public void Decode_1()
{
PerVertexDefinition expected = new PerVertexDefinition
{
};
var result = PerVertexDefinitionEncoder.Encode(expected);
var actual = PerVertexDefinitionEncoder.Decode(result);
TestResults(expected, actual);
}
public void Decode_Position_3()
{
var expected = new PerVertexDefinition
{
Position = PerVertexPositionType.Float2,
};
var result = PerVertexDefinitionEncoder.Encode(expected);
var actual = PerVertexDefinitionEncoder.Decode(result);
TestResults(expected, actual);
}
public void Decode_Color1_6()
{
var expected = new PerVertexDefinition
{
Color1 = PerVertexColorType.FloatRGBA,
};
var result = PerVertexDefinitionEncoder.Encode(expected);
var actual = PerVertexDefinitionEncoder.Decode(result);
TestResults(expected, actual);
}
public void Decode_Color0_4()
{
var expected = new PerVertexDefinition
{
Color0 = PerVertexColorType.UshortUnormRGBA,
};
var result = PerVertexDefinitionEncoder.Encode(expected);
var actual = PerVertexDefinitionEncoder.Decode(result);
TestResults(expected, actual);
}
public void Decode_Tangents_2()
{
var expected = new PerVertexDefinition
{
Tangent = PerVertexTangentType.Float4,
};
var result = PerVertexDefinitionEncoder.Encode(expected);
var actual = PerVertexDefinitionEncoder.Decode(result);
TestResults(expected, actual);
}
public void Decode_Normal_2()
{
var expected = new PerVertexDefinition
{
Normal = PerVertexNormalType.Float3,
};
var result = PerVertexDefinitionEncoder.Encode(expected);
var actual = PerVertexDefinitionEncoder.Decode(result);
TestResults(expected, actual);
}
private void CmdDrawIndexed(IMgCommandBuffer cmdBuf, MeshPrimitive meshPrimitive, RenderInstanceChunk drawCall, int sliceIndex)
{
var allocation = mStaticStorage.Map.Allocations[meshPrimitive.Indices[sliceIndex]];
var indexBlock = mStaticStorage.Storage.Blocks[allocation.BlockIndex];
var vertexDef = PerVertexDefinitionEncoder.Decode(meshPrimitive.PerVertexDefinition);
var indexType = vertexDef.IndexType == PerVertexIndexType.Uint16
? MgIndexType.UINT16
: MgIndexType.UINT32;
cmdBuf.CmdBindIndexBuffer(indexBlock.Buffer, allocation.Offset, indexType);
cmdBuf.CmdDrawIndexed(meshPrimitive.IndexCount,
drawCall.InstanceCount,
drawCall.FirstIndex,
drawCall.VertexOffset,
drawCall.FirstInstance);
}
public void Decode_0()
{
PerVertexDefinition expected = new PerVertexDefinition
{
Position = PerVertexPositionType.Float3,
Normal = PerVertexNormalType.Float3,
Color0 = PerVertexColorType.ByteUnormRGBA,
Color1 = PerVertexColorType.ByteUnormRGB,
Tangent = PerVertexTangentType.Float4,
Weights0 = PerVertexWeightsType.UshortUnorm4,
Weights1 = PerVertexWeightsType.Float4,
Joints0 = PerVertexJointType.Ushort4,
Joints1 = PerVertexJointType.Byte4,
IndexType = PerVertexIndexType.Uint32,
};
var result = PerVertexDefinitionEncoder.Encode(expected);
var actual = PerVertexDefinitionEncoder.Decode(result);
TestResults(expected, actual);
}
