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This is long but I promise it's interesting. :)

I'm trying to mimic the appearance of another application's texturing using jMonkeyEngine. I have a list of vertices, and faces (triangles) making up a "landscape mesh" which should be textured with about 7-15 different textures (depending on the terrain of the "landscape"). Each triangle has a texture code associated with it, signifying which texture that particular triangle should mostly consist of. And of course, the textures should blend smoothly between each face.

So I'm trying to develop a strategy that allows this (which does NOT utilize pre-made alpha map png files, texture alphas need to be done at run time). Right now I figure if I calculate the "strength" of each texture at each vertex (in the vertex shader)--by factoring in the terrain types of all it's neighboring faces (unsure how to do this yet)--I should be able to set alpha values based on how far a pixel is from a vertex. The generated 'alpha map' would be used by the frag shader to blend each texture per pixel.

Is this even feasible, or should I be looking at a totally different strategy? I have the shader code for the application I'm trying to mimic (but they are HLSL and I'm using GLSL), but it seems like they're doing this blending step elsewhere:

    sampler MeshTextureSampler = sampler_state { Texture = diffuse_texture; AddressU = WRAP; AddressV = WRAP; MinFilter = LINEAR; MagFilter = LINEAR; }; 

I'm not sure what this HLSL "MeshTextureSampler" is but it seems like this application may have pre-blended all the textures as needed, and created a single texture for the entire mesh based on the face/terrain code data. In the pixel/fragment shader all they really seem to do is this:

float4 tex_col = tex2D(MeshTextureSampler, In.Tex0);

After that it's just shadows, lighting, etc -- no sort of texture blending at all as far as I can tell, which leads me to believe this texture blending work is being done on the CPU beforehand, I suppose. Any suggestions welcome.

share|improve this question
    
+1 for your first sentence. – Arcane Engineer Sep 27 '12 at 10:17
up vote 3 down vote accepted

If I understand you correctly, here is what my first shot would be:

Your problem is, more or less, how to distribute your your per-face value over vertices. This is actually similar to normal generation on a mesh: first you would generate a normal for each triangle, and then calculate them per vertex. Google "normal generation" and you'll get there, but here's the gist. For each adjacent triangle, find a weighing factor (often angle of the corner that uses the vertex, or the surface area of the triangle, or a combination), and then sum up the value (be it normal or your "strengths") multiplied by the weighing factor to a total result. Normalize and you're done.

So then you have your texture "strengths" that you can send to your vertex shader. The modern solution would be to use chars and sample a texture array in the pixel shader, after you've fudged the blend values a bit to give you nicer transfers.

So, if I get your problem correctly :

Preprocess:

forearch vertex in mesh
  vertexvalue = 0
  normalization = 0
  foreach adjacent triangle of vertex
      angle = calculateAngleBetween3Vertices(vertex,triangle.someothervertex,triangle.theotherothervertex)
      vertexvalue += triangle.value * angle
      normalization += angle
  vertexvalue/=normalization

Rendering time:

pipe the value(s) of each vertex to the fragmentshader, and do this in the fragment shader:

basecolour = 0;
foreach value    
   basecolour = mix(basecolour, texture2D(textureSamplerForThisValue,uv), value)
   //this is simple, but we could do better once we have this working

Or, alternatively, you can take a good look at your geometry. If you have a combination of big triangles and tiny ones, you will have an unequal spread of data, and since your data is per vertex, you will have more detail where this is more geometry. In that case ,you will probably want to do what everyone else is doing and decouple your texturing from your geometry by using blend maps. These can be low-resolution and shouldn't increase your memory consumption or shader execution time that much.

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Where I'm getting stuck is generally the "For each adjacent triangle, find a weighing factor..." -- where would I do this, and how would it be accessed from within the shaders? Still having a hard time visualizing this. – Crusader Jul 4 '11 at 2:05
    
You don't. This is just the preprocessing stage ( your values are static at rendering time, right?). A weighing factor of 1 for every triangle should work, it's a quality thing. Otherwise you could take it as the angle of the triangle corner that touches the vertex. Then, the value at the vertex becomes FOREACHN value += angle_of_triangle*value_at_triange – El Marcel Jul 4 '11 at 2:16
    
I just thought of a possible solution, but reading this again I think it's basically the same thing you suggested (go figure). I'm thinking that I'll try passing 'weighted' alpha values (per texture) for every vertex, and use those in the frag shader as texture alphas. (Is this what you're saying?) I was having a hard time determining how to do this with jMonkeyEngine but I'm hoping I can pass this data as vertex attributes as "texCoordX" vertex buffer types. (A bit of jME specific stuff there.) If this works, using area/angle to calculate weights as you suggest just may do the trick... – Crusader Jul 4 '11 at 3:15
    
The competition was stiff, but you are the winner my friend... this strategy does work, still need to see if I can get it tweaked to give the look I need, but the concept is valid. – Crusader Jul 4 '11 at 5:31
    
Yep, confirmed working just as intended, very nice. – Crusader Jul 4 '11 at 7:19

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