Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am developing a game for Android/iOS and need to optimize the rendering. The game enables the user to deform terrain so i am using a gray scale image for the terrain (value of 1 in the terrain means solid ground, and 0 means no ground) and applying a fragment shader on it (there is also a background image). This works very well with 60 fps constant, but the problem is that i also need to render a border on the terrains edge. So to do so i blur the edges when deforming and in the fragment shader i draw the border based on the terrains density/transparency (the border is a 1x64 texture).

The problem is that when rendering the border i need to do a dynamic texture read which drops the frame rate to 20. Is there any way i could optimize this? If i would replace the border texture with a uniform float array would it help or would it be the same as reading from a 2d texture?

The shader code:

 varying mediump vec2 frag_background_texcoord;
 varying mediump vec2 frag_density_texcoord;
 varying mediump vec2 frag_terrain_texcoord;

 uniform sampler2D density_texture;
 uniform sampler2D terrain_texture;
 uniform sampler2D mix_texture;
 uniform sampler2D background_texture;

 void main()
 {
    lowp vec4 background_color = texture2D(background_texture, frag_background_texcoord);
    lowp vec4 terrain_color = texture2D(terrain_texture, frag_terrain_texcoord);

    highp float density = texture2D(density_texture, frag_density_texcoord).a;

    if(density > 0.5)
    {
         lowp vec4 mix_color = texture2D(mix_texture, vec2(density, 1.0)); <- dynamic texture read (FPS drops to 20), would replacing this with a uniform float array help (would also need to calculate the index in the array)?
         gl_FragColor = mix(terrain_color, mix_color, mix_color.a);
    } else
    {
         gl_FragColor =  background_color;
    }
 }
share|improve this question
    
did you tried to move texture reads from this if? that way it could be optimized by gpu probably. –  fen Oct 11 '13 at 8:40
    
yes, it was even slower :/ –  blejzz Oct 11 '13 at 12:31
    
I am not sure what you are trying to accomplish by setting density to highp. sampler2D defaults to lowp, so you are not gaining any precision by storing the result of the lookup in a highp variable; you are just wasting GPU cycles converting it to highp and then creating a high precision vec2 for the texture coordinate. –  Andon M. Coleman Oct 12 '13 at 11:54
1  
In fact, highp is not even required to work in fragment shaders unless the pre-processor macro: GL_FRAGMENT_PRECISION_HIGH is set to 1 by the implementation. You should be checking this value before attempting to use highp in a fragment shader. –  Andon M. Coleman Oct 12 '13 at 13:49
    
thanks for the tips but the biggest performance increase was to remove branching, see my answer. –  blejzz Oct 19 '13 at 11:46

1 Answer 1

up vote 0 down vote accepted

Figured it out. The way i fixed it was to remove all branching. Runs of ~60fps now. The optimized code:

varying mediump vec2 frag_background_texcoord;
varying mediump vec2 frag_density_texcoord;
varying mediump vec2 frag_terrain_texcoord;

uniform sampler2D density_texture;   
uniform sampler2D terrain_texture;
uniform sampler2D mix_texture;
uniform sampler2D background_texture;

void main()
{
   lowp vec4 background_color = texture2D(background_texture, frag_background_texcoord);
   lowp vec4 terrain_color = texture2D(terrain_texture, frag_terrain_texcoord);

   lowp vec4 mix_color = texture2D(mix_texture, vec2(density, 0.0));
   lowp float density = texture2D(density_texture, frag_density_texcoord).a;

   gl_FragColor = mix(mix(bg_color, terrain_color, mix_color.r), mix_color, mix_color.a);       
}
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.