ParaView: Difference between revisions

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** Inputs: 2 polydata (Source and Target - the source will attempt to be moved to the target)
** Inputs: 2 polydata (Source and Target - the source will attempt to be moved to the target)
** Outputs: 1 polydata - the transformed source dataset
** Outputs: 1 polydata - the transformed source dataset
* [http://www.paraview.org/Wiki/images/a/a1/LandmarkTransform.zip Landmark Transform] - Select three or more corresponding points from two data sets and align the two data sets using a Landmark Transform.
* [http://www.paraview.org/Wiki/images/e/e0/LandmarkTransformPlugin.zip Landmark Transform] - Select three or more corresponding points from two data sets and align the two data sets using a Landmark Transform.
** Inputs: 3 polydatas - 1) SourceLandmarks - A set of points extracted from the source dataset 2) TargetLandmarks - A set of points from the target dataset corresponding (and ordered the same as) the points in the source dataset 3) SourceDataset - The source dataset which will be transformed
** Inputs: 3 polydatas - 1) SourceLandmarks - A set of points extracted from the source dataset 2) TargetLandmarks - A set of points from the target dataset corresponding (and ordered the same as) the points in the source dataset 3) SourceDataset - The source dataset which will be transformed
** Outputs: 1 polydata - the transformed source dataset
** Outputs: 1 polydata - the transformed source dataset
=== Instructions ===
=== Instructions ===
To use these plugins, you must have compiled Paraview from source
To use these plugins, you must have compiled Paraview from source

Revision as of 14:48, 9 November 2009

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ParaView is an open-source, multi-platform application designed to visualize data sets of size varying from small to very large. The goals of the ParaView project include developing an open-source, multi-platform visualization application that support distributed computational models to process large data sets. It has an open, flexible, and intuitive user interface. Furthermore, ParaView is built on an extensible architecture based on open standards. ParaView runs on distributed and shared memory parallel as well as single processor systems and has been succesfully tested on Windows, Linux, Mac OS X, IBM Blue Gene, Cray XT3 and various Unix workstations and clusters. Under the hood, ParaView uses the Visualization Toolkit as the data processing and rendering engine and has a user interface written using the Qt cross-platform application framework.

The goal of this Wiki is to provide up-to-date documentation maintained by the developer and user communities. As such, we welcome volunteers that would like to contribute. If you are interested in contributing, please contact us on the ParaView mailing list http://public.kitware.com/mailman/listinfo/paraview.

You can find more information about ParaView on the ParaView web site: http://paraview.org. For more help, check out http://paraview.org/New/help.html.

Real world concept -> Paraview terminology map

Often new users may say "Surely Paraview can do X... but I can't find it!". This terminology map should help!

Complete list/description of paraview filters

If you're looking through the list of filters in paraview, you may want to know what they all do! Here is a complete list.

Short HowTos

These howtos are instructions for some common operations.

Description/Explanation of Sources

The sources are detailed in the Paraview guide pdf, but here is a little extra explanation.

ParaView In Use

Some examples of how ParaView is used
Screenshots generated by ParaView

Documentation

Compile/Install

Instructions for downloading source as well as pre-compiled binaries for common platforms.
Compiling and installing ParaView from source.

Server Setup

Configuring your cluster to act as a ParaView server.
Using the ParaView client to start the servers.
Customizing server startup and connection processes using XML-based configuration scripts.
To run ParaView on clusters with head nodes - compute nodes

Generating Data

How to write out data in a format that Paraview understands

Python Scripting

Scripting ParaView using python
Generating/Processing data using python.
Using the python shell interface in paraview
Beginning and advanced tutorial sets, each presented as 2 hour classes by Sandia National Laboratories

Animation

Animating file series.
Saving animations on the server without client connection.
Using Animation View to setup animations.
Creating animations involving camera movements.

Plugins

Using and writing new plugins to extend ParaView's functionality.
Including extensions into ParaView at compile time.
A simple wizard application developed by MIRARCO that provides boilerplate code for some of the most common plugin types.

Other Features

Creating visualizations for Print and Screen.
Specify a colormap and save it as an xml file for later use.
Synchronizing filters, clip planes, camera etc.
Loading restarted data for different file formats.
Packaging pipelines into a single composite.
Selecting and focusing on subset of a dataset.
Exporting scenes as VRML, X3D etc.
Backwards compatibility for ParaView state files (*.pvsm).
The locations where ParaView saves settings.
Computing statistics and using them to assess datasets.
How to configure ParaView's image compressor for use during remote rendering.

Books and Tutorials

The official ParaView guide available from Kitware.
An introductory and comprehensive tutorial.
Slides for the advanced topics tutorial by Sandia, Kitware, and LANL.
Slides on topics for installing and using ParaView on visualization clusters.
Beginning and advanced tutorial sets, each presented as 2 hour classes by Sandia National Laboratories
Slides for the advanced topics tutorial by Sandia, Kitware, and CSCS.
This Wiki is full of useful information and tutorials about ParaView.
ParaView related books, articles and papers


Design & Implementation

ParaView GUI Testing framework.
Providing details about blocks, hierarchies, assemblies etc. to the client.
Details on handling multiple views in client-server framework.
Dealing with composite datasets in VTK.
Understanding ParaView's views and representations.
Understanding Time implementation.
Compiling ParaView and VTK on BlueGene and Cray Xt3/Catamount.
Suggestions for online help documentation changes.

ParaView based Applications

Documentation about the StreamingParaView application.

Miscellaneous

Quarterly newsletter for developers designed to deliver detailed technical articles related to Kitware's open source products including ParaView.



ParaView: [Welcome | Site Map]

User created plugins

Please post plugins that you have created that may be useful for other users!

General

  • Add Vertices - If a dataset contains points (geometry) but no vertices (topology), Paraview will not display anything. Use this filter to add vertices to your dataset.
    • Inputs: 1 polydata
    • Outputs: 1 polydata

Registration

  • Iterative Closest Point Transform - Register one point set to another point set using the Iterative Closest Point (ICP) algorithm.
    • Inputs: 2 polydata (Source and Target - the source will attempt to be moved to the target)
    • Outputs: 1 polydata - the transformed source dataset
  • Landmark Transform - Select three or more corresponding points from two data sets and align the two data sets using a Landmark Transform.
    • Inputs: 3 polydatas - 1) SourceLandmarks - A set of points extracted from the source dataset 2) TargetLandmarks - A set of points from the target dataset corresponding (and ordered the same as) the points in the source dataset 3) SourceDataset - The source dataset which will be transformed
    • Outputs: 1 polydata - the transformed source dataset

Instructions

To use these plugins, you must have compiled Paraview from source

  • Unzip the plugin
  • Create a bin directory in the directory in which you have unzipped the plugin:

<source lang="bash"> mkdir bin </source>

  • From the bin directory, run cmake to create the make files:

<source lang="bash"> cmake ../ </source>

  • Compile the plugin:

<source lang="bash"> make </source>

  • Load the plugin in Paraview: 1) Tools -> Manage Plugins/Extensions 2) On the right pane, click Load New. 3) Browse to the bin directory you were just working in and load libYOURPLUGIN.so
  • You can now use the plugin by selecting an object in the Pipeline Browser and then selecting the plugin you have just added from the Filters menu.

Wiki Sandbox

Paraview Ranking test

Developers Corner

Mailing List

The developers mailing list is here: http://public.kitware.com/mailman/subscribe/paraview-developers This should be used for questions about modifying the Paraview code, not using Paraview.