/* tga.c targa image handling Copyright (C) 1996-1997 Id Software, Inc. This program 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. This program 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 this program; if not, write to: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA */ #ifdef HAVE_CONFIG_H # include "config.h" #endif static __attribute__ ((unused)) const char rcsid[] = "$Id$"; #ifdef HAVE_STRING_H # include #endif #ifdef HAVE_STRINGS_H # include #endif #include #include "QF/qendian.h" #include "QF/quakefs.h" #include "QF/sys.h" #include "QF/texture.h" #include "QF/tga.h" #include "QF/zone.h" #include "compat.h" typedef struct { byte red; byte green; byte blue; byte alpha; } cmap_t; static inline byte * blit_rgb (byte *buf, int count, byte red, byte green, byte blue) { while (count--) { *buf++ = red; *buf++ = green; *buf++ = blue; *buf++ = 255; } return buf; } static inline byte * blit_rgba (byte *buf, int count, byte red, byte green, byte blue, byte alpha) { while (count--) { *buf++ = red; *buf++ = green; *buf++ = blue; *buf++ = alpha; } return buf; } static inline byte * reverse_blit_rgb (byte *buf, int count, byte red, byte green, byte blue) { while (count--) { *buf-- = 255; *buf-- = blue; *buf-- = green; *buf-- = red; } return buf; } static inline byte * reverse_blit_rgba (byte *buf, int count, byte red, byte green, byte blue, byte alpha) { while (count--) { *buf-- = alpha; *buf-- = blue; *buf-- = green; *buf-- = red; } return buf; } static inline byte * blit_la (byte *buf, int count, byte lum, byte alpha) { while (count--) { *buf++ = lum; *buf++ = alpha; } return buf; } static inline byte * reverse_blit_la (byte *buf, int count, byte lum, byte alpha) { while (count--) { *buf-- = alpha; *buf-- = lum; } return buf; } static inline byte * read_bgr (byte *buf, int count, byte **data, cmap_t *cmap) { byte blue = *(*data)++; byte green = *(*data)++; byte red = *(*data)++; return blit_rgb (buf, count, red, green, blue); } static inline byte * read_bgra (byte *buf, int count, byte **data, cmap_t *cmap) { byte blue = *(*data)++; byte green = *(*data)++; byte red = *(*data)++; byte alpha = *(*data)++; return blit_rgba (buf, count, red, green, blue, alpha); } static inline byte * reverse_read_bgr (byte *buf, int count, byte **data, cmap_t *cmap) { byte blue = *(*data)++; byte green = *(*data)++; byte red = *(*data)++; return reverse_blit_rgb (buf, count, red, green, blue); } static inline byte * reverse_read_bgra (byte *buf, int count, byte **data, cmap_t *cmap) { byte blue = *(*data)++; byte green = *(*data)++; byte red = *(*data)++; byte alpha = *(*data)++; return reverse_blit_rgba (buf, count, red, green, blue, alpha); } static inline byte * read_cmap (byte *buf, int count, byte **data, cmap_t *cmap) { byte ind = *(*data)++; byte red = cmap[ind].red; byte green = cmap[ind].green; byte blue = cmap[ind].blue; byte alpha = cmap[ind].alpha; return blit_rgba (buf, count, red, green, blue, alpha); } static inline byte * reverse_read_cmap (byte *buf, int count, byte **data, cmap_t *cmap) { byte ind = *(*data)++; byte red = cmap[ind].red; byte green = cmap[ind].green; byte blue = cmap[ind].blue; byte alpha = cmap[ind].alpha; return reverse_blit_rgba (buf, count, red, green, blue, alpha); } static inline byte * read_l (byte *buf, int count, byte **data, cmap_t *cmap) { byte lum = *(*data)++; byte alpha = 255; return blit_la (buf, count, lum, alpha); } static inline byte * reverse_read_l (byte *buf, int count, byte **data, cmap_t *cmap) { byte lum = *(*data)++; byte alpha = 255; return reverse_blit_la (buf, count, lum, alpha); } static inline void setup_pixrow_span (TargaHeader *targa, tex_t *tex, byte **_pixrow, int *_span) { byte *pixrow; int span; span = targa->width * 4; pixrow = tex->data; if (targa->attributes & 0x10) { // right to left pixrow += span - 4; } if (!(targa->attributes & 0x20)) { // bottom to top pixrow += (targa->height - 1) * span; span = -span; } *_pixrow = pixrow; *_span = span; } static byte * skip_colormap (TargaHeader *targa, byte *data) { int bpe; if (!targa->colormap_type) return data; Sys_DPrintf ("LoadTGA: skipping colormap\n"); bpe = (targa->pixel_size +7) / 8; return data + bpe * targa->colormap_length; } static cmap_t * parse_colormap (TargaHeader *targa, byte **dataByte) { byte *data; cmap_t *cm, *cmap; int i; unsigned short word; if (!targa->colormap_type) Sys_Error ("LoadTGA: colormap missing"); if (targa->colormap_type != 1) Sys_Error ("LoadTGA: unkown colormap type"); if (targa->colormap_index + targa->colormap_length > 256) Sys_Error ("LoadTGA: unsupported color map size"); if (targa->pixel_size != 8) Sys_Error ("LoadTGA: unsupported color map index bits"); switch (targa->colormap_size) { case 32: if (!targa->colormap_index && targa->colormap_length == 256) { cmap = (cmap_t *) *dataByte; *dataByte += 256 * sizeof (cmap_t); return cmap; } case 24: case 16: case 15: cmap = Hunk_AllocName (256 * sizeof (cmap_t), "TGA cmap"); break; default: Sys_Error ("LoadTGA: unsupported color map size"); break; } data = *dataByte; cm = cmap + targa->colormap_index; switch (targa->colormap_size) { case 15: for (i = 0; i < targa->colormap_length; i++, cm++) { word = *data++; word |= (*data++) << 8; cm->red = (word << 3) & 0xf8; cm->green = (word >> 2) & 0xf8; cm->blue = (word >> 7) & 0xf8; cm->alpha = 255; } break; case 16: for (i = 0; i < targa->colormap_length; i++, cm++) { word = *data++; word |= (*data++) << 8; cm->red = (word << 3) & 0xf8; cm->green = (word >> 2) & 0xf8; cm->blue = (word >> 7) & 0xf8; cm->alpha = (word & 0x8000) ? 255 : 0; } break; case 24: for (i = 0; i < targa->colormap_length; i++, cm++) { cm->red = *data++; cm->green = *data++; cm->blue = *data++; cm->alpha = 255; } break; case 32: for (i = 0; i < targa->colormap_length; i++, cm++) { cm->red = *data++; cm->green = *data++; cm->blue = *data++; cm->alpha = *data++; } break; } return cmap; } static void decode_colormap (TargaHeader *targa, tex_t *tex, byte *dataByte) { byte *pixcol, *pixrow; cmap_t *cmap; int column, columns, rows, span; cmap = parse_colormap (targa, &dataByte); tex->format = tex_rgba; columns = targa->width; rows = targa->height; setup_pixrow_span (targa, tex, &pixrow, &span); if (targa->attributes & 0x10) { // right to left while (rows-- > 0) { pixcol = pixrow; for (column = columns; column > 0; column--) pixcol = reverse_read_cmap (pixcol, 1, &dataByte, cmap); pixrow += span; } } else { // left to right while (rows-- > 0) { pixcol = pixrow; for (column = columns; column > 0; column--) pixcol = read_cmap (pixcol, 1, &dataByte, cmap); pixrow += span; } } } static void decode_truecolor_24 (TargaHeader *targa, tex_t *tex, byte *dataByte) { byte *pixcol, *pixrow; int column, columns, rows, span; columns = targa->width; rows = targa->height; setup_pixrow_span (targa, tex, &pixrow, &span); if (targa->attributes & 0x10) { // right to left while (rows-- > 0) { pixcol = pixrow; for (column = columns; column > 0; column--) pixcol = reverse_read_bgr (pixcol, 1, &dataByte, 0); pixrow += span; } } else { // left to right while (rows-- > 0) { pixcol = pixrow; for (column = columns; column > 0; column--) pixcol = read_bgr (pixcol, 1, &dataByte, 0); pixrow += span; } } } static void decode_truecolor_32 (TargaHeader *targa, tex_t *tex, byte *dataByte) { byte *pixcol, *pixrow; int column, columns, rows, span; columns = targa->width; rows = targa->height; setup_pixrow_span (targa, tex, &pixrow, &span); if (targa->attributes & 0x10) { // right to left while (rows-- > 0) { pixcol = pixrow; for (column = columns; column > 0; column--) pixcol = reverse_read_bgra (pixcol, 1, &dataByte, 0); pixrow += span; } } else { // left to right while (rows-- > 0) { pixcol = pixrow; for (column = columns; column > 0; column--) pixcol = read_bgra (pixcol, 1, &dataByte, 0); pixrow += span; } } } #define rle_expand(expand) \ do { \ unsigned char packetHeader, packetSize; \ while (rows-- > 0) { \ pixcol = pixrow; \ pixrow += span; \ for (column = columns; column > 0; ) { \ packetHeader = *dataByte++; \ packetSize = 1 + (packetHeader & 0x7f); \ while (packetSize > column) { \ int count = column; \ \ packetSize -= count; \ if (packetHeader & 0x80) { /* run-length packet */ \ expand (pixcol, count, &dataByte, cmap); \ } else { /* non run-length packet */ \ while (count--) \ expand (pixcol, 1, &dataByte, cmap); \ } \ column = columns; \ pixcol = pixrow; \ pixrow += span; \ if (rows-- <= 0) \ goto done_##expand; \ } \ column -= packetSize; \ if (packetHeader & 0x80) { /* run-length packet */ \ pixcol = expand (pixcol, packetSize, &dataByte, cmap); \ } else { /* non run-length packet */ \ while (packetSize--) \ pixcol = expand (pixcol, 1, &dataByte, cmap); \ } \ } \ } \ done_##expand:; \ } while (0) static void decode_colormap_rle (TargaHeader *targa, tex_t *tex, byte *dataByte) { byte *pixcol, *pixrow; cmap_t *cmap; int column, columns, rows, span; cmap = parse_colormap (targa, &dataByte); tex->format = tex_rgba; columns = targa->width; rows = targa->height; setup_pixrow_span (targa, tex, &pixrow, &span); if (targa->attributes & 0x10) // right to left rle_expand (reverse_read_cmap); else // left to right rle_expand (read_cmap); } static void decode_truecolor_24_rle (TargaHeader *targa, tex_t *tex, byte *dataByte) { byte *pixcol, *pixrow; int column, columns, rows, span; cmap_t *cmap = 0; // not really used but needed for rle_expand columns = targa->width; rows = targa->height; setup_pixrow_span (targa, tex, &pixrow, &span); if (targa->attributes & 0x10) // right to left rle_expand (reverse_read_bgr); else // left to right rle_expand (read_bgr); } static void decode_truecolor_32_rle (TargaHeader *targa, tex_t *tex, byte *dataByte) { byte *pixcol, *pixrow; int column, columns, rows, span; cmap_t *cmap = 0; // not really used but needed for rle_expand columns = targa->width; rows = targa->height; setup_pixrow_span (targa, tex, &pixrow, &span); if (targa->attributes & 0x10) // right to left rle_expand (reverse_read_bgra); else // left to right rle_expand (read_bgra); } static void decode_truecolor (TargaHeader *targa, tex_t *tex, byte *dataByte) { dataByte = skip_colormap (targa, dataByte); switch (targa->pixel_size) { case 24: tex->format = tex_rgb; decode_truecolor_24 (targa, tex, dataByte); break; case 32: tex->format = tex_rgba; decode_truecolor_32 (targa, tex, dataByte); break; default: Sys_Error ("LoadTGA: unsupported pixel size"); } } static void decode_truecolor_rle (TargaHeader *targa, tex_t *tex, byte *dataByte) { dataByte = skip_colormap (targa, dataByte); switch (targa->pixel_size) { case 24: tex->format = tex_rgb; decode_truecolor_24_rle (targa, tex, dataByte); break; case 32: tex->format = tex_rgba; decode_truecolor_32_rle (targa, tex, dataByte); break; default: Sys_Error ("LoadTGA: unsupported truecolor pixel size"); } } static void decode_greyscale (TargaHeader *targa, tex_t *tex, byte *dataByte) { byte *pixcol, *pixrow; int column, columns, rows, span; dataByte = skip_colormap (targa, dataByte); if (targa->pixel_size != 8) Sys_Error ("LoadTGA: unsupported truecolor pixel size"); tex->format = tex_la; columns = targa->width; rows = targa->height; setup_pixrow_span (targa, tex, &pixrow, &span); if (targa->attributes & 0x10) { // right to left while (rows-- > 0) { pixcol = pixrow; for (column = columns; column > 0; column--) pixcol = reverse_read_l (pixcol, 1, &dataByte, 0); pixrow += span; } } else { // left to right while (rows-- > 0) { pixcol = pixrow; for (column = columns; column > 0; column--) pixcol = read_l (pixcol, 1, &dataByte, 0); pixrow += span; } } } static void decode_greyscale_rle (TargaHeader *targa, tex_t *tex, byte *dataByte) { byte *pixcol, *pixrow; int column, columns, rows, span; cmap_t *cmap = 0; // not really used but needed for rle_expand dataByte = skip_colormap (targa, dataByte); if (targa->pixel_size != 8) Sys_Error ("LoadTGA: unsupported truecolor pixel size"); tex->format = tex_la; columns = targa->width; rows = targa->height; setup_pixrow_span (targa, tex, &pixrow, &span); if (targa->attributes & 0x10) // right to left rle_expand (reverse_read_l); else // left to right rle_expand (read_l); } typedef void (*decoder_t) (TargaHeader *, tex_t *, byte *); static decoder_t decoder_functions[] = { 0, // 0 invalid decode_colormap, decode_truecolor, decode_greyscale, 0, 0, 0, 0, // 5-7 invalid 0, // 8 invalid decode_colormap_rle, decode_truecolor_rle, decode_greyscale_rle, 0, 0, 0, 0, // 12-15 invalid }; #define NUM_DECODERS (sizeof (decoder_functions) \ / sizeof (decoder_functions[0])) struct tex_s * LoadTGA (QFile *fin) { byte *dataByte; decoder_t decode; int numPixels, targa_mark; TargaHeader *targa; tex_t *tex; targa_mark = Hunk_LowMark (); targa = Hunk_AllocName (qfs_filesize, "TGA"); Qread (fin, targa, qfs_filesize); targa->colormap_index = LittleShort (targa->colormap_index); targa->colormap_length = LittleShort (targa->colormap_length); targa->x_origin = LittleShort (targa->x_origin); targa->y_origin = LittleShort (targa->y_origin); targa->width = LittleShort (targa->width); targa->height = LittleShort (targa->height); if (targa->image_type >= NUM_DECODERS || !(decode = decoder_functions[targa->image_type])) Sys_Error ("LoadTGA: Unsupported targa type"); numPixels = targa->width * targa->height; tex = Hunk_TempAlloc (field_offset (tex_t, data[numPixels * 4])); tex->width = targa->width; tex->height = targa->height; tex->palette = 0; // skip TARGA image comment dataByte = (byte *) (targa + 1); dataByte += targa->id_length; decode (targa, tex, dataByte); Hunk_FreeToLowMark (targa_mark); return tex; } void WriteTGAfile (const char *tganame, byte *data, int width, int height) { TargaHeader header; memset (&header, 0, sizeof (header)); header.image_type = 2; // uncompressed type header.width = LittleShort (width); header.height = LittleShort (height); header.pixel_size = 24; QFS_WriteBuffers (tganame, 2, &header, sizeof (header), data, width * height * 3); }