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image.c
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image.c
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#include <stdio.h>
#include <stdbool.h>
#include <string.h>
#include <unistd.h>
#include <jpeglib.h>
#include "ascii.h"
#include "aspect_ratio.h"
#include "image.h"
#include "options.h"
#include "round.h"
typedef void (*image_resize_ptrfun)(const image_t* , image_t*);
image_resize_ptrfun global_image_resize_fun = NULL;
image_t* image_new(int width, int height) {
image_t *p;
if (!(p = (image_t *) malloc(sizeof(image_t)))) {
perror("jp2a: coudln't allocate memory for image");
exit(EXIT_FAILURE);
}
if (!(p->pixels = (rgb_t *) malloc(width*height*sizeof(rgb_t)))) {
perror("jp2a: couldn't allocate memory for image");
exit(EXIT_FAILURE);
}
p->w = width;
p->h = height;
return p;
}
void image_destroy(image_t *p) {
free(p->pixels);
free(p);
}
void image_clear(image_t *p) {
memset(p->pixels, 0, p->w*p->h*sizeof(rgb_t));
}
inline
rgb_t* image_pixel(image_t *p, const int x, const int y) {
return &p->pixels[x + y*p->w];
}
void image_resize(const image_t *s, image_t *d) {
global_image_resize_fun(s, d);
}
void image_resize_interpolation(const image_t *source, image_t *dest) {
register unsigned int r, g, b;
const int ynrat = (float)source->h / (float)dest->h;
const int xnrat = (float)source->w / (float)dest->w;
const int yinc = ynrat*source->w;
const unsigned int adds = xnrat * ynrat;
register rgb_t* pix = dest->pixels;
register rgb_t* pix_next = pix + dest->w;
register const rgb_t* samp_end;
register const rgb_t* src = source->pixels;
register const rgb_t* src_end = source->pixels + dest->h*yinc;
while ( src < src_end ) {
const rgb_t *sample_start_plus_yinc = src + yinc;
while ( pix < pix_next ) {
r = g = b = 0;
samp_end = src + xnrat;
while ( src < sample_start_plus_yinc ) {
while ( src < samp_end ) {
r += src->r;
g += src->g;
b += src->b;
++src;
}
src += source->w - xnrat;
samp_end += source->w;
}
pix->r = r/adds;
pix->g = g/adds;
pix->b = b/adds;
++pix;
src -= yinc - xnrat;
}
src = sample_start_plus_yinc;
pix_next += dest->w;
}
}
image_t *image_read(FILE *fp) {
JSAMPARRAY buffer;
int row_stride;
struct jpeg_decompress_struct jpg;
struct jpeg_error_mgr jerr;
image_t *p;
global_image_resize_fun = image_resize_interpolation;
jpg.err = jpeg_std_error(&jerr);
jpeg_create_decompress(&jpg);
jpeg_stdio_src(&jpg, fp);
jpeg_read_header(&jpg, TRUE);
jpeg_start_decompress(&jpg);
if (jpg.data_precision != 8) {
fprintf(stderr, "jp2a: can only handle 8-bit color channels\n");
exit(1);
}
row_stride = jpg.output_width * jpg.output_components;
buffer = (*jpg.mem->alloc_sarray)((j_common_ptr) &jpg, JPOOL_IMAGE, row_stride, 1);
aspect_ratio(jpg.output_width, jpg.output_height);
p = image_new(jpg.output_width, jpg.output_height);
while (jpg.output_scanline < jpg.output_height) {
jpeg_read_scanlines(&jpg, buffer, 1);
if (jpg.output_components == 3) {
memcpy(&p->pixels[(jpg.output_scanline-1)*p->w], &buffer[0][0], sizeof(rgb_t)*p->w);
} else {
rgb_t *pixels = &p->pixels[(jpg.output_scanline-1) * p->w];
// grayscale
for (int x = 0; x < (int)jpg.output_width; ++x)
pixels[x].r = pixels[x].g = pixels[x].b = buffer[0][x];
}
}
jpeg_finish_decompress(&jpg);
jpeg_destroy_decompress(&jpg);
return p;
}
char* get_lum_palette() {
static char palette[256];
for (int n = 0; n < 256; n++) {
palette[n] = ascii_palette[ROUND(
(float)(strlen(ascii_palette) - 1) * (float)n / (float)MAXJSAMPLE
)];
}
return palette;
}
char *image_print(const image_t *p) {
int h = p->h,
w = p->w;
rgb_t* pix = p->pixels;
char* palette = get_lum_palette();
int len = h*w;
char* lines = (char*)malloc((len + 2)*sizeof(char));
lines[len ] = ASCII_DELIMITER;
lines[len+1] = '\0';
for (int y = 0; y < h; y++) {
for (int x = 0; x < w; x++, pix++)
lines[(y*w)+x] = palette[
RED[pix->r] + GREEN[pix->g] + BLUE[pix->b]
];
lines[(y*w)+w-1] = '\n';
}
return lines;
}