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/*
Functions to allocate and deallocate structures and structure data
By Jim Frost 1989.09.29, Bryan Henderson 2006.03.25.
See COPYRIGHT file for copyright information.
*/
#include <assert.h>
#include "pm_c_util.h"
#include "mallocvar.h"
#include "nstring.h"
#include "pam.h"
#include "image.h"
/* this table is useful for quick conversions between depth and ncolors */
static unsigned long const DepthToColorsTable[] = {
/* 0 */ 1,
/* 1 */ 2,
/* 2 */ 4,
/* 3 */ 8,
/* 4 */ 16,
/* 5 */ 32,
/* 6 */ 64,
/* 7 */ 128,
/* 8 */ 256,
/* 9 */ 512,
/* 10 */ 1024,
/* 11 */ 2048,
/* 12 */ 4096,
/* 13 */ 8192,
/* 14 */ 16384,
/* 15 */ 32768,
/* 16 */ 65536,
/* 17 */ 131072,
/* 18 */ 262144,
/* 19 */ 524288,
/* 20 */ 1048576,
/* 21 */ 2097152,
/* 22 */ 4194304,
/* 23 */ 8388608,
/* 24 */ 16777216,
/* 25 */ 33554432,
/* 26 */ 67108864,
/* 27 */ 134217728,
/* 28 */ 268435456,
/* 29 */ 536870912,
/* 30 */ 1073741824,
/* 31 */ 2147483648u,
/* 32 */ 2147483648u /* bigger than unsigned int; this is good enough */
};
unsigned int
depthToColors(unsigned int const depth) {
return DepthToColorsTable[MIN(depth,32)];
}
unsigned long
colorsToDepth(unsigned long const ncolors) {
unsigned long a;
for (a = 0; (a < 32) && (DepthToColorsTable[a] < ncolors); ++a)
/* EMPTY */
;
return a ;
}
void
assertGoodImage(Image * const imageP) {
assert(imageP != NULL);
switch (imageP->type) {
case IBITMAP:
case IRGB:
case ITRUE:
break;
default:
assert(FALSE); /* can't be */
}
}
static void
newRGBMapData(RGBMap * const rgbP,
unsigned int const size) {
rgbP->used = 0;
rgbP->size = size;
rgbP->compressed = FALSE;
MALLOCARRAY(rgbP->red, size);
MALLOCARRAY(rgbP->grn, size);
MALLOCARRAY(rgbP->blu, size);
if (rgbP->red == NULL || rgbP->grn == NULL || rgbP->blu == NULL)
pm_error("Out of memory allocating %u pixels", size);
}
static void
freeRGBMapData(RGBMap * const rgbP) {
free(rgbP->red);
free(rgbP->grn);
free(rgbP->blu);
}
Image *
newBitImage(unsigned int const width,
unsigned int const height) {
unsigned int const linelen = (width + 7) / 8;
Image * imageP;
MALLOCVAR_NOFAIL(imageP);
imageP->type = IBITMAP;
newRGBMapData(&imageP->rgb, 2);
imageP->rgb.red[0] = imageP->rgb.grn[0] = imageP->rgb.blu[0] = 65535;
imageP->rgb.red[1] = imageP->rgb.grn[1] = imageP->rgb.blu[1] = 0;
imageP->rgb.used = 2;
imageP->width = width;
imageP->height = height;
imageP->depth = 1;
if (UINT_MAX / linelen < height)
pm_error("Image dimensions too big to compute: %u x %u",
linelen, height);
MALLOCARRAY(imageP->data, linelen * height);
if (imageP->data == NULL)
pm_error("Out of memory allocating array of %u x %u", linelen, height);
return imageP;
}
Image *
newRGBImage(unsigned int const width,
unsigned int const height,
unsigned int const depth) {
unsigned int const pixlen = pixlen > 0 ? (depth + 7) / 8 : 1;
/* Special case for "zero" depth image, which is sometimes
interpreted as "one color"
*/
unsigned int const numcolors = depthToColors(depth);
Image * imageP;
MALLOCVAR_NOFAIL(imageP);
imageP->type = IRGB;
newRGBMapData(&imageP->rgb, numcolors);
imageP->width = width;
imageP->height = height;
imageP->depth = depth;
imageP->pixlen = pixlen;
if (UINT_MAX / width / height < pixlen)
pm_error("Image dimensions %u x %u x %u are too big to compute.",
width, height, pixlen);
MALLOCARRAY(imageP->data, width * height * pixlen);
if (imageP->data == NULL)
pm_error("Unable to allocate %u x %u x %u raster array",
width, height, pixlen);
return imageP;
}
Image *
newTrueImage(unsigned int const width,
unsigned int const height) {
unsigned int const pixlen = 3;
Image * imageP;
MALLOCVAR_NOFAIL(imageP);
imageP->type = ITRUE;
imageP->rgb.used = 0;
imageP->rgb.size = 0;
imageP->width = width;
imageP->height = height;
imageP->depth = 24;
imageP->pixlen = 3;
if (UINT_MAX / width / height < pixlen)
pm_error("Image dimensions %u x %u x %u are too big to compute.",
width, height, pixlen);
MALLOCARRAY(imageP->data, width * height * pixlen);
if (imageP->data == NULL)
pm_error("Unable to allocate %u x %u x %u raster array",
width, height, pixlen);
return imageP;
}
static void
freeImageData(Image * const imageP) {
if (!TRUEP(imageP))
freeRGBMapData(&imageP->rgb);
free(imageP->data);
}
void
freeImage(Image * const imageP) {
assertGoodImage(imageP);
freeImageData(imageP);
imageP->type = IBAD;
free(imageP);
}
static void
fillRow1(struct pam * const pamP,
tuple * const tuplerow,
unsigned char ** const pP) {
unsigned int col;
for (col = 0; col < pamP->width; ++col) {
unsigned int plane;
for (plane = 0; plane < pamP->depth; ++plane)
*(*pP)++ =
pnm_scalesample(tuplerow[col][0], pamP->maxval, 255);
}
}
static void
fillRow3(struct pam * const pamP,
tuple * const tuplerow,
unsigned char ** const pP) {
unsigned int col;
for (col = 0; col < pamP->width; ++col) {
unsigned int plane;
for (plane = 0; plane < pamP->depth; ++plane)
*(*pP)++ =
pnm_scalesample(tuplerow[col][plane], pamP->maxval, 255);
}
}
Image *
pbmLoad(const char * const fullname,
const char * const name,
bool const verbose) {
FILE * ifP;
struct pam pam;
Image * imageP;
unsigned int row;
const char * filename;
tuple * tuplerow;
unsigned char * p;
enum {DEPTH_1, DEPTH_3} depth;
if (STREQ(fullname, "stdin"))
filename = "-";
else
filename = fullname;
ifP = pm_openr(filename);
pnm_readpaminit(ifP, &pam, PAM_STRUCT_SIZE(tuple_type));
if (strncmp(pam.tuple_type, "RGB", 3) == 0) {
depth = DEPTH_3;
if (pam.depth < 3)
pm_error("Invalid depth %u for RGB tuple type.", pam.depth);
} else
depth = DEPTH_1;
imageP = newTrueImage(pam.width, pam.height);
p = &imageP->data[0]; /* initial value */
tuplerow = pnm_allocpamrow(&pam);
for (row = 0; row < pam.height; ++row) {
pnm_readpamrow(&pam, tuplerow);
switch (depth) {
case DEPTH_3:
fillRow3(&pam, tuplerow, &p);
break;
case DEPTH_1:
fillRow1(&pam, tuplerow, &p);
break;
}
}
pnm_freepamrow(tuplerow);
pm_close(ifP);
return imageP;
}
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