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mirror of https://gitlab.com/kicad/code/kicad.git synced 2024-11-24 00:34:47 +00:00
kicad/thirdparty/potrace/include/bitmap.h

291 lines
7.0 KiB
C

/* Copyright (C) 2001-2017 Peter Selinger.
* This file is part of Potrace. It is free software and it is covered
* by the GNU General Public License. See the file COPYING for details. */
#ifndef BITMAP_H
#define BITMAP_H
#include <errno.h>
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
/* The bitmap type is defined in potracelib.h */
#include "potracelib.h"
/* The present file defines some convenient macros and static inline
* functions for accessing bitmaps. Since they only produce inline
* code, they can be conveniently shared by the library and frontends,
* if desired */
/* ---------------------------------------------------------------------- */
/* some measurements */
#define BM_WORDSIZE ( (int) sizeof( potrace_word ) )
#define BM_WORDBITS ( 8 * BM_WORDSIZE )
#define BM_HIBIT ( ( (potrace_word) 1 ) << ( BM_WORDBITS - 1 ) )
#define BM_ALLBITS ( ~(potrace_word) 0 )
/* macros for accessing pixel at index (x,y). U* macros omit the
* bounds check. */
#define bm_scanline( bm, y ) ( ( bm )->map + (ptrdiff_t) ( y ) * (ptrdiff_t) ( bm )->dy )
#define bm_index( bm, x, y ) ( &bm_scanline( bm, y )[( x ) / BM_WORDBITS] )
#define bm_mask( x ) ( BM_HIBIT >> ( ( x ) & ( BM_WORDBITS - 1 ) ) )
#define bm_range( x, a ) ( (int) ( x ) >= 0 && (int) ( x ) < ( a ) )
#define bm_safe( bm, x, y ) ( bm_range( x, ( bm )->w ) && bm_range( y, ( bm )->h ) )
#define BM_UGET( bm, x, y ) ( ( *bm_index( bm, x, y ) & bm_mask( x ) ) != 0 )
#define BM_USET( bm, x, y ) ( *bm_index( bm, x, y ) |= bm_mask( x ) )
#define BM_UCLR( bm, x, y ) ( *bm_index( bm, x, y ) &= ~bm_mask( x ) )
#define BM_UINV( bm, x, y ) ( *bm_index( bm, x, y ) ^= bm_mask( x ) )
#define BM_UPUT( bm, x, y, b ) ( ( b ) ? BM_USET( bm, x, y ) : BM_UCLR( bm, x, y ) )
#define BM_GET( bm, x, y ) ( bm_safe( bm, x, y ) ? BM_UGET( bm, x, y ) : 0 )
#define BM_SET( bm, x, y ) ( bm_safe( bm, x, y ) ? BM_USET( bm, x, y ) : 0 )
#define BM_CLR( bm, x, y ) ( bm_safe( bm, x, y ) ? BM_UCLR( bm, x, y ) : 0 )
#define BM_INV( bm, x, y ) ( bm_safe( bm, x, y ) ? BM_UINV( bm, x, y ) : 0 )
#define BM_PUT( bm, x, y, b ) ( bm_safe( bm, x, y ) ? BM_UPUT( bm, x, y, b ) : 0 )
/* calculate the size, in bytes, required for the data area of a
* bitmap of the given dy and h. Assume h >= 0. Return -1 if the size
* does not fit into the ptrdiff_t type. */
static inline ptrdiff_t getsize( int dy, int h )
{
ptrdiff_t size;
if( dy < 0 )
{
dy = -dy;
}
size = (ptrdiff_t) dy * (ptrdiff_t) h * (ptrdiff_t) BM_WORDSIZE;
/* check for overflow error */
if( size < 0 || ( h != 0 && dy != 0 && size / h / dy != BM_WORDSIZE ) )
{
return -1;
}
return size;
}
/* return the size, in bytes, of the data area of the bitmap. Return
* -1 if the size does not fit into the ptrdiff_t type; however, this
* cannot happen if the bitmap is well-formed, i.e., if created with
* bm_new or bm_dup. */
static inline ptrdiff_t bm_size( const potrace_bitmap_t* bm )
{
return getsize( bm->dy, bm->h );
}
/* calculate the base address of the bitmap data. Assume that the
* bitmap is well-formed, i.e., its size fits into the ptrdiff_t type.
* This is the case if created with bm_new or bm_dup. The base address
* may differ from bm->map if dy is negative */
static inline potrace_word* bm_base( const potrace_bitmap_t* bm )
{
int dy = bm->dy;
if( dy >= 0 || bm->h == 0 )
{
return bm->map;
}
else
{
return bm_scanline( bm, bm->h - 1 );
}
}
/* free the given bitmap. Leaves errno untouched. */
static inline void bm_free( potrace_bitmap_t* bm )
{
if( bm && bm->map )
{
free( bm_base( bm ) );
}
free( bm );
}
/* return new bitmap initialized to 0. NULL with errno on error.
* Assumes w, h >= 0. */
static inline potrace_bitmap_t* bm_new( int w, int h )
{
potrace_bitmap_t* bm;
int dy = w == 0 ? 0 : ( w - 1 ) / BM_WORDBITS + 1;
ptrdiff_t size;
size = getsize( dy, h );
if( size < 0 )
{
errno = ENOMEM;
return NULL;
}
if( size == 0 )
{
size = 1; /* make sure calloc() doesn't return NULL */
}
bm = (potrace_bitmap_t*) malloc( sizeof( potrace_bitmap_t ) );
if( !bm )
{
return NULL;
}
bm->w = w;
bm->h = h;
bm->dy = dy;
bm->map = (potrace_word*) calloc( 1, size );
if( !bm->map )
{
free( bm );
return NULL;
}
return bm;
}
/* clear the given bitmap. Set all bits to c. Assumes a well-formed
* bitmap. */
static inline void bm_clear( potrace_bitmap_t* bm, int c )
{
/* Note: if the bitmap was created with bm_new, then it is
* guaranteed that size will fit into the ptrdiff_t type. */
ptrdiff_t size = bm_size( bm );
if( size > 0 )
memset( bm_base( bm ), c ? -1 : 0, size );
}
/* duplicate the given bitmap. Return NULL on error with errno
* set. Assumes a well-formed bitmap. */
static inline potrace_bitmap_t* bm_dup( const potrace_bitmap_t* bm )
{
potrace_bitmap_t* bm1 = bm_new( bm->w, bm->h );
int y;
if( !bm1 )
{
return NULL;
}
for( y = 0; y < bm->h; y++ )
{
memcpy( bm_scanline( bm1, y ), bm_scanline( bm, y ),
(size_t) bm1->dy * (size_t) BM_WORDSIZE );
}
return bm1;
}
/* invert the given bitmap. */
static inline void bm_invert( potrace_bitmap_t* bm )
{
int dy = bm->dy;
int y;
int i;
potrace_word* p;
if( dy < 0 )
{
dy = -dy;
}
for( y = 0; y < bm->h; y++ )
{
p = bm_scanline( bm, y );
for( i = 0; i < dy; i++ )
{
p[i] ^= BM_ALLBITS;
}
}
}
/* turn the given bitmap upside down. This does not move the bitmap
* data or change the bm_base() address. */
static inline void bm_flip( potrace_bitmap_t* bm )
{
int dy = bm->dy;
if( bm->h == 0 || bm->h == 1 )
{
return;
}
bm->map = bm_scanline( bm, bm->h - 1 );
bm->dy = -dy;
}
/* resize the bitmap to the given new height. The bitmap data remains
* bottom-aligned (truncated at the top) when dy >= 0 and top-aligned
* (truncated at the bottom) when dy < 0. Return 0 on success, or 1 on
* error with errno set. If the new height is <= the old one, no error
* should occur. If the new height is larger, the additional bitmap
* data is *not* initialized. */
static inline int bm_resize( potrace_bitmap_t* bm, int h )
{
int dy = bm->dy;
ptrdiff_t newsize;
potrace_word* newmap;
if( dy < 0 )
{
bm_flip( bm );
}
newsize = getsize( dy, h );
if( newsize < 0 )
{
errno = ENOMEM;
goto error;
}
if( newsize == 0 )
{
newsize = 1; /* make sure realloc() doesn't return NULL */
}
newmap = (potrace_word*) realloc( bm->map, newsize );
if( newmap == NULL )
{
goto error;
}
bm->map = newmap;
bm->h = h;
if( dy < 0 )
{
bm_flip( bm );
}
return 0;
error:
if( dy < 0 )
{
bm_flip( bm );
}
return 1;
}
#endif /* BITMAP_H */