Exemplo n.º 1
0
void VUINodeImage::OnVariableValueChanged(VisVariable_cl *pVar, const char * value)
{
	VASSERT (pVar);
	VASSERT (value);

	if (pVar->name && strcmp(pVar->name, "Texture") == 0)
	{
		VTextureObject* spTexture = Vision::TextureManager.Load2DTexture( value );
		Image().SetTexture( spTexture );
	}	
	else if (pVar->name && strcmp(pVar->name, "m_eTransp") == 0)
	{		
		sscanf(value,"%d",&m_eTransp);
		Image().SetTransparency(m_eTransp);
	}
	else if (pVar->name && strcmp(pVar->name, "m_eStretcheMode") == 0)
	{
		sscanf(value,"%d",&m_eStretcheMode);	
		Image().SetStretchMode( m_eStretcheMode );
	}
	else if (pVar->name && strcmp(pVar->name, "ShaderEffect") == 0)
	{
	

	//	Image().SetTechnique( spTexture );
	}
	else if (pVar->name && strcmp(pVar->name, "TextureRange") == 0)
	{
		float fComponents[4];
		int iCount = sscanf(value,"%f/%f/%f/%f",&fComponents[0],&fComponents[1],&fComponents[2],&fComponents[3]);
	
		VRectanglef coord;
		coord.Add( hkvVec2(fComponents[0],fComponents[1]));
		coord.Add( hkvVec2(fComponents[2],fComponents[3]));

		Image().SetTextureRange( coord );
	}
	else if (pVar->name && strcmp(pVar->name, "Color") == 0)
	{
		int iComponents[4];
		int iCount = sscanf(value,"%i/%i/%i/%i",&iComponents[0],&iComponents[1],&iComponents[2],&iComponents[3]);

		VColorRef color(iComponents[0],iComponents[1],iComponents[2],iComponents[3]);	
		SetColor( color );
	}	
}
Exemplo n.º 2
0
// TODO: This doesn't handle opaque fullbright surfaces correctly yet, and translucent fullbright surfaces are simply ignored.
void MirrorRenderLoop_cl::OnDoRenderLoop(void *pUserData)
{
  INSERT_PERF_MARKER_SCOPE("MirrorRenderLoop_cl::OnDoRenderLoop");

#if defined (WIN32) || defined (_VISION_XENON) || defined (_VISION_PS3) || defined(_VISION_PSP2) || defined(_VISION_WIIU)
  if (Vision::Editor.GetIgnoreAdvancedEffects())
  {
    // force a black reflection because it won't work with orthographic views
    Vision::RenderLoopHelper.ClearScreen(VisRenderLoopHelper_cl::VCTF_All, V_RGBA_BLACK);
    return;
  }
#endif

  VisRenderContext_cl *pContext = Vision::Contexts.GetCurrentContext();

  const int iRenderFlags = pContext->GetRenderFlags();

  const float fFarClipDist = m_pMirror->GetActualFarClipDistance();

  const VFogParameters &fog = Vision::World.GetFogParameters();
  VColorRef clearColor = (fog.depthMode != VFogParameters::Off) ? fog.iDepthColor : Vision::Renderer.GetDefaultClearColor();
  Vision::RenderLoopHelper.ClearScreen(VisRenderLoopHelper_cl::VCTF_All, clearColor);

  // set the oblique clipping plane...
  pContext->SetCustomProjectionMatrix (m_pMirror->GetObliqueClippingProjection().getPointer ());

  const VisStaticGeometryInstanceCollection_cl *pVisibleGeoInstancesPrimaryOpaquePass;
  const VisStaticGeometryInstanceCollection_cl *pVisibleGeoInstancesSecondaryOpaquePass;
  const VisStaticGeometryInstanceCollection_cl *pVisibleGeoInstancesTransparentPass;
  const VisEntityCollection_cl *pVisEntities;


  // === Visibility Determination ===

  IVisVisibilityCollector_cl *pVisColl = VisRenderContext_cl::GetCurrentContext()->GetVisibilityCollector();
  if (pVisColl == NULL)
    return;
  const VisVisibilityObjectCollection_cl *pVisObjectCollection = pVisColl->GetVisibleVisObjects();

  hkvAlignedBBox box;
  int iVoCount = m_pMirror->GetVisibilityObjectCount();
  int iFrustumCount = 0;
  bool bUseCommonFrustum = false;

  // === Determine Scissor Rect ===
  hkvVec2 vMinScreenSpace, vMaxScreenSpace;
  const hkvAlignedBBox &worldSpaceBox = m_pMirror->GetBoundingBox();

  hkvVec3 vCorners[8];
  worldSpaceBox.getCorners (vCorners);

  VRectanglef scissorRect;
  bool bUseScissorRect = true;
  for (int i=0; i<8; i++)
  {
    float x2d, y2d;
    BOOL bInFrontOfCamera = pContext->Project2D(vCorners[i], x2d, y2d);
    if (bInFrontOfCamera)
    {
      scissorRect.Add(hkvVec2(x2d, y2d));
    }
    else
    {
      bUseScissorRect = false;
      break;
    }
  }

  if (bUseScissorRect)
    Vision::RenderLoopHelper.SetScissorRect(&scissorRect);

  for (int iVo = 0; iVo < iVoCount; iVo++)
  {
    VisVisibilityObject_cl *pVisObj = m_pMirror->GetVisibilityObject(iVo);
    if (pVisObj != NULL && pVisObj->WasVisibleInAnyLastFrame())
    {
      if (iFrustumCount <= MAX_SEPARATE_FRUSTA)
      {
        const hkvAlignedBBox &voBox = pVisObj->GetWorldSpaceBoundingBox();
        box.expandToInclude(voBox);
        if (m_Frustum[iFrustumCount].Set(pContext->GetCamera()->GetPosition(), voBox, true, fFarClipDist))
        {
          iFrustumCount++;
        }
        else
        {
          bUseCommonFrustum = true;
        }
      }
      else
      {
        const hkvAlignedBBox &voBox = pVisObj->GetWorldSpaceBoundingBox();
        box.expandToInclude(voBox);
        bUseCommonFrustum = true;
      }
    }
  }

  if (bUseCommonFrustum)
  {
    iFrustumCount = 1;
    if (!m_Frustum[0].Set(pContext->GetCamera()->GetPosition(), box, true, fFarClipDist))
      iFrustumCount = 0;
  }

  if (iFrustumCount>0)
  {
    for (int i=0; i<iFrustumCount; i++)
    {
      m_visiblePrimaryOpaquePassGeoInstances.Clear();
      m_visibleSecondaryOpaquePassGeoInstances.Clear();
      m_visibleTransparentOpaquePassGeoInstances.Clear();
      m_visEntities.Clear();
      pVisColl->GetVisibleStaticGeometryInstancesForPass(VPT_PrimaryOpaquePass)->DetermineEntriesTouchingFrustum(m_Frustum[i], m_visiblePrimaryOpaquePassGeoInstances);
      pVisColl->GetVisibleStaticGeometryInstancesForPass(VPT_SecondaryOpaquePass)->DetermineEntriesTouchingFrustum(m_Frustum[i], m_visibleSecondaryOpaquePassGeoInstances);
      pVisColl->GetVisibleStaticGeometryInstancesForPass(VPT_TransparentPass)->DetermineEntriesTouchingFrustum(m_Frustum[i], m_visibleTransparentOpaquePassGeoInstances);
      pVisColl->GetVisibleEntities()->DetermineEntriesTouchingFrustum(m_Frustum[i], m_visEntities);
      if (iFrustumCount == 1)
        break;
      m_visiblePrimaryOpaquePassGeoInstances.TagEntries();
      m_visibleSecondaryOpaquePassGeoInstances.TagEntries();
      m_visibleTransparentOpaquePassGeoInstances.TagEntries();
      m_visEntities.TagEntries();
    }
    if (iFrustumCount > 1)
    {
      m_visiblePrimaryOpaquePassGeoInstances.Clear();
      m_visibleSecondaryOpaquePassGeoInstances.Clear();
      m_visibleTransparentOpaquePassGeoInstances.Clear();
      m_visEntities.Clear();
      pVisColl->GetVisibleStaticGeometryInstancesForPass(VPT_PrimaryOpaquePass)->GetTaggedEntries(m_visiblePrimaryOpaquePassGeoInstances);
      pVisColl->GetVisibleStaticGeometryInstancesForPass(VPT_SecondaryOpaquePass)->GetTaggedEntries(m_visibleSecondaryOpaquePassGeoInstances);
      pVisColl->GetVisibleStaticGeometryInstancesForPass(VPT_TransparentPass)->GetTaggedEntries(m_visibleTransparentOpaquePassGeoInstances);
      pVisColl->GetVisibleEntities()->GetTaggedEntries(m_visEntities);
    }
    pVisibleGeoInstancesPrimaryOpaquePass = &m_visiblePrimaryOpaquePassGeoInstances;
    pVisibleGeoInstancesSecondaryOpaquePass = &m_visibleSecondaryOpaquePassGeoInstances;
    pVisibleGeoInstancesTransparentPass = &m_visibleTransparentOpaquePassGeoInstances;
    pVisEntities = &m_visEntities;
  }
  else
  {
    pVisibleGeoInstancesPrimaryOpaquePass = pVisColl->GetVisibleStaticGeometryInstancesForPass(VPT_PrimaryOpaquePass);
    pVisibleGeoInstancesSecondaryOpaquePass = pVisColl->GetVisibleStaticGeometryInstancesForPass(VPT_SecondaryOpaquePass);
    pVisibleGeoInstancesTransparentPass = pVisColl->GetVisibleStaticGeometryInstancesForPass(VPT_TransparentPass);
    pVisEntities = pVisColl->GetVisibleEntities();
  }

  // === End Visibility Determination ===

  if (m_pMirror->GetExecuteRenderHooks())
  {
    VisRenderHookDataObject_cl data(&Vision::Callbacks.OnRenderHook,VRH_PRE_PRIMARY_OPAQUE_PASS_GEOMETRY);
    Vision::Callbacks.OnRenderHook.TriggerCallbacks(&data);
  }

  // Render opaque static geometry
  VASSERT(m_spDefaultLightMapping->m_Shaders.Count()==1);

  TRIGGER_MIRROR_HOOK(VRH_PRE_PRIMARY_OPAQUE_PASS_GEOMETRY)
  VisMirror_cl::VReflectionShaderSets_e shaderMode = m_pMirror->m_eReflectionShaderMode;
  DrawStaticGeometry(*pVisibleGeoInstancesPrimaryOpaquePass, VPT_PrimaryOpaquePass);
  DrawStaticGeometry(*pVisibleGeoInstancesSecondaryOpaquePass, VPT_SecondaryOpaquePass);

  // Render entities
  const VisEntityCollection_cl *pEntities = pVisEntities;
  int iCount = pEntities->GetNumEntries();
  VASSERT(m_spDefaultLightGrid->m_Shaders.Count()==1);
  //VCompiledShaderPass *pLightgridShader = m_spDefaultLightGrid->m_Shaders.GetAt(0);
  int i;
  //bool bUseSimpleShader = shaderMode==VisMirror_cl::AlwaysSimple;

  Vision::RenderLoopHelper.BeginEntityRendering();

  for (i=0;i<iCount;i++)
  { 
    VisBaseEntity_cl *pEnt = pEntities->GetEntry(i);

//    Vision::RenderLoopHelper.TrackLightGridInfo(pEnt);  // important: need to be done in RenderEntityWithSurfaceShaderList

    //if (bUseSimpleShader)
    //{
    //  Vision::RenderLoopHelper.RenderEntityWithShaders(pEnt,1,&pLightgridShader);
    //}
    //else
    {
      VisDrawCallInfo_t surfaceShaderList[RLP_MAX_ENTITY_SURFACES];
      VDynamicMesh *pMesh = pEnt->GetMesh();
      VisSurface_cl **ppSurfaces = pEnt->GetSurfaceArray();
      int iNumSubmeshes = pMesh->GetSubmeshCount();
      for (int j=0; j<iNumSubmeshes; j++)
      {
        VisDrawCallInfo_t &info(surfaceShaderList[j]);
        VBaseSubmesh* pSubmesh = pMesh->GetSubmesh(j);
        VisSurface_cl* pSurface = ppSurfaces[pSubmesh->m_iMaterialIndex];
        info.Set(pSubmesh, pSurface, GetMirrorShader (pSurface, shaderMode));
      }

      Vision::RenderLoopHelper.RenderEntityWithSurfaceShaderList(pEnt, iNumSubmeshes, surfaceShaderList);
    }
  }

  Vision::RenderLoopHelper.EndEntityRendering();

  // Render Sky
  if (VSky::IsVisible())
  {
    // The sky has to be rendered without oblique clipping
    pContext->SetCustomProjectionMatrix(NULL);
    Vision::RenderLoopHelper.RenderSky();
    // set the oblique clipping plane after sky...
    pContext->SetCustomProjectionMatrix (m_pMirror->GetObliqueClippingProjection().getPointer ());
  }

  if (m_pMirror->GetExecuteRenderHooks())
  {
    VisRenderHookDataObject_cl data(&Vision::Callbacks.OnRenderHook,VRH_PRE_OCCLUSION_TESTS);
    Vision::Callbacks.OnRenderHook.TriggerCallbacks(&data);
  }

  // Render Coronas / Lens Flares
  VisRenderHookDataObject_cl data(&Vision::Callbacks.OnRenderHook,VRH_CORONAS_AND_FLARES);
  Vision::Callbacks.OnRenderHook.TriggerCallbacks(&data);
  TRIGGER_MIRROR_HOOK(VRH_PRE_OCCLUSION_TESTS)  

  if (iRenderFlags&VIS_RENDERCONTEXT_FLAG_USE_OCCLUSIONQUERY)
    Vision::RenderLoopHelper.PerformHardwareOcclusionQuery();

  if (iRenderFlags&VIS_RENDERCONTEXT_FLAG_USE_PIXELCOUNTER)
    Vision::RenderLoopHelper.PerformHardwarePixelCounterQuery();

  DrawDynamicLight();

  TRIGGER_MIRROR_HOOK(VRH_DECALS)
  TRIGGER_MIRROR_HOOK(VRH_CORONAS_AND_FLARES)

  TRIGGER_MIRROR_HOOK(VRH_PRE_TRANSPARENT_PASS_GEOMETRY)
  DrawStaticGeometry(*pVisibleGeoInstancesTransparentPass, VPT_TransparentPass);
  TRIGGER_MIRROR_HOOK(VRH_POST_TRANSPARENT_PASS_GEOMETRY)

  if (bUseScissorRect)
    Vision::RenderLoopHelper.SetScissorRect(NULL);
}