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DEFINITIONS
This source file includes following definitions.
- gdImageNegate
- gdImageGrayScale
- gdImageBrightness
- gdImageContrast
- gdImageColor
- gdImageConvolution
- gdImageSelectiveBlur
- gdImageEdgeDetectQuick
- gdImageGaussianBlur
- gdImageEmboss
- gdImageMeanRemoval
- gdImageSmooth
#if HAVE_GD_BUNDLED
# include "gd.h"
#else
# include <gd.h>
#endif
#include "gd_intern.h"
/* Filters function added on 2003/12
* by Pierre-Alain Joye (pierre@php.net)
**/
/* Begin filters function */
#define GET_PIXEL_FUNCTION(src)(src->trueColor?gdImageGetTrueColorPixel:gdImageGetPixel)
/* invert src image */
int gdImageNegate(gdImagePtr src)
{
int x, y;
int r,g,b,a;
int new_pxl, pxl;
typedef int (*FuncPtr)(gdImagePtr, int, int);
FuncPtr f;
if (src==NULL) {
return 0;
}
f = GET_PIXEL_FUNCTION(src);
for (y=0; y<src->sy; ++y) {
for (x=0; x<src->sx; ++x) {
pxl = f (src, x, y);
r = gdImageRed(src, pxl);
g = gdImageGreen(src, pxl);
b = gdImageBlue(src, pxl);
a = gdImageAlpha(src, pxl);
new_pxl = gdImageColorAllocateAlpha(src, 255-r, 255-g, 255-b, a);
if (new_pxl == -1) {
new_pxl = gdImageColorClosestAlpha(src, 255-r, 255-g, 255-b, a);
}
gdImageSetPixel (src, x, y, new_pxl);
}
}
return 1;
}
/* Convert the image src to a grayscale image */
int gdImageGrayScale(gdImagePtr src)
{
int x, y;
int r,g,b,a;
int new_pxl, pxl;
typedef int (*FuncPtr)(gdImagePtr, int, int);
FuncPtr f;
f = GET_PIXEL_FUNCTION(src);
if (src==NULL) {
return 0;
}
for (y=0; y<src->sy; ++y) {
for (x=0; x<src->sx; ++x) {
pxl = f (src, x, y);
r = gdImageRed(src, pxl);
g = gdImageGreen(src, pxl);
b = gdImageBlue(src, pxl);
a = gdImageAlpha(src, pxl);
r = g = b = (int) (.299 * r + .587 * g + .114 * b);
new_pxl = gdImageColorAllocateAlpha(src, r, g, b, a);
if (new_pxl == -1) {
new_pxl = gdImageColorClosestAlpha(src, r, g, b, a);
}
gdImageSetPixel (src, x, y, new_pxl);
}
}
return 1;
}
/* Set the brightness level <level> for the image src */
int gdImageBrightness(gdImagePtr src, int brightness)
{
int x, y;
int r,g,b,a;
int new_pxl, pxl;
typedef int (*FuncPtr)(gdImagePtr, int, int);
FuncPtr f;
f = GET_PIXEL_FUNCTION(src);
if (src==NULL || (brightness < -255 || brightness>255)) {
return 0;
}
if (brightness==0) {
return 1;
}
for (y=0; y<src->sy; ++y) {
for (x=0; x<src->sx; ++x) {
pxl = f (src, x, y);
r = gdImageRed(src, pxl);
g = gdImageGreen(src, pxl);
b = gdImageBlue(src, pxl);
a = gdImageAlpha(src, pxl);
r = r + brightness;
g = g + brightness;
b = b + brightness;
r = (r > 255)? 255 : ((r < 0)? 0:r);
g = (g > 255)? 255 : ((g < 0)? 0:g);
b = (b > 255)? 255 : ((b < 0)? 0:b);
new_pxl = gdImageColorAllocateAlpha(src, (int)r, (int)g, (int)b, a);
if (new_pxl == -1) {
new_pxl = gdImageColorClosestAlpha(src, (int)r, (int)g, (int)b, a);
}
gdImageSetPixel (src, x, y, new_pxl);
}
}
return 1;
}
int gdImageContrast(gdImagePtr src, double contrast)
{
int x, y;
int r,g,b,a;
double rf,gf,bf;
int new_pxl, pxl;
typedef int (*FuncPtr)(gdImagePtr, int, int);
FuncPtr f;
f = GET_PIXEL_FUNCTION(src);
if (src==NULL) {
return 0;
}
contrast = (double)(100.0-contrast)/100.0;
contrast = contrast*contrast;
for (y=0; y<src->sy; ++y) {
for (x=0; x<src->sx; ++x) {
pxl = f(src, x, y);
r = gdImageRed(src, pxl);
g = gdImageGreen(src, pxl);
b = gdImageBlue(src, pxl);
a = gdImageAlpha(src, pxl);
rf = (double)r/255.0;
rf = rf-0.5;
rf = rf*contrast;
rf = rf+0.5;
rf = rf*255.0;
bf = (double)b/255.0;
bf = bf-0.5;
bf = bf*contrast;
bf = bf+0.5;
bf = bf*255.0;
gf = (double)g/255.0;
gf = gf-0.5;
gf = gf*contrast;
gf = gf+0.5;
gf = gf*255.0;
rf = (rf > 255.0)? 255.0 : ((rf < 0.0)? 0.0:rf);
gf = (gf > 255.0)? 255.0 : ((gf < 0.0)? 0.0:gf);
bf = (bf > 255.0)? 255.0 : ((bf < 0.0)? 0.0:bf);
new_pxl = gdImageColorAllocateAlpha(src, (int)rf, (int)gf, (int)bf, a);
if (new_pxl == -1) {
new_pxl = gdImageColorClosestAlpha(src, (int)rf, (int)gf, (int)bf, a);
}
gdImageSetPixel (src, x, y, new_pxl);
}
}
return 1;
}
int gdImageColor(gdImagePtr src, const int red, const int green, const int blue, const int alpha)
{
int x, y;
int new_pxl, pxl;
typedef int (*FuncPtr)(gdImagePtr, int, int);
FuncPtr f;
if (src == NULL) {
return 0;
}
f = GET_PIXEL_FUNCTION(src);
for (y=0; y<src->sy; ++y) {
for (x=0; x<src->sx; ++x) {
int r,g,b,a;
pxl = f(src, x, y);
r = gdImageRed(src, pxl);
g = gdImageGreen(src, pxl);
b = gdImageBlue(src, pxl);
a = gdImageAlpha(src, pxl);
r = r + red;
g = g + green;
b = b + blue;
a = a + alpha;
r = (r > 255)? 255 : ((r < 0)? 0 : r);
g = (g > 255)? 255 : ((g < 0)? 0 : g);
b = (b > 255)? 255 : ((b < 0)? 0 : b);
a = (a > 127)? 127 : ((a < 0)? 0 : a);
new_pxl = gdImageColorAllocateAlpha(src, r, g, b, a);
if (new_pxl == -1) {
new_pxl = gdImageColorClosestAlpha(src, r, g, b, a);
}
gdImageSetPixel (src, x, y, new_pxl);
}
}
return 1;
}
int gdImageConvolution(gdImagePtr src, float filter[3][3], float filter_div, float offset)
{
int x, y, i, j, new_a;
float new_r, new_g, new_b;
int new_pxl, pxl=0;
gdImagePtr srcback;
typedef int (*FuncPtr)(gdImagePtr, int, int);
FuncPtr f;
if (src==NULL) {
return 0;
}
/* We need the orinal image with each safe neoghb. pixel */
srcback = gdImageCreateTrueColor (src->sx, src->sy);
if (srcback==NULL) {
return 0;
}
gdImageSaveAlpha(srcback, 1);
new_pxl = gdImageColorAllocateAlpha(srcback, 0, 0, 0, 127);
gdImageFill(srcback, 0, 0, new_pxl);
gdImageCopy(srcback, src,0,0,0,0,src->sx,src->sy);
f = GET_PIXEL_FUNCTION(src);
for ( y=0; y<src->sy; y++) {
for(x=0; x<src->sx; x++) {
new_r = new_g = new_b = 0;
new_a = gdImageAlpha(srcback, pxl);
for (j=0; j<3; j++) {
int yv = MIN(MAX(y - 1 + j, 0), src->sy - 1);
for (i=0; i<3; i++) {
pxl = f(srcback, MIN(MAX(x - 1 + i, 0), src->sx - 1), yv);
new_r += (float)gdImageRed(srcback, pxl) * filter[j][i];
new_g += (float)gdImageGreen(srcback, pxl) * filter[j][i];
new_b += (float)gdImageBlue(srcback, pxl) * filter[j][i];
}
}
new_r = (new_r/filter_div)+offset;
new_g = (new_g/filter_div)+offset;
new_b = (new_b/filter_div)+offset;
new_r = (new_r > 255.0f)? 255.0f : ((new_r < 0.0f)? 0.0f:new_r);
new_g = (new_g > 255.0f)? 255.0f : ((new_g < 0.0f)? 0.0f:new_g);
new_b = (new_b > 255.0f)? 255.0f : ((new_b < 0.0f)? 0.0f:new_b);
new_pxl = gdImageColorAllocateAlpha(src, (int)new_r, (int)new_g, (int)new_b, new_a);
if (new_pxl == -1) {
new_pxl = gdImageColorClosestAlpha(src, (int)new_r, (int)new_g, (int)new_b, new_a);
}
gdImageSetPixel (src, x, y, new_pxl);
}
}
gdImageDestroy(srcback);
return 1;
}
int gdImageSelectiveBlur( gdImagePtr src)
{
int x, y, i, j;
float new_r, new_g, new_b;
int new_pxl, cpxl, pxl, new_a=0;
float flt_r [3][3];
float flt_g [3][3];
float flt_b [3][3];
float flt_r_sum, flt_g_sum, flt_b_sum;
gdImagePtr srcback;
typedef int (*FuncPtr)(gdImagePtr, int, int);
FuncPtr f;
if (src==NULL) {
return 0;
}
/* We need the orinal image with each safe neoghb. pixel */
srcback = gdImageCreateTrueColor (src->sx, src->sy);
if (srcback==NULL) {
return 0;
}
gdImageCopy(srcback, src,0,0,0,0,src->sx,src->sy);
f = GET_PIXEL_FUNCTION(src);
for(y = 0; y<src->sy; y++) {
for (x=0; x<src->sx; x++) {
flt_r_sum = flt_g_sum = flt_b_sum = 0.0;
cpxl = f(src, x, y);
for (j=0; j<3; j++) {
for (i=0; i<3; i++) {
if ((j == 1) && (i == 1)) {
flt_r[1][1] = flt_g[1][1] = flt_b[1][1] = 0.5;
} else {
pxl = f(src, x-(3>>1)+i, y-(3>>1)+j);
new_a = gdImageAlpha(srcback, pxl);
new_r = ((float)gdImageRed(srcback, cpxl)) - ((float)gdImageRed (srcback, pxl));
if (new_r < 0.0f) {
new_r = -new_r;
}
if (new_r != 0) {
flt_r[j][i] = 1.0f/new_r;
} else {
flt_r[j][i] = 1.0f;
}
new_g = ((float)gdImageGreen(srcback, cpxl)) - ((float)gdImageGreen(srcback, pxl));
if (new_g < 0.0f) {
new_g = -new_g;
}
if (new_g != 0) {
flt_g[j][i] = 1.0f/new_g;
} else {
flt_g[j][i] = 1.0f;
}
new_b = ((float)gdImageBlue(srcback, cpxl)) - ((float)gdImageBlue(srcback, pxl));
if (new_b < 0.0f) {
new_b = -new_b;
}
if (new_b != 0) {
flt_b[j][i] = 1.0f/new_b;
} else {
flt_b[j][i] = 1.0f;
}
}
flt_r_sum += flt_r[j][i];
flt_g_sum += flt_g[j][i];
flt_b_sum += flt_b [j][i];
}
}
for (j=0; j<3; j++) {
for (i=0; i<3; i++) {
if (flt_r_sum != 0.0) {
flt_r[j][i] /= flt_r_sum;
}
if (flt_g_sum != 0.0) {
flt_g[j][i] /= flt_g_sum;
}
if (flt_b_sum != 0.0) {
flt_b [j][i] /= flt_b_sum;
}
}
}
new_r = new_g = new_b = 0.0;
for (j=0; j<3; j++) {
for (i=0; i<3; i++) {
pxl = f(src, x-(3>>1)+i, y-(3>>1)+j);
new_r += (float)gdImageRed(srcback, pxl) * flt_r[j][i];
new_g += (float)gdImageGreen(srcback, pxl) * flt_g[j][i];
new_b += (float)gdImageBlue(srcback, pxl) * flt_b[j][i];
}
}
new_r = (new_r > 255.0f)? 255.0f : ((new_r < 0.0f)? 0.0f:new_r);
new_g = (new_g > 255.0f)? 255.0f : ((new_g < 0.0f)? 0.0f:new_g);
new_b = (new_b > 255.0f)? 255.0f : ((new_b < 0.0f)? 0.0f:new_b);
new_pxl = gdImageColorAllocateAlpha(src, (int)new_r, (int)new_g, (int)new_b, new_a);
if (new_pxl == -1) {
new_pxl = gdImageColorClosestAlpha(src, (int)new_r, (int)new_g, (int)new_b, new_a);
}
gdImageSetPixel (src, x, y, new_pxl);
}
}
gdImageDestroy(srcback);
return 1;
}
int gdImageEdgeDetectQuick(gdImagePtr src)
{
float filter[3][3] = {{-1.0,0.0,-1.0},
{0.0,4.0,0.0},
{-1.0,0.0,-1.0}};
return gdImageConvolution(src, filter, 1, 127);
}
int gdImageGaussianBlur(gdImagePtr im)
{
float filter[3][3] = {{1.0,2.0,1.0},
{2.0,4.0,2.0},
{1.0,2.0,1.0}};
return gdImageConvolution(im, filter, 16, 0);
}
int gdImageEmboss(gdImagePtr im)
{
/*
float filter[3][3] = {{1.0,1.0,1.0},
{0.0,0.0,0.0},
{-1.0,-1.0,-1.0}};
*/
float filter[3][3] = {{ 1.5, 0.0, 0.0},
{ 0.0, 0.0, 0.0},
{ 0.0, 0.0,-1.5}};
return gdImageConvolution(im, filter, 1, 127);
}
int gdImageMeanRemoval(gdImagePtr im)
{
float filter[3][3] = {{-1.0,-1.0,-1.0},
{-1.0,9.0,-1.0},
{-1.0,-1.0,-1.0}};
return gdImageConvolution(im, filter, 1, 0);
}
int gdImageSmooth(gdImagePtr im, float weight)
{
float filter[3][3] = {{1.0,1.0,1.0},
{1.0,0.0,1.0},
{1.0,1.0,1.0}};
filter[1][1] = weight;
return gdImageConvolution(im, filter, weight+8, 0);
}
/* End filters function */