/*========================================================================= * * Copyright NumFOCUS * * 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 * * https://www.apache.org/licenses/LICENSE-2.0.txt * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *=========================================================================*/ #ifndef itkImageRandomConstIteratorWithOnlyIndex_h #define itkImageRandomConstIteratorWithOnlyIndex_h #include "itkImageConstIteratorWithOnlyIndex.h" #include "itkMersenneTwisterRandomVariateGenerator.h" namespace itk { /** \class ImageRandomConstIteratorWithOnlyIndex * \brief A multi-dimensional image iterator that visits a random set of locations * within an image region, providing index information. * * ImageRandomConstIteratorWithOnlyIndex is a multi-dimensional iterator class that * is templated over image type. ImageRandomConstIteratorWithOnlyIndex is * constrained to walk only within the specified region. It samples random * region positions at each increment or decrement. * * No access to image data is possible, and thus the class can be used with * images of type ImageBase. * * ImageRandomConstIteratorWithOnlyIndex assumes a particular layout of the image data. The * is arranged in a 1D array as if it were [][][][slice][row][col] with * Index[0] = col, Index[1] = row, Index[2] = slice, etc. * * The operator++ method provides a simple syntax for walking around a region * of a multidimensional image. operator++ performs a jump to a random position * within the specified image region. This is designed to facilitate the * extraction of random indices from the image. * * This is the typical use of this iterator in a loop: * \code ImageRandomConstIteratorWithOnlyIndex it( image, image->GetRequestedRegion() ); it.SetNumberOfSamples(200); it.GoToBegin(); while( !it.IsAtEnd() ) { std::cout << it.GetIndex() << std::endl; ++it; // here it jumps to another random position inside the region } \endcode * * or * \code ImageRandomConstIteratorWithOnlyIndex it( image, image->GetRequestedRegion() ); it.SetNumberOfSamples(200); it.GoToEnd(); while( !it.IsAtBegin() ) { std::cout << it.GetIndex() << std::endl; --it; // here it jumps to another random position inside the region } \endcode * * \warning Incrementing the iterator (++it) followed by a decrement (--it) * or vice versa does not in general return the iterator to the same position. * * \par MORE INFORMATION * For a complete description of the ITK Image Iterators and their API, please * see the Iterators chapter in the ITK Software Guide. The ITK Software Guide * is available in print and as a free .pdf download from https://www.itk.org. * * \ingroup ImageIterators * * Index-only iterators: * * \sa ImageConstIteratorWithOnlyIndex * \sa ConstNeighborhoodIteratorWithOnlyIndex * * Pixel data-access iterators: * * \sa ImageConstIterator \sa ConditionalConstIterator * \sa ConstNeighborhoodIterator \sa ConstShapedNeighborhoodIterator * \sa ConstSliceIterator \sa CorrespondenceDataStructureIterator * \sa FloodFilledFunctionConditionalConstIterator * \sa FloodFilledImageFunctionConditionalConstIterator * \sa FloodFilledImageFunctionConditionalIterator * \sa FloodFilledSpatialFunctionConditionalConstIterator * \sa FloodFilledSpatialFunctionConditionalIterator * \sa ImageConstIterator \sa ImageConstIteratorWithIndex * \sa ImageIterator \sa ImageIteratorWithIndex * \sa ImageLinearConstIteratorWithIndex \sa ImageLinearIteratorWithIndex * \sa ImageRandomConstIteratorWithIndex \sa ImageRandomIteratorWithIndex * \sa ImageRegionConstIterator \sa ImageRegionConstIteratorWithIndex * \sa ImageRegionExclusionConstIteratorWithIndex * \sa ImageRegionExclusionIteratorWithIndex * \sa ImageRegionIterator \sa ImageRegionIteratorWithIndex * \sa ImageRegionReverseConstIterator \sa ImageRegionReverseIterator * \sa ImageReverseConstIterator \sa ImageReverseIterator * \sa ImageSliceConstIteratorWithIndex \sa ImageSliceIteratorWithIndex * \sa NeighborhoodIterator \sa PathConstIterator \sa PathIterator * \sa ShapedNeighborhoodIterator \sa SliceIterator * \sa ImageConstIteratorWithIndex * * \ingroup ITKCommon * */ template class ITK_TEMPLATE_EXPORT ImageRandomConstIteratorWithOnlyIndex : public ImageConstIteratorWithOnlyIndex { public: /** Standard class type aliases. */ using Self = ImageRandomConstIteratorWithOnlyIndex; using Superclass = ImageConstIteratorWithOnlyIndex; /** Inherit types from the superclass */ using typename Superclass::IndexType; using typename Superclass::SizeType; using typename Superclass::OffsetType; using typename Superclass::RegionType; using typename Superclass::ImageType; using typename Superclass::IndexValueType; using typename Superclass::OffsetValueType; using typename Superclass::SizeValueType; /** Default constructor. Needed since we provide a cast constructor. */ ImageRandomConstIteratorWithOnlyIndex() = default; ~ImageRandomConstIteratorWithOnlyIndex() override = default; /** Constructor establishes an iterator to walk a particular image and a * particular region of that image. */ ImageRandomConstIteratorWithOnlyIndex(const ImageType * ptr, const RegionType & region); /** Constructor that can be used to cast from an ImageIterator to an * ImageRandomConstIteratorWithOnlyIndex. Many routines return an ImageIterator, but for a * particular task, you may want an ImageRandomConstIteratorWithOnlyIndex. Rather than * provide overloaded APIs that return different types of Iterators, itk * returns ImageIterators and uses constructors to cast from an * ImageIterator to a ImageRandomConstIteratorWithOnlyIndex. */ ImageRandomConstIteratorWithOnlyIndex(const ImageConstIteratorWithOnlyIndex & it) { this->ImageConstIteratorWithOnlyIndex::operator=(it); } /** Move an iterator to the beginning of the region. */ void GoToBegin() { this->RandomJump(); m_NumberOfSamplesDone = 0L; } /** Move an iterator to one position past the End of the region. */ void GoToEnd() { this->RandomJump(); m_NumberOfSamplesDone = m_NumberOfSamplesRequested; } /** Is the iterator at the beginning of the region? */ bool IsAtBegin() const { return (m_NumberOfSamplesDone == 0L); } /** Is the iterator at the end of the region? */ bool IsAtEnd() const { return (m_NumberOfSamplesDone >= m_NumberOfSamplesRequested); } /** Increment (prefix) the selected dimension. * No bounds checking is performed. \sa GetIndex \sa operator-- */ Self & operator++() { this->RandomJump(); ++m_NumberOfSamplesDone; return *this; } /** Decrement (prefix) the selected dimension. * No bounds checking is performed. \sa GetIndex \sa operator++ */ Self & operator--() { this->RandomJump(); --m_NumberOfSamplesDone; return *this; } /** Set/Get number of random samples to extract from the image region. */ void SetNumberOfSamples(SizeValueType number) { m_NumberOfSamplesRequested = number; } SizeValueType GetNumberOfSamples() const { return m_NumberOfSamplesRequested; } /** Reinitialize the seed of the random number generator. */ void ReinitializeSeed(); void ReinitializeSeed(int); private: /** Execute a random jump. */ void RandomJump(); using GeneratorPointer = typename Statistics::MersenneTwisterRandomVariateGenerator::Pointer; GeneratorPointer m_Generator{ Statistics::MersenneTwisterRandomVariateGenerator::New() }; SizeValueType m_NumberOfSamplesRequested{}; SizeValueType m_NumberOfSamplesDone{}; SizeValueType m_NumberOfPixelsInRegion{}; }; } // end namespace itk #ifndef ITK_MANUAL_INSTANTIATION # include "itkImageRandomConstIteratorWithOnlyIndex.hxx" #endif #endif