Hi i am trying to implement a image re-targeting algorithm using openGL ES2.0. This algorithm first uses a Sobel filter and then a image difference to check edges and then motion respectively. It then use these values to create a matrix which will determine which pixels from the image can be removed. I have so far implemented the sobel filter and the image difference using a fragment shader. Once i have the edge map and the motion map i add the two values an normalize them to between 0 and 1. Now i need to again do a sobel filter on this normalized matrix. But i don't know if i can store it back into texture memory to load it as a texture again. Or should i store these values in a matrix the same size as the image? How do i do that using GLSL? (I am a beginner to GLSL. This might be a stupid question :p)

here is the frag shader:

```
precision mediump float;
varying vec2 coordVar;
uniform sampler2D s_baseMap;
uniform sampler2D s_lightMap;
void main()
{
vec4 baseColor;
float basemono;
vec4 lightColor;
float lightmono;
float diffmap;
baseColor = texture2D( s_baseMap, coordVar );
lightColor = texture2D( s_lightMap, coordVar );
//######TEMPORAL SALIENCY MAP#########
basemono = baseColor .r * 0.299 + baseColor .g * 0.587 + baseColor .b * 0.114;
lightmono = lightColor.r * 0.299 + lightColor.g * 0.587 + lightColor.b * 0.114;
diffmap = basemono - lightmono;
//######## SPATIAL SALIENCY MAP #######
float pixelHSobel;
float pixelVSobel;
float pixel;
mat3 sobelHoriz = mat3(
0.125, 0.250, 0.125,
0.000, 0.000, 0.000,
-0.125,-0.250,-0.125);
mat3 sobelVert = mat3(
-0.125, 0, 0.125,
-0.250, 0, 0.250,
-0.125, 0, 0.125);
float stepH = 1.0/800.0;
float stepV = 1.0/600.0;
float tmp1;
float tmp2;
float tmp3;
float tmp4;
float tmp5;
float tmp6;
float tmp7;
float tmp8;
float tmp9;
// ####### Horizontal Sobel ######
tmp1 = texture2D(s_baseMap, coordVar.st + vec2(-stepH, stepV)).r * sobelHoriz[0][0];
tmp3 = texture2D(s_baseMap, coordVar.st + vec2(stepH, stepV)).r * sobelHoriz[2][0];
tmp4 = texture2D(s_baseMap, coordVar.st + vec2(-stepH, 0.0)).r * sobelHoriz[0][1];
tmp6 = texture2D(s_baseMap, coordVar.st + vec2(stepH,0.0)).r *sobelHoriz[2][1];
tmp7 = (texture2D(s_baseMap, coordVar.st + vec2(-stepH, -stepV)).r *sobelHoriz[0][2]);
tmp9 = (texture2D(s_baseMap, coordVar.st + vec2(stepH, -stepV)).r *sobelHoriz[2][2]);
pixelHSobel = tmp1+tmp3 + tmp4 + tmp6+ tmp7 + tmp9 + 0.5;
// ####### Vertical Sobel #######
tmp1 = texture2D(s_baseMap, coordVar.st + vec2(-stepH, stepV)).r * sobelVert[0][0];
tmp2 = texture2D(s_baseMap, coordVar.st + vec2(0.0, stepV)).r * sobelVert[1][0];
tmp3 = texture2D(s_baseMap, coordVar.st + vec2(stepH, stepV)).r * sobelVert[2][0];
tmp4 = texture2D(s_baseMap, coordVar.st + vec2(-stepH, 0.0)).r * sobelVert[0][1];
tmp5 = texture2D(s_baseMap, coordVar.st + vec2(0.0, 0.0)).r *sobelVert[1][1];
tmp6 = texture2D(s_baseMap, coordVar.st + vec2(stepH,0.0)).r *sobelVert[2][1];
tmp7 = (texture2D(s_baseMap, coordVar.st + vec2(-stepH, -stepV)).r *sobelVert[0][2]);
tmp8 = (texture2D(s_baseMap, coordVar.st + vec2(0.0, -stepV)).r *sobelVert[1][2]);
tmp9 = (texture2D(s_baseMap, coordVar.st + vec2(stepH, -stepV)).r *sobelVert[2][2]);
pixelVSobel = tmp1 + tmp2 + tmp3 + tmp4 + tmp5 + tmp6 + tmp7 + tmp8 + tmp9 + 0.5;
pixel = (sqrt(pixelVSobel*pixelVSobel +pixelHSobel*pixelHSobel));
if (pixel <= 0.715)
{
pixel=0.0;
}
else
{
pixel=1.0;
}
// ###########IMPORTANCE MATRIX###########
float impmap = (pixel+diffmap)/2.0;
// ########## display ######
gl_FragColor = vec4(impmap,impmap,impmap,1.0);
```

I need to now somehow run a sobel filter on the image impmap.