Пример #1
0
// #### updateRegistry
//
//      Evaluates dirty flags and updates the effect registry if any
//      attributes have changed that require the shader to be rebuilt
//
void
OpenSubdivShader::updateRegistry()
{
    /* If adaptive flag has changed, update the effectRegistry accordingly */
    if (_adaptiveDirty) {
        g_effectRegistry.setIsAdaptive(_adaptive);
        _adaptiveDirty = false;
    }

    MHWRender::MRenderer *theRenderer = MHWRender::MRenderer::theRenderer();
    _theTextureManager = theRenderer->getTextureManager();

    /* If diffuse texture has changed, update the effectRegistry accordingly */
    if (_diffuseMapDirty) {
        GLuint diffMapId = bindTexture( _diffuseMapFile, DIFF_TEXTURE_UNIT );
        g_effectRegistry.setDiffuseId(diffMapId);
        _diffuseMapDirty = false;
    }

    /* If shader source has changed, update the effectRegistry accordingly */
    if (_shaderSourceDirty) {
        if ( _shaderSource.empty() ) {
            if ( g_effectRegistry.getShaderSource() != defaultShaderSource ) {
                g_effectRegistry.setShaderSource(defaultShaderSource);
            }
        } else {
            if ( g_effectRegistry.getShaderSource() != _shaderSource ) {
                g_effectRegistry.setShaderSource(_shaderSource);
            }
        }
        _shaderSourceDirty = false;
    }
}
simpleNoiseShaderOverride::~simpleNoiseShaderOverride()
{
	// Release texture
	MHWRender::MRenderer* renderer = MHWRender::MRenderer::theRenderer();
	if (renderer)
	{
		MHWRender::MTextureManager* textureMgr =
			renderer->getTextureManager();
		if (textureMgr)
		{
			textureMgr->releaseTexture(fNoiseTexture);
			fNoiseTexture = NULL;
		}
	}

	// Release sampler state
	MHWRender::MStateManager::releaseSamplerState(fNoiseSamplerState);
	fNoiseSamplerState = NULL;
}
Пример #3
0
//
//      updateRegistry
//
//      When attributes change which affect the shader compilation the
//      effectRegistry needs to be updated with the new values
//
void
OpenSubdivPtexShader::updateRegistry()
{
    // adaptive toggle
    if (_adaptiveDirty) {
        effectRegistry.setIsAdaptive(_adaptive);
        _adaptiveDirty = false;
    }

    // ptex color file
    if (_ptexColorDirty) {
        bool ptexColorValid = bindPtexTexture(_colorFile, &_ptexColor, CLR_TEXTURE_UNIT);
        effectRegistry.setPtexColorValid(ptexColorValid);
        _ptexColorDirty = false;
    }

    // ptex displacement file
    if (_ptexDisplacementDirty) {
        bool ptexDisplacementValid = bindPtexTexture(_displacementFile, &_ptexDisplacement, DISP_TEXTURE_UNIT);
        effectRegistry.setPtexDisplacementValid(ptexDisplacementValid);
        _ptexDisplacementDirty = false;
    }

    // ptex occlusion file
    if (_ptexOcclusionDirty) {
        bool ptexOcclusionValid = bindPtexTexture(_occlusionFile, &_ptexOcclusion, OCC_TEXTURE_UNIT);
        effectRegistry.setPtexOcclusionValid(ptexOcclusionValid);
        _ptexOcclusionDirty = false;
    }


    MHWRender::MRenderer *theRenderer = MHWRender::MRenderer::theRenderer();
    _theTextureManager = theRenderer->getTextureManager();

    // diffuse environment map file
    if (_diffEnvMapDirty) {
        GLuint diffEnvMapId = bindTexture( _diffEnvMapFile, DIFF_TEXTURE_UNIT );
        effectRegistry.setDiffuseEnvironmentId(diffEnvMapId);
        _diffEnvMapDirty = false;
    }

    // specular environment map file
    if (_specEnvMapDirty) {
        GLuint specEnvMapId = bindTexture( _specEnvMapFile, ENV_TEXTURE_UNIT );
        effectRegistry.setSpecularEnvironmentId(specEnvMapId);
        _specEnvMapDirty = false;
    }

    // shader source
    if (_shaderSourceDirty) {
        if ( _shaderSource.empty() ) {
            if ( effectRegistry.getShaderSource() != defaultShaderSource ) {
                effectRegistry.setShaderSource(defaultShaderSource);
            }
        } else {
            if ( effectRegistry.getShaderSource() != _shaderSource ) {
                effectRegistry.setShaderSource(_shaderSource);
            }
        }
        _shaderSourceDirty = false;
    }
}
/*
	Utility method to update shader parameters based on available
	lighting information.
*/
static void updateLightShader( MHWRender::MShaderInstance *shaderInstance,
						const MHWRender::MDrawContext & context,
						const MSelectionList * lightList )
{
	if (!shaderInstance)
		return;

	// Check pass context information to see if we are in a shadow 
	// map update pass. If so do nothing.
	//
	const MHWRender::MPassContext & passCtx = context.getPassContext();
	const MStringArray & passSem = passCtx.passSemantics();
	bool handlePass = true;
	for (unsigned int i=0; i<passSem.length() && handlePass; i++)
	{
		// Handle special pass drawing.
		//
		if (passSem[i] == MHWRender::MPassContext::kShadowPassSemantic)
		{
			handlePass = false;
		}
	}
	if (!handlePass) return;

	//
	// Perform light shader update with lighting information
	// If the light list is not empty then use that light's information.
	// Otherwise choose the first appropriate light which can cast shadows.
	//

	// Defaults in case there are no lights
	//
	bool globalShadowsOn = false;
	bool localShadowsOn = false;
	bool shadowDirty = false;
	MFloatVector direction(0.0f, 0.0f, 1.0f);
	float lightIntensity = 0.0f; // If no lights then black out the light
	float lightColor[3] = { 0.0f, 0.0f, 0.0f };

	MStatus status;

	// Scan to find the first N lights that has a direction component in it
	// It's possible we find no lights.
	//
	MHWRender::MDrawContext::LightFilter considerAllSceneLights = MHWRender::MDrawContext::kFilteredIgnoreLightLimit;
	unsigned int lightCount = context.numberOfActiveLights(considerAllSceneLights);
	if (lightCount)
	{
		MFloatArray floatVals;
		MIntArray intVals;
		MHWRender::MTextureAssignment shadowResource;
		shadowResource.texture = NULL;
		MHWRender::MSamplerStateDesc samplerDesc;
		MMatrix shadowViewProj;
		float shadowColor[3] = { 0.0f, 0.0f, 0.0f };

		unsigned int i=0;
		bool foundDirectional = false;
		for (i=0; i<lightCount && !foundDirectional ; i++)
		{
			MHWRender::MLightParameterInformation *lightParam = context.getLightParameterInformation( i, considerAllSceneLights );
			if (lightParam)
			{
				// Prune against light list if any.
				if (lightList && lightList->length())
				{
					if (!lightList->hasItem(lightParam->lightPath()))
						continue;
				}

				MStringArray params;
				lightParam->parameterList(params);
				for (unsigned int p=0; p<params.length(); p++)
				{
					MString pname = params[p];

					MHWRender::MLightParameterInformation::StockParameterSemantic semantic = lightParam->parameterSemantic( pname );
					switch (semantic)
					{
						// Pick a few light parameters to pick up as an example
					case MHWRender::MLightParameterInformation::kWorldDirection:
						lightParam->getParameter( pname, floatVals );
						direction = MFloatVector( floatVals[0], floatVals[1], floatVals[2] );
						foundDirectional = true;
						break;
					case MHWRender::MLightParameterInformation::kIntensity:
						lightParam->getParameter( pname, floatVals );
						lightIntensity = floatVals[0];
						break;
					case MHWRender::MLightParameterInformation::kColor:
						lightParam->getParameter( pname, floatVals );
						lightColor[0] = floatVals[0];
						lightColor[1] = floatVals[1];
						lightColor[2] = floatVals[2];
						break;

						// Pick up shadowing parameters
					case MHWRender::MLightParameterInformation::kGlobalShadowOn:
						lightParam->getParameter( pname, intVals );
						if (intVals.length())
							globalShadowsOn = (intVals[0] != 0) ? true : false;
						break;
					case MHWRender::MLightParameterInformation::kShadowOn:
						lightParam->getParameter( pname, intVals );
						if (intVals.length())
							localShadowsOn = (intVals[0] != 0) ? true : false;
						break;
					case MHWRender::MLightParameterInformation::kShadowViewProj:
						lightParam->getParameter( pname, shadowViewProj);
						break;
					case MHWRender::MLightParameterInformation::kShadowMap:
						lightParam->getParameter( pname, shadowResource );
						break;
					case MHWRender::MLightParameterInformation::kShadowDirty:
						if (intVals.length())
							shadowDirty = (intVals[0] != 0) ? true : false;
						break;
					case MHWRender::MLightParameterInformation::kShadowSamp:
						lightParam->getParameter( pname, samplerDesc );
						break;
					case MHWRender::MLightParameterInformation::kShadowColor:
						lightParam->getParameter( pname, floatVals );
						shadowColor[0] = floatVals[0];
						shadowColor[1] = floatVals[1];
						shadowColor[2] = floatVals[2];
						break;
					default:
						break;
					}
				} /* for params */
			}

			if (foundDirectional && globalShadowsOn && localShadowsOn && shadowResource.texture)
			{
				void *resourceHandle = shadowResource.texture->resourceHandle();
				if (resourceHandle)
				{
					static bool debugShadowBindings = false;
					status  = shaderInstance->setParameter("mayaShadowPCF1_shadowMap", shadowResource );
					if (status == MStatus::kSuccess && debugShadowBindings)
						fprintf(stderr, "Bound shadow map to shader param mayaShadowPCF1_shadowMap\n");
					status  = shaderInstance->setParameter("mayaShadowPCF1_shadowViewProj", shadowViewProj );
					if (status == MStatus::kSuccess && debugShadowBindings)
						fprintf(stderr, "Bound shadow map transform to shader param mayaShadowPCF1_shadowViewProj\n");
					status  = shaderInstance->setParameter("mayaShadowPCF1_shadowColor", &shadowColor[0] );
					if (status == MStatus::kSuccess && debugShadowBindings)
						fprintf(stderr, "Bound shadow map color to shader param mayaShadowPCF1_shadowColor\n");
				}

				MHWRender::MRenderer* renderer = MHWRender::MRenderer::theRenderer();
				if (renderer)
				{
					MHWRender::MTextureManager* textureManager = renderer->getTextureManager();
					if (textureManager)
					{
						textureManager->releaseTexture(shadowResource.texture);
					}
				}
				shadowResource.texture = NULL;
			}
		}
	}

	// Set up parameters which should be set regardless of light existence.
	status = shaderInstance->setParameter("mayaDirectionalLight_direction", &( direction[0] ));
	status = shaderInstance->setParameter("mayaDirectionalLight_intensity", lightIntensity );
	status = shaderInstance->setParameter("mayaDirectionalLight_color", &( lightColor[0] ));
	status = shaderInstance->setParameter("mayaShadowPCF1_mayaGlobalShadowOn", globalShadowsOn);
	status = shaderInstance->setParameter("mayaShadowPCF1_mayaShadowOn", localShadowsOn);
}
void simpleNoiseShaderOverride::updateShader(
	MHWRender::MShaderInstance& shader,
	const MHWRender::MAttributeParameterMappingList& mappings)
{
	// Handle resolved name caching
	if (fResolvedNoiseMapName.length() == 0)
	{
		const MHWRender::MAttributeParameterMapping* mapping =
			mappings.findByParameterName("noiseLookupMap");
		if (mapping)
		{
			fResolvedNoiseMapName = mapping->resolvedParameterName();
		}
	}
	if (fResolvedNoiseSamplerName.length() == 0)
	{
		const MHWRender::MAttributeParameterMapping* mapping =
			mappings.findByParameterName("noiseLookupMapSampler");
		if (mapping)
		{
			fResolvedNoiseSamplerName = mapping->resolvedParameterName();
		}
	}

	// Set the parameters on the shader
	if (fResolvedNoiseMapName.length() > 0 &&
		fResolvedNoiseSamplerName.length() > 0)
	{
		// Set a point-clamp sampler to the shader
		if (!fNoiseSamplerState)
		{
			MHWRender::MSamplerStateDesc desc;
			desc.filter = MHWRender::MSamplerState::kMinMagMipPoint;
			desc.addressU = desc.addressV = desc.addressW =
				MHWRender::MSamplerState::kTexClamp;
			desc.minLOD = 0;
			desc.maxLOD = 0;
			fNoiseSamplerState =
				MHWRender::MStateManager::acquireSamplerState(desc);
		}
		if (fNoiseSamplerState)
		{
			shader.setParameter(fResolvedNoiseSamplerName, *fNoiseSamplerState);
		}

		// Generate the noise lookup table texture if necessary
		if (!fNoiseTexture)
		{
			MHWRender::MRenderer* renderer =
				MHWRender::MRenderer::theRenderer();
			MHWRender::MTextureManager* textureMgr =
				renderer ? renderer->getTextureManager() : NULL;
			if (textureMgr)
			{
				// First, search the texture cache to see if another instance of
				// this override has already generated the texture. We can reuse
				// it to save GPU memory since the noise data is constant.
				fNoiseTexture =
					textureMgr->findTexture(sNoiseLookupTextureName);

				// Not in cache, so we need to actually build the texture
				if (!fNoiseTexture)
				{
					// Get Maya's noise table
					const std::vector<float>& noiseData = GetMayaNoiseTable();

					// Create a 3D texture containing the data
					MHWRender::MTextureDescription desc;
					desc.setToDefault2DTexture();
					desc.fWidth = desc.fHeight = desc.fDepth =
						MRenderUtil::noiseTableCubeSide();
					desc.fFormat = MHWRender::kR32_FLOAT;
					desc.fTextureType = MHWRender::kVolumeTexture;
					desc.fMipmaps = 1;
					fNoiseTexture = textureMgr->acquireTexture(
						sNoiseLookupTextureName,
						desc,
						(const void*)&(noiseData[0]),
						false);
				}
			}
		}

		// Set the texture to the shader instance
		if (fNoiseTexture)
		{
			MHWRender::MTextureAssignment textureAssignment;
			textureAssignment.texture = fNoiseTexture;
			shader.setParameter(fResolvedNoiseMapName, textureAssignment);
		}
	}
}