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Im working with model instancing in XNA 4.0 and I sending my model instance transformation in a parallel stream. Im following this tutorial. However when I want a matrix as input to my shader I get what looks like a damaged matrix, because I get strange projection results.

Does anyone know the source to the problem and why I can't pass the matrix when others suggest so?

Problem:

struct VertexShaderInput
{
    float4 Position : POSITION0;    
    float3 Normal : NORMAL0;
    float3 UV : TEXCOORD0;
    float3 Color : COLOR0;
    float3 Tangent : TANGENT0;
    float3 Binormal : BINORMAL0;
    float4x4 World : TEXCOORD3; //Problem 
};

Changing the vertex shader function to the following does not help either:

VertexShaderOutput VertexShaderFunction(VertexShaderInput input, float4x4 World : TEXCOORD3)
{

}

This works if I build the matrix with the vectors alone, I dont know why. Im I losing data?

struct VertexShaderInput
{
    float4 Position : POSITION0;    
    float3 Normal : NORMAL0;
    float3 UV : TEXCOORD0;
    float3 Color : COLOR0;
    float3 Tangent : TANGENT0;
    float3 Binormal : BINORMAL0;
    float4 World1 : TEXCOORD3;
    float4 World2 : TEXCOORD4;
    float4 World3 : TEXCOORD5;
    float4 World4 : TEXCOORD6;
};

Vertex format:

internal struct InstanceDataVertex   
{
        public Matrix World;

        public InstanceDataVertex(Matrix World)
        {
            this.World = World;
        }

        public readonly static VertexDeclaration VertexDeclaration = new VertexDeclaration
        (
            new VertexElement(0, VertexElementFormat.Vector4, VertexElementUsage.TextureCoordinate, 3),
            new VertexElement(sizeof(float) * 4, VertexElementFormat.Vector4, VertexElementUsage.TextureCoordinate, 4),
            new VertexElement(sizeof(float) * 8, VertexElementFormat.Vector4, VertexElementUsage.TextureCoordinate, 5),
            new VertexElement(sizeof(float) * 12, VertexElementFormat.Vector4, VertexElementUsage.TextureCoordinate, 6)
        );
    }
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2 Answers

up vote 1 down vote accepted

The input registers on the GPU are limited in size. The size of TEXCOORDn is float4 (as listed here). There are no float4x4 inputs.

Splitting your matrix across several input registers and then reconstructing it should work fine. It's just a matter of making sure the right values in your C# Matrix end up in the right places in your HLSL float4x4. I suspect the mapping is trivial, but I'm not sure.

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here is code I use in my project

 public Instance(Instancer instancer, float scale, Vector3 translate, Vector3 information)
    {
        ID++;
        id = ID;
        this.Scale(scale); 
        this.Translate(translate);
        this.Update(); //update the model matrix modelMatrix=scale*rotate*translate ma!

        Instancer = instancer;

        modelMatrix.M12 = information.X; //additional info unique for each instance
        modelMatrix.M23 = information.Y;
        modelMatrix.M34 = information.Z;
        Instancer.instanceTransformMatrices.Add(this, ModelMatrix);
    }

Model Matrix for each instance

  protected static VertexDeclaration instanceVertexDeclaration = new VertexDeclaration
    (
        new VertexElement(0, VertexElementFormat.Vector4, VertexElementUsage.BlendWeight, 0),
        new VertexElement(16, VertexElementFormat.Vector4, VertexElementUsage.BlendWeight, 1),
        new VertexElement(32, VertexElementFormat.Vector4, VertexElementUsage.BlendWeight, 2),
        new VertexElement(48, VertexElementFormat.Vector4, VertexElementUsage.BlendWeight, 3)
    );

List of Matrices to vbo where modelVertexBuffer is a quad or any other geometry

instanceVertexBuffer = new DynamicVertexBuffer(BaseClass.Device, instanceVertexDeclaration, instanceTransformMatrices.Count, BufferUsage.WriteOnly);
            instanceVertexBuffer.SetData(instanceTransformMatrices.Values.ToArray(), 0, instanceTransformMatrices.Count, SetDataOptions.Discard);

Draw Function

BaseClass.Device.SetVertexBuffers(
                       new VertexBufferBinding(modelVertexBuffer, 0, 0),
                       new VertexBufferBinding(instanceVertexBuffer, 0, 1)
                   );

BaseClass.Device.Indices = indexBuffer;
BaseClass.Device.DrawInstancedPrimitives(PrimitiveType.TriangleList, 0, 0,modelVertexBuffer.VertexCount, 0,2,instanceTransformMatrices.Count);

Sample Vertex Shader

 VertexOut VS(VertexIn input, float4x4 instanceTransform : BLENDWEIGHT)
 {
    VertexOut Out = (VertexOut)0;

  float4x4 world = transpose(instanceTransform);
  input.Position.xyz = float3(world._41,world._42,world._43);
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