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/*
* The Python Imaging Library
* $Id$
*
* imaging access objects
*
* Copyright (c) Fredrik Lundh 2009.
*
* See the README file for information on usage and redistribution.
*/
#include "Imaging.h"
/* use Tests/make_hash.py to calculate these values */
#define ACCESS_TABLE_SIZE 21
#define ACCESS_TABLE_HASH 30197
static struct ImagingAccessInstance access_table[ACCESS_TABLE_SIZE];
static inline UINT32
hash(const char* mode)
{
UINT32 i = ACCESS_TABLE_HASH;
while (*mode)
i = ((i<<5) + i) ^ (UINT8) *mode++;
return i % ACCESS_TABLE_SIZE;
}
static ImagingAccess
add_item(const char* mode)
{
UINT32 i = hash(mode);
/* printf("hash %s => %d\n", mode, i); */
if (access_table[i].mode) {
fprintf(stderr, "AccessInit: hash collision: %d for both %s and %s\n",
i, mode, access_table[i].mode);
exit(1);
}
access_table[i].mode = mode;
return &access_table[i];
}
/* fetch pointer to pixel line */
static void*
line_8(Imaging im, int x, int y)
{
return &im->image8[y][x];
}
static void*
line_16(Imaging im, int x, int y)
{
return &im->image8[y][x+x];
}
static void*
line_32(Imaging im, int x, int y)
{
return &im->image32[y][x];
}
/* fetch individual pixel */
static void
get_pixel(Imaging im, int x, int y, void* color)
{
char* out = color;
/* generic pixel access*/
if (im->image8) {
out[0] = im->image8[y][x];
} else {
UINT8* p = (UINT8*) &im->image32[y][x];
if (im->type == IMAGING_TYPE_UINT8 && im->bands == 2) {
out[0] = p[0];
out[1] = p[3];
return;
}
memcpy(out, p, im->pixelsize);
}
}
static void
get_pixel_8(Imaging im, int x, int y, void* color)
{
char* out = color;
out[0] = im->image8[y][x];
}
static void
get_pixel_16L(Imaging im, int x, int y, void* color)
{
UINT8* in = (UINT8*) &im->image[y][x+x];
INT16* out = color;
#ifdef WORDS_BIGENDIAN
out[0] = in[0] + (in[1]<<8);
#else
out[0] = *(INT16*) in;
#endif
}
static void
get_pixel_16B(Imaging im, int x, int y, void* color)
{
UINT8* in = (UINT8*) &im->image[y][x+x];
INT16* out = color;
#ifdef WORDS_BIGENDIAN
out[0] = *(INT16*) in;
#else
out[0] = in[1] + (in[0]<<8);
#endif
}
static void
get_pixel_32(Imaging im, int x, int y, void* color)
{
INT32* out = color;
out[0] = im->image32[y][x];
}
static void
get_pixel_32L(Imaging im, int x, int y, void* color)
{
UINT8* in = (UINT8*) &im->image[y][x*4];
INT32* out = color;
#ifdef WORDS_BIGENDIAN
out[0] = in[0] + (in[1]<<8) + (in[2]<<16) + (in[3]<<24);
#else
out[0] = *(INT32*) in;
#endif
}
static void
get_pixel_32B(Imaging im, int x, int y, void* color)
{
UINT8* in = (UINT8*) &im->image[y][x*4];
INT32* out = color;
#ifdef WORDS_BIGENDIAN
out[0] = *(INT32*) in;
#else
out[0] = in[3] + (in[2]<<8) + (in[1]<<16) + (in[0]<<24);
#endif
}
/* store individual pixel */
static void
put_pixel(Imaging im, int x, int y, const void* color)
{
if (im->image8)
im->image8[y][x] = *((UINT8*) color);
else
im->image32[y][x] = *((INT32*) color);
}
static void
put_pixel_8(Imaging im, int x, int y, const void* color)
{
im->image8[y][x] = *((UINT8*) color);
}
static void
put_pixel_16L(Imaging im, int x, int y, const void* color)
{
const char* in = color;
UINT8* out = (UINT8*) &im->image8[y][x+x];
out[0] = in[0];
out[1] = in[1];
}
static void
put_pixel_16B(Imaging im, int x, int y, const void* color)
{
const char* in = color;
UINT8* out = (UINT8*) &im->image8[y][x+x];
out[0] = in[1];
out[1] = in[0];
}
static void
put_pixel_32L(Imaging im, int x, int y, const void* color)
{
const char* in = color;
UINT8* out = (UINT8*) &im->image8[y][x*4];
out[0] = in[0];
out[1] = in[1];
out[2] = in[2];
out[3] = in[3];
}
static void
put_pixel_32B(Imaging im, int x, int y, const void* color)
{
const char* in = color;
UINT8* out = (UINT8*) &im->image8[y][x*4];
out[0] = in[3];
out[1] = in[2];
out[2] = in[1];
out[3] = in[0];
}
static void
put_pixel_32(Imaging im, int x, int y, const void* color)
{
im->image32[y][x] = *((INT32*) color);
}
void
ImagingAccessInit()
{
#define ADD(mode_, line_, get_pixel_, put_pixel_) \
{ ImagingAccess access = add_item(mode_); \
access->line = line_; \
access->get_pixel = get_pixel_; \
access->put_pixel = put_pixel_; \
}
/* populate access table */
ADD("1", line_8, get_pixel_8, put_pixel_8);
ADD("L", line_8, get_pixel_8, put_pixel_8);
ADD("LA", line_32, get_pixel, put_pixel);
ADD("I", line_32, get_pixel_32, put_pixel_32);
ADD("I;16", line_16, get_pixel_16L, put_pixel_16L);
ADD("I;16L", line_16, get_pixel_16L, put_pixel_16L);
ADD("I;16B", line_16, get_pixel_16B, put_pixel_16B);
ADD("I;32L", line_32, get_pixel_32L, put_pixel_32L);
ADD("I;32B", line_32, get_pixel_32B, put_pixel_32B);
ADD("F", line_32, get_pixel_32, put_pixel_32);
ADD("P", line_8, get_pixel_8, put_pixel_8);
ADD("PA", line_32, get_pixel, put_pixel);
ADD("RGB", line_32, get_pixel_32, put_pixel_32);
ADD("RGBA", line_32, get_pixel_32, put_pixel_32);
ADD("RGBa", line_32, get_pixel_32, put_pixel_32);
ADD("RGBX", line_32, get_pixel_32, put_pixel_32);
ADD("CMYK", line_32, get_pixel_32, put_pixel_32);
ADD("YCbCr", line_32, get_pixel_32, put_pixel_32);
}
ImagingAccess
ImagingAccessNew(Imaging im)
{
ImagingAccess access = &access_table[hash(im->mode)];
if (im->mode[0] != access->mode[0] || strcmp(im->mode, access->mode) != 0)
return NULL;
return access;
}
void
_ImagingAccessDelete(Imaging im, ImagingAccess access)
{
}
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