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/* This code is ripped from Autotrace-0.29. Small modifications by pts. */
/* input-tga.ci reads tga files */
#ifdef __GNUC__
#pragma implementation
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
/* #include <unistd.h> */
#include "at_bitmap.h"
/* #include "message.h" */
/* #include "xstd.h" */
/* #include "input-tga.h" */ /* BUGFIX by pts: bmp -> tga */
/* TODO:
- Handle loading images that aren't 8 bits per channel.
*/
/* Round up a division to the nearest integer. */
#define ROUNDUP_DIVIDE(n,d) (((n) + (d - 1)) / (d))
#define MAX(a,b) ((a) > (b) ? (a) : (b))
#define MIN(a,b) ((a) < (b) ? (a) : (b))
#define INDEXED 1
#define INDEXEDA 2
#define GRAY 3
#define TGA_RGB 5
#define INDEXED_IMAGE 1
#define INDEXEDA_IMAGE 2
#define GRAY_IMAGE 3
#define GRAYA_IMAGE 4
#define TGA_RGB_IMAGE 5
#define TGA_RGBA_IMAGE 6
typedef struct _TgaSaveVals
{
int rle;
} TgaSaveVals;
typedef struct _TgaSaveInterface
{
int run;
} TgaSaveInterface;
struct tga_header
{
unsigned char idLength;
unsigned char colorMapType;
/* The image type. */
#define TGA_TYPE_MAPPED 1
#define TGA_TYPE_COLOR 2
#define TGA_TYPE_GRAY 3
#define TGA_TYPE_MAPPED_RLE 9
#define TGA_TYPE_COLOR_RLE 10
#define TGA_TYPE_GRAY_RLE 11
unsigned char imageType;
/* Color Map Specification. */
/* We need to separately specify high and low bytes to avoid endianness
and alignment problems. */
unsigned char colorMapIndexLo, colorMapIndexHi;
unsigned char colorMapLengthLo, colorMapLengthHi;
unsigned char colorMapSize;
/* Image Specification. */
unsigned char xOriginLo, xOriginHi;
unsigned char yOriginLo, yOriginHi;
unsigned char widthLo, widthHi;
unsigned char heightLo, heightHi;
unsigned char bpp;
/* Image descriptor.
3-0: attribute bpp
4: left-to-right ordering
5: top-to-bottom ordering
7-6: zero
*/
#define TGA_DESC_ABITS 0x0f
#define TGA_DESC_HORIZONTAL 0x10
#define TGA_DESC_VERTICAL 0x20
unsigned char descriptor;
};
#if 0
static struct
{
unsigned int extensionAreaOffset;
unsigned int developerDirectoryOffset;
#define TGA_SIGNATURE "TRUEVISION-XFILE"
char signature[16];
char dot;
char null;
} tga_footer;
#endif
static bitmap_type ReadImage (FILE *fp,
struct tga_header *hdr);
#if PTS_SAM2P /**** pts ****/
bitmap_type tga_load_image (FILE* filename)
#else
bitmap_type tga_load_image (at_string filename)
#endif
{
FILE *fp;
struct tga_header hdr;
bitmap_type image;
image.bitmap = NULL;
#if PTS_SAM2P /**** pts ****/
fp=filename;
#else
fp = fopen (filename, "rb");
if (!fp)
FATAL1 ("TGA: can't open \"%s\"\n", filename);
#endif
memset(&hdr, '\0', sizeof(hdr));
#if 0
/* Check the footer. */
if (fseek (fp, 0L - (sizeof (tga_footer)), SEEK_END)
|| fread (&tga_footer, sizeof (tga_footer), 1, fp) != 1)
#if PTS_SAM2P
FATALP("TGA: Cannot read footer");
#else
FATAL1 ("TGA: Cannot read footer from \"%s\"\n", filename);
#endif
/* Check the signature. */
if (fseek (fp, 0, SEEK_SET) ||
#else
if (0 ||
#endif
fread (&hdr, sizeof (hdr), 1, fp) != 1)
#if PTS_SAM2P
FATALP("TGA: Cannot read header");
#else
FATAL1 ("TGA: Cannot read header from \"%s\"\n", filename);
#endif
/* Skip the image ID field. */
{
#if 0
if (hdr.idLength && fseek (fp, hdr.idLength, SEEK_CUR))
#else
char buf[256];
if (hdr.idLength!=fread(buf, 1, hdr.idLength, fp))
#endif
#if PTS_SAM2P
FATALP("TGA: Cannot skip ID field");
#else
FATAL1 ("TGA: Cannot skip ID field in \"%s\"\n", filename);
#endif
}
image = ReadImage (fp, &hdr);
/* fclose (fp); */
return image;
}
static int
std_fread (unsigned char *buf,
int datasize,
int nelems,
FILE *fp)
{
return fread (buf, datasize, nelems, fp);
}
#define RLE_PACKETSIZE 0x80
/* Decode a bufferful of file. */
static int
rle_fread (unsigned char *buf,
int datasize,
int nelems,
FILE *fp)
{
static unsigned char *statebuf = 0;
static int statelen = 0;
static int laststate = 0;
int j, k;
int buflen, count, bytes;
unsigned char *p;
/* Scale the buffer length. */
buflen = nelems * datasize;
j = 0;
while (j < buflen)
{
if (laststate < statelen)
{
/* Copy bytes from our previously decoded buffer. */
bytes = MIN (buflen - j, statelen - laststate);
memcpy (buf + j, statebuf + laststate, bytes);
j += bytes;
laststate += bytes;
/* If we used up all of our state bytes, then reset them. */
if (laststate >= statelen)
{
laststate = 0;
statelen = 0;
}
/* If we filled the buffer, then exit the loop. */
if (j >= buflen)
break;
}
/* Decode the next packet. */
count = fgetc (fp);
if (count == EOF)
{
return j / datasize;
}
/* Scale the byte length to the size of the data. */
bytes = ((count & ~RLE_PACKETSIZE) + 1) * datasize;
if (j + bytes <= buflen)
{
/* We can copy directly into the image buffer. */
p = buf + j;
}
else {
/* Allocate the state buffer if we haven't already. */
if (!statebuf)
statebuf = (unsigned char *) malloc (RLE_PACKETSIZE * datasize);
p = statebuf;
}
if (count & RLE_PACKETSIZE)
{
/* Fill the buffer with the next value. */
if (fread (p, datasize, 1, fp) != 1)
{
return j / datasize;
}
/* Optimized case for single-byte encoded data. */
if (datasize == 1)
memset (p + 1, *p, bytes - 1);
else
for (k = datasize; k < bytes; k += datasize)
memcpy (p + k, p, datasize);
}
else
{
/* Read in the buffer. */
if (fread (p, bytes, 1, fp) != 1)
{
return j / datasize;
}
}
/* We may need to copy bytes from the state buffer. */
if (p == statebuf)
statelen = bytes;
else
j += bytes;
}
return nelems;
}
static bitmap_type
ReadImage (FILE *fp,
struct tga_header *hdr)
{
bitmap_type image;
unsigned char *buffer;
unsigned char *alphas;
int width, height, bpp, abpp, pbpp, nalphas;
int j, k;
int pelbytes, wbytes, bsize, npels, pels;
int rle, badread;
int itype=0, dtype;
unsigned char *cmap = NULL;
int (*myfread)(unsigned char *, int, int, FILE *);
/* Find out whether the image is horizontally or vertically reversed. */
char horzrev = (char) (hdr->descriptor & TGA_DESC_HORIZONTAL);
char vertrev = (char) (!(hdr->descriptor & TGA_DESC_VERTICAL));
image.bitmap = NULL;
/* Reassemble the multi-byte values correctly, regardless of
host endianness. */
width = (hdr->widthHi << 8) | hdr->widthLo;
height = (hdr->heightHi << 8) | hdr->heightLo;
bpp = hdr->bpp;
abpp = hdr->descriptor & TGA_DESC_ABITS;
if (hdr->imageType == TGA_TYPE_COLOR ||
hdr->imageType == TGA_TYPE_COLOR_RLE)
pbpp = MIN (bpp / 3, 8) * 3;
else if (abpp < bpp)
pbpp = bpp - abpp;
else
pbpp = bpp;
if (abpp + pbpp > bpp)
{
WARNINGP3 ("TGA: ",pbpp," bit image, ",abpp," bit alpha is greater than ",bpp," total bits per pixel");
/* Assume that alpha bits were set incorrectly. */
abpp = bpp - pbpp;
WARNINGP1 ("TGA: reducing to * bit alpha: ", abpp);
}
else if (abpp + pbpp < bpp)
{
WARNINGP3 ("TGA: ",pbpp," bit image, ",abpp," bit alpha is less than ",bpp," total bits per pixel");
/* Again, assume that alpha bits were set incorrectly. */
abpp = bpp - pbpp;
WARNINGP1 ("TGA: increasing to * bit alpha: ", abpp);
}
rle = 0;
switch (hdr->imageType)
{
case TGA_TYPE_MAPPED_RLE:
rle = 1;
case TGA_TYPE_MAPPED:
itype = INDEXED;
/* Find the size of palette elements. */
pbpp = MIN (hdr->colorMapSize / 3, 8) * 3;
if (pbpp < hdr->colorMapSize)
abpp = hdr->colorMapSize - pbpp;
else
abpp = 0;
if (bpp != 8)
/* We can only cope with 8-bit indices. */
FATALP ("TGA: index sizes other than 8 bits are unimplemented");
if (abpp)
dtype = INDEXEDA_IMAGE;
else
dtype = INDEXED_IMAGE;
break;
case TGA_TYPE_GRAY_RLE:
rle = 1;
case TGA_TYPE_GRAY:
itype = GRAY;
if (abpp)
dtype = GRAYA_IMAGE;
else
dtype = GRAY_IMAGE;
break;
case TGA_TYPE_COLOR_RLE:
rle = 1;
case TGA_TYPE_COLOR:
itype = TGA_RGB;
if (abpp)
dtype = TGA_RGBA_IMAGE;
else
dtype = TGA_RGB_IMAGE;
break;
default:
FATALP1 ("TGA: unrecognized image type ", (unsigned)hdr->imageType);
}
if ((abpp && abpp != 8) ||
((itype == TGA_RGB || itype == INDEXED) && pbpp != 24) ||
(itype == GRAY && pbpp != 8))
/* FIXME: We haven't implemented bit-packed fields yet. */
FATALP ("TGA: channel sizes other than 8 bits are unimplemented");
/* Check that we have a color map only when we need it. */
if (itype == INDEXED)
{
if (hdr->colorMapType != 1)
FATALP1 ("TGA: indexed image has invalid color map type ",
(unsigned)hdr->colorMapType);
}
else if (hdr->colorMapType != 0)
FATALP1 ("TGA: non-indexed image has invalid color map type ",
(unsigned)hdr->colorMapType);
alphas = 0;
nalphas = 0;
if (hdr->colorMapType == 1)
{
/* We need to read in the colormap. */
int index, colors;
unsigned int length;
index = (hdr->colorMapIndexHi << 8) | hdr->colorMapIndexLo;
length = (hdr->colorMapLengthHi << 8) | hdr->colorMapLengthLo;
if (length == 0)
FATALP1 ("TGA: invalid color map length ", length);
pelbytes = ROUNDUP_DIVIDE (hdr->colorMapSize, 8);
colors = length + index;
cmap = (unsigned char *) malloc (colors * pelbytes);
/* Zero the entries up to the beginning of the map. */
memset (cmap, 0, index * pelbytes);
/* Read in the rest of the colormap. */
if (fread (cmap + (index * pelbytes), pelbytes, length, fp) != length)
FATALP1 ("TGA: error reading colormap; ftell == ", ftell (fp));
/* If we have an alpha channel, then create a mapping to the alpha
values. */
if (pelbytes > 3)
alphas = (unsigned char *) malloc (colors);
k = 0;
for (j = 0; j < colors * pelbytes; j += pelbytes)
{
/* Swap from BGR to TGA_RGB. */
unsigned char tmp = cmap[j];
cmap[k ++] = cmap[j + 2];
cmap[k ++] = cmap[j + 1];
cmap[k ++] = tmp;
/* Take the alpha values out of the colormap. */
if (alphas)
alphas[nalphas ++] = cmap[j + 3];
}
/* If the last color was transparent, then omit it from the
mapping. */
if (nalphas && alphas[nalphas - 1] == 0)
colors --;
/* Now pretend as if we only have 8 bpp. */
abpp = 0;
pbpp = 8;
pelbytes = 1;
}
else
pelbytes = 3;
image.bitmap = (unsigned char *) malloc (width * height * 3 * sizeof(unsigned char));
BITMAP_WIDTH (image) = (unsigned short) width;
BITMAP_HEIGHT (image) = (unsigned short) height;
BITMAP_PLANES (image) = (unsigned short) 3;
/* Calculate TGA bytes per pixel. */
bpp = ROUNDUP_DIVIDE (pbpp + abpp, 8);
/* Maybe we need to reverse the data. */
buffer = NULL;
if (horzrev || vertrev)
buffer = (unsigned char *) malloc (width * height * pelbytes * sizeof (unsigned char));
if (rle)
myfread = rle_fread;
else
myfread = std_fread;
wbytes = width * pelbytes;
badread = 0;
npels = width * height;
bsize = wbytes * height;
/* Suck in the data one height at a time. */
if (badread)
pels = 0;
else
pels = (*myfread) (image.bitmap, bpp, npels, fp);
if (pels != npels)
{
if (!badread)
{
/* Probably premature end of file. */
WARNINGP1 ("TGA: error reading; ftell == ", ftell (fp));
badread = 1;
}
/* Fill the rest of this tile with zeros. */
memset (image.bitmap + (pels * bpp), 0, ((npels - pels) * bpp));
}
/* If we have indexed alphas, then set them. */
if (nalphas)
{
/* Start at the end of the buffer, and work backwards. */
k = (npels - 1) * bpp;
for (j = bsize - pelbytes; j >= 0; j -= pelbytes)
{
/* Find the alpha for this index. */
image.bitmap[j + 1] = alphas[image.bitmap[k]];
image.bitmap[j] = image.bitmap[k --];
}
}
if (itype == GRAY)
for (j = bsize/3 - 1; j >= 0; j -= 1)
{
/* Find the alpha for this index. */
image.bitmap[3*j] = image.bitmap[j];
image.bitmap[3*j+1] = image.bitmap[j];
image.bitmap[3*j+2] = image.bitmap[j];
}
if (pelbytes >= 3)
{
/* Rearrange the colors from BGR to TGA_RGB. */
for (j = 0; j < bsize; j += pelbytes)
{
unsigned char tmp = image.bitmap[j];
image.bitmap[j] = image.bitmap[j + 2];
image.bitmap[j + 2] = tmp;
}
}
if (horzrev || vertrev)
{
unsigned char *tmp;
if (vertrev)
{
/* We need to mirror only vertically. */
for (j = 0; j < bsize; j += wbytes)
memcpy (buffer + j,
image.bitmap + bsize - (j + wbytes), wbytes);
}
else if (horzrev)
{
/* We need to mirror only horizontally. */
for (j = 0; j < bsize; j += wbytes)
for (k = 0; k < wbytes; k += pelbytes)
memcpy (buffer + k + j,
image.bitmap + (j + wbytes) - (k + pelbytes), pelbytes);
}
else
{
/* Completely reverse the pixels in the buffer. */
for (j = 0; j < bsize; j += pelbytes)
memcpy (buffer + j,
image.bitmap + bsize - (j + pelbytes), pelbytes);
}
/* Swap the buffers because we modified them. */
tmp = buffer;
buffer = image.bitmap;
image.bitmap = tmp;
}
if (fgetc (fp) != EOF)
WARNINGP ("TGA: too much input data, ignoring extra...");
free (buffer);
if (hdr->colorMapType == 1)
{
unsigned char *temp, *temp2, *temp3;
unsigned char index;
int xpos, ypos;
temp2 = temp = image.bitmap;
image.bitmap = temp3 = (unsigned char *) malloc (width * height * 3 * sizeof (unsigned char));
for (ypos = 0; ypos < height; ypos++)
{
for (xpos = 0; xpos < width; xpos++)
{
index = *temp2++;
*temp3++ = cmap[3*index+0];
*temp3++ = cmap[3*index+1];
*temp3++ = cmap[3*index+2];
}
}
free (temp);
free (cmap);
}
if (alphas)
free (alphas);
return image;
} /* read_image */
|