Beispiel #1
0
bool WaterObject::initMaterial( S32 idx )
{
   // We must return false for any case which it is NOT safe for the caller
   // to use the indexed material.
   
   if ( idx < 0 || idx > NumMatTypes )
      return false;

   BaseMatInstance *mat = mMatInstances[idx];
   WaterMatParams &matParams = mMatParamHandles[idx];
   
   // Is it already initialized?

   if ( mat && mat->isValid() )
      return true;

   // Do we need to allocate anything?

   if ( mSurfMatName[idx].isNotEmpty() )
   {      
      if ( mat )
         SAFE_DELETE( mat );

      CustomMaterial *custMat;
      if ( Sim::findObject( mSurfMatName[idx], custMat ) && custMat->mShaderData )
         mat = custMat->createMatInstance();
      else
         mat = MATMGR->createMatInstance( mSurfMatName[idx] );

      const GFXVertexFormat *flags = getGFXVertexFormat<GFXVertexPC>();

      if ( mat && mat->init( MATMGR->getDefaultFeatures(), flags ) )
      {      
         mMatInstances[idx] = mat;
         matParams.init( mat );         
         return true;
      }
            
      SAFE_DELETE( mat );      
   }

   return false;
}
Beispiel #2
0
void TSMesh::innerRender( TSMaterialList *materials, const TSRenderState &rdata, TSVertexBufferHandle &vb, GFXPrimitiveBufferHandle &pb )
{
   PROFILE_SCOPE( TSMesh_InnerRender );

   if( vertsPerFrame <= 0 ) 
      return;

   F32 meshVisibility = rdata.getFadeOverride() * mVisibility;
   if ( meshVisibility < VISIBILITY_EPSILON )
      return;

   const SceneRenderState *state = rdata.getSceneState();
   RenderPassManager *renderPass = state->getRenderPass();

   MeshRenderInst *coreRI = renderPass->allocInst<MeshRenderInst>();
   coreRI->type = RenderPassManager::RIT_Mesh;

   const MatrixF &objToWorld = GFX->getWorldMatrix();

   // Sort by the center point or the bounds.
   if ( rdata.useOriginSort() )
      coreRI->sortDistSq = ( objToWorld.getPosition() - state->getCameraPosition() ).lenSquared();
   else
   {
      Box3F rBox = mBounds;
      objToWorld.mul( rBox );
      coreRI->sortDistSq = rBox.getSqDistanceToPoint( state->getCameraPosition() );      
   }

   if (getFlags(Billboard))
   {
      Point3F camPos = state->getDiffuseCameraPosition();
      Point3F objPos;
      objToWorld.getColumn(3, &objPos);
      Point3F targetVector = camPos - objPos;
      if(getFlags(BillboardZAxis))
         targetVector.z = 0.0f;
      targetVector.normalize();
      MatrixF orient = MathUtils::createOrientFromDir(targetVector);
      orient.setPosition(objPos);
      orient.scale(objToWorld.getScale());

      coreRI->objectToWorld = renderPass->allocUniqueXform( orient );
   }
   else
      coreRI->objectToWorld = renderPass->allocUniqueXform( objToWorld );

   coreRI->worldToCamera = renderPass->allocSharedXform(RenderPassManager::View);
   coreRI->projection = renderPass->allocSharedXform(RenderPassManager::Projection);

   AssertFatal( vb.isValid(), "TSMesh::innerRender() - Got invalid vertex buffer!" );
   AssertFatal( pb.isValid(), "TSMesh::innerRender() - Got invalid primitive buffer!" );

   coreRI->vertBuff = &vb;
   coreRI->primBuff = &pb;
   coreRI->defaultKey2 = (U32) coreRI->vertBuff;

   coreRI->materialHint = rdata.getMaterialHint();

   coreRI->visibility = meshVisibility;  
   coreRI->cubemap = rdata.getCubemap();

   // NOTICE: SFXBB is removed and refraction is disabled!
   //coreRI->backBuffTex = GFX->getSfxBackBuffer();

   for ( S32 i = 0; i < primitives.size(); i++ )
   {
      const TSDrawPrimitive &draw = primitives[i];

      // We need to have a material.
      if ( draw.matIndex & TSDrawPrimitive::NoMaterial )
         continue;

#ifdef TORQUE_DEBUG
      // for inspection if you happen to be running in a debugger and can't do bit 
      // operations in your head.
      S32 triangles = draw.matIndex & TSDrawPrimitive::Triangles;
      S32 strip = draw.matIndex & TSDrawPrimitive::Strip;
      S32 fan = draw.matIndex & TSDrawPrimitive::Fan;
      S32 indexed = draw.matIndex & TSDrawPrimitive::Indexed;
      S32 type = draw.matIndex & TSDrawPrimitive::TypeMask;
      TORQUE_UNUSED(triangles);
      TORQUE_UNUSED(strip);
      TORQUE_UNUSED(fan);
      TORQUE_UNUSED(indexed);
      TORQUE_UNUSED(type);
#endif

      const U32 matIndex = draw.matIndex & TSDrawPrimitive::MaterialMask;
      BaseMatInstance *matInst = materials->getMaterialInst( matIndex );

#ifndef TORQUE_OS_MAC

      // Get the instancing material if this mesh qualifies.
      if ( meshType != SkinMeshType && pb->mPrimitiveArray[i].numVertices < smMaxInstancingVerts )
         matInst = InstancingMaterialHook::getInstancingMat( matInst );

#endif

      // If we don't have a material instance after the overload then
      // there is nothing to render... skip this primitive.
      matInst = state->getOverrideMaterial( matInst );
      if ( !matInst || !matInst->isValid())
         continue;

      // If the material needs lights then gather them
      // here once and set them on the core render inst.
      if ( matInst->isForwardLit() && !coreRI->lights[0] && rdata.getLightQuery() )
         rdata.getLightQuery()->getLights( coreRI->lights, 8 );

      MeshRenderInst *ri = renderPass->allocInst<MeshRenderInst>();
      *ri = *coreRI;

      ri->matInst = matInst;
      ri->defaultKey = matInst->getStateHint();
      ri->primBuffIndex = i;

      // Translucent materials need the translucent type.
      if ( matInst->getMaterial()->isTranslucent() )
      {
         ri->type = RenderPassManager::RIT_Translucent;
         ri->translucentSort = true;
      }

      renderPass->addInst( ri );
   }
}