Pillow/libImaging/Storage.c

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/*
* The Python Imaging Library
* $Id$
*
* imaging storage object
*
* This baseline implementation is designed to efficiently handle
* large images, provided they fit into the available memory.
*
* history:
* 1995-06-15 fl Created
* 1995-09-12 fl Updated API, compiles silently under ANSI C++
* 1995-11-26 fl Compiles silently under Borland 4.5 as well
* 1996-05-05 fl Correctly test status from Prologue
* 1997-05-12 fl Increased THRESHOLD (to speed up Tk interface)
* 1997-05-30 fl Added support for floating point images
* 1997-11-17 fl Added support for "RGBX" images
* 1998-01-11 fl Added support for integer images
* 1998-03-05 fl Exported Prologue/Epilogue functions
* 1998-07-01 fl Added basic "YCrCb" support
* 1998-07-03 fl Attach palette in prologue for "P" images
* 1998-07-09 hk Don't report MemoryError on zero-size images
* 1998-07-12 fl Change "YCrCb" to "YCbCr" (!)
* 1998-10-26 fl Added "I;16" and "I;16B" storage modes (experimental)
* 1998-12-29 fl Fixed allocation bug caused by previous fix
* 1999-02-03 fl Added "RGBa" and "BGR" modes (experimental)
* 2001-04-22 fl Fixed potential memory leak in ImagingCopyPalette
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* 2003-09-26 fl Added "LA" and "PA" modes (experimental)
* 2005-10-02 fl Added image counter
*
* Copyright (c) 1998-2005 by Secret Labs AB
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* Copyright (c) 1995-2005 by Fredrik Lundh
*
* See the README file for information on usage and redistribution.
*/
#include "Imaging.h"
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#include <string.h>
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int ImagingNewCount = 0;
/* --------------------------------------------------------------------
* Standard image object.
*/
Imaging
ImagingNewPrologueSubtype(const char *mode, int xsize, int ysize, int size)
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{
Imaging im;
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/* linesize overflow check, roughly the current largest space req'd */
if (xsize > (INT_MAX / 4) - 1) {
return (Imaging) ImagingError_MemoryError();
}
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im = (Imaging) calloc(1, size);
if (!im) {
return (Imaging) ImagingError_MemoryError();
}
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/* Setup image descriptor */
im->xsize = xsize;
im->ysize = ysize;
im->type = IMAGING_TYPE_UINT8;
if (strcmp(mode, "1") == 0) {
/* 1-bit images */
im->bands = im->pixelsize = 1;
im->linesize = xsize;
} else if (strcmp(mode, "P") == 0) {
/* 8-bit palette mapped images */
im->bands = im->pixelsize = 1;
im->linesize = xsize;
im->palette = ImagingPaletteNew("RGB");
} else if (strcmp(mode, "PA") == 0) {
/* 8-bit palette with alpha */
im->bands = 2;
im->pixelsize = 4; /* store in image32 memory */
im->linesize = xsize * 4;
im->palette = ImagingPaletteNew("RGB");
} else if (strcmp(mode, "L") == 0) {
/* 8-bit greyscale (luminance) images */
im->bands = im->pixelsize = 1;
im->linesize = xsize;
} else if (strcmp(mode, "LA") == 0) {
/* 8-bit greyscale (luminance) with alpha */
im->bands = 2;
im->pixelsize = 4; /* store in image32 memory */
im->linesize = xsize * 4;
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} else if (strcmp(mode, "La") == 0) {
/* 8-bit greyscale (luminance) with premultiplied alpha */
im->bands = 2;
im->pixelsize = 4; /* store in image32 memory */
im->linesize = xsize * 4;
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} else if (strcmp(mode, "F") == 0) {
/* 32-bit floating point images */
im->bands = 1;
im->pixelsize = 4;
im->linesize = xsize * 4;
im->type = IMAGING_TYPE_FLOAT32;
} else if (strcmp(mode, "I") == 0) {
/* 32-bit integer images */
im->bands = 1;
im->pixelsize = 4;
im->linesize = xsize * 4;
im->type = IMAGING_TYPE_INT32;
} else if (strcmp(mode, "I;16") == 0 || strcmp(mode, "I;16L") == 0 \
|| strcmp(mode, "I;16B") == 0 || strcmp(mode, "I;16N") == 0) {
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/* EXPERIMENTAL */
/* 16-bit raw integer images */
im->bands = 1;
im->pixelsize = 2;
im->linesize = xsize * 2;
im->type = IMAGING_TYPE_SPECIAL;
} else if (strcmp(mode, "RGB") == 0) {
/* 24-bit true colour images */
im->bands = 3;
im->pixelsize = 4;
im->linesize = xsize * 4;
} else if (strcmp(mode, "BGR;15") == 0) {
/* EXPERIMENTAL */
/* 15-bit true colour */
im->bands = 1;
im->pixelsize = 2;
im->linesize = (xsize*2 + 3) & -4;
im->type = IMAGING_TYPE_SPECIAL;
} else if (strcmp(mode, "BGR;16") == 0) {
/* EXPERIMENTAL */
/* 16-bit reversed true colour */
im->bands = 1;
im->pixelsize = 2;
im->linesize = (xsize*2 + 3) & -4;
im->type = IMAGING_TYPE_SPECIAL;
} else if (strcmp(mode, "BGR;24") == 0) {
/* EXPERIMENTAL */
/* 24-bit reversed true colour */
im->bands = 1;
im->pixelsize = 3;
im->linesize = (xsize*3 + 3) & -4;
im->type = IMAGING_TYPE_SPECIAL;
} else if (strcmp(mode, "BGR;32") == 0) {
/* EXPERIMENTAL */
/* 32-bit reversed true colour */
im->bands = 1;
im->pixelsize = 4;
im->linesize = (xsize*4 + 3) & -4;
im->type = IMAGING_TYPE_SPECIAL;
} else if (strcmp(mode, "RGBX") == 0) {
/* 32-bit true colour images with padding */
im->bands = im->pixelsize = 4;
im->linesize = xsize * 4;
} else if (strcmp(mode, "RGBA") == 0) {
/* 32-bit true colour images with alpha */
im->bands = im->pixelsize = 4;
im->linesize = xsize * 4;
} else if (strcmp(mode, "RGBa") == 0) {
/* 32-bit true colour images with premultiplied alpha */
im->bands = im->pixelsize = 4;
im->linesize = xsize * 4;
} else if (strcmp(mode, "CMYK") == 0) {
/* 32-bit colour separation */
im->bands = im->pixelsize = 4;
im->linesize = xsize * 4;
} else if (strcmp(mode, "YCbCr") == 0) {
/* 24-bit video format */
im->bands = 3;
im->pixelsize = 4;
im->linesize = xsize * 4;
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} else if (strcmp(mode, "LAB") == 0) {
/* 24-bit color, luminance, + 2 color channels */
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/* L is uint8, a,b are int8 */
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im->bands = 3;
im->pixelsize = 4;
im->linesize = xsize * 4;
} else if (strcmp(mode, "HSV") == 0) {
/* 24-bit color, luminance, + 2 color channels */
/* L is uint8, a,b are int8 */
im->bands = 3;
im->pixelsize = 4;
im->linesize = xsize * 4;
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} else {
free(im);
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return (Imaging) ImagingError_ValueError("unrecognized image mode");
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}
/* Setup image descriptor */
strcpy(im->mode, mode);
/* Pointer array (allocate at least one line, to avoid MemoryError
exceptions on platforms where calloc(0, x) returns NULL) */
im->image = (char **) calloc((ysize > 0) ? ysize : 1, sizeof(void *));
if ( ! im->image) {
free(im);
return (Imaging) ImagingError_MemoryError();
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}
/* Initialize alias pointers to pixel data. */
switch (im->pixelsize) {
case 1: case 2: case 3:
im->image8 = (UINT8 **) im->image;
break;
case 4:
im->image32 = (INT32 **) im->image;
break;
}
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ImagingDefaultArena.stats_new_count += 1;
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return im;
}
Imaging
ImagingNewPrologue(const char *mode, int xsize, int ysize)
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{
return ImagingNewPrologueSubtype(
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mode, xsize, ysize, sizeof(struct ImagingMemoryInstance));
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}
void
ImagingDelete(Imaging im)
{
if (!im)
return;
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if (im->palette)
ImagingPaletteDelete(im->palette);
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if (im->destroy)
im->destroy(im);
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if (im->image)
free(im->image);
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free(im);
}
/* Array Storage Type */
/* ------------------ */
/* Allocate image as an array of line buffers. */
#define IMAGING_PAGE_SIZE (4096)
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struct ImagingMemoryArena ImagingDefaultArena = {
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1, // alignment
16*1024*1024, // block_size
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0, // blocks_max
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0, // blocks_cached
NULL, // blocks_pool
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0, 0, 0, 0, 0 // Stats
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};
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int
ImagingMemorySetBlocksMax(ImagingMemoryArena arena, int blocks_max)
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{
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void *p;
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/* Free already cached blocks */
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ImagingMemoryClearCache(arena, blocks_max);
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if (blocks_max == 0 && arena->blocks_pool != NULL) {
free(arena->blocks_pool);
arena->blocks_pool = NULL;
} else if (arena->blocks_pool != NULL) {
p = realloc(arena->blocks_pool, sizeof(*arena->blocks_pool) * blocks_max);
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if ( ! p) {
// Leave previous blocks_max value
return 0;
}
arena->blocks_pool = p;
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} else {
arena->blocks_pool = calloc(sizeof(*arena->blocks_pool), blocks_max);
if ( ! arena->blocks_pool) {
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return 0;
}
}
arena->blocks_max = blocks_max;
return 1;
}
void
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ImagingMemoryClearCache(ImagingMemoryArena arena, int new_size)
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{
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while (arena->blocks_cached > new_size) {
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arena->blocks_cached -= 1;
free(arena->blocks_pool[arena->blocks_cached].ptr);
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arena->stats_freed_blocks += 1;
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}
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}
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ImagingMemoryBlock
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memory_get_block(ImagingMemoryArena arena, int requested_size, int dirty)
{
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ImagingMemoryBlock block = {NULL, 0};
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if (arena->blocks_cached > 0) {
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// Get block from cache
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arena->blocks_cached -= 1;
block = arena->blocks_pool[arena->blocks_cached];
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// Reallocate if needed
if (block.size != requested_size){
block.ptr = realloc(block.ptr, requested_size);
}
if ( ! block.ptr) {
// Can't allocate, free prevous pointer (it is still valid)
free(arena->blocks_pool[arena->blocks_cached].ptr);
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arena->stats_freed_blocks += 1;
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return block;
}
if ( ! dirty) {
memset(block.ptr, 0, requested_size);
}
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arena->stats_reused_blocks += 1;
if (block.ptr != arena->blocks_pool[arena->blocks_cached].ptr) {
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arena->stats_reallocated_blocks += 1;
}
} else {
if (dirty) {
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block.ptr = malloc(requested_size);
} else {
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block.ptr = calloc(1, requested_size);
}
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arena->stats_allocated_blocks += 1;
}
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block.size = requested_size;
return block;
}
void
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memory_return_block(ImagingMemoryArena arena, ImagingMemoryBlock block)
{
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if (arena->blocks_cached < arena->blocks_max) {
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// Reduce block size
if (block.size > arena->block_size) {
block.size = arena->block_size;
block.ptr = realloc(block.ptr, arena->block_size);
}
arena->blocks_pool[arena->blocks_cached] = block;
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arena->blocks_cached += 1;
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} else {
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free(block.ptr);
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arena->stats_freed_blocks += 1;
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}
}
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static void
ImagingDestroyArray(Imaging im)
{
int y = 0;
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if (im->blocks) {
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while (im->blocks[y].ptr) {
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memory_return_block(&ImagingDefaultArena, im->blocks[y]);
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y += 1;
}
free(im->blocks);
}
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}
Imaging
ImagingAllocateArray(Imaging im, int dirty, int block_size)
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{
int y, line_in_block, current_block;
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ImagingMemoryArena arena = &ImagingDefaultArena;
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ImagingMemoryBlock block = {NULL, 0};
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int aligned_linesize, lines_per_block, blocks_count;
char *aligned_ptr = NULL;
/* 0-width or 0-height image. No need to do anything */
if ( ! im->linesize || ! im->ysize) {
return im;
}
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aligned_linesize = (im->linesize + arena->alignment - 1) & -arena->alignment;
lines_per_block = (block_size - (arena->alignment - 1)) / aligned_linesize;
if (lines_per_block == 0)
lines_per_block = 1;
blocks_count = (im->ysize + lines_per_block - 1) / lines_per_block;
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// printf("NEW size: %dx%d, ls: %d, lpb: %d, blocks: %d\n",
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// im->xsize, im->ysize, aligned_linesize, lines_per_block, blocks_count);
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/* One extra ponter is always NULL */
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im->blocks = calloc(sizeof(*im->blocks), blocks_count + 1);
if ( ! im->blocks) {
return (Imaging) ImagingError_MemoryError();
}
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/* Allocate image as an array of lines */
line_in_block = 0;
current_block = 0;
for (y = 0; y < im->ysize; y++) {
if (line_in_block == 0) {
int required;
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int lines_remaining = lines_per_block;
if (lines_remaining > im->ysize - y) {
lines_remaining = im->ysize - y;
}
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required = lines_remaining * aligned_linesize + arena->alignment - 1;
block = memory_get_block(arena, required, dirty);
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if ( ! block.ptr) {
ImagingDestroyArray(im);
return (Imaging) ImagingError_MemoryError();
}
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im->blocks[current_block] = block;
/* Bulletproof code from libc _int_memalign */
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aligned_ptr = (char *)(
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((unsigned long) (block.ptr + arena->alignment - 1)) &
-((signed long) arena->alignment));
}
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im->image[y] = aligned_ptr + aligned_linesize * line_in_block;
line_in_block += 1;
if (line_in_block >= lines_per_block) {
/* Reset counter and start new block */
line_in_block = 0;
current_block += 1;
}
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}
im->destroy = ImagingDestroyArray;
return im;
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}
/* Block Storage Type */
/* ------------------ */
/* Allocate image as a single block. */
static void
ImagingDestroyBlock(Imaging im)
{
if (im->block)
free(im->block);
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}
Imaging
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ImagingAllocateBlock(Imaging im)
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{
Py_ssize_t y, i;
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/* overflow check for malloc */
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if (im->linesize &&
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im->ysize > INT_MAX / im->linesize) {
return (Imaging) ImagingError_MemoryError();
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}
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if (im->ysize * im->linesize <= 0) {
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/* some platforms return NULL for malloc(0); this fix
prevents MemoryError on zero-sized images on such
platforms */
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im->block = (char *) malloc(1);
} else {
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/* malloc check ok, overflow check above */
im->block = (char *) calloc(im->ysize, im->linesize);
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}
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if ( ! im->block) {
return (Imaging) ImagingError_MemoryError();
}
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for (y = i = 0; y < im->ysize; y++) {
im->image[y] = im->block + i;
i += im->linesize;
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}
im->destroy = ImagingDestroyBlock;
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return im;
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}
/* --------------------------------------------------------------------
* Create a new, internally allocated, image.
*/
Imaging
ImagingNewInternal(const char* mode, int xsize, int ysize, int dirty)
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{
Imaging im;
if (xsize < 0 || ysize < 0) {
return (Imaging) ImagingError_ValueError("bad image size");
}
im = ImagingNewPrologue(mode, xsize, ysize);
if ( ! im)
return NULL;
if (ImagingAllocateArray(im, dirty, ImagingDefaultArena.block_size)) {
return im;
}
ImagingError_Clear();
// Try to allocate the image once more with smallest possible block size
if (ImagingAllocateArray(im, dirty, IMAGING_PAGE_SIZE)) {
return im;
}
ImagingDelete(im);
return NULL;
}
Imaging
ImagingNew(const char* mode, int xsize, int ysize)
{
return ImagingNewInternal(mode, xsize, ysize, 0);
}
Imaging
ImagingNewDirty(const char* mode, int xsize, int ysize)
{
return ImagingNewInternal(mode, xsize, ysize, 1);
}
Imaging
ImagingNewBlock(const char* mode, int xsize, int ysize)
{
Imaging im;
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if (xsize < 0 || ysize < 0) {
return (Imaging) ImagingError_ValueError("bad image size");
}
im = ImagingNewPrologue(mode, xsize, ysize);
if ( ! im)
return NULL;
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if (ImagingAllocateBlock(im)) {
return im;
}
ImagingDelete(im);
return NULL;
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}
Imaging
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ImagingNew2Dirty(const char* mode, Imaging imOut, Imaging imIn)
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{
/* allocate or validate output image */
if (imOut) {
/* make sure images match */
if (strcmp(imOut->mode, mode) != 0
|| imOut->xsize != imIn->xsize
|| imOut->ysize != imIn->ysize) {
return ImagingError_Mismatch();
}
} else {
/* create new image */
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imOut = ImagingNewDirty(mode, imIn->xsize, imIn->ysize);
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if (!imOut)
return NULL;
}
return imOut;
}
void
ImagingCopyPalette(Imaging destination, Imaging source)
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{
if (source->palette) {
if (destination->palette)
ImagingPaletteDelete(destination->palette);
destination->palette = ImagingPaletteDuplicate(source->palette);
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}
}