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#include <assert.h>
#include <string.h>
#include <stdint.h>
#include <sys/time.h>
#include "meh.h"
#define GETVAL0(c) ((ibuf[x0 + (c)] * (ur) + ibuf[x1 + (c)] * (u)) * (vr) >> 20)
#define GETVAL(c) (( \
( \
ibuf[x0 + (c)] * (ur) + \
ibuf[x1 + (c)] * (u) \
) * (vr) + \
( \
(ibufn[x0 + (c)]) * (ur) + \
(ibufn[x1 + (c)]) * (u)\
) * (v)) >> 20)
#define XLOOP(F) \
for(x = 0; x < width*4;){ \
const unsigned int x0 = a[x++];\
const unsigned int x1 = a[x++];\
const unsigned int u = a[x++];\
const unsigned int ur = a[x++];\
*newBuf++ = F(2);\
*newBuf++ = F(1);\
*newBuf++ = F(0);\
newBuf++;\
}
#define YITER \
const unsigned int bufy = (y << 10) * img->bufheight / height;\
const unsigned int v = (bufy & 1023);\
const unsigned int vr = 1023^v;\
ibuf = &img->buf[y * img->bufheight / height * img->bufwidth * 3];\
ibufn = ibuf + dy;
/*
* Super sampling scale. Down only.
*/
static void superscale(struct image *img, unsigned int width, unsigned int height, unsigned int bytesperline, char* __restrict__ newBuf){
uint32_t x, y, i;
unsigned char * __restrict__ ibuf;
ibuf = &img->buf[0];
TDEBUG_START
unsigned int divx[width];
unsigned int divy[height];
memset(divx, 0, sizeof divx);
memset(divy, 0, sizeof divy);
for(x = 0; x < img->bufwidth; x++){
divx[x * width / img->bufwidth]++;
}
for(y = 0; y < img->bufheight; y++){
divy[y * height / img->bufheight]++;
}
unsigned int tmp[width * 4];
unsigned int *xoff[img->bufwidth];
for(x = 0; x < img->bufwidth; x++){
xoff[x] = tmp + (x * width / img->bufwidth) * 3;
}
unsigned int y0;
unsigned int * __restrict__ dest;
for(y = 0; y < img->bufheight;){
unsigned int ydiv = divy[y * height / img->bufheight];
char * __restrict__ ydest = &newBuf[bytesperline * (y * height / img->bufheight)];
memset(tmp, 0, sizeof tmp);
ibuf = &img->buf[y * img->bufwidth * 3];
for(y0 = y + ydiv; y < y0; y++){
for(x = 0; x < img->bufwidth; x++){
dest = xoff[x];
for(i = 0; i < 3; i++){
*dest++ += *ibuf++;
}
}
}
unsigned int * __restrict__ src = tmp;
for(x = 0; x < width; x++){
ydest[2] = *src++ / ydiv / divx[x];
ydest[1] = *src++ / ydiv / divx[x];
ydest[0] = *src++ / ydiv / divx[x];
ydest += 4;
}
}
TDEBUG_END("superscale")
}
/*
* Bilinear scale. Used for up only.
*/
static void bilinearscale(struct image *img, unsigned int width, unsigned int height, unsigned int bytesperline, char* __restrict__ newBuf){
unsigned int x, y;
const unsigned char * __restrict__ ibuf;
const unsigned char * __restrict__ ibufn;
const unsigned char * const bufend = &img->buf[img->bufwidth * img->bufheight * 3];
const unsigned int jdy = bytesperline / 4 - width;
const unsigned int dy = img->bufwidth * 3;
TDEBUG_START
unsigned int a[width * 4];
{
unsigned int dx = (img->bufwidth << 10) / width;
unsigned int bufx = img->bufwidth / width;
for(x = 0; x < width * 4;){
if((bufx >> 10) >= img->bufwidth - 1){
a[x++] = (img->bufwidth - 1) * 3;
a[x++] = (img->bufwidth - 1) * 3;
a[x++] = 0;
a[x++] = 1023 ^ (bufx & 1023);
}else{
a[x++] = (bufx >> 10) * 3;
a[x++] = ((bufx >> 10) + 1) * 3;
a[x++] = (bufx & 1023);
a[x++] = 1023 ^ (bufx & 1023);
}
bufx += dx;
}
}
y = 0;
ibuf = img->buf;
ibufn = img->buf + dy;
for(;;){
YITER
if(ibufn + dy > bufend){
break;
}
XLOOP(GETVAL)
newBuf += jdy;
y++;
}
for(;;){
YITER
if(ibufn > bufend){
break;
}
XLOOP(GETVAL0)
newBuf += jdy;
y++;
}
TDEBUG_END("bilinearscale")
}
void scale(struct image *img, unsigned int width, unsigned int height, unsigned int bytesperline, char* __restrict__ newBuf){
if(width < img->bufwidth){
superscale(img, width, height, bytesperline, newBuf);
}else{
bilinearscale(img, width, height, bytesperline, newBuf);
}
}
/*
* Nearest neighbour. Fast up and down.
*/
void nearestscale(struct image *img, unsigned int width, unsigned int height, unsigned int bytesperline, char* __restrict__ newBuf){
unsigned int x, y;
unsigned char * __restrict__ ibuf;
unsigned int jdy = bytesperline / 4 - width;
unsigned int dx = (img->bufwidth << 10) / width;
TDEBUG_START
for(y = 0; y < height; y++){
unsigned int bufx = img->bufwidth / width;
ibuf = &img->buf[y * img->bufheight / height * img->bufwidth * 3];
for(x = 0; x < width; x++){
*newBuf++ = (ibuf[(bufx >> 10)*3+2]);
*newBuf++ = (ibuf[(bufx >> 10)*3+1]);
*newBuf++ = (ibuf[(bufx >> 10)*3+0]);
newBuf++;
bufx += dx;
}
newBuf += jdy;
}
TDEBUG_END("nearestscale")
}
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