/* spctoppm.c - read a compressed Spectrum file and produce a portable pixmap ** ** Copyright (C) 1991 by Steve Belczyk and 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. */ #include "ppm.h" #define ROWS 200 #define COLS 320 #define MAXVAL 7 static void DoBitmap ARGS(( FILE* ifp )); static void DoChar ARGS(( int n, char c )); static void DoColormap ARGS(( FILE* ifp )); static char screen[ROWS*COLS/2]; static short sscreen[ROWS*COLS/4]; static pixel pal[ROWS][48]; static long colormap_length, bitmap_length; int main( argc, argv ) int argc; char* argv[]; { FILE* ifp; char c1, c2; pixel* pixelrow; register pixel* pP; int row, col; ppm_init( &argc, argv ); /* Check args. */ if ( argc > 2 ) pm_usage( "[spcfile]" ); if ( argc == 2 ) ifp = pm_openr( argv[1] ); else ifp = stdin; /* Check SPC file header. */ c1 = getc( ifp ); c2 = getc( ifp ); if ( ( c1 != 'S' ) || ( c2 != 'P' ) ) pm_error( "not a Spectrum picture" ); /* Skip reserved bytes. */ getc( ifp ); getc( ifp ); /* Get length of bitmap data. */ (void) pm_readbiglong( ifp, &bitmap_length ); /* and colormap */ (void) pm_readbiglong( ifp, &colormap_length ); /* Process bitmap. */ DoBitmap( ifp ); /* Process colormap. */ DoColormap( ifp ); pm_close( ifp ); /* Write the PPM file. */ ppm_writeppminit( stdout, COLS, ROWS, (pixval) MAXVAL, 0 ); pixelrow = ppm_allocrow( COLS ); for ( row = 0; row < ROWS; ++row ) { for ( col = 0, pP = pixelrow; col < COLS; ++col, ++pP ) { int c, ind, b, plane, x1; /* Compute pixel value. */ ind = ( 80 * row ) + ( ( col >> 4 ) << 2 ); b = 0x8000 >> (col & 0xf); c = 0; for ( plane = 0; plane < 4; ++plane ) if ( b & sscreen[ind+plane] ) c |= (1 << plane); /* Compute palette index. */ x1 = 10 * c; if ( c & 1 ) x1 -= 5; else ++x1; if ( ( col >= x1 ) && ( col < ( x1 + 160 ) ) ) c += 16; if ( col >= ( x1 + 160 ) ) c += 32; /* Store the proper color. */ *pP = pal[row][c]; } ppm_writeppmrow( stdout, pixelrow, COLS, (pixval) MAXVAL, 0 ); } pm_close( stdout ); exit( 0 ); } static void DoBitmap( ifp ) FILE* ifp; { int i; long count, data; signed char h, c; /* Zero out first scan line. */ for ( i = 0; i < 160; ++i ) screen[i] = 0; /* 'count' counts number of input bytes. */ count = 0; /* 'data' counts just data bytes. */ data = 0; while ( count < bitmap_length ) { /* Get next record header. */ h = getc( ifp ); ++count; if ( ( h >= 0 ) && ( count < bitmap_length ) ) { for ( i = 0; i <= h; ++i ) { c = getc( ifp ); ++count; DoChar( data, c ); ++data; } } else if ( ( h < 0 ) && ( count < bitmap_length ) ) { c = getc( ifp ); ++count; for ( i = 0; i < ( 2 - h ); ++i ) { DoChar( data, c ); ++data; } } } /* Convert the char version of the screen to short. */ for ( i = 0; i < ROWS*COLS/4; ++i ) sscreen[i] = ( screen[i<<1] << 8 ) + ( 0xff & screen[(i<<1)+1] ); } static void DoChar( int n, char c ) { int i; /* Compute screen index. */ i = 160 + 2 * ( n / 7960 ) + 8 * ( ( n % 7960 ) / 2 ) + ( n & 1 ); screen[i] = c; } static void DoColormap( ifp ) FILE* ifp; { int i, j, b; short mask; /* Clear first three palettes. */ for ( j = 0; j < 48; ++j ) PPM_ASSIGN( pal[0][j], 0, 0, 0 ); /* Read the palettes. */ for ( i = 1; i < ROWS; ++i ) for ( j = 0; j < 3; ++j ) { (void) pm_readbigshort( ifp, &mask ); for ( b = 0; b < 15; ++b ) if ( mask & ( 1 << b ) ) { short k; (void) pm_readbigshort( ifp, &k ); PPM_ASSIGN( pal[i][(j*16)+b], ( k & 0x700 ) >> 8, ( k & 0x070 ) >> 4, ( k & 0x007 ) ); } } }