GameDiamondMoreWinderComponent::GameDiamondMoreWinderComponent(void):_moreWinnerInterface(new CGameDiamondMoreWinderInterface),_updater(new Updater),_number(0),_step(0)
{
	_moreWinnerInterface->init = boost::bind(&GameDiamondMoreWinderComponent::init, this,  _1);
	_moreWinnerInterface->addEntity = boost::bind(&GameDiamondMoreWinderComponent::addEntity, this,  _1, _2);
	_moreWinnerInterface->bigger = boost::bind(&GameDiamondMoreWinderComponent::bigger, this);
	_moreWinnerInterface->reset = boost::bind(&GameDiamondMoreWinderComponent::reset, this);
	_moreWinnerInterface->run = boost::bind(&GameDiamondMoreWinderComponent::run, this, _1);
	_moreWinnerInterface->step = boost::bind(&GameDiamondMoreWinderComponent::step, this);
	_moreWinnerInterface->stop = boost::bind(&GameDiamondMoreWinderComponent::stop, this);


	for(int i =0 ; i<12; i++)
	{
		std::string mname = "diamond"+boost::lexical_cast<std::string>(i);
		//ent->setMaterialName(mname);
		Ogre::MaterialPtr material = Ogre::MaterialManager::getSingleton().getByName(mname);

		material->setSelfIllumination(1.0f,1.0f,1.0f);
		material->setAmbient(0,0,0);
	
		material->setDiffuse(0,0,0,0);
	}
	//_rotationComp = Orz::ComponentFactories::getInstance().create("Rotation");

}
Example #2
0
void BoxChunk::addToGraph(Ogre::SceneManager* sceneMgr)
{
  // set up Ogre properties
  entity = sceneMgr->createEntity(name, "cube.mesh");

  // Create BoxChunk materials
  Ogre::MaterialPtr mat = Ogre::MaterialManager::getSingleton().create(name+"Mat",
    Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME);
  entity->setMaterial(mat);
  entity->setMaterial(mat);
  entity->setCastShadows(false);

  node = sceneMgr->getRootSceneNode()->createChildSceneNode(name);
  node->attachObject(entity);

  Ogre::Real cur_height = entity->getBoundingBox().getSize().y;
  node->scale(height/cur_height, height/cur_height, height/cur_height);
  node->rotate(Ogre::Quaternion(((float)(rand() % 10))/10.f, ((float)(rand() % 10))/10.f,
                                ((float)(rand() % 10))/10.f, ((float)(rand() % 10))/10.f));

  Ogre::ColourValue c(1, 0, 0, 1);
  mat->setAmbient(c);
  mat->setDiffuse(c);
  mat->setSpecular(c);
}
Example #3
0
void
Terrain::_applySurfaceParams(const Ogre::MaterialPtr& material) const
{
    material->setAmbient(mData->mSurfaceParams.ambient);
    material->setDiffuse(mData->mSurfaceParams.diffuse);
    material->setSpecular(mData->mSurfaceParams.specular);
    material->setSelfIllumination(mData->mSurfaceParams.emissive);
    material->setShininess(mData->mSurfaceParams.shininess);
}
void createColorMaterial(const std::string& name, const Ogre::ColourValue& color, bool use_self_illumination)
{
    Ogre::MaterialPtr mat = Ogre::MaterialManager::getSingleton().create( name, ROS_PACKAGE_NAME );
    mat->setAmbient(color * 0.5f);
    mat->setDiffuse(color);
    if( use_self_illumination )
    {
        mat->setSelfIllumination(color);
    }
    mat->setLightingEnabled(true);
    mat->setReceiveShadows(false);
}
  std::string createMaterialIfNotExists(const float r, const float g, const float b, const float a)
  {
    char buf[128];
    sprintf(buf, "ShapeColor%f;%f;%f;%f",r,g,b,a);
    if(!Ogre::MaterialManager::getSingleton().getByName(buf, Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME).isNull())
      return buf;

    Ogre::ColourValue color( r,g,b,a );
    Ogre::MaterialPtr mat = Ogre::MaterialManager::getSingleton().create( buf, Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME );
    mat->setAmbient(color * 0.01f);
    mat->setDiffuse(color);
    mat->setLightingEnabled(true);
    mat->setReceiveShadows(true);
    mat->setCullingMode(Ogre::CULL_NONE);

    return buf;
  }
Example #6
0
Ogre::MaterialPtr
thrive::getColourMaterial(
    const Ogre::ColourValue& colour
) {
    Ogre::MaterialManager& manager = Ogre::MaterialManager::getSingleton();
    Ogre::String name = getColourName(colour);
    Ogre::MaterialPtr material = manager.getByName(
        name
    );
    if (material.isNull()) {
        material = manager.getDefaultSettings()->clone(
            name
        );
        material->setAmbient(0.3 * colour);
        material->setDiffuse(colour);
    }
    return material;
}
void MilkshapePlugin::doExportMaterials(msModel* pModel)
{
	Ogre::LogManager& logMgr = Ogre::LogManager::getSingleton();
	Ogre::MaterialManager matMgrSgl;
	Ogre::String msg;

    matMgrSgl.initialise();

	int numMaterials = msModel_GetMaterialCount(pModel);
	msg = "Number of materials: " + Ogre::StringConverter::toString(numMaterials);
	logMgr.logMessage(msg);

	OPENFILENAME ofn;
	memset (&ofn, 0, sizeof (OPENFILENAME));

	char szFile[MS_MAX_PATH];
	char szFileTitle[MS_MAX_PATH];
	char szDefExt[32] = "material";
	char szFilter[128] = "OGRE .material Files (*.material)\0*.material\0All Files (*.*)\0*.*\0\0";
	szFile[0] = '\0';
	szFileTitle[0] = '\0';

	ofn.lStructSize = sizeof (OPENFILENAME);
	ofn.lpstrDefExt = szDefExt;
	ofn.lpstrFilter = szFilter;
	ofn.lpstrFile = szFile;
	ofn.nMaxFile = MS_MAX_PATH;
	ofn.lpstrFileTitle = szFileTitle;
	ofn.nMaxFileTitle = MS_MAX_PATH;
	ofn.Flags = OFN_HIDEREADONLY | OFN_OVERWRITEPROMPT | OFN_PATHMUSTEXIST;
	ofn.lpstrTitle = "Export to OGRE Material";

	if (!::GetSaveFileName (&ofn))
		return;

	// Strip off the path
	Ogre::String matName = szFile;
	size_t lastSlash = matName.find_last_of("\\");
	matName = matName.substr(lastSlash+1);

	// Set up
	logMgr.logMessage("Trying to create Material object");

	Ogre::MaterialSerializer matSer;

	for (int i = 0; i < numMaterials; ++i)
	{
		msMaterial *mat = msModel_GetMaterialAt(pModel, i);

		msg = "Creating material " + Ogre::String(mat->szName);
		logMgr.logMessage(msg);
        Ogre::MaterialPtr ogremat = matMgrSgl.create(mat->szName, 
            Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME);
		logMgr.logMessage("Created.");

		ogremat->setAmbient(msVec4ToColourValue(mat->Ambient));
		ogremat->setDiffuse(msVec4ToColourValue(mat->Diffuse));
		ogremat->setSpecular(msVec4ToColourValue(mat->Specular));
		ogremat->setShininess(mat->fShininess);

		if (0 < strlen(mat->szDiffuseTexture))
			ogremat->getTechnique(0)->getPass(0)->createTextureUnitState(mat->szDiffuseTexture);

        if (0 < strlen(mat->szAlphaTexture))
			ogremat->getTechnique(0)->getPass(0)->createTextureUnitState(mat->szAlphaTexture);


		matSer.queueForExport(ogremat);
	}

	msg = "Exporting materials to " + matName;
	logMgr.logMessage(msg);
	matSer.exportQueued(matName);
}
Example #8
0
void gkMaterialLoader::loadSubMeshMaterial(gkSubMesh* mesh, const gkString& group)
{
	using namespace Ogre;

	gkMaterialProperties& gma = mesh->getMaterial();
	if (gma.m_name.empty())
		gma.m_name = "<gkBuiltin/DefaultMaterial>";

	Ogre::MaterialPtr oma = Ogre::MaterialManager::getSingleton().getByName(gma.m_name.c_str(), group);
	if (!oma.isNull())
		return;

	oma = Ogre::MaterialManager::getSingleton().create(gma.m_name, group);

	if (gma.m_mode & gkMaterialProperties::MA_INVISIBLE)
	{
		// disable writing to this material
		oma->setReceiveShadows(false);
		oma->setColourWriteEnabled(false);
		oma->setDepthWriteEnabled(false);
		oma->setDepthCheckEnabled(false);
		oma->setLightingEnabled(false);
		return;
	}

	if (gma.m_mode & gkMaterialProperties::MA_TWOSIDE)
	{
		oma->setCullingMode(Ogre::CULL_NONE);
		oma->setManualCullingMode(Ogre::MANUAL_CULL_NONE);
	}

	// apply lighting params

	bool enableLights = (gma.m_mode & gkMaterialProperties::MA_LIGHTINGENABLED) != 0;
	oma->setReceiveShadows((gma.m_mode & gkMaterialProperties::MA_RECEIVESHADOWS) != 0);

	oma->setLightingEnabled(enableLights);
	if (enableLights)
	{
		gkColor emissive, ambient, specular, diffuse;

		emissive    = gma.m_diffuse * gma.m_emissive;
		ambient     = gma.m_diffuse * gma.m_ambient;
		specular    = gma.m_specular * gma.m_spec;
		diffuse     = gma.m_diffuse * (gma.m_emissive + gma.m_refraction);

		emissive.a = ambient.a = specular.a = 1.f;

		oma->setSelfIllumination(emissive);
		oma->setAmbient(ambient);
		oma->setSpecular(specular);
		oma->setDiffuse(diffuse);
		oma->setShininess(gma.m_hardness);
	}
	
	Ogre::Pass* pass = oma->getTechnique(0)->getPass(0);

	bool matBlending = gkEngine::getSingleton().getUserDefs().matblending;

	if (matBlending && (gma.m_mode & gkMaterialProperties::MA_HASRAMPBLEND))
	{
		switch (gma.m_rblend)
		{
		case GK_BT_MULTIPLY:			
			pass->setSceneBlending(SBT_MODULATE);			
			break;
		case GK_BT_SUBTRACT:			
			pass->setSceneBlending(SBF_ONE_MINUS_SOURCE_COLOUR, SBF_ONE);
			break;
		case GK_BT_DARKEN:
			pass->setSceneBlendingOperation(SBO_MIN);
			pass->setSceneBlending(SBF_ONE, SBF_ONE);
			break;
		case GK_BT_LIGHTEN:
			pass->setSceneBlendingOperation(SBO_MAX);
			pass->setSceneBlending(SBF_ONE, SBF_ONE);
			break;
		case GK_BT_SCREEN:			
			pass->setSceneBlending(SBF_ONE_MINUS_DEST_COLOUR, SBF_ONE);
			break;
		case GK_BT_ADDITIVE:
			pass->setSceneBlending(SBT_ADD);
			break;
		case GK_BT_MIXTURE:
		default:
			pass->setSceneBlending(SBF_ONE, SBF_ZERO);
			break;
		}
	}

	bool hasNormap = false;
	bool rtss = gkEngine::getSingleton().getUserDefs().rtss;

	for (int i = 0; i < gma.m_totaltex; ++i)
	{		
		gkTextureProperties& gte = gma.m_textures[i];

#ifdef OGREKIT_USE_RTSHADER_SYSTEM
		if (gte.m_mode & gkTextureProperties::TM_NORMAL)
		{
			hasNormap = true;
			continue;
		}
#endif
		Ogre::TextureUnitState* otus = pass->createTextureUnitState(gte.m_name, gte.m_layer);

		LayerBlendOperationEx op = LBX_MODULATE;

		switch (gte.m_blend)
		{
		case GK_BT_ADDITIVE:
			op = LBX_ADD;
			break;

		case GK_BT_SUBTRACT:			
			op = LBX_SUBTRACT;
			break;

		case GK_BT_DARKEN:	
		case GK_BT_LIGHTEN:	
		case GK_BT_SCREEN:
		case GK_BT_COLOR:
			//break; TODO: support more mode

		case GK_BT_MULTIPLY:
		case GK_BT_MIXTURE:
		default:
			op = LBX_MODULATE;
			break;
		}

		if (i == 0)
			otus->setColourOperationEx(op, LBS_DIFFUSE, LBS_TEXTURE);		
		else
			otus->setColourOperationEx(op);

		otus->setTextureScale(gte.m_scale[0],gte.m_scale[1]);
	}



	if (gma.m_mode & gkMaterialProperties::MA_ALPHABLEND)
	{
		pass->setSceneBlending(Ogre::SBT_TRANSPARENT_ALPHA);
		pass->setDepthWriteEnabled(false);
	}

	if (gma.m_mode & gkMaterialProperties::MA_ALPHACLIP)
	{
		pass->setAlphaRejectSettings(Ogre::CMPF_GREATER_EQUAL, 254);
	}

#ifdef OGREKIT_USE_RTSHADER_SYSTEM
	
	if (rtss)
	{
		//pass->setSpecular(ColourValue::Black);
		//pass->setShininess(0.0);

		RTShader::RenderState* rs = 0;
		RTShader::ShaderGenerator* sg = Ogre::RTShader::ShaderGenerator::getSingletonPtr();
		bool ok = sg->createShaderBasedTechnique(gma.m_name, group, 
			Ogre::MaterialManager::DEFAULT_SCHEME_NAME, Ogre::RTShader::ShaderGenerator::DEFAULT_SCHEME_NAME);

		if (ok && hasNormap)
		{
			rs = sg->getRenderState(RTShader::ShaderGenerator::DEFAULT_SCHEME_NAME, gma.m_name, 0);
			rs->reset();

			for (int i = 0; i < gma.m_totaltex; ++i)
			{
				gkTextureProperties& gte = gma.m_textures[i];

				if (gte.m_mode & gkTextureProperties::TM_NORMAL)
				{
					GK_ASSERT(rs);

					RTShader::SubRenderState* srs= sg->createSubRenderState(RTShader::NormalMapLighting::Type);
				
					RTShader::NormalMapLighting* nsrs = static_cast<RTShader::NormalMapLighting*>(srs);
					if (gte.m_texmode & gkTextureProperties::TX_OBJ_SPACE)
						nsrs->setNormalMapSpace(RTShader::NormalMapLighting::NMS_OBJECT);
					else
						nsrs->setNormalMapSpace(RTShader::NormalMapLighting::NMS_TANGENT);
					nsrs->setNormalMapTextureName(gte.m_name);
					nsrs->setTexCoordIndex(gte.m_layer);

					rs->addTemplateSubRenderState(srs);
				}
			}

			sg->invalidateMaterial(RTShader::ShaderGenerator::DEFAULT_SCHEME_NAME, gma.m_name);
		}
	}
#endif
}