/*=========================================================================
Program: Visualization Toolkit
Module: TaskParallelism.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.
=========================================================================*/
// This example demonstrates how to write a task parallel application
// with VTK. It creates two different pipelines and assigns each to
// one processor. These pipelines are:
// 1. rtSource -> contour -> probe
// \ /
// -> gradient magnitude
// 2. rtSource -> gradient -> shrink -> glyph3D
// See task1.cxx and task2.cxx for the pipelines.
#include "TaskParallelism.h"
#include "vtkCompositeRenderManager.h"
#include "vtkPolyDataMapper.h"
#include "vtkRenderWindow.h"
#include "vtkRenderWindowInteractor.h"
// This function sets up properties common to both processes
// and executes the task corresponding to the current process
void process(vtkMultiProcessController* controller, void* vtkNotUsed(arg))
{
taskFunction task;
int myId = controller->GetLocalProcessId();
// Chose the appropriate task (see task1.cxx and task2.cxx)
if ( myId == 0 )
{
task = task1;
}
else
{
task = task2;
}
// Setup camera
vtkCamera* cam = vtkCamera::New();
cam->SetPosition( -0.6105, 1.467, -6.879 );
cam->SetFocalPoint( -0.0617558, 0.127043, 0 );
cam->SetViewUp( -0.02, 0.98, 0.193 );
cam->SetClippingRange( 3.36, 11.67);
cam->Dolly(0.8);
// Create the render objects
vtkRenderWindow* renWin = vtkRenderWindow::New();
renWin->SetSize( WINDOW_WIDTH, WINDOW_HEIGHT );
vtkRenderWindowInteractor* iren = vtkRenderWindowInteractor::New();
iren->SetRenderWindow(renWin);
// This class allows all processes to composite their images.
// The root process then displays it in it's render window.
vtkCompositeRenderManager* tc = vtkCompositeRenderManager::New();
tc->SetRenderWindow(renWin);
// Generate the pipeline see task1.cxx and task2.cxx)
vtkPolyDataMapper* mapper = (*task)(renWin, EXTENT, cam);
// Only the root process will have an active interactor. All
// the other render windows will be slaved to the root.
tc->StartInteractor();
// Clean-up
iren->Delete();
if (mapper)
{
mapper->Delete();
}
renWin->Delete();
cam->Delete();
}
int main( int argc, char* argv[] )
{
// Note that this will create a vtkMPIController if MPI
// is configured, vtkThreadedController otherwise.
vtkMPIController* controller = vtkMPIController::New();
controller->Initialize(&argc, &argv);
// When using MPI, the number of processes is determined
// by the external program which launches this application.
// However, when using threads, we need to set it ourselves.
if (controller->IsA("vtkThreadedController"))
{
// Set the number of processes to 2 for this example.
controller->SetNumberOfProcesses(2);
}
int numProcs = controller->GetNumberOfProcesses();
if (numProcs != 2)
{
cerr << "This example requires two processes." << endl;
controller->Finalize();
controller->Delete();
return 1;
}
// Execute the function named "process" on both processes
controller->SetSingleMethod(process, 0);
controller->SingleMethodExecute();
// Clean-up and exit
controller->Finalize();
controller->Delete();
return 0;
}
