ITK  4.9.0
Insight Segmentation and Registration Toolkit
Examples/DataRepresentation/Image/ImageAdaptor1.cxx
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*
* Copyright Insight Software Consortium
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0.txt
*
* Unless required by applicable law or agreed to in writing, software
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
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*=========================================================================*/
// Software Guide : BeginLatex
//
//This example illustrates how the \doxygen{ImageAdaptor} can be used to cast
// an image from one pixel type to another. In particular, we will
// \emph{adapt} an \code{unsigned char} image to make it appear as an image of
// pixel type \code{float}.
//
// \index{itk::ImageAdaptor!Instantiation}
// \index{itk::ImageAdaptor!Header}
//
// We begin by including the relevant headers.
//
// Software Guide : EndLatex
// Software Guide : BeginCodeSnippet
// Software Guide : EndCodeSnippet
// Software Guide : BeginLatex
//
// First, we need to define a \emph{pixel accessor} class that does the actual
// conversion. Note that in general, the only valid operations for pixel
// accessors are those that only require the value of the input pixel. As
// such, neighborhood type operations are not possible. A pixel accessor must
// provide methods \code{Set()} and \code{Get()}, and define the types of
// \code{InternalPixelType} and \code{ExternalPixelType}. The
// \code{InternalPixelType} corresponds to the pixel type of the image to be
// adapted (\code{unsigned char} in this example). The \code{ExternalPixelType}
// corresponds to the pixel type we wish to emulate with the ImageAdaptor
// (\code{float} in this case).
//
// Software Guide : EndLatex
// Software Guide : BeginCodeSnippet
class CastPixelAccessor
{
public:
typedef unsigned char InternalType;
typedef float ExternalType;
static void Set(InternalType & output, const ExternalType & input)
{
output = static_cast<InternalType>( input );
}
static ExternalType Get( const InternalType & input )
{
return static_cast<ExternalType>( input );
}
};
// Software Guide : EndCodeSnippet
//-------------------------
//
// Main code
//
//-------------------------
int main( int argc, char *argv[] )
{
if( argc < 2 )
{
std::cerr << "Usage: " << std::endl;
std::cerr << "ImageAdaptor1 inputFileName" << std::endl;
return EXIT_FAILURE;
}
// Software Guide : BeginLatex
//
// The CastPixelAccessor class simply applies a
// \code{static\_cast} to the pixel values. We now use this pixel accessor
// to define the image adaptor type and create an instance using
// the standard \code{New()} method.
//
// Software Guide : EndLatex
// Software Guide : BeginCodeSnippet
typedef unsigned char InputPixelType;
const unsigned int Dimension = 2;
ImageAdaptorType::Pointer adaptor = ImageAdaptorType::New();
// Software Guide : EndCodeSnippet
// Software Guide : BeginLatex
//
// We also create an image reader templated over the input image type and
// read the input image from file.
//
// Software Guide : EndLatex
// Software Guide : BeginCodeSnippet
ReaderType::Pointer reader = ReaderType::New();
// Software Guide : EndCodeSnippet
reader->SetFileName( argv[1] );
reader->Update();
// Software Guide : BeginLatex
//
// The output of the reader is then connected as the input to the image
// adaptor.
//
// Software Guide : EndLatex
// Software Guide : BeginCodeSnippet
adaptor->SetImage( reader->GetOutput() );
// Software Guide : EndCodeSnippet
// Software Guide : BeginLatex
//
// In the following code, we visit the image using an iterator
// instantiated using the adapted image type and compute the
// sum of the pixel values.
//
// Software Guide : EndLatex
// Software Guide : BeginCodeSnippet
IteratorType it( adaptor, adaptor->GetBufferedRegion() );
double sum = 0.0;
it.GoToBegin();
while( !it.IsAtEnd() )
{
float value = it.Get();
sum += value;
++it;
}
// Software Guide : EndCodeSnippet
std::cout << "Sum of pixels is: " << sum << std::endl;
// Software Guide : BeginLatex
//
// Although in this example, we are just performing a simple summation, the key
// concept is that access to pixels is performed as if the pixel is of type
// \code{float}. Additionally, it should be noted that the adaptor is used
// as if it was an actual image and not as a filter. ImageAdaptors conform
// to the same API as the \doxygen{Image} class.
//
// Software Guide : EndLatex
return EXIT_SUCCESS;
}