/*========================================================================= * * 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 itkReflectiveImageRegionConstIterator_hxx #define itkReflectiveImageRegionConstIterator_hxx namespace itk { template ReflectiveImageRegionConstIterator::ReflectiveImageRegionConstIterator() : ImageConstIteratorWithIndex() { for (unsigned int dim = 0; dim < TImage::ImageDimension; ++dim) { m_BeginOffset[dim] = 0; m_EndOffset[dim] = 0; } this->GoToBegin(); } template ReflectiveImageRegionConstIterator::ReflectiveImageRegionConstIterator(TImage * ptr, const RegionType & region) : ImageConstIteratorWithIndex(ptr, region) { for (unsigned int dim = 0; dim < TImage::ImageDimension; ++dim) { m_BeginOffset[dim] = 0; m_EndOffset[dim] = 0; } this->GoToBegin(); } template ReflectiveImageRegionConstIterator::ReflectiveImageRegionConstIterator(const Self & it) { this->operator=(it); this->GoToBegin(); } template ReflectiveImageRegionConstIterator::ReflectiveImageRegionConstIterator( const ImageConstIteratorWithIndex & it) { this->ImageConstIteratorWithIndex::operator=(it); for (unsigned int dim = 0; dim < TImage::ImageDimension; ++dim) { m_BeginOffset[dim] = 0; m_EndOffset[dim] = 0; } } template ReflectiveImageRegionConstIterator & ReflectiveImageRegionConstIterator::operator=(const Self & it) { if (this != &it) { this->ImageConstIteratorWithIndex::operator=(it); for (unsigned int dim = 0; dim < TImage::ImageDimension; ++dim) { m_BeginOffset[dim] = it.m_BeginOffset[dim]; m_EndOffset[dim] = it.m_EndOffset[dim]; } } return *this; } template void ReflectiveImageRegionConstIterator::GoToBegin() { this->m_PositionIndex = this->m_BeginIndex + this->m_BeginOffset; this->m_Position = this->m_Image->GetBufferPointer() + this->m_Image->ComputeOffset(this->m_PositionIndex); this->m_Remaining = false; SizeType size = this->m_Region.GetSize(); for (unsigned int i = 0; i < TImage::ImageDimension; ++i) { m_IsFirstPass[i] = true; SizeValueType tempSize = size[i]; if (tempSize > 0) { this->m_Remaining = true; } } } template bool ReflectiveImageRegionConstIterator::IsReflected(unsigned int dim) const { return !m_IsFirstPass[dim]; } template void ReflectiveImageRegionConstIterator::FillOffsets(const OffsetValueType & value) { for (unsigned int dim = 0; dim < TImage::ImageDimension; ++dim) { m_BeginOffset[dim] = value; m_EndOffset[dim] = value; } } //---------------------------------------------------------------------- // Advance along the line //---------------------------------------------------------------------- template ReflectiveImageRegionConstIterator & ReflectiveImageRegionConstIterator::operator++() { this->m_Remaining = false; for (unsigned int in = 0; in < TImage::ImageDimension; ++in) { if (m_IsFirstPass[in]) { if (this->m_PositionIndex[in] + 1 < this->m_EndIndex[in]) { this->m_PositionIndex[in]++; this->m_Position += this->m_OffsetTable[in]; this->m_Remaining = true; break; } else { this->m_PositionIndex[in] = this->m_EndIndex[in] - m_EndOffset[in] - 1; this->m_Position -= (this->m_EndOffset[in]) * (this->m_OffsetTable[in]); m_IsFirstPass[in] = false; this->m_Remaining = true; break; } } else { if (this->m_PositionIndex[in] - 1 >= this->m_BeginIndex[in]) { this->m_PositionIndex[in]--; this->m_Position -= this->m_OffsetTable[in]; this->m_Remaining = true; break; } else { this->m_PositionIndex[in] = this->m_BeginIndex[in] + m_BeginOffset[in]; this->m_Position += (this->m_BeginOffset[in]) * (this->m_OffsetTable[in]); m_IsFirstPass[in] = true; } } } if (!this->m_Remaining) // It will not advance here otherwise { this->m_Position = this->m_End; } return *this; } } // end namespace itk #endif