ThirdParty-6/ParaView-5.0.1/VTK/Common/ExecutionModel/vtkMultiTimeStepAlgorithm.cxx

/*=========================================================================

Program:   Visualization Toolkit
Module:    vtkMultiTimeStepAlgorithm.cxx

Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm for details.

This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE.  See the above copyright notice for more information.

=========================================================================*/
#include "vtkMultiTimeStepAlgorithm.h"

#include "vtkCommand.h"
#include "vtkCompositeDataPipeline.h"
#include "vtkDataSet.h"
#include "vtkInformation.h"
#include "vtkInformationVector.h"
#include "vtkObjectFactory.h"
#include "vtkSmartPointer.h"
#include "vtkStreamingDemandDrivenPipeline.h"
#include "vtkInformationKey.h"
#include "vtkInformationDoubleVectorKey.h"
#include "vtkMultiBlockDataSet.h"

vtkStandardNewMacro(vtkMultiTimeStepAlgorithm);

vtkInformationKeyMacro(vtkMultiTimeStepAlgorithm, UPDATE_TIME_STEPS, DoubleVector);

//----------------------------------------------------------------------------
// Instantiate object so that cell data is not passed to output.
vtkMultiTimeStepAlgorithm::vtkMultiTimeStepAlgorithm()
{
  this->RequestUpdateIndex=0;
  this->SetNumberOfInputPorts(1);
  this->CacheData = false;
  this->NumberOfCacheEntries = 1;
}

//----------------------------------------------------------------------------
bool vtkMultiTimeStepAlgorithm::IsInCache(double time, size_t& idx)
{
  std::vector<TimeCache>::iterator it = this->Cache.begin();
  for(idx = 0; it != this->Cache.end(); it++, idx++)
    {
    if (time == it->TimeValue)
      {
      return true;
      }
    }
  return false;
}

//----------------------------------------------------------------------------
int vtkMultiTimeStepAlgorithm::ProcessRequest(
  vtkInformation* request,
  vtkInformationVector** inputVector,
  vtkInformationVector* outputVector)
{
  // create the output
  if(request->Has(vtkDemandDrivenPipeline::REQUEST_DATA_OBJECT()))
    {
    return this->RequestDataObject(request, inputVector, outputVector);
    }


  // set update extent
  if(request->Has(vtkCompositeDataPipeline::REQUEST_UPDATE_EXTENT()))
    {
    int retVal(1);
    vtkInformation *inInfo = inputVector[0]->GetInformationObject(0);
    if(this->RequestUpdateIndex==0)
      {
      retVal = this->RequestUpdateExtent(request, inputVector, outputVector);

      double *upTimes =  inInfo->Get(UPDATE_TIME_STEPS());
      int numUpTimes =  inInfo->Length(UPDATE_TIME_STEPS());
      this->UpdateTimeSteps.clear();
      for(int i=0; i<numUpTimes; i++)
        {
        this->UpdateTimeSteps.push_back(upTimes[i]);
        }
      inInfo->Remove(UPDATE_TIME_STEPS());
      }

    size_t nTimeSteps = this->UpdateTimeSteps.size();
    if(nTimeSteps > 0)
      {
      bool inCache = true;
      for (size_t i=0; i<nTimeSteps; i++)
        {
        size_t idx;
        if (!this->IsInCache(this->UpdateTimeSteps[i], idx))
          {
          inCache = false;
          break;
          }
        }
      if (!inCache)
        {
        inInfo->Set(vtkStreamingDemandDrivenPipeline::UPDATE_TIME_STEP(),
          this->UpdateTimeSteps[this->RequestUpdateIndex]);
        }
      else
        {
        // Ask for any time step. This should not update unless something else changed.
        inInfo->Remove(vtkStreamingDemandDrivenPipeline::UPDATE_TIME_STEP());
        }
      }
    return retVal;
    }

  // generate the data
  if(request->Has(vtkCompositeDataPipeline::REQUEST_DATA()))
    {
    int retVal=1;
    vtkInformation *inInfo = inputVector[0]->GetInformationObject(0);
    vtkDataObject* inData = inInfo->Get(vtkDataObject::DATA_OBJECT());

    if(this->UpdateTimeSteps.size()==0)
      {
      vtkErrorMacro("No temporal data has been requested. ");
      return 0;
      }

    if(this->RequestUpdateIndex==0) //first time step
      {
      this->MDataSet = vtkSmartPointer<vtkMultiBlockDataSet>::New();
      this->MDataSet->SetNumberOfBlocks(static_cast<unsigned int>(this->UpdateTimeSteps.size()));
      }

    vtkSmartPointer<vtkDataObject> inDataCopy;
    inDataCopy.TakeReference(inData->NewInstance());
    inDataCopy->ShallowCopy(inData);

    size_t idx;
    if (!this->IsInCache(this->UpdateTimeSteps[this->RequestUpdateIndex], idx))
      {
      this->Cache.push_back(
        TimeCache(this->UpdateTimeSteps[this->RequestUpdateIndex], inDataCopy));
      }

    this->RequestUpdateIndex++;

    size_t nTimeSteps = this->UpdateTimeSteps.size();
    if(this->RequestUpdateIndex==static_cast<int>(nTimeSteps)) // all the time steps are here
      {
      for (size_t i=0; i<nTimeSteps; i++)
        {
        if (this->IsInCache(this->UpdateTimeSteps[i], idx))
          {
          this->MDataSet->SetBlock(static_cast<unsigned int>(i), this->Cache[idx].Data.GetPointer());
          }
        else
          {
          // This should never happen
          abort();
          }
        }

      //change the input to the multiblock data and let child class to do the work
      //make sure to set the input back to what it was to not break anything upstream
      inData->Register(this);
      inInfo->Set(vtkDataObject::DATA_OBJECT(),this->MDataSet);
      retVal = this->RequestData(request, inputVector, outputVector);
      inInfo->Set(vtkDataObject::DATA_OBJECT(),inData);
      inData->Delete();

      this->UpdateTimeSteps.clear();
      this->RequestUpdateIndex = 0;
      this->MDataSet = NULL;
      if (!this->CacheData)
        {
        // No caching, remove all
        this->Cache.clear();
        }
      else
        {
        // Caching, erase ones outside the cache
        // Note that this is a first in first out implementation
        size_t cacheSize = this->Cache.size();
        if (cacheSize > this->NumberOfCacheEntries)
          {
          size_t nToErase = cacheSize - this->NumberOfCacheEntries;
          this->Cache.erase(this->Cache.begin(), this->Cache.begin() + nToErase);
          }
        }
      request->Remove(vtkStreamingDemandDrivenPipeline::CONTINUE_EXECUTING());
      }
    else
      {
      request->Set(vtkStreamingDemandDrivenPipeline::CONTINUE_EXECUTING(), 1);
      }

    return retVal;
    }

  // execute information
  if(request->Has(vtkDemandDrivenPipeline::REQUEST_INFORMATION()))
    {
    // Upstream changed, clear the cache.
    this->Cache.clear();
    return this->RequestInformation(request, inputVector, outputVector);
    }

  return this->Superclass::ProcessRequest(request, inputVector, outputVector);
}


//----------------------------------------------------------------------------
void vtkMultiTimeStepAlgorithm::PrintSelf(ostream& os, vtkIndent indent)
{
  this->Superclass::PrintSelf(os,indent);
}