nethack/sys/amiga/xpm2iff.c

/*	SCCS Id: @(#)xpm2iff.c	3.2	95/08/04	*/
/* 	Copyright (c) 1995 by Gregg Wonderly, Naperville, Illinois */
/* NetHack may be freely redistributed.  See license for details. */

#include <stdlib.h>

#include "config.h"
#include "tile.h"

#include <dos/dos.h>
#include <dos/dos.h>
#include <dos/dosextens.h>
#include <graphics/gfx.h>
#include <graphics/gfxbase.h>
#include <graphics/view.h>
#include <libraries/iffparse.h>
#include <libraries/dos.h>
#ifndef _DCC
# include <proto/iffparse.h>
# include <proto/dos.h>
# include <proto/exec.h>
#endif

struct xpmscreen {
	int	Width;
	int	Height;
	int	Colors;
	int	ColorResolution;
	int	Background;
	int	AspectRatio;
	int	Interlace;
	int	BytesPerRow;
} XpmScreen;

/* translation table from xpm characters to RGB and colormap slots */
struct Ttable {
	char flag;
	char r,g,b;
	int slot;	/* output colortable index */
}ttable[256];

pixval ColorMap[3][MAXCOLORMAPSIZE];
int colorsinmap;

/*
 * We are using a hybrid form of our own design which we call a BMAP (for
 * bitmap) form.  It is an ILBM with the bitmaps already deinterleaved,
 * completely uncompressed.
 * This speeds the loading of the images from the games point of view because it
 * does not have to deinterleave and uncompress them.
 */
#define	ID_BMAP	MAKE_ID( 'B', 'M', 'A', 'P' )	/* instead of ILBM */
#define	ID_BMHD	MAKE_ID( 'B', 'M', 'H', 'D' )	/* Same as ILBM */
#define	ID_CAMG	MAKE_ID( 'C', 'A', 'M', 'G' )	/* Same as ILBM */
#define	ID_CMAP	MAKE_ID( 'C', 'M', 'A', 'P' )	/* Same as ILBM */
#define	ID_PDAT	MAKE_ID( 'P', 'D', 'A', 'T' )	/* Extra data describing plane
						 * size due to graphics.library
						 * rounding requirements.
						 */
#define	ID_PLNE	MAKE_ID( 'P', 'L', 'N', 'E' )	/* The planes of the image */

int nplanes;

/* BMHD from IFF documentation */
typedef struct {
    UWORD w, h;
    WORD x, y;
    UBYTE nPlanes;
    UBYTE masking;
    UBYTE compression;
    UBYTE reserved1;
    UWORD transparentColor;
    UBYTE xAspect, yAspect;
    WORD pageWidth, pageHeight;
} BitMapHeader;

typedef struct {
    UBYTE r, g, b;
} AmiColorMap;

pixel pixels[TILE_Y][TILE_X];
AmiColorMap *cmap;

void
error( char *str )
{
    fprintf( stderr, "ERROR: %s\n", str );
}

char **planes;

main( int argc, char **argv )
{
    int colors;
    struct {
	long nplanes;
	long pbytes;
	long across;
	long down;
	long npics;
	long xsize;
	long ysize;
    } pdat;
    long pbytes;	/* Bytes of data in a plane */
    int i, cnt;
    BitMapHeader bmhd;
    struct IFFHandle *iff;
    long camg = HIRES|LACE;
    int tiles=0;
    int index;

#if defined(_DCC) || defined (__GNUC__)
    IFFParseBase = OpenLibrary( "iffparse.library", 0 );
    if( !IFFParseBase ) {
	error( "unable to open iffparse.library" );
	exit( 1 );
    }
#endif

    if( fopen_xpm_file( argv[1], "r" ) != TRUE )
    {
	perror( argv[1] );
	return( 1 );
    }

    nplanes = 0;
    i = XpmScreen.Colors - 1;
    while( i != 0 )
    {
	nplanes++;
	i >>= 1;
    }

    planes = malloc( nplanes * sizeof( char * ) );
    if( planes == 0 )
    {
	error( "can not allocate planes pointer" );
	exit( 1 );
    }

    XpmScreen.BytesPerRow = ((XpmScreen.Width + 15)/16)*2;
    pbytes = XpmScreen.BytesPerRow * XpmScreen.Height;
    for( i = 0; i < nplanes; ++i )
    {
	planes[ i ] = malloc( pbytes );
	if( planes[ i ] == 0 )
	{
	    error( "can not allocate planes pointer" );
	    exit( 1 );
	}
	memset( planes[i], 0, pbytes );
    }

    iff = AllocIFF();
    if( !iff )
    {
	error( "Can not allocate IFFHandle" );
	return( 1 );
    }

    iff->iff_Stream = Open( argv[2], MODE_NEWFILE );
    if( !iff->iff_Stream )
    {
	error( "Can not open output file" );
	return( 1 );
    }

    InitIFFasDOS( iff );
    OpenIFF( iff, IFFF_WRITE );

    PushChunk( iff, ID_BMAP, ID_FORM, IFFSIZE_UNKNOWN );

    bmhd.w = XpmScreen.Width;
    bmhd.h = XpmScreen.Height;
    bmhd.x = 0;
    bmhd.y = 0;
    bmhd.nPlanes = nplanes;
    bmhd.masking = 0;
    bmhd.compression = 0;
    bmhd.reserved1 = 0;
    bmhd.transparentColor = 0;
    bmhd.xAspect = 100;
    bmhd.yAspect = 100;
    bmhd.pageWidth = 0;			/* not needed for this program */
    bmhd.pageHeight = 0;		/* not needed for this program */

    PushChunk( iff, ID_BMAP, ID_BMHD, sizeof( bmhd ) );
    WriteChunkBytes( iff, &bmhd, sizeof( bmhd ) );
    PopChunk( iff );

    PushChunk( iff, ID_BMAP, ID_CAMG, sizeof( camg ) );
    WriteChunkBytes( iff, &camg, sizeof( camg ) );
    PopChunk( iff );

#define SCALE(x) (x)
    cmap = malloc( (colors = (1L<<nplanes)) * sizeof(AmiColorMap) );
    if(cmap == 0){
	error("Can't allocate color map");
	exit(1);
    }
    for(index = 0; index<256; index++){
	if(ttable[index].flag){
	    cmap[ttable[index].slot].r = SCALE(ttable[index].r);
	    cmap[ttable[index].slot].g = SCALE(ttable[index].g);
	    cmap[ttable[index].slot].b = SCALE(ttable[index].b);
	}
    }
#undef SCALE

    PushChunk( iff, ID_BMAP, ID_CMAP, IFFSIZE_UNKNOWN );
    WriteChunkBytes( iff, cmap, colors*sizeof(*cmap) );
    PopChunk( iff );

    conv_image();

    pdat.nplanes = nplanes;
    pdat.pbytes = pbytes;
    pdat.xsize = XpmScreen.Width;
    pdat.ysize = XpmScreen.Height;
    pdat.across = 0;
    pdat.down = 0;
    pdat.npics = 1;

    PushChunk( iff, ID_BMAP, ID_PDAT, IFFSIZE_UNKNOWN );
    WriteChunkBytes( iff, &pdat, sizeof( pdat ) );
    PopChunk( iff );

    PushChunk( iff, ID_BMAP, ID_PLNE, IFFSIZE_UNKNOWN );
    for( i = 0; i < nplanes; ++i )
	WriteChunkBytes( iff, planes[i], pbytes );
    PopChunk( iff );

    CloseIFF( iff );
    Close( iff->iff_Stream );
    FreeIFF( iff );

#if defined(_DCC) || defined (__GNUC__)
    CloseLibrary( IFFParseBase );
#endif
    exit( 0 );
}

#define SETBIT(Plane, Plane_offset, Col, Value)				\
	if(Value){							\
	    planes[Plane][Plane_offset + (Col/8)] |= 1<<(7-(Col & 7));	\
	}

conv_image(){
    int row, col, planeno;

    for(row = 0;row<XpmScreen.Height;row++){
	char *xb = xpmgetline();
	int plane_offset;
	if(xb==0)return;
	plane_offset = row*XpmScreen.BytesPerRow;
	for(col = 0;col<XpmScreen.Width;col++){
	    int slot;
	    int color = xb[col];
	    if(!ttable[color].flag){
		fprintf(stderr, "Bad image data\n");
	    }
	    slot = ttable[color].slot;
	    for(planeno = 0; planeno<nplanes; planeno++){
		SETBIT(planeno, plane_offset, col, slot & (1<<planeno));
	    }
	}
    }
}

long *
alloc( unsigned int n )
{
    long *ret = malloc( n );
    if(!ret){
	error("Can't allocate memory");
	exit(1);
    }
    return( ret );
}

FILE *xpmfh = 0;
char initbuf[200];
char *xpmbuf = initbuf;

/* version 1.  Reads the raw xpm file, NOT the compiled version.  This is
 * not a particularly good idea but I don't have time to do the right thing
 * at this point, even if I was absolutely sure what that was. */
fopen_xpm_file(const char *fn, const char *mode){
	int temp;
	char *xb;
	if(strcmp(mode, "r"))return FALSE;	/* no choice now */
	if(xpmfh)return FALSE;			/* one file at a time */
	xpmfh = fopen(fn, mode);
	if(!xpmfh)return FALSE;			/* I'm hard to please */

		/* read the header */
	xb = xpmgetline();
	if(xb == 0)return FALSE;
	if(4 != sscanf(xb,"%d %d %d %d",
	  &XpmScreen.Width, &XpmScreen.Height,
	  &XpmScreen.Colors, &temp))return FALSE;	/* bad header */
		/* replace the original buffer with one big enough for
		 * the real data
		 */
/* XXX */
	xpmbuf = malloc(XpmScreen.Width * 2);
	if(!xpmbuf){
		error("Can't allocate line buffer");
		exit(1);
	}
	if(temp != 1)return FALSE;		/* limitation of this code */

	{
		/* read the colormap and translation table */
	    int ccount = -1;
	    while(ccount++ < (XpmScreen.Colors-1)){
		char index;
		int r, g, b;
		xb = xpmgetline();
		if(xb==0)return FALSE;
		if(4 != sscanf(xb,"%c c #%2x%2x%2x",&index,&r,&g,&b)){
		    fprintf(stderr,"Bad color entry: %s\n",xb);
		    return FALSE;
		}
		ttable[index].flag = 1;	/* this color is valid */
		ttable[index].r = r;
		ttable[index].g = g;
		ttable[index].b = b;
		ttable[index].slot = ccount;
	    }
	}
	return TRUE;
}

/* This deserves better.  Don't read it too closely - you'll get ill. */
#define bufsz 2048
char buf[bufsz];
xpmgetline(){
	char *bp;
	do {
	    if(fgets(buf, bufsz, xpmfh) == 0)return 0;
	} while(buf[0] != '"');
		/* strip off the trailing <",> if any */
	for(bp = buf;*bp;bp++);
	bp--;
	while(isspace(*bp))bp--;
	if(*bp==',')bp--;
	if(*bp=='"')bp--;
	bp++;
	*bp = '\0';

	return &buf[1];
}