Exemplo n.º 1
0
void App::materialCreated(sh::MaterialInstance* m, const std::string& configuration, unsigned short lodIndex)
{
	Ogre::Technique* t = static_cast<sh::OgreMaterial*>(m->getMaterial())->getOgreTechniqueForConfiguration (configuration, lodIndex);

	if (pSet->shadow_type == Sh_None)
	{
		t->setShadowCasterMaterial("");
		return;
	}

	/*if (m->hasProperty("transparent") && m->hasProperty("cull_hardware") &&
		sh::retrieveValue<sh::StringValue>(m->getProperty("cull_hardware"), 0).get() == "none")
	{
		// Crash !?
		assert(!MaterialManager::getSingleton().getByName("PSSM/shadow_caster_nocull").isNull ());
		t->setShadowCasterMaterial("shadowcaster_nocull");
	}*/

	if (m->hasProperty("instancing") && sh::retrieveValue<sh::StringValue>(m->getProperty("instancing"), 0).get() == "true")
	{
		t->setShadowCasterMaterial("shadowcaster_instancing");
	}

	if (!m->hasProperty("transparent") || !sh::retrieveValue<sh::BooleanValue>(m->getProperty("transparent"), 0).get())
	{
		t->setShadowCasterMaterial("shadowcaster_noalpha");
	}
}
//-------------------------------------------------------------------------------
Ogre::MaterialPtr CSceneManagerEditor::buildDepthShadowMaterial(Ogre::MaterialPtr cpyMat)
{
    if(mShadowsTechnique->get() >= (int)Ogre::SHADOWTYPE_TEXTURE_ADDITIVE && mShadowsTechnique->get() <= (int)Ogre::SHADOWTYPE_TEXTURE_MODULATIVE_INTEGRATED)
    {
        Ogre::String matName = "DepthShadows/" + cpyMat->getName();

        Ogre::MaterialPtr ret = Ogre::MaterialManager::getSingleton().getByName(matName);
        if (ret.isNull())
        {
            ret = cpyMat->clone(matName);

            Ogre::Technique *t = ret->getTechnique(0);
            t->setShadowCasterMaterial("Ogre/shadow/depth/caster");
            Ogre::Pass *p = t->getPass(0);
            p->setVertexProgram("Ogre/shadow/receiver/depth/pssm3/vp");
            p->setFragmentProgram("Ogre/shadow/receiver/depth/pssm3/fp");

            Ogre::TextureUnitState *tu = p->createTextureUnitState();
            tu->setName("shadow0");
            tu->setContentType(Ogre::TextureUnitState::CONTENT_SHADOW);
            tu->setTextureAddressingMode(Ogre::TextureUnitState::TAM_BORDER);
            tu->setTextureBorderColour(Ogre::ColourValue(1,1,1,1));
            
            tu = p->createTextureUnitState();
            tu->setName("shadow1");
            tu->setContentType(Ogre::TextureUnitState::CONTENT_SHADOW);
            tu->setTextureAddressingMode(Ogre::TextureUnitState::TAM_BORDER);
            tu->setTextureBorderColour(Ogre::ColourValue(1,1,1,1));
            
            tu = p->createTextureUnitState();
            tu->setName("shadow2");
            tu->setContentType(Ogre::TextureUnitState::CONTENT_SHADOW);
            tu->setTextureAddressingMode(Ogre::TextureUnitState::TAM_BORDER);
            tu->setTextureBorderColour(Ogre::ColourValue(1,1,1,1));

            Ogre::Vector4 splitPoints;
            const Ogre::PSSMShadowCameraSetup::SplitPointList& splitPointList = 
                static_cast<Ogre::PSSMShadowCameraSetup*>(mPSSMSetup.get())->getSplitPoints();
            for (int i = 0; i < 3; ++i)
            {
                splitPoints[i] = splitPointList[i];
            }
            p->getFragmentProgramParameters()->setNamedConstant("pssmSplitPoints", splitPoints);
        }
        
        return ret;
    }
    else
        return cpyMat;
}
Exemplo n.º 3
0
	bool OgreMaterial::createConfiguration (const std::string& name)
	{
		for (int i=0; i<mMaterial->getNumTechniques(); ++i)
		{
			if (mMaterial->getTechnique(i) == mMaterial->getTechnique(name))
				return false;
		}

		Ogre::Technique* t = mMaterial->createTechnique();
		t->setSchemeName (name);
		t->setName (name);
		if (mShadowCasterMaterial != "")
			t->setShadowCasterMaterial(mShadowCasterMaterial);

		return true;
	}
Exemplo n.º 4
0
	bool OgreMaterial::createConfiguration (const std::string& name, unsigned short lodIndex)
	{
		for (int i=0; i<mMaterial->getNumTechniques(); ++i)
		{
			if (mMaterial->getTechnique(i)->getSchemeName() == name && mMaterial->getTechnique(i)->getLodIndex() == lodIndex)
				return false;
		}

		Ogre::Technique* t = mMaterial->createTechnique();
		t->setSchemeName (name);
		t->setLodIndex (lodIndex);
		if (mShadowCasterMaterial != "")
			t->setShadowCasterMaterial(mShadowCasterMaterial);

		mMaterial->compile();

		return true;
	}
Exemplo n.º 5
0
void MaterialGenerator::generate()
{	
	mMaterial = prepareMaterial(mDef->getName());
	
	// reset some attributes
	resetTexUnitCounter();
	
	// choose textures from list (depending on user iTexSize setting)
	chooseTextures();
	
	// -------------------------- Main technique ----------------------------- //
	Ogre::Technique* technique = mMaterial->createTechnique();
	
	// Main pass
	Ogre::Pass* pass = technique->createPass();
	
	pass->setAmbient( mDef->mProps->ambient.x, mDef->mProps->ambient.y, mDef->mProps->ambient.z );
	pass->setDiffuse( mDef->mProps->diffuse.x, mDef->mProps->diffuse.y, mDef->mProps->diffuse.z, 1.0 );
	
	// shader assumes shininess in specular w component
	pass->setSpecular(mDef->mProps->specular.x, mDef->mProps->specular.y, mDef->mProps->specular.z, mDef->mProps->specular.w);
	
	pass->setCullingMode(chooseCullingMode());
	
	pass->setFog(true); // turn off fixed function fog, we use shaders
		
	if (!mDef->mProps->lighting)
		pass->setLightingEnabled(false);
	
	if (mDef->mProps->sceneBlend == SBM_ALPHA_BLEND)
		pass->setSceneBlending(SBT_TRANSPARENT_ALPHA);
	else if (mDef->mProps->sceneBlend == SBM_COLOUR_BLEND)
		pass->setSceneBlending(SBT_TRANSPARENT_COLOUR);
	else if (mDef->mProps->sceneBlend == SBM_ADD)
		pass->setSceneBlending(SBT_ADD);
	else if (mDef->mProps->sceneBlend == SBM_MODULATE)
		pass->setSceneBlending(SBT_MODULATE);
		
	pass->setDepthWriteEnabled( mDef->mProps->depthWrite );
		
	pass->setDepthCheckEnabled( mDef->mProps->depthCheck );
		
	pass->setTransparentSortingEnabled( mDef->mProps->transparentSorting );
	
	pass->setAlphaRejectFunction( mDef->mProps->alphaRejectFunc );
	pass->setAlphaRejectValue( mDef->mProps->alphaRejectValue );
	
	if (mDef->mProps->depthBias != 0.f)
		pass->setDepthBias( mDef->mProps->depthBias );
	
	createTexUnits(pass);
	
	// create shaders		
	if (!mShaderCached)
	{
		try
		{
			mVertexProgram = createVertexProgram();
			mFragmentProgram = createFragmentProgram();
		}
		catch (Ogre::Exception& e) {
			LogO(e.getFullDescription());
		}
		
		//!todo put this code into a function for reusability in other material generators
		if (mFragmentProgram.isNull() || mVertexProgram.isNull() || 
			!mFragmentProgram->isSupported() || !mVertexProgram->isSupported())
		{
			LogO("[MaterialFactory] WARNING: shader for material '" + mDef->getName()
				+ "' is not supported");
				
			LogO("[MaterialFactory] Vertex program source: ");
			StringUtil::StrStreamType vSourceStr;
			generateVertexProgramSource(vSourceStr);
			LogO(vSourceStr.str());
			LogO("[MaterialFactory] Fragment program source: ");
			StringUtil::StrStreamType fSourceStr;
			generateFragmentProgramSource(fSourceStr);
			LogO(fSourceStr.str());
			
			mVertexProgram.setNull(); mFragmentProgram.setNull();
			return;
		}
	}
	
	pass->setVertexProgram(mVertexProgram->getName());
	pass->setFragmentProgram(mFragmentProgram->getName());
	
	//set shadow caster
	technique->setShadowCasterMaterial(chooseShadowCasterMaterial());
	if (mShaderCached)
	{
		// set individual material shader params
		individualVertexProgramParams(pass->getVertexProgramParameters());
		individualFragmentProgramParams(pass->getFragmentProgramParameters());
	}
	// ----------------------------------------------------------------------- //
	
	createSSAOTechnique();
	createOccluderTechnique();
		
	// indicate we need enable/disable wind parameter
	// only needed for trees (wind == 2) because the wind effect has to be disabled before rendering impostors
	if (mShader->wind == 2)
		mParent->windMtrs.push_back( mDef->getName() );
		
	if (mDef->mProps->fog)
		mParent->fogMtrs.push_back( mDef->getName() );
	
	
	/// uncomment to export to .material
	//LogO(mDef->getName());
	/**
	//if (mDef->getName() == "Water_cyan")
	/*{
		MaterialSerializer serializer;
		serializer.exportMaterial(mMaterial, "water.material");
	}
	/**/
	
	/// uncomment to see full shader source code in log
	/**
	LogO(mDef->getName());
	if (StringUtil::startsWith(mDef->getName(), "FluidWater" ))  //"water" //_cyan"
	{
		LogO("[MaterialFactory] Vertex program source: ");
		StringUtil::StrStreamType vSourceStr;
		generateVertexProgramSource(vSourceStr);
		LogO(vSourceStr.str());
		LogO("[MaterialFactory] Fragment program source: ");
		StringUtil::StrStreamType fSourceStr;
		generateFragmentProgramSource(fSourceStr);
		LogO(fSourceStr.str());
	}
	/**/
}