Example source code (ImageListExample.cxx):

//  This example illustrates the use of the \doxygen{otb}{ImageList}
//  class. This class provides the functionalities needed in order to
//  integrate image lists as data objects into the OTB
//  pipeline. Indeed, if a \code{std::list< ImageType >} was used, the
//  update operations on the pipeline might not have the desired
//  effects.
//  In this example, we will only present the basic operations which
//  can be applied on an \doxygen{otb}{ImageList} object.
//  The first thing required to read an image from a file is to include
//  the header file of the \doxygen{otb}{ImageFileReader} class.

#include "otbImageList.h"

#include "itkMacro.h"

#include "otbImageFileReader.h"
#include "otbImageFileWriter.h"
#include "otbImage.h"

int main(int itkNotUsed(argc), char* argv[])

  const char* inputFilename  = argv[1];
  const char* outputFilename = argv[2];

  // As usual, we start by defining the types for the pixel and image
  // types, as well as those for the readers and writers.

  const unsigned int Dimension = 2;
  using InputPixelType         = unsigned char;
  using InputImageType         = otb::Image<InputPixelType, Dimension>;
  using ReaderType             = otb::ImageFileReader<InputImageType>;
  using WriterType             = otb::ImageFileWriter<InputImageType>;

  // We can now define the type for the image list. The
  // \doxygen{otb}{ImageList} class is templated over the type of image
  // contained in it. This means that all images in a list must have the
  // same type.

  using ImageListType = otb::ImageList<InputImageType>;

  // Let us assume now that we want to read an image from a file and
  // store it in a list. The first thing to do is to instantiate the
  // reader and set the image file name. We effectively read the image
  // by calling the \code{Update()}.

  ReaderType::Pointer reader = ReaderType::New();

  // We create an image list by using the \code{New()} method.

  ImageListType::Pointer imageList = ImageListType::New();

  // In order to store the image in the list, the \code{PushBack()}
  // method is used.


  // We could repeat this operation for other readers or the outputs of
  // filters. We will now write an image of the list to a file. We
  // therefore instantiate a writer, set the image file name and set the
  // input image for it. This is done by calling the \code{Back()}
  // method of the list, which allows us to get the last element.

  // Getting the image from the list and writing it to file
  WriterType::Pointer writer = WriterType::New();

  // Other useful methods are:
  // \begin{itemize}
  // \item \code{SetNthElement()} and \code{GetNthElement()} allow
  // randomly accessing any element of the list.
  // \item \code{Front()} to access to the first element of the list.
  // \item \code{Erase()} to remove an element.
  // \end{itemize}
  // Also, iterator classes are defined in order to have an efficient
  // mean of moving through the list. Finally, the
  // \doxygen{otb}{ImageListToImageListFilter} is provided in order
  // to implement filter which operate on image lists and produce image lists.

  return EXIT_SUCCESS;