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snes: add tools for generating "compressed" tilemaps

This commit is contained in:
Vince Weaver 2013-01-21 15:15:42 -05:00
parent e0208e2ad1
commit 75fccd3ce8
2 changed files with 301 additions and 1 deletions
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11
tb_snes/tools/Makefile
View File

@ -5,6 +5,7 @@ LFLAGS =
all: bin2byte color_convert convert_font convert_font_bin \
dump_font make_pal \
pcx_to_tiles_4bpp pcx_to_tiles_8bpp \
pcx_to_compressed_tilemap_8bpp \
ansi_to_tile string_to_bytes convert_font_4bpp \
snes_checksum
@ -79,6 +80,13 @@ pcx_to_tiles_8bpp.o: pcx_to_tiles_8bpp.c
$(CC) $(CFLAGS) -c pcx_to_tiles_8bpp.c
pcx_to_compressed_tilemp_8bpp: pcx_to_compressed_tilemap_8bpp.o
$(CC) $(LFLAGS) -o pcx_to_compressed_tilemap_8bpp pcx_to_compressed_tilemap_8bpp.o
pcx_to_compressed_tilemap_8bpp.o: pcx_to_compressed_tilemap_8bpp.c
$(CC) $(CFLAGS) -c pcx_to_compressed_tilemap_8bpp.c
string_to_bytes: string_to_bytes.o
$(CC) $(LFLAGS) -o string_to_bytes string_to_bytes.o
@ -98,7 +106,8 @@ clean:
rm -f *.o *~ bin2byte color_convert convert_font \
convert_font_bin dump_font make_pal \
pcx_to_tiles_4bpp pcx_to_tiles_8bpp \
ansi_to_tile string_to_bytes \
pcx_to_compressed_tilemap_8bpp \
ansi_to_tile string_to_bytes \
convert_font_4bpp snes_checksum

291
tb_snes/tools/pcx_to_compressed_tilemap_8bpp.c Normal file
View File

@ -0,0 +1,291 @@
/* Converts a 24-bit PCX file to 256-color SNES background tiles */
#include <stdio.h> /* For FILE I/O */
#include <string.h> /* For strncmp */
#include <fcntl.h> /* for open() */
#include <unistd.h> /* for lseek() */
#include <sys/stat.h> /* for file modes */
#include <stdlib.h> /* exit() */
/* Convert to 15-bpp bgr */
static int rgb2bgr(int r,int g, int b) {
int r2,g2,b2,bgr;
r2=(r>>3)&0x1f;
g2=(g>>3)&0x1f;
b2=(b>>3)&0x1f;
bgr=(b2<<10)|(g2<<5)|r2;
return bgr;
}
static char symbol_name[BUFSIZ]="temp";
#define MAX_TILE_X 32
#define MAX_TILE_Y 32
static unsigned short tilemap[MAX_TILE_X*MAX_TILE_Y]; /* 2k */
static int uncompressed_size=0;
static int compressed_size=0;
static unsigned short tiledata[MAX_TILE_X][MAX_TILE_Y][8][4];
static unsigned short tiledata_hflip[MAX_TILE_X][MAX_TILE_Y][8][4];
static unsigned short temp_tile[8][4];
static int total_tiles=0;
static int compressed_tiles=0;
/* File already open */
static int vmwLoadPCX(int pcx_fd) {
int debug=1,bpp;
int x,y;
int i,numacross,planes=0;
int xsize,ysize,plane;
int xmin,ymin,xmax,ymax,version;
unsigned char pcx_header[128];
unsigned char temp_byte;
/*************** DECODE THE HEADER *************************/
read(pcx_fd,&pcx_header,128);
xmin=(pcx_header[5]<<8)+pcx_header[4];
ymin=(pcx_header[7]<<8)+pcx_header[6];
xmax=(pcx_header[9]<<8)+pcx_header[8];
ymax=(pcx_header[11]<<8)+pcx_header[10];
version=pcx_header[1];
bpp=pcx_header[3];
if (debug) {
fprintf(stderr,"Manufacturer: ");
if (pcx_header[0]==10) fprintf(stderr,"Zsoft\n");
else fprintf(stderr,"Unknown %i\n",pcx_header[0]);
fprintf(stderr,"Version: ");
switch(version) {
case 0: fprintf(stderr,"2.5\n"); break;
case 2: fprintf(stderr,"2.8 w palette\n"); break;
case 3: fprintf(stderr,"2.8 w/o palette\n"); break;
case 4: fprintf(stderr,"Paintbrush for Windows\n"); break;
case 5: fprintf(stderr,"3.0+\n"); break;
default: fprintf(stderr,"Unknown %i\n",version);
}
fprintf(stderr,"Encoding: ");
if (pcx_header[2]==1) fprintf(stderr,"RLE\n");
else fprintf(stderr,"Unknown %i\n",pcx_header[2]);
fprintf(stderr,"BitsPerPixelPerPlane: %i\n",bpp);
fprintf(stderr,"File goes from %i,%i to %i,%i\n",xmin,ymin,xmax,ymax);
fprintf(stderr,"Horizontal DPI: %i\n",(pcx_header[13]<<8)+pcx_header[12]);
fprintf(stderr,"Vertical DPI: %i\n",(pcx_header[15]<<8)+pcx_header[14]);
fprintf(stderr,"Number of colored planes: %i\n",pcx_header[65]);
fprintf(stderr,"Bytes per line: %i\n",(pcx_header[67]<<8)+pcx_header[66]);
fprintf(stderr,"Palette Type: %i\n",(pcx_header[69]<<8)+pcx_header[68]);
fprintf(stderr,"Hscreen Size: %i\n",(pcx_header[71]<<8)+pcx_header[70]);
fprintf(stderr,"Vscreen Size: %i\n",(pcx_header[73]<<8)+pcx_header[72]);
}
planes=pcx_header[65];
xsize=((xmax-xmin)+1);
ysize=((ymax-ymin)+1);
char *output;
output=calloc((xsize*ysize),sizeof(unsigned int));
if (output==NULL) return -1;
x=0; y=0;
while(y<ysize) {
for(plane=0;plane<planes;plane++) {
x=0;
while (x<xsize) {
read(pcx_fd,&temp_byte,1);
if (0xc0 == (temp_byte&0xc0)) {
numacross=temp_byte&0x3f;
read(pcx_fd,&temp_byte,1);
// fprintf(stderr,"%i pixels of %i\n",numacross,temp_byte);
for(i=0;i<numacross;i++) {
output[(y*xsize)+x]=temp_byte;
// printf("%x ",temp_byte);
x++;
}
}
else {
// fprintf(stderr,"%i, %i Color=%i\n",x,y,temp_byte);
// printf("%x ",temp_byte);
output[(y*xsize)+x]=temp_byte;
x++;
}
}
}
y++;
}
#define X_CHUNKSIZE 8
#define Y_CHUNKSIZE 8
unsigned int plane0,plane1,plane2,plane3;
unsigned int plane4,plane5,plane6,plane7,offset;
printf("%s_tile_data:\n",symbol_name);
int ychunk,xchunk;
for(ychunk=0;ychunk<ysize/Y_CHUNKSIZE;ychunk++) {
for(xchunk=0;xchunk<xsize/X_CHUNKSIZE;xchunk++) {
// printf("\t; Tile %d %d, Plane 0 Plane 1\n",xchunk,ychunk);
for(y=0;y<Y_CHUNKSIZE;y++){
plane0=0;plane1=0;
for(x=0;x<X_CHUNKSIZE;x++) {
plane0<<=1;
plane1<<=1;
offset=((ychunk*Y_CHUNKSIZE+y)*xsize)+(xchunk*X_CHUNKSIZE)+x;
plane0|=(output[offset])&1;
plane1|=(((output[offset])&2)>>1);
}
temp_tile[y][0]=(plane1<<8)|plane0;
// printf("\t.word $%02x%02x\n",plane1,plane0);
}
// printf("\t; Plane 2 Plane 3\n");
for(y=0;y<Y_CHUNKSIZE;y++){
plane2=0;plane3=0;
for(x=0;x<X_CHUNKSIZE;x++) {
plane2<<=1;
plane3<<=1;
offset=((ychunk*Y_CHUNKSIZE+y)*xsize)+(xchunk*X_CHUNKSIZE)+x;
plane2|=(((output[offset])&4)>>2);
plane3|=(((output[offset])&8)>>3);
}
temp_tile[y][1]=(plane3<<8)|plane2;
// printf("\t.word $%02x%02x\n",plane3,plane2);
}
// printf("\t; Plane 4 Plane 5\n");
for(y=0;y<Y_CHUNKSIZE;y++){
plane4=0;plane5=0;
for(x=0;x<X_CHUNKSIZE;x++) {
plane4<<=1;
plane5<<=1;
offset=((ychunk*Y_CHUNKSIZE+y)*xsize)+(xchunk*X_CHUNKSIZE)+x;
plane4|=(((output[offset])&16)>>4);
plane5|=(((output[offset])&32)>>5);
}
temp_tile[y][2]=(plane5<<8)|plane4;
// printf("\t.word $%02x%02x\n",plane5,plane4);
}
// printf("\t; Plane 6 Plane 7\n");
for(y=0;y<Y_CHUNKSIZE;y++){
plane6=0;plane7=0;
for(x=0;x<X_CHUNKSIZE;x++) {
plane6<<=1;
plane7<<=1;
offset=((ychunk*Y_CHUNKSIZE+y)*xsize)+(xchunk*X_CHUNKSIZE)+x;
plane6|=(((output[offset])&64)>>6);
plane7|=(((output[offset])&128)>>7);
}
temp_tile[y][3]=(plane7<<8)|plane6;
// printf("\t.word $%02x%02x\n",plane7,plane6);
}
for(x=0;x<4;x++) {
printf("\t; Tile %d %d, Plane %d Plane %d\n",xchunk,ychunk,
x*2,(x*2)+1);
for(y=0;y<Y_CHUNKSIZE;y++) {
printf("\t.word $%04x\n",temp_tile[y][x]);
}
}
int v=0,h=0,o=0,pal=0;
tilemap[total_tiles]=
( ((v&1)<<15) |
((h&1)<<14) |
((o&1)<<13) |
((pal&7)<<10) |
(total_tiles&0x3ff));
total_tiles++;
compressed_tiles++;
}
}
fprintf(stderr,"Total tiles: %d Compressed tiles %d\n",
total_tiles,compressed_tiles);
fprintf(stderr,"Original size\t= %d bytes\n",total_tiles*2*8*4);
fprintf(stderr,"Compressed size\t= %d bytes\n",
(compressed_tiles*2*8*4)+(total_tiles*2));
printf("%s_tilemap:\n",symbol_name);
for(x=0;x<total_tiles;x++) {
printf("\t.word $%04x\t; %dv %dh %do %dp %d\n",
tilemap[x],
(tilemap[x]>>15)&1,
(tilemap[x]>>14)&1,
(tilemap[x]>>13)&1,
(tilemap[x]>>10)&7,
(tilemap[x])&0x3ff);
}
printf("%s_palette:\n",symbol_name);
/* read in palette */
read(pcx_fd,&temp_byte,1);
if (temp_byte!=12) {
fprintf(stderr,"Error! No palette found!\n");
}
else {
int r,g,b;
for(i=0;i<256;i++) {
read(pcx_fd,&temp_byte,1);
r=temp_byte;
read(pcx_fd,&temp_byte,1);
g=temp_byte;
read(pcx_fd,&temp_byte,1);
b=temp_byte;
printf("\t.word $%x\t; r=%x g=%x b=%x\n",rgb2bgr(r,g,b),r,g,b);
}
}
return 0;
}
int main(int argc, char **argv) {
int result;
if (argc>1) {
strncpy(symbol_name,argv[1],BUFSIZ);
}
/* read from stdin */
result=vmwLoadPCX(fileno(stdin));
if (result<0) {
fprintf(stderr,"Error reading PCX from stdin\n");
exit(1);
}
return 0;
}