Pillow/src/libImaging/Reduce.c

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#include "Imaging.h"
#include <math.h>
#define ROUND_UP(f) ((int) ((f) >= 0.0 ? (f) + 0.5F : (f) - 0.5F))
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UINT32
division_UINT32(int divider, int result_bits)
{
UINT32 max_dividend = (1 << result_bits) * divider;
float max_int = (1 << 30) * 4.0;
return (UINT32) (max_int / max_dividend);
}
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void
ImagingReduceNxN(Imaging imOut, Imaging imIn, int xscale, int yscale)
{
/* The most general implementation for any xscale and yscale
*/
int x, y, xx, yy, xi;
UINT32 multiplier = division_UINT32(yscale * xscale, 8);
UINT32 amend = yscale * xscale / 2;
if (imIn->image8) {
} else {
switch(imIn->type) {
case IMAGING_TYPE_UINT8:
for (y = 0; y < imIn->ysize / yscale; y++) {
if (imIn->bands == 2) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
UINT32 ss0 = amend, ss3 = amend;
for (yy = y*yscale; yy < y*yscale + yscale - 1; yy += 2) {
UINT8 *line0 = (UINT8 *)imIn->image[yy];
UINT8 *line1 = (UINT8 *)imIn->image[yy + 1];
for (xi = 0; xi < xscale - 1; xi += 2) {
xx = x*xscale + xi;
ss0 += line0[xx*4 + 0] + line0[xx*4 + 4] +
line1[xx*4 + 0] + line1[xx*4 + 4];
ss3 += line0[xx*4 + 3] + line0[xx*4 + 7] +
line1[xx*4 + 3] + line1[xx*4 + 7];
}
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if (xscale & 0x01) {
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xx = x*xscale + xi;
ss0 += line0[xx*4 + 0] + line1[xx*4 + 0];
ss3 += line0[xx*4 + 3] + line1[xx*4 + 3];
}
}
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if (yscale & 0x01) {
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UINT8 *line = (UINT8 *)imIn->image[yy];
for (xi = 0; xi < xscale - 1; xi += 2) {
xx = x*xscale + xi;
ss0 += line[xx*4 + 0] + line[xx*4 + 4];
ss3 += line[xx*4 + 3] + line[xx*4 + 7];
}
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if (xscale & 0x01) {
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xx = x*xscale + xi;
ss0 += line[xx*4 + 0];
ss3 += line[xx*4 + 3];
}
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, 0,
0, (ss3 * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else if (imIn->bands == 3) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
UINT32 ss0 = amend, ss1 = amend, ss2 = amend;
for (yy = y*yscale; yy < y*yscale + yscale - 1; yy += 2) {
UINT8 *line0 = (UINT8 *)imIn->image[yy];
UINT8 *line1 = (UINT8 *)imIn->image[yy + 1];
for (xi = 0; xi < xscale - 1; xi += 2) {
xx = x*xscale + xi;
ss0 += line0[xx*4 + 0] + line0[xx*4 + 4] +
line1[xx*4 + 0] + line1[xx*4 + 4];
ss1 += line0[xx*4 + 1] + line0[xx*4 + 5] +
line1[xx*4 + 1] + line1[xx*4 + 5];
ss2 += line0[xx*4 + 2] + line0[xx*4 + 6] +
line1[xx*4 + 2] + line1[xx*4 + 6];
}
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if (xscale & 0x01) {
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xx = x*xscale + xi;
ss0 += line0[xx*4 + 0] + line1[xx*4 + 0];
ss1 += line0[xx*4 + 1] + line1[xx*4 + 1];
ss2 += line0[xx*4 + 2] + line1[xx*4 + 2];
}
}
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if (yscale & 0x01) {
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UINT8 *line = (UINT8 *)imIn->image[yy];
for (xi = 0; xi < xscale - 1; xi += 2) {
xx = x*xscale + xi;
ss0 += line[xx*4 + 0] + line[xx*4 + 4];
ss1 += line[xx*4 + 1] + line[xx*4 + 5];
ss2 += line[xx*4 + 2] + line[xx*4 + 6];
}
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if (xscale & 0x01) {
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xx = x*xscale + xi;
ss0 += line[xx*4 + 0];
ss1 += line[xx*4 + 1];
ss2 += line[xx*4 + 2];
}
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24,
(ss2 * multiplier) >> 24, 0);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else { // bands == 4
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend;
for (yy = y*yscale; yy < y*yscale + yscale - 1; yy += 2) {
UINT8 *line0 = (UINT8 *)imIn->image[yy];
UINT8 *line1 = (UINT8 *)imIn->image[yy + 1];
for (xi = 0; xi < xscale - 1; xi += 2) {
xx = x*xscale + xi;
ss0 += line0[xx*4 + 0] + line0[xx*4 + 4] +
line1[xx*4 + 0] + line1[xx*4 + 4];
ss1 += line0[xx*4 + 1] + line0[xx*4 + 5] +
line1[xx*4 + 1] + line1[xx*4 + 5];
ss2 += line0[xx*4 + 2] + line0[xx*4 + 6] +
line1[xx*4 + 2] + line1[xx*4 + 6];
ss3 += line0[xx*4 + 3] + line0[xx*4 + 7] +
line1[xx*4 + 3] + line1[xx*4 + 7];
}
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if (xscale & 0x01) {
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xx = x*xscale + xi;
ss0 += line0[xx*4 + 0] + line1[xx*4 + 0];
ss1 += line0[xx*4 + 1] + line1[xx*4 + 1];
ss2 += line0[xx*4 + 2] + line1[xx*4 + 2];
ss3 += line0[xx*4 + 3] + line1[xx*4 + 3];
}
}
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if (yscale & 0x01) {
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UINT8 *line = (UINT8 *)imIn->image[yy];
for (xi = 0; xi < xscale - 1; xi += 2) {
xx = x*xscale + xi;
ss0 += line[xx*4 + 0] + line[xx*4 + 4];
ss1 += line[xx*4 + 1] + line[xx*4 + 5];
ss2 += line[xx*4 + 2] + line[xx*4 + 6];
ss3 += line[xx*4 + 3] + line[xx*4 + 7];
}
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if (xscale & 0x01) {
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xx = x*xscale + xi;
ss0 += line[xx*4 + 0];
ss1 += line[xx*4 + 1];
ss2 += line[xx*4 + 2];
ss3 += line[xx*4 + 3];
}
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24,
(ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
}
}
break;
case IMAGING_TYPE_INT32:
break;
case IMAGING_TYPE_FLOAT32:
break;
}
}
}
void
ImagingReduce1xN(Imaging imOut, Imaging imIn, int yscale)
{
/* Optimized implementation for xscale = 1.
*/
int x, y, yy;
int xscale = 1;
UINT32 multiplier = division_UINT32(yscale * xscale, 8);
UINT32 amend = yscale * xscale / 2;
if (imIn->image8) {
} else {
switch(imIn->type) {
case IMAGING_TYPE_UINT8:
for (y = 0; y < imIn->ysize / yscale; y++) {
if (imIn->bands == 2) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
UINT32 ss0 = amend, ss3 = amend;
for (yy = y*yscale; yy < y*yscale + yscale - 1; yy += 2) {
UINT8 *line0 = (UINT8 *)imIn->image[yy];
UINT8 *line1 = (UINT8 *)imIn->image[yy + 1];
ss0 += line0[x*4 + 0] + line1[x*4 + 0];
ss3 += line0[x*4 + 3] + line1[x*4 + 3];
}
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if (yscale & 0x01) {
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UINT8 *line = (UINT8 *)imIn->image[yy];
ss0 += line[x*4 + 0];
ss3 += line[x*4 + 3];
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, 0,
0, (ss3 * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else if (imIn->bands == 3) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
UINT32 ss0 = amend, ss1 = amend, ss2 = amend;
for (yy = y*yscale; yy < y*yscale + yscale - 1; yy += 2) {
UINT8 *line0 = (UINT8 *)imIn->image[yy];
UINT8 *line1 = (UINT8 *)imIn->image[yy + 1];
ss0 += line0[x*4 + 0] + line1[x*4 + 0];
ss1 += line0[x*4 + 1] + line1[x*4 + 1];
ss2 += line0[x*4 + 2] + line1[x*4 + 2];
}
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if (yscale & 0x01) {
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UINT8 *line = (UINT8 *)imIn->image[yy];
ss0 += line[x*4 + 0];
ss1 += line[x*4 + 1];
ss2 += line[x*4 + 2];
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24,
(ss2 * multiplier) >> 24, 0);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else { // bands == 4
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend;
for (yy = y*yscale; yy < y*yscale + yscale - 1; yy += 2) {
UINT8 *line0 = (UINT8 *)imIn->image[yy];
UINT8 *line1 = (UINT8 *)imIn->image[yy + 1];
ss0 += line0[x*4 + 0] + line1[x*4 + 0];
ss1 += line0[x*4 + 1] + line1[x*4 + 1];
ss2 += line0[x*4 + 2] + line1[x*4 + 2];
ss3 += line0[x*4 + 3] + line1[x*4 + 3];
}
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if (yscale & 0x01) {
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UINT8 *line = (UINT8 *)imIn->image[yy];
ss0 += line[x*4 + 0];
ss1 += line[x*4 + 1];
ss2 += line[x*4 + 2];
ss3 += line[x*4 + 3];
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24,
(ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
}
}
break;
case IMAGING_TYPE_INT32:
break;
case IMAGING_TYPE_FLOAT32:
break;
}
}
}
void
ImagingReduceNx1(Imaging imOut, Imaging imIn, int xscale)
{
/* Optimized implementation for yscale = 1.
*/
int x, y, xx, xi;
int yscale = 1;
UINT32 multiplier = division_UINT32(yscale * xscale, 8);
UINT32 amend = yscale * xscale / 2;
if (imIn->image8) {
} else {
switch(imIn->type) {
case IMAGING_TYPE_UINT8:
for (y = 0; y < imIn->ysize / yscale; y++) {
UINT8 *line = (UINT8 *)imIn->image[y];
if (imIn->bands == 2) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
UINT32 ss0 = amend, ss3 = amend;
for (xi = 0; xi < xscale - 1; xi += 2) {
xx = x*xscale + xi;
ss0 += line[xx*4 + 0] + line[xx*4 + 4];
ss3 += line[xx*4 + 3] + line[xx*4 + 7];
}
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if (xscale & 0x01) {
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xx = x*xscale + xi;
ss0 += line[xx*4 + 0];
ss3 += line[xx*4 + 3];
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, 0,
0, (ss3 * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else if (imIn->bands == 3) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
UINT32 ss0 = amend, ss1 = amend, ss2 = amend;
for (xi = 0; xi < xscale - 1; xi += 2) {
xx = x*xscale + xi;
ss0 += line[xx*4 + 0] + line[xx*4 + 4];
ss1 += line[xx*4 + 1] + line[xx*4 + 5];
ss2 += line[xx*4 + 2] + line[xx*4 + 6];
}
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if (xscale & 0x01) {
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xx = x*xscale + xi;
ss0 += line[xx*4 + 0];
ss1 += line[xx*4 + 1];
ss2 += line[xx*4 + 2];
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24,
(ss2 * multiplier) >> 24, 0);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else { // bands == 4
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend;
for (xi = 0; xi < xscale - 1; xi += 2) {
xx = x*xscale + xi;
ss0 += line[xx*4 + 0] + line[xx*4 + 4];
ss1 += line[xx*4 + 1] + line[xx*4 + 5];
ss2 += line[xx*4 + 2] + line[xx*4 + 6];
ss3 += line[xx*4 + 3] + line[xx*4 + 7];
}
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if (xscale & 0x01) {
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xx = x*xscale + xi;
ss0 += line[xx*4 + 0];
ss1 += line[xx*4 + 1];
ss2 += line[xx*4 + 2];
ss3 += line[xx*4 + 3];
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24,
(ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
}
}
break;
case IMAGING_TYPE_INT32:
break;
case IMAGING_TYPE_FLOAT32:
break;
}
}
}
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void
ImagingReduce2x2(Imaging imOut, Imaging imIn)
{
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/* Optimized implementation for xscale = 2 and yscale = 2.
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*/
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int xscale = 2, yscale = 2;
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int x, y;
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UINT32 ss0, ss1, ss2, ss3;
UINT32 amend = yscale * xscale / 2;
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if (imIn->image8) {
} else {
switch(imIn->type) {
case IMAGING_TYPE_UINT8:
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for (y = 0; y < imIn->ysize / yscale; y++) {
UINT8 *line0 = (UINT8 *)imIn->image[y*yscale + 0];
UINT8 *line1 = (UINT8 *)imIn->image[y*yscale + 1];
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if (imIn->bands == 2) {
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for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4];
ss3 = line0[x*xscale*4 + 3] + line0[x*xscale*4 + 7] +
line1[x*xscale*4 + 3] + line1[x*xscale*4 + 7];
v = MAKE_UINT32((ss0 + amend) >> 2, 0,
0, (ss3 + amend) >> 2);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else if (imIn->bands == 3) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4];
ss1 = line0[x*xscale*4 + 1] + line0[x*xscale*4 + 5] +
line1[x*xscale*4 + 1] + line1[x*xscale*4 + 5];
ss2 = line0[x*xscale*4 + 2] + line0[x*xscale*4 + 6] +
line1[x*xscale*4 + 2] + line1[x*xscale*4 + 6];
v = MAKE_UINT32((ss0 + amend) >> 2, (ss1 + amend) >> 2,
(ss2 + amend) >> 2, 0);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else { // bands == 4
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4];
ss1 = line0[x*xscale*4 + 1] + line0[x*xscale*4 + 5] +
line1[x*xscale*4 + 1] + line1[x*xscale*4 + 5];
ss2 = line0[x*xscale*4 + 2] + line0[x*xscale*4 + 6] +
line1[x*xscale*4 + 2] + line1[x*xscale*4 + 6];
ss3 = line0[x*xscale*4 + 3] + line0[x*xscale*4 + 7] +
line1[x*xscale*4 + 3] + line1[x*xscale*4 + 7];
v = MAKE_UINT32((ss0 + amend) >> 2, (ss1 + amend) >> 2,
(ss2 + amend) >> 2, (ss3 + amend) >> 2);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
}
}
break;
case IMAGING_TYPE_INT32:
break;
case IMAGING_TYPE_FLOAT32:
break;
}
}
}
void
ImagingReduce3x3(Imaging imOut, Imaging imIn)
{
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/* Optimized implementation for xscale = 3 and yscale = 3.
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*/
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int xscale = 3, yscale = 3;
int x, y;
UINT32 ss0, ss1, ss2, ss3;
UINT32 multiplier = division_UINT32(yscale * xscale, 8);
UINT32 amend = yscale * xscale / 2;
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if (imIn->image8) {
} else {
switch(imIn->type) {
case IMAGING_TYPE_UINT8:
for (y = 0; y < imIn->ysize / yscale; y++) {
UINT8 *line0 = (UINT8 *)imIn->image[y*yscale + 0];
UINT8 *line1 = (UINT8 *)imIn->image[y*yscale + 1];
UINT8 *line2 = (UINT8 *)imIn->image[y*yscale + 2];
if (imIn->bands == 2) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] + line0[x*xscale*4 + 8] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4] + line1[x*xscale*4 + 8] +
line2[x*xscale*4 + 0] + line2[x*xscale*4 + 4] + line2[x*xscale*4 + 8];
ss3 = line0[x*xscale*4 + 3] + line0[x*xscale*4 + 7] + line0[x*xscale*4 + 11] +
line1[x*xscale*4 + 3] + line1[x*xscale*4 + 7] + line1[x*xscale*4 + 11] +
line2[x*xscale*4 + 3] + line2[x*xscale*4 + 7] + line2[x*xscale*4 + 11];
v = MAKE_UINT32(
((ss0 + amend) * multiplier) >> 24, 0,
0, ((ss3 + amend) * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
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} else if (imIn->bands == 3) {
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for (x = 0; x < imIn->xsize / xscale; x++) {
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UINT32 v;
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ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] + line0[x*xscale*4 + 8] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4] + line1[x*xscale*4 + 8] +
line2[x*xscale*4 + 0] + line2[x*xscale*4 + 4] + line2[x*xscale*4 + 8];
ss1 = line0[x*xscale*4 + 1] + line0[x*xscale*4 + 5] + line0[x*xscale*4 + 9] +
line1[x*xscale*4 + 1] + line1[x*xscale*4 + 5] + line1[x*xscale*4 + 9] +
line2[x*xscale*4 + 1] + line2[x*xscale*4 + 5] + line2[x*xscale*4 + 9];
ss2 = line0[x*xscale*4 + 2] + line0[x*xscale*4 + 6] + line0[x*xscale*4 + 10] +
line1[x*xscale*4 + 2] + line1[x*xscale*4 + 6] + line1[x*xscale*4 + 10] +
line2[x*xscale*4 + 2] + line2[x*xscale*4 + 6] + line2[x*xscale*4 + 10];
v = MAKE_UINT32(
((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24,
((ss2 + amend) * multiplier) >> 24, 0);
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memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else { // bands == 4
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for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] + line0[x*xscale*4 + 8] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4] + line1[x*xscale*4 + 8] +
line2[x*xscale*4 + 0] + line2[x*xscale*4 + 4] + line2[x*xscale*4 + 8];
ss1 = line0[x*xscale*4 + 1] + line0[x*xscale*4 + 5] + line0[x*xscale*4 + 9] +
line1[x*xscale*4 + 1] + line1[x*xscale*4 + 5] + line1[x*xscale*4 + 9] +
line2[x*xscale*4 + 1] + line2[x*xscale*4 + 5] + line2[x*xscale*4 + 9];
ss2 = line0[x*xscale*4 + 2] + line0[x*xscale*4 + 6] + line0[x*xscale*4 + 10] +
line1[x*xscale*4 + 2] + line1[x*xscale*4 + 6] + line1[x*xscale*4 + 10] +
line2[x*xscale*4 + 2] + line2[x*xscale*4 + 6] + line2[x*xscale*4 + 10];
ss3 = line0[x*xscale*4 + 3] + line0[x*xscale*4 + 7] + line0[x*xscale*4 + 11] +
line1[x*xscale*4 + 3] + line1[x*xscale*4 + 7] + line1[x*xscale*4 + 11] +
line2[x*xscale*4 + 3] + line2[x*xscale*4 + 7] + line2[x*xscale*4 + 11];
v = MAKE_UINT32(
((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24,
((ss2 + amend) * multiplier) >> 24, ((ss3 + amend) * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
}
}
break;
case IMAGING_TYPE_INT32:
break;
case IMAGING_TYPE_FLOAT32:
break;
}
}
}
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void
ImagingReduce4x4(Imaging imOut, Imaging imIn)
{
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/* Optimized implementation for xscale = 4 and yscale = 4.
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*/
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int xscale = 4, yscale = 4;
int x, y;
UINT32 ss0, ss1, ss2, ss3;
UINT32 amend = yscale * xscale / 2;
if (imIn->image8) {
} else {
switch(imIn->type) {
case IMAGING_TYPE_UINT8:
for (y = 0; y < imIn->ysize / yscale; y++) {
UINT8 *line0 = (UINT8 *)imIn->image[y*yscale + 0];
UINT8 *line1 = (UINT8 *)imIn->image[y*yscale + 1];
UINT8 *line2 = (UINT8 *)imIn->image[y*yscale + 2];
UINT8 *line3 = (UINT8 *)imIn->image[y*yscale + 3];
if (imIn->bands == 2) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] + line0[x*xscale*4 + 8] + line0[x*xscale*4 + 12] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4] + line1[x*xscale*4 + 8] + line1[x*xscale*4 + 12] +
line2[x*xscale*4 + 0] + line2[x*xscale*4 + 4] + line2[x*xscale*4 + 8] + line2[x*xscale*4 + 12] +
line3[x*xscale*4 + 0] + line3[x*xscale*4 + 4] + line3[x*xscale*4 + 8] + line3[x*xscale*4 + 12];
ss3 = line0[x*xscale*4 + 3] + line0[x*xscale*4 + 7] + line0[x*xscale*4 + 11] + line0[x*xscale*4 + 15] +
line1[x*xscale*4 + 3] + line1[x*xscale*4 + 7] + line1[x*xscale*4 + 11] + line1[x*xscale*4 + 15] +
line2[x*xscale*4 + 3] + line2[x*xscale*4 + 7] + line2[x*xscale*4 + 11] + line2[x*xscale*4 + 15] +
line3[x*xscale*4 + 3] + line3[x*xscale*4 + 7] + line3[x*xscale*4 + 11] + line3[x*xscale*4 + 15];
v = MAKE_UINT32((ss0 + amend) >> 4, 0,
0, (ss3 + amend) >> 4);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else if (imIn->bands == 3) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] + line0[x*xscale*4 + 8] + line0[x*xscale*4 + 12] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4] + line1[x*xscale*4 + 8] + line1[x*xscale*4 + 12] +
line2[x*xscale*4 + 0] + line2[x*xscale*4 + 4] + line2[x*xscale*4 + 8] + line2[x*xscale*4 + 12] +
line3[x*xscale*4 + 0] + line3[x*xscale*4 + 4] + line3[x*xscale*4 + 8] + line3[x*xscale*4 + 12];
ss1 = line0[x*xscale*4 + 1] + line0[x*xscale*4 + 5] + line0[x*xscale*4 + 9] + line0[x*xscale*4 + 13] +
line1[x*xscale*4 + 1] + line1[x*xscale*4 + 5] + line1[x*xscale*4 + 9] + line1[x*xscale*4 + 13] +
line2[x*xscale*4 + 1] + line2[x*xscale*4 + 5] + line2[x*xscale*4 + 9] + line2[x*xscale*4 + 13] +
line3[x*xscale*4 + 1] + line3[x*xscale*4 + 5] + line3[x*xscale*4 + 9] + line3[x*xscale*4 + 13];
ss2 = line0[x*xscale*4 + 2] + line0[x*xscale*4 + 6] + line0[x*xscale*4 + 10] + line0[x*xscale*4 + 14] +
line1[x*xscale*4 + 2] + line1[x*xscale*4 + 6] + line1[x*xscale*4 + 10] + line1[x*xscale*4 + 14] +
line2[x*xscale*4 + 2] + line2[x*xscale*4 + 6] + line2[x*xscale*4 + 10] + line2[x*xscale*4 + 14] +
line3[x*xscale*4 + 2] + line3[x*xscale*4 + 6] + line3[x*xscale*4 + 10] + line3[x*xscale*4 + 14];
v = MAKE_UINT32((ss0 + amend) >> 4, (ss1 + amend) >> 4,
(ss2 + amend) >> 4, 0);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else { // bands == 4
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] + line0[x*xscale*4 + 8] + line0[x*xscale*4 + 12] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4] + line1[x*xscale*4 + 8] + line1[x*xscale*4 + 12] +
line2[x*xscale*4 + 0] + line2[x*xscale*4 + 4] + line2[x*xscale*4 + 8] + line2[x*xscale*4 + 12] +
line3[x*xscale*4 + 0] + line3[x*xscale*4 + 4] + line3[x*xscale*4 + 8] + line3[x*xscale*4 + 12];
ss1 = line0[x*xscale*4 + 1] + line0[x*xscale*4 + 5] + line0[x*xscale*4 + 9] + line0[x*xscale*4 + 13] +
line1[x*xscale*4 + 1] + line1[x*xscale*4 + 5] + line1[x*xscale*4 + 9] + line1[x*xscale*4 + 13] +
line2[x*xscale*4 + 1] + line2[x*xscale*4 + 5] + line2[x*xscale*4 + 9] + line2[x*xscale*4 + 13] +
line3[x*xscale*4 + 1] + line3[x*xscale*4 + 5] + line3[x*xscale*4 + 9] + line3[x*xscale*4 + 13];
ss2 = line0[x*xscale*4 + 2] + line0[x*xscale*4 + 6] + line0[x*xscale*4 + 10] + line0[x*xscale*4 + 14] +
line1[x*xscale*4 + 2] + line1[x*xscale*4 + 6] + line1[x*xscale*4 + 10] + line1[x*xscale*4 + 14] +
line2[x*xscale*4 + 2] + line2[x*xscale*4 + 6] + line2[x*xscale*4 + 10] + line2[x*xscale*4 + 14] +
line3[x*xscale*4 + 2] + line3[x*xscale*4 + 6] + line3[x*xscale*4 + 10] + line3[x*xscale*4 + 14];
ss3 = line0[x*xscale*4 + 3] + line0[x*xscale*4 + 7] + line0[x*xscale*4 + 11] + line0[x*xscale*4 + 15] +
line1[x*xscale*4 + 3] + line1[x*xscale*4 + 7] + line1[x*xscale*4 + 11] + line1[x*xscale*4 + 15] +
line2[x*xscale*4 + 3] + line2[x*xscale*4 + 7] + line2[x*xscale*4 + 11] + line2[x*xscale*4 + 15] +
line3[x*xscale*4 + 3] + line3[x*xscale*4 + 7] + line3[x*xscale*4 + 11] + line3[x*xscale*4 + 15];
v = MAKE_UINT32((ss0 + amend) >> 4, (ss1 + amend) >> 4,
(ss2 + amend) >> 4, (ss3 + amend) >> 4);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
}
}
break;
case IMAGING_TYPE_INT32:
break;
case IMAGING_TYPE_FLOAT32:
break;
}
}
}
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void
ImagingReduce5x5(Imaging imOut, Imaging imIn)
{
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/* Fast special case for xscale = 5 and yscale = 5.
*/
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int xscale = 5, yscale = 5;
int x, y;
UINT32 ss0, ss1, ss2, ss3;
UINT32 multiplier = division_UINT32(yscale * xscale, 8);
UINT32 amend = yscale * xscale / 2;
if (imIn->image8) {
} else {
switch(imIn->type) {
case IMAGING_TYPE_UINT8:
for (y = 0; y < imIn->ysize / yscale; y++) {
UINT8 *line0 = (UINT8 *)imIn->image[y*yscale + 0];
UINT8 *line1 = (UINT8 *)imIn->image[y*yscale + 1];
UINT8 *line2 = (UINT8 *)imIn->image[y*yscale + 2];
UINT8 *line3 = (UINT8 *)imIn->image[y*yscale + 3];
UINT8 *line4 = (UINT8 *)imIn->image[y*yscale + 4];
if (imIn->bands == 2) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] + line0[x*xscale*4 + 8] + line0[x*xscale*4 + 12] + line0[x*xscale*4 + 16] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4] + line1[x*xscale*4 + 8] + line1[x*xscale*4 + 12] + line1[x*xscale*4 + 16] +
line2[x*xscale*4 + 0] + line2[x*xscale*4 + 4] + line2[x*xscale*4 + 8] + line2[x*xscale*4 + 12] + line2[x*xscale*4 + 16] +
line3[x*xscale*4 + 0] + line3[x*xscale*4 + 4] + line3[x*xscale*4 + 8] + line3[x*xscale*4 + 12] + line3[x*xscale*4 + 16] +
line4[x*xscale*4 + 0] + line4[x*xscale*4 + 4] + line4[x*xscale*4 + 8] + line4[x*xscale*4 + 12] + line4[x*xscale*4 + 16];
ss3 = line0[x*xscale*4 + 3] + line0[x*xscale*4 + 7] + line0[x*xscale*4 + 11] + line0[x*xscale*4 + 15] + line0[x*xscale*4 + 19] +
line1[x*xscale*4 + 3] + line1[x*xscale*4 + 7] + line1[x*xscale*4 + 11] + line1[x*xscale*4 + 15] + line1[x*xscale*4 + 19] +
line2[x*xscale*4 + 3] + line2[x*xscale*4 + 7] + line2[x*xscale*4 + 11] + line2[x*xscale*4 + 15] + line2[x*xscale*4 + 19] +
line3[x*xscale*4 + 3] + line3[x*xscale*4 + 7] + line3[x*xscale*4 + 11] + line3[x*xscale*4 + 15] + line3[x*xscale*4 + 19] +
line4[x*xscale*4 + 3] + line4[x*xscale*4 + 7] + line4[x*xscale*4 + 11] + line4[x*xscale*4 + 15] + line4[x*xscale*4 + 19];
v = MAKE_UINT32(
((ss0 + amend) * multiplier) >> 24, 0,
0, ((ss3 + amend) * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else if (imIn->bands == 3) {
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] + line0[x*xscale*4 + 8] + line0[x*xscale*4 + 12] + line0[x*xscale*4 + 16] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4] + line1[x*xscale*4 + 8] + line1[x*xscale*4 + 12] + line1[x*xscale*4 + 16] +
line2[x*xscale*4 + 0] + line2[x*xscale*4 + 4] + line2[x*xscale*4 + 8] + line2[x*xscale*4 + 12] + line2[x*xscale*4 + 16] +
line3[x*xscale*4 + 0] + line3[x*xscale*4 + 4] + line3[x*xscale*4 + 8] + line3[x*xscale*4 + 12] + line3[x*xscale*4 + 16] +
line4[x*xscale*4 + 0] + line4[x*xscale*4 + 4] + line4[x*xscale*4 + 8] + line4[x*xscale*4 + 12] + line4[x*xscale*4 + 16];
ss1 = line0[x*xscale*4 + 1] + line0[x*xscale*4 + 5] + line0[x*xscale*4 + 9] + line0[x*xscale*4 + 13] + line0[x*xscale*4 + 17] +
line1[x*xscale*4 + 1] + line1[x*xscale*4 + 5] + line1[x*xscale*4 + 9] + line1[x*xscale*4 + 13] + line1[x*xscale*4 + 17] +
line2[x*xscale*4 + 1] + line2[x*xscale*4 + 5] + line2[x*xscale*4 + 9] + line2[x*xscale*4 + 13] + line2[x*xscale*4 + 17] +
line3[x*xscale*4 + 1] + line3[x*xscale*4 + 5] + line3[x*xscale*4 + 9] + line3[x*xscale*4 + 13] + line3[x*xscale*4 + 17] +
line4[x*xscale*4 + 1] + line4[x*xscale*4 + 5] + line4[x*xscale*4 + 9] + line4[x*xscale*4 + 13] + line4[x*xscale*4 + 17];
ss2 = line0[x*xscale*4 + 2] + line0[x*xscale*4 + 6] + line0[x*xscale*4 + 10] + line0[x*xscale*4 + 14] + line0[x*xscale*4 + 18] +
line1[x*xscale*4 + 2] + line1[x*xscale*4 + 6] + line1[x*xscale*4 + 10] + line1[x*xscale*4 + 14] + line1[x*xscale*4 + 18] +
line2[x*xscale*4 + 2] + line2[x*xscale*4 + 6] + line2[x*xscale*4 + 10] + line2[x*xscale*4 + 14] + line2[x*xscale*4 + 18] +
line3[x*xscale*4 + 2] + line3[x*xscale*4 + 6] + line3[x*xscale*4 + 10] + line3[x*xscale*4 + 14] + line3[x*xscale*4 + 18] +
line4[x*xscale*4 + 2] + line4[x*xscale*4 + 6] + line4[x*xscale*4 + 10] + line4[x*xscale*4 + 14] + line4[x*xscale*4 + 18];
v = MAKE_UINT32(
((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24,
((ss2 + amend) * multiplier) >> 24, 0);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
} else { // bands == 4
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
ss0 = line0[x*xscale*4 + 0] + line0[x*xscale*4 + 4] + line0[x*xscale*4 + 8] + line0[x*xscale*4 + 12] + line0[x*xscale*4 + 16] +
line1[x*xscale*4 + 0] + line1[x*xscale*4 + 4] + line1[x*xscale*4 + 8] + line1[x*xscale*4 + 12] + line1[x*xscale*4 + 16] +
line2[x*xscale*4 + 0] + line2[x*xscale*4 + 4] + line2[x*xscale*4 + 8] + line2[x*xscale*4 + 12] + line2[x*xscale*4 + 16] +
line3[x*xscale*4 + 0] + line3[x*xscale*4 + 4] + line3[x*xscale*4 + 8] + line3[x*xscale*4 + 12] + line3[x*xscale*4 + 16] +
line4[x*xscale*4 + 0] + line4[x*xscale*4 + 4] + line4[x*xscale*4 + 8] + line4[x*xscale*4 + 12] + line4[x*xscale*4 + 16];
ss1 = line0[x*xscale*4 + 1] + line0[x*xscale*4 + 5] + line0[x*xscale*4 + 9] + line0[x*xscale*4 + 13] + line0[x*xscale*4 + 17] +
line1[x*xscale*4 + 1] + line1[x*xscale*4 + 5] + line1[x*xscale*4 + 9] + line1[x*xscale*4 + 13] + line1[x*xscale*4 + 17] +
line2[x*xscale*4 + 1] + line2[x*xscale*4 + 5] + line2[x*xscale*4 + 9] + line2[x*xscale*4 + 13] + line2[x*xscale*4 + 17] +
line3[x*xscale*4 + 1] + line3[x*xscale*4 + 5] + line3[x*xscale*4 + 9] + line3[x*xscale*4 + 13] + line3[x*xscale*4 + 17] +
line4[x*xscale*4 + 1] + line4[x*xscale*4 + 5] + line4[x*xscale*4 + 9] + line4[x*xscale*4 + 13] + line4[x*xscale*4 + 17];
ss2 = line0[x*xscale*4 + 2] + line0[x*xscale*4 + 6] + line0[x*xscale*4 + 10] + line0[x*xscale*4 + 14] + line0[x*xscale*4 + 18] +
line1[x*xscale*4 + 2] + line1[x*xscale*4 + 6] + line1[x*xscale*4 + 10] + line1[x*xscale*4 + 14] + line1[x*xscale*4 + 18] +
line2[x*xscale*4 + 2] + line2[x*xscale*4 + 6] + line2[x*xscale*4 + 10] + line2[x*xscale*4 + 14] + line2[x*xscale*4 + 18] +
line3[x*xscale*4 + 2] + line3[x*xscale*4 + 6] + line3[x*xscale*4 + 10] + line3[x*xscale*4 + 14] + line3[x*xscale*4 + 18] +
line4[x*xscale*4 + 2] + line4[x*xscale*4 + 6] + line4[x*xscale*4 + 10] + line4[x*xscale*4 + 14] + line4[x*xscale*4 + 18];
ss3 = line0[x*xscale*4 + 3] + line0[x*xscale*4 + 7] + line0[x*xscale*4 + 11] + line0[x*xscale*4 + 15] + line0[x*xscale*4 + 19] +
line1[x*xscale*4 + 3] + line1[x*xscale*4 + 7] + line1[x*xscale*4 + 11] + line1[x*xscale*4 + 15] + line1[x*xscale*4 + 19] +
line2[x*xscale*4 + 3] + line2[x*xscale*4 + 7] + line2[x*xscale*4 + 11] + line2[x*xscale*4 + 15] + line2[x*xscale*4 + 19] +
line3[x*xscale*4 + 3] + line3[x*xscale*4 + 7] + line3[x*xscale*4 + 11] + line3[x*xscale*4 + 15] + line3[x*xscale*4 + 19] +
line4[x*xscale*4 + 3] + line4[x*xscale*4 + 7] + line4[x*xscale*4 + 11] + line4[x*xscale*4 + 15] + line4[x*xscale*4 + 19];
v = MAKE_UINT32(
((ss0 + amend) * multiplier) >> 24, ((ss1 + amend) * multiplier) >> 24,
((ss2 + amend) * multiplier) >> 24, ((ss3 + amend) * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
}
}
break;
case IMAGING_TYPE_INT32:
break;
case IMAGING_TYPE_FLOAT32:
break;
}
}
}
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void
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ImagingReduceCorners(Imaging imOut, Imaging imIn, int xscale, int yscale)
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{
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/* Fill the last row and the last column for any xscale and yscale.
*/
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int x, y, xx, yy;
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if (imIn->image8) {
} else {
switch(imIn->type) {
case IMAGING_TYPE_UINT8:
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if (imIn->xsize % xscale) {
int scale = (imIn->xsize % xscale) * yscale;
UINT32 multiplier = division_UINT32(scale, 8);
UINT32 amend = scale / 2;
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for (y = 0; y < imIn->ysize / yscale; y++) {
UINT32 v;
UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend;
x = imIn->xsize / xscale;
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for (yy = y*yscale; yy < y*yscale + yscale; yy++) {
UINT8 *line = (UINT8 *)imIn->image[yy];
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for (xx = x*xscale; xx < imIn->xsize; xx++) {
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ss0 += line[xx*4 + 0];
ss1 += line[xx*4 + 1];
ss2 += line[xx*4 + 2];
ss3 += line[xx*4 + 3];
}
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24,
(ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
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}
}
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if (imIn->ysize % yscale) {
int scale = xscale * (imIn->ysize % yscale);
UINT32 multiplier = division_UINT32(scale, 8);
UINT32 amend = scale / 2;
y = imIn->ysize / yscale;
for (x = 0; x < imIn->xsize / xscale; x++) {
UINT32 v;
UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend;
for (yy = y*yscale; yy < imIn->ysize; yy++) {
UINT8 *line = (UINT8 *)imIn->image[yy];
for (xx = x*xscale; xx < x*xscale + xscale; xx++) {
ss0 += line[xx*4 + 0];
ss1 += line[xx*4 + 1];
ss2 += line[xx*4 + 2];
ss3 += line[xx*4 + 3];
}
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24,
(ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
}
if (imIn->xsize % xscale && imIn->ysize % yscale) {
int scale = (imIn->xsize % xscale) * (imIn->ysize % yscale);
UINT32 multiplier = division_UINT32(scale, 8);
UINT32 amend = scale / 2;
UINT32 v;
UINT32 ss0 = amend, ss1 = amend, ss2 = amend, ss3 = amend;
x = imIn->xsize / xscale;
y = imIn->ysize / yscale;
for (yy = y*yscale; yy < imIn->ysize; yy++) {
UINT8 *line = (UINT8 *)imIn->image[yy];
for (xx = x*xscale; xx < imIn->xsize; xx++) {
ss0 += line[xx*4 + 0];
ss1 += line[xx*4 + 1];
ss2 += line[xx*4 + 2];
ss3 += line[xx*4 + 3];
}
}
v = MAKE_UINT32(
(ss0 * multiplier) >> 24, (ss1 * multiplier) >> 24,
(ss2 * multiplier) >> 24, (ss3 * multiplier) >> 24);
memcpy(imOut->image[y] + x * sizeof(v), &v, sizeof(v));
}
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break;
case IMAGING_TYPE_INT32:
break;
case IMAGING_TYPE_FLOAT32:
break;
}
}
}
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Imaging
ImagingReduce(Imaging imIn, int xscale, int yscale)
{
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ImagingSectionCookie cookie;
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Imaging imOut = NULL;
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imOut = ImagingNewDirty(imIn->mode,
(imIn->xsize + xscale - 1) / xscale,
(imIn->ysize + yscale - 1) / yscale);
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if ( ! imOut) {
return NULL;
}
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ImagingSectionEnter(&cookie);
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if (xscale == 1) {
ImagingReduce1xN(imOut, imIn, yscale);
} else if (yscale == 1) {
ImagingReduceNx1(imOut, imIn, xscale);
} else if (xscale == yscale && xscale <= 5) {
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if (xscale == 2) {
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ImagingReduce2x2(imOut, imIn);
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} else if (xscale == 3) {
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ImagingReduce3x3(imOut, imIn);
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} else if (xscale == 4) {
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ImagingReduce4x4(imOut, imIn);
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} else {
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ImagingReduce5x5(imOut, imIn);
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}
} else {
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ImagingReduceNxN(imOut, imIn, xscale, yscale);
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}
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ImagingReduceCorners(imOut, imIn, xscale, yscale);
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ImagingSectionLeave(&cookie);
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return imOut;
}