コード例 #1
0
//-----------------------------------------------------------------------
bool IntegratedPSSM3::preAddToRenderState(const RenderState* renderState, 
                                         Pass* srcPass, Pass* dstPass)
{
    if (srcPass->getLightingEnabled() == false ||
        srcPass->getParent()->getParent()->getReceiveShadows() == false)
        return false;

    ShadowTextureParamsIterator it = mShadowTextureParamsList.begin();

    while(it != mShadowTextureParamsList.end())
    {
        TextureUnitState* curShadowTexture = dstPass->createTextureUnitState();
            
        curShadowTexture->setContentType(TextureUnitState::CONTENT_SHADOW);
        curShadowTexture->setTextureAddressingMode(TextureUnitState::TAM_BORDER);
        curShadowTexture->setTextureBorderColour(ColourValue::White);
        it->mTextureSamplerIndex = dstPass->getNumTextureUnitStates() - 1;
        ++it;
    }

    

    return true;
}
コード例 #2
0
	//---------------------------------------------------------------------
	void TerrainMaterialGeneratorA::SM2Profile::addTechnique(
		const MaterialPtr& mat, const Terrain* terrain, TechniqueType tt)
	{
		Technique* tech = mat->createTechnique();

		// Only supporting one pass
		Pass* pass = tech->createPass();

		GpuProgramManager& gmgr = GpuProgramManager::getSingleton();
		HighLevelGpuProgramManager& hmgr = HighLevelGpuProgramManager::getSingleton();
		if (!mShaderGen)
		{
			bool check2x = mLayerNormalMappingEnabled || mLayerParallaxMappingEnabled;
			if (hmgr.isLanguageSupported("cg"))
            {
				mShaderGen = OGRE_NEW ShaderHelperCg();
            }
			else if (hmgr.isLanguageSupported("hlsl") &&
				((check2x && gmgr.isSyntaxSupported("ps_4_0")) ||
				(check2x && gmgr.isSyntaxSupported("ps_2_x")) ||
				(!check2x && gmgr.isSyntaxSupported("ps_2_0"))))
            {
				mShaderGen = OGRE_NEW ShaderHelperHLSL();
            }
			else if (hmgr.isLanguageSupported("glsl"))
            {
				mShaderGen = OGRE_NEW ShaderHelperGLSL();
            }
			else if (hmgr.isLanguageSupported("glsles"))
            {
				mShaderGen = OGRE_NEW ShaderHelperGLSLES();
            }
			
			// check SM3 features
			mSM3Available = GpuProgramManager::getSingleton().isSyntaxSupported("ps_3_0");
			mSM4Available = GpuProgramManager::getSingleton().isSyntaxSupported("ps_4_0");
		}

		HighLevelGpuProgramPtr vprog = mShaderGen->generateVertexProgram(this, terrain, tt);
		HighLevelGpuProgramPtr fprog = mShaderGen->generateFragmentProgram(this, terrain, tt);

		pass->setVertexProgram(vprog->getName());
		pass->setFragmentProgram(fprog->getName());

		if (tt == HIGH_LOD || tt == RENDER_COMPOSITE_MAP)
		{
			// global normal map
			TextureUnitState* tu = pass->createTextureUnitState();
			tu->setTextureName(terrain->getTerrainNormalMap()->getName());
			tu->setTextureAddressingMode(TextureUnitState::TAM_CLAMP);

			// global colour map
			if (terrain->getGlobalColourMapEnabled() && isGlobalColourMapEnabled())
			{
				tu = pass->createTextureUnitState(terrain->getGlobalColourMap()->getName());
				tu->setTextureAddressingMode(TextureUnitState::TAM_CLAMP);
			}

			// light map
			if (isLightmapEnabled())
			{
				tu = pass->createTextureUnitState(terrain->getLightmap()->getName());
				tu->setTextureAddressingMode(TextureUnitState::TAM_CLAMP);
			}

			// blend maps
			uint maxLayers = getMaxLayers(terrain);
			uint numBlendTextures = std::min(terrain->getBlendTextureCount(maxLayers), terrain->getBlendTextureCount());
			uint numLayers = std::min(maxLayers, static_cast<uint>(terrain->getLayerCount()));
			for (uint i = 0; i < numBlendTextures; ++i)
			{
				tu = pass->createTextureUnitState(terrain->getBlendTextureName(i));
				tu->setTextureAddressingMode(TextureUnitState::TAM_CLAMP);
			}

			// layer textures
			for (uint i = 0; i < numLayers; ++i)
			{
				// diffuse / specular
				pass->createTextureUnitState(terrain->getLayerTextureName(i, 0));
				// normal / height
				pass->createTextureUnitState(terrain->getLayerTextureName(i, 1));
			}

		}
		else
		{
			// LOW_LOD textures
			// composite map
			TextureUnitState* tu = pass->createTextureUnitState();
			tu->setTextureName(terrain->getCompositeMap()->getName());
			tu->setTextureAddressingMode(TextureUnitState::TAM_CLAMP);

			// That's it!

		}

		// Add shadow textures (always at the end)
		if (isShadowingEnabled(tt, terrain))
		{
			uint numTextures = 1;
			if (getReceiveDynamicShadowsPSSM())
			{
				numTextures = (uint)getReceiveDynamicShadowsPSSM()->getSplitCount();
			}
			for (uint i = 0; i < numTextures; ++i)
			{
				TextureUnitState* tu = pass->createTextureUnitState();
				tu->setContentType(TextureUnitState::CONTENT_SHADOW);
				tu->setTextureAddressingMode(TextureUnitState::TAM_BORDER);
				tu->setTextureBorderColour(ColourValue::White);
			}
		}

	}
コード例 #3
0
ファイル: ogre_nif_loader.cpp プロジェクト: Thynix/openmw
void NIFLoader::createMaterial(const String &name,
                           const Vector &ambient,
                           const Vector &diffuse,
                           const Vector &specular,
                           const Vector &emissive,
                           float glossiness, float alpha,
                           int alphaFlags, float alphaTest,
                           const String &texName)
{
    MaterialPtr material = MaterialManager::getSingleton().create(name, resourceGroup);


    //Hardware Skinning code, textures may be the wrong color if enabled

    /* if(!mSkel.isNull()){
    material->removeAllTechniques();

        Ogre::Technique* tech = material->createTechnique();
        //tech->setSchemeName("blahblah");
        Pass* pass = tech->createPass();
        pass->setVertexProgram("Ogre/BasicVertexPrograms/AmbientOneTexture");*/
   

    // This assigns the texture to this material. If the texture name is
    // a file name, and this file exists (in a resource directory), it
    // will automatically be loaded when needed. If not (such as for
    // internal NIF textures that we might support later), we should
    // already have inserted a manual loader for the texture.


    if (!texName.empty())
    {
        Pass *pass = material->getTechnique(0)->getPass(0);
        /*TextureUnitState *txt =*/
        pass->createTextureUnitState(texName);

        pass->setVertexColourTracking(TVC_DIFFUSE);

        // As of yet UNTESTED code from Chris:
        /*pass->setTextureFiltering(Ogre::TFO_ANISOTROPIC);
        pass->setDepthFunction(Ogre::CMPF_LESS_EQUAL);
        pass->setDepthCheckEnabled(true);

        // Add transparency if NiAlphaProperty was present
        if (alphaFlags != -1)
        {
            std::cout << "Alpha flags set!" << endl;
            if ((alphaFlags&1))
            {
                pass->setDepthWriteEnabled(false);
                pass->setSceneBlending(getBlendFactor((alphaFlags>>1)&0xf),
                                       getBlendFactor((alphaFlags>>5)&0xf));
            }
            else
                pass->setDepthWriteEnabled(true);

            if ((alphaFlags>>9)&1)
                pass->setAlphaRejectSettings(getTestMode((alphaFlags>>10)&0x7),
                                             alphaTest);

            pass->setTransparentSortingEnabled(!((alphaFlags>>13)&1));
        }
        else
            pass->setDepthWriteEnabled(true); */


        // Add transparency if NiAlphaProperty was present
        if (alphaFlags != -1)
        {
            // The 237 alpha flags are by far the most common. Check
            // NiAlphaProperty in nif/property.h if you need to decode
            // other values. 237 basically means normal transparencly.
            if (alphaFlags == 237)
            {
                NifOverrides::TransparencyResult result = NifOverrides::Overrides::getTransparencyOverride(texName);
                if (result.first)
                {
                    pass->setAlphaRejectFunction(CMPF_GREATER_EQUAL);
                    pass->setAlphaRejectValue(result.second);
                }
                else
                {
                    // Enable transparency
                    pass->setSceneBlending(SBT_TRANSPARENT_ALPHA);

                    //pass->setDepthCheckEnabled(false);
                    pass->setDepthWriteEnabled(false);
                    //std::cout << "alpha 237; material: " << name << " texName: " << texName << std::endl;
                }
            }
            else
                warn("Unhandled alpha setting for texture " + texName);
        }
        else
        {
            material->getTechnique(0)->setShadowCasterMaterial("depth_shadow_caster_noalpha");
        }
    }

    if (Settings::Manager::getBool("enabled", "Shadows"))
    {
        bool split = Settings::Manager::getBool("split", "Shadows");
        const int numsplits = 3;
		for (int i = 0; i < (split ? numsplits : 1); ++i)
		{
            TextureUnitState* tu = material->getTechnique(0)->getPass(0)->createTextureUnitState();
            tu->setName("shadowMap" + StringConverter::toString(i));
            tu->setContentType(TextureUnitState::CONTENT_SHADOW);
            tu->setTextureAddressingMode(TextureUnitState::TAM_BORDER);
            tu->setTextureBorderColour(ColourValue::White);
		}
    }

    if (Settings::Manager::getBool("shaders", "Objects"))
    {
        material->getTechnique(0)->getPass(0)->setVertexProgram("main_vp");
        material->getTechnique(0)->getPass(0)->setFragmentProgram("main_fp");

        material->getTechnique(0)->getPass(0)->setFog(true); // force-disable fixed function fog, it is calculated in shader
    }

    // Create a fallback technique without shadows and without mrt
    Technique* tech2 = material->createTechnique();
    tech2->setSchemeName("Fallback");
    Pass* pass2 = tech2->createPass();
    pass2->createTextureUnitState(texName);
    pass2->setVertexColourTracking(TVC_DIFFUSE);
    if (Settings::Manager::getBool("shaders", "Objects"))
    {
        pass2->setVertexProgram("main_fallback_vp");
        pass2->setFragmentProgram("main_fallback_fp");
        pass2->setFog(true); // force-disable fixed function fog, it is calculated in shader
    }

    // Add material bells and whistles
    material->setAmbient(ambient.array[0], ambient.array[1], ambient.array[2]);
    material->setDiffuse(diffuse.array[0], diffuse.array[1], diffuse.array[2], alpha);
    material->setSpecular(specular.array[0], specular.array[1], specular.array[2], alpha);
    material->setSelfIllumination(emissive.array[0], emissive.array[1], emissive.array[2]);
    material->setShininess(glossiness);
}