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I have a opengl es 2.0 application for android. Everything in it is working as expected. I get about 40fps when I view the objects from far and of course the objects look smaller. When I come closer to the objects they get bigger and cover the screen. When I go even close they get even big and go beyond the visible view port.

This is as expected. But I observed a strange behavior. When I come closer to objects they frames per second drops significantly. I drops from 40 fps to even less than 15 fps. And when I move further it comes back to 40fps from 15 fps.

I really do not understand what is causing this as i am rendering the same objects, same texture and same transformation.

I have tried generating mipmaps for textures. But still i have the frames drop drastically.

Please let me know your ideas on this. I would like to get higher fps even when i am looking at the objects from close.


As @Christian Rau pointed, the Fragment shader was the bottle neck for me. I have added both of my shaders. Can some one help me improve on it.

The extra work i am doing in my vertex shader is that, I use a texture atlas. When user wants to modify the texture of a object, I just add a offset to my texture co-ordinate to switch to a different texture image within the same texture atlas.

In my fragment shader do a color replacement. For example I am having a house with window. When user want to switch on a light in the house I use fragments to replace a current color with the new color user wants to.

protected static final String mVShader =

    "uniform mat4 uMVPMatrix;\n" +
    "uniform mat3 uNMatrix;\n" +
    "uniform mat4 uMMatrix;\n" +
    "uniform mat4 uVMatrix;\n" +
    "uniform vec3 uLightPos;\n" +
    "uniform bool uUseObjectTransform;\n" +
    "attribute vec4 aPosition;\n" +
    "attribute vec3 aNormal;\n" +
    "attribute vec2 aTextureCoord;\n" +
    "varying vec2 vTextureCoord;\n" +
    "varying vec3 N, L;\n" +
    "uniform vec2 vAddOffset;\n" +
    "uniform vec2 vMulOffset;\n" +

    "void main() {\n" +
    "   gl_Position = uMVPMatrix * aPosition;\n" +
    "   vTextureCoord = aTextureCoord;\n" +
    "   vTextureCoord[0] = (vTextureCoord[0] * vMulOffset[0]) + vAddOffset[0];\n" +
    "   vTextureCoord[1] = (vTextureCoord[1] * vMulOffset[1]) - vAddOffset[1];\n" +
    "   N = uNMatrix * aNormal;\n" +
    "   vec4 V = uMMatrix * aPosition;\n" +
    "   vec4 lightPos = uUseObjectTransform ? uMMatrix * vec4(uLightPos, 1.0) : vec4(uLightPos, 1.0);\n" +
    "   L = -;\n" +

protected static final String mFShader = 
    "precision mediump float;\n" +

    "varying vec2 vTextureCoord;\n" +
    "varying vec3 N, L;\n" +

    "uniform sampler2D uTexture0;\n" +

    "void main() {\n" +
    "   float intensity = max(0.0, dot(normalize(N), normalize(L)));\n" +
    "   gl_FragColor = texture2D(uTexture0, vTextureCoord);\n" +
    "   if(gl_FragColor.r > 0.99 && gl_FragColor.b < 0.1 && gl_FragColor.g < 0.1){\n" +
    "      gl_FragColor.r = 0.999;\n" +
    "      gl_FragColor.g = 0.0;\n" +
    "      gl_FragColor.b = 0.0;\n" +
    "      gl_FragColor.a = 1.0;\n" +
    "}\n" +
    "   gl_FragColor.rgb *= intensity ;\n" +
share|improve this question
I'm not sure but it sounds like your app is fill-limited, meaning the rasterization and fragment processing is the bottleneck. Do you use some really heavy fragment shader? –  Christian Rau Dec 21 '11 at 12:21
Thank you very much for that. I replaced it with a simple shader and things were better. I got about 10fps improvement. But I would like to know how were you able to point out that it was a bottle neck right at the fragment shader? I have edited my question to add the fragment shader. Can you help me improve it. –  Vinodtiru Dec 22 '11 at 8:16
It's just by simple exclusion. If you zoom in, then your application code doesn't really change, I guess, so you it's not the CPU that slows down things. And also when zooming in on the object, the number of processed vertices doesn't change (you still draw the same objects), so the vertex shader is also not the bottleneck. But when zooming in, the triangles get larger and cover more pixels, thus the fragment shader is executed more often. –  Christian Rau Dec 22 '11 at 13:30
What is this strange if in the fragment shader for, this doesn't make sense to me. And in the vertex shader, why don't you just use vector instructions. Just negate vAddOffset[1] on the CPU before uploading it, then you can just write vTextureCoord = aTextureCoord*vMulOffset + vAddOffset. –  Christian Rau Dec 22 '11 at 13:41
@Christian Rau. I am new to GLSL. I had a simple task of giving the particular region in my texture the color the user wanted to have at run time. So what i selected the region in my image file and painted it as dark red. And In my fragment shader I wanted to get that region and then change the color. To get the region i used this silly if condition. I didnt know other ways to highlight a particular region in the texture. Can you suggest me some options. Thank you for the simplification you gave me for the vMul and vAdd Offset. –  Vinodtiru Dec 23 '11 at 2:07

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