Exemplo n.º 1
0
void VFreeCamera::ClearWASDAlternativeIndices()
{
  for (int i = 0; i < V_ARRAY_SIZE(m_iWASDAlternativeIndices); i++)
  {
    m_iWASDAlternativeIndices[i] = -1;
  }
}
Exemplo n.º 2
0
  /// Returns the sampler index of one of the textures used for rendering the sector mesh.
  inline int GetSamplerIndexByTexture(VTextureObject* pTexture)
  {
    for(int iSamplerIdx = 0; iSamplerIdx < V_ARRAY_SIZE(m_spSamplerTexture); iSamplerIdx++)
    {
      if(m_spSamplerTexture[iSamplerIdx] == pTexture)
      {
        return iSamplerIdx;
      }
    }

    return -1;
  }
Exemplo n.º 3
0
  /// Returns one of the textures used for rendering the sector mesh.
  inline VTextureObject* GetTextureBySamplerIndex(unsigned int iSamplerIdx) const
  {
    VASSERT(iSamplerIdx < V_ARRAY_SIZE(m_spSamplerTexture));

    return m_spSamplerTexture[iSamplerIdx];
  }
Exemplo n.º 4
0
  /// Sets one of the channel textures used for rendering the sector mesh.
  void SetTextureBySamplerIndex(VTextureObject *pTextureObject, unsigned int iSamplerIdx)
  {
    VASSERT(iSamplerIdx < V_ARRAY_SIZE(m_spSamplerTexture));

    m_spSamplerTexture[iSamplerIdx] = pTextureObject;
  }
Exemplo n.º 5
0
#include <Vision/Editor/vForge/AssetManagement/VisionAssets/Assets/hkvFbxAsset.hpp>
#include <Vision/Editor/vForge/AssetManagement/AssetFramework/Assets/hkvAssetTypeManager.hpp>
#include <Vision/Editor/vForge/AssetManagement/AssetFramework/hkvAssetLibrary.hpp>
#include <Vision/Editor/vForge/AssetManagement/AssetFramework/Assets/hkvAssetTrackedFile.hpp>

hkvAssetTypeInfo* hkvFbxAsset::s_typeInfo = NULL;
const hkvAssetTypeInfoHandle* hkvFbxAsset::s_typeInfoHandle = NULL;

const char* hkvFbxTargetNames[] =
{
  "None",
  "Single Output",
  "Multiple Outputs",
};

HK_COMPILE_TIME_ASSERT(V_ARRAY_SIZE(hkvFbxTargetNames) == HKV_FBX_TARGET_COUNT);

hkvEnumDefinition hkvFbxAsset::s_fbxTargetDefinition(HKV_FBX_TARGET_COUNT, hkvFbxTargetNames);

/////////////////////////////////////////////////////////////////////////////
// hkvFbxAsset static functions
/////////////////////////////////////////////////////////////////////////////

void hkvFbxAsset::StaticInit()
{
  s_typeInfo = new hkvAssetTypeInfo();
  s_typeInfo->m_name = "FBX";
  s_typeInfo->m_createFunc = &CreateAsset;
  s_typeInfo->m_supportedFileExtensions.pushBack("fbx");
  s_typeInfo->m_szTypeIconQt = ":/Icons/Icons/FBX.png";
  s_typeInfo->m_profileIndependentTransform = true;
void VMobileForwardRenderLoop::RenderLitGeometry(VisLightSource_cl *pLight, IVShadowMapComponent *pShadowMapComponent, bool bBasePass, bool bUsesLightClippingVolume, bool bEntities, bool bStaticGeometry)
{
  if (!pLight)
    return;

  // Some local variables for storing surfaces, shaders, surface shaders, and the like.
  VCompiledTechnique *pTechnique = NULL;
  VisDrawCallInfo_t SurfaceShaderList[RLP_MAX_ENTITY_SURFACESHADERS];

  VisRenderContext_cl *pContext = VisRenderContext_cl::GetCurrentContext();
  const hkvVec3 &vCamPos = pContext->GetCamera()->GetPosition();
 
  const float fFade = pLight->GetFadeWeight(vCamPos);

  VisStaticGeometryInstanceCollection_cl *pLitGeoInstanceCollection = NULL;
  VisEntityCollection_cl *pLitEntityCollection = NULL;

  if (bBasePass || pLight != m_pBasePassLight)
  {
    if (bStaticGeometry)
    {
      pLitGeoInstanceCollection = &s_LitGeoInstanceCollection;
      pLitGeoInstanceCollection->Clear();
    }
    if (bEntities)
    {
      pLitEntityCollection = &s_LitEntityCollection;
      pLitEntityCollection->Clear();
    }

    Vision::RenderLoopHelper.GetVisibleGeometryInLightsourceRange(pLitGeoInstanceCollection, pLitEntityCollection, NULL, *pLight);
  }
  else
  {
    if (bStaticGeometry)
      pLitGeoInstanceCollection = &m_AdditiveLitGeoInstanceCollection;
    if (bEntities)
      pLitEntityCollection = &m_AdditiveLitEntityCollection;
  }

#ifdef SUPPORTS_SHADOW_MAPS
  VShadowMapGenSpotDir *pShadowMapGenDir = NULL;
  if (pShadowMapComponent)
  {
    VShadowMapGenerator *pShadowMapGen = pShadowMapComponent->GetShadowMapGenerator();
    if (pShadowMapGen->GetProjectionType()==SHADOW_PROJECTION_ORTHOGRAPHIC)
      pShadowMapGenDir = static_cast<VShadowMapGenSpotDir*>(pShadowMapGen);
  }
#endif

  // Set the stencil render state for reading light clipping volume information
  if(bUsesLightClippingVolume)
  {
    const VLightClippingVolumeComponent* pLightClippingComponent = pLight->Components().GetComponentOfBaseType<VLightClippingVolumeComponent>();
    VASSERT(pLightClippingComponent != NULL && V_ARRAY_SIZE(m_lightClippingStencilStatesRead)==2);
    VisRenderStates_cl::SetDepthStencilState(m_lightClippingStencilStatesRead[pLightClippingComponent->GetClipHandedness()]);
  }
  else
    VisRenderStates_cl::SetDepthStencilState(m_dynLightDefaultState);

  // For all illuminated entities: Render a dynamic lighting pass now.
  if (pLight->GetLightInfluenceBitMaskEntity() != 0  && bEntities)
  {
    int iNumLitEntities = pLitEntityCollection->GetNumEntries();

    Vision::RenderLoopHelper.BeginEntityRendering();

    for (int j=0; j<iNumLitEntities; j++)
    {
      VisBaseEntity_cl *pEntity = pLitEntityCollection->GetEntry(j);

      if (!(pEntity->GetLightInfluenceBitMask() & pLight->GetLightInfluenceBitMaskEntity()))
        continue;

      VDynamicMesh *pMesh = pEntity->GetMesh();
      VisSurface_cl **ppSurfaces = pEntity->GetSurfaceArray();

      // Get list of all the surfaces in the model
      int iNumSubmeshes = pMesh->GetSubmeshCount();
      int iNumSurfaceShaders = 0;

      // For all the surfaces...
      for (int k=0; k<iNumSubmeshes; k++)
      {
        VDynamicSubmesh *pSubmesh = pMesh->GetSubmesh(k);
        VisSurface_cl *pSurface = ppSurfaces[pSubmesh->m_iMaterialIndex];

        // Full-bright surfaces can't be rendered in the compound base pass, since such surfaces are not illuminated. Since tagging
        // of already rendered geometry happens per entity instance, in case an entity contains full-bright surfaces, all surfaces 
        // of this entity have to be rendered in the normal rendering pipeline.
        const VisLightingMethod_e eLightingMethod = pSurface->GetLightingMode();
        if (bBasePass)
        {
          // Since entities can contain several surfaces with different lighting methods (full-bright, dynamic only, etc.), entities 
          // with full-bright surfaces have to be also added to the additive lit entity collection, in order to ensure rendering of 
          // dynamic only surfaces.
          if (eLightingMethod==VIS_LIGHTING_FULLBRIGHT)
          {
            iNumSurfaceShaders = 0;
            m_AdditiveLitEntityCollection.AppendEntry(pEntity);
            break; 
          }
        }
        else
        {
          if (eLightingMethod == VIS_LIGHTING_FULLBRIGHT)
            continue;
        }

        // If not all surfaces have a primary opaque pass type in the base pass, then render corresponding entity 
        // in the additive lighting pass.
        if (bBasePass && pSurface->GetResolvedPassType()!=VPT_PrimaryOpaquePass)
        {
          iNumSurfaceShaders = 0;
          m_AdditiveLitEntityCollection.AppendEntry(pEntity);
          break; 
        }

        // Check whether entity is in current shadow volume for orthographic shadows. In that case the entity is rendered
        // without shadows since it is not in the relevant shadow volume.
        IVShadowMapComponent *pTmpShadowMapComponent = pShadowMapComponent;
#ifdef SUPPORTS_SHADOW_MAPS
        if (pShadowMapGenDir)
        {
          if (!pShadowMapGenDir->IsEntityInsideOrthoShadowVolume(pEntity))
            pTmpShadowMapComponent = NULL;
        }
#endif

        pTechnique = GetLightShader(pLight, bBasePass, pSurface, fFade, pTmpShadowMapComponent);
        if (!pTechnique || !pTechnique->GetShaderCount()) // do not light this surface
        {
          // If base-pass lighting technique could not be retrieved, render lit entity in the additive pass.
          if (bBasePass && pLight->IsDynamic())
            m_AdditiveLitEntityCollection.AppendEntry(pEntity);
          iNumSurfaceShaders = 0;
          break; 
        }

        // Generate a list of surface shader from the combined surface/shader information
        VisDrawCallInfo_t &info(SurfaceShaderList[iNumSurfaceShaders++]);
        info.Set(pSubmesh, pSurface, pTechnique->m_Shaders.GetAt(0));
      }

      // Finally, render the entity with a surface shader list.
      if (iNumSurfaceShaders>0)
      {
        Vision::RenderLoopHelper.RenderEntityWithSurfaceShaderList(pEntity, iNumSurfaceShaders, SurfaceShaderList);
        if (bBasePass)
          pEntity->Tag();
      }
    }

    Vision::RenderLoopHelper.EndEntityRendering();
  }

  // For all illuminated world primitives: Render a dynamic lighting pass now.
  if (pLight->GetLightInfluenceBitMaskWorld() != 0 && bStaticGeometry)
  {
    VisSurface_cl *pSurface;
    VisSurface_cl *pLastSurface = NULL;
    VCompiledTechnique *pLastTechnique = NULL;

    // We start collecting illuminated mesh instances. Whenever a relevant property changes, we set the
    // shader information, render all collected world instances, and start collecting from scratch.
    int iNumLitGeoInstances = pLitGeoInstanceCollection->GetNumEntries();
    pLastSurface = NULL;
    s_RenderGeoInstanceCollection.Clear();
    pLastTechnique = NULL;

    for (int j=0; j<iNumLitGeoInstances; j++)
    {
      VisStaticGeometryInstance_cl *pGI = pLitGeoInstanceCollection->GetEntry(j);

      pSurface = pGI->GetSurface();
      VASSERT(pSurface);
      if (pSurface->IsFullbright()) 
        continue; 

      // If surface does not have a primary opaque pass type in the base pass, then render corresponding static
      // mesh instance in the additive lighting pass.
      if (bBasePass && pSurface->GetResolvedPassType()!=VPT_PrimaryOpaquePass)
      {
        m_AdditiveLitGeoInstanceCollection.AppendEntry(pGI);
        continue;
      }

      // Check whether mesh is in current shadow volume for orthographic shadows. In that case the mesh is rendered
      // without shadows since it is not in the relevant shadow volume.
      IVShadowMapComponent *pTmpShadowMapComponent = pShadowMapComponent;
#ifdef SUPPORTS_SHADOW_MAPS
      if (pShadowMapGenDir)
      {
        if (!pShadowMapGenDir->IsMeshInsideOrthoShadowVolume(pGI))
          pTmpShadowMapComponent = NULL;
      }
#endif

      if (pLastSurface!=pSurface)
      { 
        pTechnique = GetLightShader(pLight, bBasePass, pSurface, fFade, pTmpShadowMapComponent);          
        pLastSurface = pSurface;
      }
      if (pTechnique == NULL || !pTechnique->GetShaderCount())
      {
        // If base-pass lighting technique could not be retrieved, render lit mesh in the additive pass.
        if (bBasePass && pLight->IsDynamic())
          m_AdditiveLitGeoInstanceCollection.AppendEntry(pGI);
        continue; 
      }

      // If the state information is different from the previous one, we have to render the world primitives we
      // have collected so far
      if (pLastTechnique!=pTechnique)
      {
        if (s_RenderGeoInstanceCollection.GetNumEntries()!=0)
        {
          VASSERT(pLastTechnique != NULL);
          Vision::RenderLoopHelper.RenderStaticGeometryWithShader(s_RenderGeoInstanceCollection, *pLastTechnique->m_Shaders.GetAt(0));
          if (bBasePass)
            s_RenderGeoInstanceCollection.TagEntries();
          s_RenderGeoInstanceCollection.Clear();      
        }
        // Update the stored state information
        pLastTechnique = pTechnique;
      }
      // Naturally, we have to append the primitive to our collection (otherwise it won't be collected =) ).
      s_RenderGeoInstanceCollection.AppendEntry(pGI);
    }

    // If there's still something left in the collection, render it as well.
    if (s_RenderGeoInstanceCollection.GetNumEntries()!=0)
    {
      if (pLastTechnique && pLastTechnique->GetShaderCount()>0)
      {
        Vision::RenderLoopHelper.RenderStaticGeometryWithShader(s_RenderGeoInstanceCollection, *pLastTechnique->m_Shaders.GetAt(0));
        if (bBasePass)
          s_RenderGeoInstanceCollection.TagEntries();
      } 
      s_RenderGeoInstanceCollection.Clear();
    }
  }

  // Restore default render state
  VisRenderStates_cl::SetDepthStencilState(*VisRenderStates_cl::GetDepthStencilDefaultState());
}