[ITK Community] [Insight-users] mini-pipeline output region problem
matthew
mrrm at web.de
Mon Feb 3 12:36:02 EST 2014
Hi everyone.
I am trying to set up a mini-pipline in the GenerateData() of a filter.
Basically, the filter takes a label map, crops and aggregates it and
produces a binary image.
If I inspect the output's regions, everything seems to be fine, but when
passing the output to the file writer, I am getting the following error:
terminate called after throwing an instance of
'itk::ImageFileWriterException'
what():
/usr/local/ITK/Modules/IO/ImageBase/include/itkImageFileWriter.hxx:402:
Did not get requested region!
Requested:
ImageRegion (0x7fff25c7a050)
Dimension: 3
Index: [55, 75, 60]
Size: [512, 512, 183]
Actual:
ImageRegion (0x7fff25c7a090)
Dimension: 3
Index: [55, 75, 60]
Size: [285, 282, 109]
So, for some reason the writer uses the regions from the input labelmap and
not the regions of the filter's output.
What's going wrong here and how can I get rid of it?
************from main()******************
inputFileName = ....
outputFileName = ....
...
typedef unsigned char
BinaryPixelType;
typedef itk::Image<BinaryPixelType, 3>
BinaryImageType;
typedef itk::LabelObject<BinaryPixelType, 3>
LabelObjectType;
typedef itk::LabelMap<LabelObjectType>
LabelMapType;
typedef itk::BinaryImageToLabelMapFilter<BinaryImageType, LabelMapType>
ImageToLabelMapFilterType;
typedef itk::ImageFileReader<BinaryImageType>
ReaderType;
typedef itk::ImageFileWriter< BinaryImageType >
WriterType;
const BinaryPixelType INSIDE = itk::NumericTraits<BinaryPixelType>::One;
const BinaryPixelType OUTSIDE = itk::NumericTraits<BinaryPixelType>::Zero;
ReaderType::Pointer reader = ReaderType::New();
reader->SetFileName( inputFileName );
ImageToLabelMapFilterType::Pointer im2LabelMapFilter =
ImageToLabelMapFilterType::New();
im2LabelMapFilter->SetInputForegroundValue(INSIDE);
im2LabelMapFilter->SetOutputBackgroundValue(OUTSIDE);
im2LabelMapFilter->SetInput(reader->GetOutput());
TestFilter<LabelMapType, BinaryImageType>::Pointer testFilter =
TestFilter<LabelMapType, BinaryImageType>::New();
testFilter->SetInput( im2LabelMapFilter->GetOutput() );
testFilter->Update();
testFilter->Print(std::cout, 3);
testFilter->GetOutput()->Print(std::cout, 3);
typename WriterType::Pointer writer = WriterType::New();
writer->SetFileName( outputFileName );
writer->SetInput( testFilter->GetOutput() );
writer->Update();
***********HEADER*****************
#ifndef TESTFILTER_H_
#define TESTFILTER_H_
#include <itkLabelMapToBinaryImageFilter.h>
#include <itkAutoCropLabelMapFilter.h>
#include <itkAggregateLabelMapFilter.h>
#include <itkLabelMapFilter.h>
#include "itkNumericTraits.h"
#include "itkObjectFactory.h"
#include <itkLabelObject.h>
#include <itkDataObject.h>
template<class TLabelMap, class TBinaryImage>
class TestFilter:
public itk::LabelMapFilter<TLabelMap, TBinaryImage>
{
public:
/** standard class typedefs. */
typedef TestFilter
Self;
typedef itk::LabelMapFilter<TLabelMap, TBinaryImage>
Superclass;
typedef itk::SmartPointer< Self >
Pointer;
/** label map typedefs */
typedef TLabelMap
LabelMapType;
/** binary output image typedefs **/
typedef TBinaryImage
BinaryImageType;
/** label map filter typedefs */
typedef itk::LabelMapToBinaryImageFilter<LabelMapType,
BinaryImageType> LabelMapToBinaryImageFilter;
typedef itk::AutoCropLabelMapFilter<LabelMapType>
AutoCropLabelMapFilterType;
typedef itk::AggregateLabelMapFilter<LabelMapType>
AggregateLabelMapFilterType;
/** Run-time type information (and related methods). */
itkTypeMacro( TestFilter, LabelMapFilter);
/** Method for creation through the object factory. */
itkNewMacro(Self);
protected:
TestFilter(){ };
~TestFilter(){ };
virtual void GenerateData();
private:
TestFilter(const Self &); //purposely not implemented
void operator=(const Self &);
//purposely not implemented
};
#include "TestFilter.cpp"
#endif /* TESTFILTER_H_ */
**********SOURCE*****************
#ifndef TESTFILTER_CPP_
#define TESTFILTER_CPP_
#include "TestFilter.h"
template<class TLabelMap, class TBinaryImage>
void
TestFilter<TLabelMap, TBinaryImage>
::GenerateData()
{
// allocate the output
this->AllocateOutputs();
// auto crop the input label map
typename AutoCropLabelMapFilterType::Pointer autoCropLabelMapFilter
= AutoCropLabelMapFilterType::New();
autoCropLabelMapFilter->SetInput( this->GetInput() );
// aggregate croped input label map
typename AggregateLabelMapFilterType::Pointer
aggregateLabelMapFilter = AggregateLabelMapFilterType::New();
aggregateLabelMapFilter->SetInput(autoCropLabelMapFilter->GetOutput());
// generate a binary image from the label map
typename LabelMapToBinaryImageFilter::Pointer
labelMapToBinaryImageFilter = LabelMapToBinaryImageFilter::New();
labelMapToBinaryImageFilter->SetInput(
aggregateLabelMapFilter->GetOutput() );
labelMapToBinaryImageFilter->SetForegroundValue(itk::NumericTraits<typename
TBinaryImage::PixelType>::One);
labelMapToBinaryImageFilter->SetBackgroundValue(itk::NumericTraits<typename
TBinaryImage::PixelType>::Zero);
// Graft this filters output onto the mini-pipeline so the
mini-pipeline
// has the correct region ivars and will write to this filters bulk
data
// output.
labelMapToBinaryImageFilter->GraftOutput( this->GetOutput() );
// Update the filter
labelMapToBinaryImageFilter->Update();
// Graft the last output of the mini-pipeline onto this filters
output so
// the final output has the correct region ivars and a handle to the
final
// bulk data
this->GraftOutput(labelMapToBinaryImageFilter->GetOutput());
}
#endif
**********testFilter->Print(std::cout, 3)*****************
TestFilter (0x1de60c0)
RTTI typeinfo:
TestFilter<itk::LabelMap<itk::LabelObject<unsigned char, 3u> >,
itk::Image<unsigned char, 3u> >
Reference Count: 1
Modified Time: 87
Debug: Off
Observers:
none
Inputs:
Primary: (0x1de5d60) *
Indexed Inputs:
0: Primary (0x1de5d60)
Required Input Names: Primary
NumberOfRequiredInputs: 1
Outputs:
Primary: (0x1dea5b0)
Indexed Outputs:
0: Primary (0x1dea5b0)
NumberOfRequiredOutputs: 1
Number Of Threads: 4
ReleaseDataFlag: Off
ReleaseDataBeforeUpdateFlag: Off
AbortGenerateData: Off
Progress: 0
Multithreader:
RTTI typeinfo: itk::MultiThreader
Reference Count: 1
Modified Time: 76
Debug: Off
Observers:
none
Thread Count: 4
Global Maximum Number Of Threads: 128
Global Default Number Of Threads: 4
CoordinateTolerance: 1e-06
DirectionTolerance: 1e-06
**********testFilter->GetOutput()->Print(std::cout, 3)*****************
Image (0x1dea5b0)
RTTI typeinfo: itk::Image<unsigned char, 3u>
Reference Count: 1
Modified Time: 46718
Debug: Off
Observers:
none
Source: (0x1de60c0)
Source output name: Primary
Release Data: Off
Data Released: False
Global Release Data: Off
PipelineMTime: 246
UpdateMTime: 46719
RealTimeStamp: 0 seconds
LargestPossibleRegion:
Dimension: 3
Index: [55, 75, 60]
Size: [285, 282, 109]
BufferedRegion:
Dimension: 3
Index: [55, 75, 60]
Size: [285, 282, 109]
RequestedRegion:
Dimension: 3
Index: [55, 75, 60]
Size: [285, 282, 109]
Spacing: [0.74219, 0.74219, 1.5]
Origin: [0, 0, 0]
Direction:
1 0 0
0 1 0
0 0 1
IndexToPointMatrix:
0.74219 0 0
0 0.74219 0
0 0 1.5
PointToIndexMatrix:
1.34736 0 0
0 1.34736 0
0 0 0.666667
Inverse Direction:
1 0 0
0 1 0
0 0 1
PixelContainer:
ImportImageContainer (0x1dea870)
RTTI typeinfo: itk::ImportImageContainer<unsigned long, unsigned
char>
Reference Count: 1
Modified Time: 46709
Debug: Off
Observers:
none
Pointer: 0x7f37a41ee010
Container manages memory: true
Size: 8760330
Capacity: 47972352
--
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