/usr/include/vtk-6.3/vtkCompositeDataPipeline.h is in libvtk6-dev 6.3.0+dfsg1-11build1.
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Program: Visualization Toolkit
Module: vtkCompositeDataPipeline.h
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.
=========================================================================*/
// .NAME vtkCompositeDataPipeline - Executive supporting composite datasets.
// .SECTION Description
// vtkCompositeDataPipeline is an executive that supports the processing of
// composite dataset. It supports algorithms that are aware of composite
// dataset as well as those that are not. Type checking is performed at run
// time. Algorithms that are not composite dataset-aware have to support
// all dataset types contained in the composite dataset. The pipeline
// execution can be summarized as follows:
//
// * REQUEST_INFORMATION: The producers have to provide information about
// the contents of the composite dataset in this pass.
// Sources that can produce more than one piece (note that a piece is
// different than a block; each piece consistes of 0 or more blocks) should
// set CAN_HANDLE_PIECE_REQUEST.
//
// * REQUEST_UPDATE_EXTENT: This pass is identical to the one implemented
// in vtkStreamingDemandDrivenPipeline
//
// * REQUEST_DATA: This is where the algorithms execute. If the
// vtkCompositeDataPipeline is assigned to a simple filter,
// it will invoke the vtkStreamingDemandDrivenPipeline passes in a loop,
// passing a different block each time and will collect the results in a
// composite dataset.
// .SECTION See also
// vtkCompositeDataSet
#ifndef vtkCompositeDataPipeline_h
#define vtkCompositeDataPipeline_h
#include "vtkCommonExecutionModelModule.h" // For export macro
#include "vtkStreamingDemandDrivenPipeline.h"
class vtkCompositeDataSet;
class vtkCompositeDataIterator;
class vtkInformationDoubleKey;
class vtkInformationIntegerVectorKey;
class vtkInformationObjectBaseKey;
class vtkInformationStringKey;
class vtkInformationDataObjectKey;
class vtkInformationIntegerKey;
class VTKCOMMONEXECUTIONMODEL_EXPORT vtkCompositeDataPipeline :
public vtkStreamingDemandDrivenPipeline
{
public:
static vtkCompositeDataPipeline* New();
vtkTypeMacro(vtkCompositeDataPipeline,vtkStreamingDemandDrivenPipeline);
void PrintSelf(ostream& os, vtkIndent indent);
// Description:
// Returns the data object stored with the DATA_OBJECT() in the
// output port
vtkDataObject* GetCompositeOutputData(int port);
// Description:
// Returns the data object stored with the DATA_OBJECT() in the
// input port
vtkDataObject* GetCompositeInputData(
int port, int index, vtkInformationVector **inInfoVec);
// Description:
// An integer key that indicates to the source to load all requested
// blocks specified in UPDATE_COMPOSITE_INDICES.
static vtkInformationIntegerKey* LOAD_REQUESTED_BLOCKS();
// Description:
// COMPOSITE_DATA_META_DATA is a key placed in the output-port information by
// readers/sources producing composite datasets. This meta-data provides
// information about the structure of the composite dataset and things like
// data-bounds etc.
// *** THIS IS AN EXPERIMENTAL FEATURE. IT MAY CHANGE WITHOUT NOTICE ***
static vtkInformationObjectBaseKey* COMPOSITE_DATA_META_DATA();
// Description:
// UPDATE_COMPOSITE_INDICES is a key placed in the request to request a set of
// composite indices from a reader/source producing composite dataset.
// Typically, the reader publishes its structure using
// COMPOSITE_DATA_META_DATA() and then the sink requests blocks of interest
// using UPDATE_COMPOSITE_INDICES().
// Note that UPDATE_COMPOSITE_INDICES has to be sorted vector with increasing
// indices.
// *** THIS IS AN EXPERIMENTAL FEATURE. IT MAY CHANGE WITHOUT NOTICE ***
static vtkInformationIntegerVectorKey* UPDATE_COMPOSITE_INDICES();
// Description:
// BLOCK_AMOUNT_OF_DETAIL is a key placed in the information about a multi-block
// dataset that indicates how complex the block is. It is intended to work with
// multi-resolution streaming code. For example in a multi-resolution dataset of
// points, this key might store the number of points.
// *** THIS IS AN EXPERIMENTAL FEATURE. IT MAY CHANGE WITHOUT NOTICE ***
static vtkInformationDoubleKey* BLOCK_AMOUNT_OF_DETAIL();
protected:
vtkCompositeDataPipeline();
~vtkCompositeDataPipeline();
virtual int ForwardUpstream(vtkInformation* request);
virtual int ForwardUpstream(int i, int j, vtkInformation* request);
// Copy information for the given request.
virtual void CopyDefaultInformation(vtkInformation* request, int direction,
vtkInformationVector** inInfoVec,
vtkInformationVector* outInfoVec);
virtual void PushInformation(vtkInformation*);
virtual void PopInformation (vtkInformation*);
virtual int ExecuteDataObject(vtkInformation* request,
vtkInformationVector** inInfo,
vtkInformationVector* outInfo);
virtual int ExecuteData(vtkInformation* request,
vtkInformationVector** inInfoVec,
vtkInformationVector* outInfoVec);
virtual void ExecuteDataStart(vtkInformation* request,
vtkInformationVector** inInfoVec,
vtkInformationVector* outInfoVec);
// Override this check to account for update extent.
virtual int NeedToExecuteData(int outputPort,
vtkInformationVector** inInfoVec,
vtkInformationVector* outInfoVec);
// Check whether the data object in the pipeline information for an
// output port exists and has a valid type.
virtual int CheckCompositeData(vtkInformation *request,
int port,
vtkInformationVector** inInfoVec,
vtkInformationVector* outInfoVec);
// True when the pipeline is iterating over the current (simple) filter
// to produce composite output. In this case, ExecuteDataStart() should
// NOT Initialize() the composite output.
int InLocalLoop;
virtual void ExecuteSimpleAlgorithm(vtkInformation* request,
vtkInformationVector** inInfoVec,
vtkInformationVector* outInfoVec,
int compositePort);
virtual void ExecuteEach(vtkCompositeDataIterator* iter,
vtkInformationVector** inInfoVec,
vtkInformationVector* outInfoVec,
int compositePort,
int connection,
vtkInformation* request,
vtkCompositeDataSet* compositeOutput);
vtkDataObject* ExecuteSimpleAlgorithmForBlock(
vtkInformationVector** inInfoVec,
vtkInformationVector* outInfoVec,
vtkInformation* inInfo,
vtkInformation* outInfo,
vtkInformation* request,
vtkDataObject* dobj);
bool ShouldIterateOverInput(vtkInformationVector** inInfoVec,
int& compositePort);
virtual int InputTypeIsValid(int port, int index,
vtkInformationVector **inInfoVec);
vtkInformation* InformationCache;
vtkInformation* GenericRequest;
vtkInformation* DataObjectRequest;
vtkInformation* InformationRequest;
vtkInformation* UpdateExtentRequest;
vtkInformation* DataRequest;
virtual void ResetPipelineInformation(int port, vtkInformation*);
// Description:
// Tries to create the best possible composite data output for the given input
// and non-composite algorithm output. Returns a new instance on success.
// It's main purpose is
// to determine if vtkHierarchicalBoxDataSet can be propagated as
// vtkHierarchicalBoxDataSet in the output (if the algorithm can produce
// vtkUniformGrid given vtkUniformGrid inputs) or if it should be downgraded
// to a vtkMultiBlockDataSet.
vtkCompositeDataSet* CreateOutputCompositeDataSet(
vtkCompositeDataSet* input, int compositePort);
// Override this to handle UPDATE_COMPOSITE_INDICES().
virtual void MarkOutputsGenerated(vtkInformation* request,
vtkInformationVector** inInfoVec,
vtkInformationVector* outInfoVec);
int NeedToExecuteBasedOnCompositeIndices(vtkInformation* outInfo);
// Because we sometimes have to swap between "simple" data types and composite
// data types, we sometimes want to skip resetting the pipeline information.
static vtkInformationIntegerKey* SUPPRESS_RESET_PI();
// Description:
// COMPOSITE_INDICES() is put in the output information by the executive if
// the request has UPDATE_COMPOSITE_INDICES() using the generated composite
// dataset's structure.
// Note that COMPOSITE_INDICES has to be sorted vector with increasing
// indices.
// *** THIS IS AN EXPERIMENTAL FEATURE. IT MAY CHANGE WITHOUT NOTICE ***
static vtkInformationIntegerVectorKey* DATA_COMPOSITE_INDICES();
private:
vtkCompositeDataPipeline(const vtkCompositeDataPipeline&); // Not implemented.
void operator=(const vtkCompositeDataPipeline&); // Not implemented.
};
#endif
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