += 2;
else
++truerow;
if (truerow >= rows)
truerow = ++baserow;
}
pm_close(ifP);
if (imageout_file)
ppm_writeppm(imageout_file, pixels, cols, rows, (pixval) maxval, 0);
if (alpha_file)
pgm_writepgm(alpha_file, alpha, cols, rows, (pixval) maxval, 0);
if (imageout_file)
pm_close(imageout_file);
if (alpha_file)
pm_close(alpha_file);
return 0;
}
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