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/* See LICENSE file for copyright and license details. */
#include "stream.h"
#include "util.h"
#include <fcntl.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
USAGE("luma-stream")
static void
process_xyza(struct stream *colour, struct stream *luma, size_t n)
{
size_t i;
double a, y;
for (i = 0; i < n; i += colour->pixel_size) {
a = ((double *)(luma->buf + i))[1];
a *= ((double *)(luma->buf + i))[3];
y = ((double *)(colour->buf + i))[1];
((double *)(colour->buf + i))[0] += y * a - y;
((double *)(colour->buf + i))[1] = y * a;
((double *)(colour->buf + i))[2] += y * a - y;
/*
* Note, this changes the luma only, not the saturation,
* so the result may look a bit weird. To change both
* you can use `blind-arithm mul`.
*
* Explaination:
* Y is the luma, but (X, Z) is not the chroma,
* but in CIELAB, L* is the luma and (a*, *b) is
* the chroma. Multiplying
*
* ⎛0 1 0⎞
* ⎜1 −1 0⎟
* ⎝0 1 −1⎠
*
* (X Y Z)' gives a colour model similar to
* CIE L*a*b*: a model where each parameter is
* a linear transformation of the corresponding
* parameter in CIE L*a*b*. The inverse of that
* matrix is
*
* ⎛1 1 0⎞
* ⎜1 0 0⎟
* ⎝0 0 −1⎠
*
* and
*
* ⎛1 1 0⎞⎛a 0 0⎞⎛0 1 0⎞ ⎛1 a−1 0⎞
* ⎜1 0 0⎟⎜0 1 0⎟⎜1 −1 0⎟ = ⎜0 a 0⎟.
* ⎝0 0 −1⎠⎝0 0 1⎠⎝0 1 −1⎠ ⎝0 a−1 1⎠
*/
}
}
int
main(int argc, char *argv[])
{
struct stream colour, luma;
void (*process)(struct stream *colour, struct stream *luma, size_t n);
ENOFLAGS(argc != 1);
colour.file = "<stdin>";
colour.fd = STDIN_FILENO;
einit_stream(&colour);
luma.file = argv[0];
luma.fd = eopen(luma.file, O_RDONLY);
einit_stream(&luma);
if (!strcmp(colour.pixfmt, "xyza"))
process = process_xyza;
else
eprintf("pixel format %s is not supported, try xyza\n", colour.pixfmt);
fprint_stream_head(stdout, &colour);
efflush(stdout, "<stdout>");
process_two_streams(&colour, &luma, STDOUT_FILENO, "<stdout>", process);
return 0;
}
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