CDx11UberEffect::CDx11UberEffect(ID3D11Device* device, ID3D11DeviceContext* deviceContext, const EFFECTCAPS& effectCaps)
: CDx11Effect(device, deviceContext)
, m_effectCaps(effectCaps)
{
memset(&m_diffuseTextureMatrixOffset, -1, sizeof(m_diffuseTextureMatrixOffset));
auto vertexShaderText = CDx11UberEffectGenerator::GenerateVertexShader(effectCaps);
auto pixelShaderText = CDx11UberEffectGenerator::GeneratePixelShader(effectCaps);
CompileVertexShader(vertexShaderText);
CompilePixelShader(pixelShaderText);
OffsetKeeper constantOffset;
m_meshColorOffset = constantOffset.Allocate(0x10);
m_worldMatrixOffset = constantOffset.Allocate(0x40);
m_viewProjMatrixOffset = constantOffset.Allocate(0x40);
if(effectCaps.hasShadowMap) m_shadowViewProjMatrixOffset = constantOffset.Allocate(0x40);
if(effectCaps.hasDiffuseMap0) m_diffuseTextureMatrixOffset[0] = constantOffset.Allocate(0x40);
if(effectCaps.hasDiffuseMap1) m_diffuseTextureMatrixOffset[1] = constantOffset.Allocate(0x40);
if(effectCaps.hasDiffuseMap2) m_diffuseTextureMatrixOffset[2] = constantOffset.Allocate(0x40);
if(effectCaps.hasDiffuseMap3) m_diffuseTextureMatrixOffset[3] = constantOffset.Allocate(0x40);
if(effectCaps.hasDiffuseMap4) m_diffuseTextureMatrixOffset[4] = constantOffset.Allocate(0x40);
CreateVertexConstantBuffer(constantOffset.currentOffset);
}
void CDx11UmbralEffect::ParseVertexShaderConstantTable(OffsetKeeper& constantOffset,
const CD3DShaderConstantTable& vertexShaderConstantTable, CD3DShaderConstantTable::REGISTER_SET registerSetFilter)
{
std::map<std::string, uint32&> parameterOffsets =
{
{ "ModelBBoxOffSet", m_modelBBoxOffsetOffset },
{ "ModelBBoxScale", m_modelBBoxScaleOffset },
{ "vertexOcclusionScale", m_vertexOcclusionScaleOffset },
{ "vertexColorBias", m_vertexColorBiasOffset },
{ "PointLightColors", m_pointLightColorsOffset },
{ "PointLightParams", m_pointLightParamsOffset },
{ "PointLightPositions", m_pointLightPositionsOffset },
{ "viewITMatrix", m_viewITMatrixOffset },
{ "worldITMatrix", m_worldITMatrixOffset },
{ "worldMatrix", m_worldMatrixOffset },
{ "worldViewMatrix", m_worldViewMatrixOffset },
{ "worldViewProjMatrix", m_worldViewProjMatrixOffset },
{ "isUseInstancing", m_isUseInstancingOffset },
};
for(const auto& constant : vertexShaderConstantTable.GetConstants())
{
if(constant.info.registerSet != registerSetFilter) continue;
uint32 size = 0;
switch(constant.typeInfo.typeClass)
{
case CD3DShaderConstantTable::CONSTANT_CLASS_SCALAR:
case CD3DShaderConstantTable::CONSTANT_CLASS_VECTOR:
size = 0x10 * constant.typeInfo.elements;
break;
case CD3DShaderConstantTable::CONSTANT_CLASS_MATRIX_COLS:
assert(constant.typeInfo.rows == 4 && constant.typeInfo.columns == 4);
size = 0x40;
break;
default:
assert(0);
break;
}
auto parameterOffsetIterator = parameterOffsets.find(constant.name);
if(parameterOffsetIterator != std::end(parameterOffsets))
{
parameterOffsetIterator->second = constantOffset.Allocate(size);
}
else
{
constantOffset.Allocate(size);
}
}
}
void CDx11UmbralEffect::ParsePixelShaderConstantTable(OffsetKeeper& constantOffset,
const CD3DShaderConstantTable& pixelShaderConstantTable, CD3DShaderConstantTable::REGISTER_SET registerSetFilter)
{
std::map<std::string, uint32&> parameterOffsets =
{
{ "pixelClippingDistance", m_pixelClippingDistanceOffset },
{ "modulateColor", m_modulateColorOffset },
{ "diffuseColor", m_diffuseColorOffset },
{ "specularColor", m_specularColorOffset },
{ "shininess", m_shininessOffset },
{ "reflectivity", m_reflectivityOffset },
{ "normalPower", m_normalPowerOffset },
{ "multiDiffuseColor", m_multiDiffuseColorOffset },
{ "multiSpecularColor", m_multiSpecularColorOffset },
{ "multiShininess", m_multiShininessOffset },
{ "multiReflectivity", m_multiReflectivityOffset },
{ "multiNormalPower", m_multiNormalPowerOffset },
{ "fresnelExp", m_fresnelExpOffset },
{ "fresnelLightDiffBias", m_fresnelLightDiffBiasOffset },
{ "lightDiffusePower", m_lightDiffusePowerOffset },
{ "specularInfluence", m_specularInfluenceOffset },
{ "lightDiffuseInfluence", m_lightDiffuseInfluenceOffset },
{ "lightDiffuseMapLod", m_lightDiffuseMapLodOffset },
{ "reflectMapInfluence", m_reflectMapInfluenceOffset },
{ "reflectMapLod", m_reflectMapLodOffset },
{ "glareLdrScale", m_glareLdrScaleOffset },
{ "normalVector", m_normalVectorOffset },
{ "depthBias", m_depthBiasOffset },
{ "refAlphaRestrain", m_refAlphaRestrainOffset },
{ "velvetParam", m_velvetParamOffset },
{ "ambentOcclusionColor", m_ambientOcclusionColorOffset },
{ "specularOcclusionColor", m_specularOcclusionColorOffset },
{ "pointLightOcclusionColor", m_pointLightOcclusionColorOffset },
{ "mainLightOcclusionColor", m_mainLightOcclusionColorOffset },
{ "subLightOcclusionColor", m_subLightOcclusionColorOffset },
{ "lightMapOcclusionColor", m_lightMapOcclusionColorOffset },
{ "reflectMapOcclusionColor", m_reflectMapOcclusionColorOffset },
{ "ambientColor", m_ambientColorOffset },
{ "ambientLightColor", m_ambientLightColorOffset },
{ "latitudeParam", m_latitudeParamOffset },
{ "EnableShadowFlag", m_enableShadowFlagOffset },
{ "DirLightDirections", m_dirLightDirectionsOffset },
{ "DirLightColors", m_dirLightColorsOffset },
};
for(const auto& constant : pixelShaderConstantTable.GetConstants())
{
if(constant.info.registerSet != registerSetFilter) continue;
uint32 size = 0;
switch(constant.typeInfo.typeClass)
{
case CD3DShaderConstantTable::CONSTANT_CLASS_SCALAR:
case CD3DShaderConstantTable::CONSTANT_CLASS_VECTOR:
size = 0x10 * constant.typeInfo.elements;
break;
case CD3DShaderConstantTable::CONSTANT_CLASS_MATRIX_COLS:
assert(constant.typeInfo.rows == 4 && constant.typeInfo.columns == 4);
size = 0x40;
break;
default:
assert(0);
break;
}
auto parameterOffsetIterator = parameterOffsets.find(constant.name);
if(parameterOffsetIterator != std::end(parameterOffsets))
{
parameterOffsetIterator->second = constantOffset.Allocate(size);
}
else
{
constantOffset.Allocate(size);
}
}
}
