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/*=========================================================================
*
* 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 itkStandardDeviationPerComponentSampleFilter_hxx
#define itkStandardDeviationPerComponentSampleFilter_hxx
#include "itkMeasurementVectorTraits.h"
#include "itkMath.h"
namespace itk
{
namespace Statistics
{
template <typename TSample>
StandardDeviationPerComponentSampleFilter<TSample>::StandardDeviationPerComponentSampleFilter()
{
this->ProcessObject::SetNumberOfRequiredInputs(1);
this->ProcessObject::SetNumberOfRequiredOutputs(2);
this->ProcessObject::SetNthOutput(0, this->MakeOutput(0));
this->ProcessObject::SetNthOutput(1, this->MakeOutput(1));
}
template <typename TSample>
void
StandardDeviationPerComponentSampleFilter<TSample>::PrintSelf(std::ostream & os, Indent indent) const
{
Superclass::PrintSelf(os, indent);
}
template <typename TSample>
void
StandardDeviationPerComponentSampleFilter<TSample>::SetInput(const SampleType * sample)
{
this->ProcessObject::SetNthInput(0, const_cast<SampleType *>(sample));
}
template <typename TSample>
const TSample *
StandardDeviationPerComponentSampleFilter<TSample>::GetInput() const
{
return itkDynamicCastInDebugMode<const SampleType *>(this->GetPrimaryInput());
}
template <typename TSample>
auto
StandardDeviationPerComponentSampleFilter<TSample>::MakeOutput(DataObjectPointerArraySizeType index)
-> DataObjectPointer
{
if (index == 0)
{
using ValueType = typename MeasurementVectorTraitsTypes<MeasurementVectorType>::ValueType;
MeasurementVectorType standardDeviation;
NumericTraits<MeasurementVectorType>::SetLength(standardDeviation, this->GetMeasurementVectorSize());
standardDeviation.Fill(ValueType{});
typename MeasurementVectorRealDecoratedType::Pointer decoratedStandardDeviation =
MeasurementVectorRealDecoratedType::New();
decoratedStandardDeviation->Set(standardDeviation);
return decoratedStandardDeviation.GetPointer();
}
if (index == 1)
{
using ValueType = typename MeasurementVectorTraitsTypes<MeasurementVectorType>::ValueType;
MeasurementVectorType mean;
NumericTraits<MeasurementVectorType>::SetLength(mean, this->GetMeasurementVectorSize());
mean.Fill(ValueType{});
typename MeasurementVectorRealDecoratedType::Pointer decoratedStandardDeviation =
MeasurementVectorRealDecoratedType::New();
decoratedStandardDeviation->Set(mean);
return decoratedStandardDeviation.GetPointer();
}
itkExceptionMacro("Trying to create output of index " << index << " larger than the number of output");
}
template <typename TSample>
auto
StandardDeviationPerComponentSampleFilter<TSample>::GetMeasurementVectorSize() const -> MeasurementVectorSizeType
{
const SampleType * input = this->GetInput();
if (input)
{
return input->GetMeasurementVectorSize();
}
// Test if the Vector type knows its length
MeasurementVectorSizeType measurementVectorSize = NumericTraits<MeasurementVectorType>::GetLength({});
if (measurementVectorSize)
{
return measurementVectorSize;
}
measurementVectorSize = 1; // Otherwise set it to an innocuous value
return measurementVectorSize;
}
template <typename TSample>
inline void
StandardDeviationPerComponentSampleFilter<TSample>::GenerateData()
{
const SampleType * input = this->GetInput();
MeasurementVectorSizeType measurementVectorSize = input->GetMeasurementVectorSize();
auto * decoratedStandardDeviationOutput =
itkDynamicCastInDebugMode<MeasurementVectorRealDecoratedType *>(this->ProcessObject::GetOutput(0));
auto * decoratedMean =
itkDynamicCastInDebugMode<MeasurementVectorRealDecoratedType *>(this->ProcessObject::GetOutput(1));
MeasurementVectorRealType sum;
MeasurementVectorRealType sumOfSquares;
MeasurementVectorRealType mean;
MeasurementVectorRealType standardDeviation;
NumericTraits<MeasurementVectorRealType>::SetLength(sum, measurementVectorSize);
NumericTraits<MeasurementVectorRealType>::SetLength(mean, measurementVectorSize);
NumericTraits<MeasurementVectorRealType>::SetLength(sumOfSquares, measurementVectorSize);
NumericTraits<MeasurementVectorRealType>::SetLength(standardDeviation, measurementVectorSize);
sum.Fill(0.0);
mean.Fill(0.0);
sumOfSquares.Fill(0.0);
standardDeviation.Fill(0.0);
typename TSample::AbsoluteFrequencyType frequency;
using TotalAbsoluteFrequencyType = typename TSample::TotalAbsoluteFrequencyType;
TotalAbsoluteFrequencyType totalFrequency{};
typename TSample::ConstIterator iter = input->Begin();
typename TSample::ConstIterator end = input->End();
MeasurementVectorType diff;
MeasurementVectorType measurements;
NumericTraits<MeasurementVectorType>::SetLength(diff, measurementVectorSize);
NumericTraits<MeasurementVectorType>::SetLength(measurements, measurementVectorSize);
// Compute the mean first
while (iter != end)
{
frequency = iter.GetFrequency();
totalFrequency += frequency;
measurements = iter.GetMeasurementVector();
for (unsigned int i = 0; i < measurementVectorSize; ++i)
{
double value = measurements[i];
sum[i] += frequency * value;
sumOfSquares[i] += frequency * value * value;
}
++iter;
}
for (unsigned int i = 0; i < measurementVectorSize; ++i)
{
const double meanValue = sum[i] / totalFrequency;
mean[i] = meanValue;
const double variance = (sumOfSquares[i] - meanValue * meanValue * totalFrequency) / (totalFrequency - 1.0);
standardDeviation[i] = std::sqrt(variance);
}
decoratedStandardDeviationOutput->Set(standardDeviation);
decoratedMean->Set(mean);
}
template <typename TSample>
auto
StandardDeviationPerComponentSampleFilter<TSample>::GetStandardDeviationPerComponentOutput() const
-> const MeasurementVectorRealDecoratedType *
{
return static_cast<const MeasurementVectorRealDecoratedType *>(this->ProcessObject::GetOutput(0));
}
template <typename TSample>
auto
StandardDeviationPerComponentSampleFilter<TSample>::GetStandardDeviationPerComponent() const
-> const MeasurementVectorRealType
{
return this->GetStandardDeviationPerComponentOutput()->Get();
}
template <typename TSample>
auto
StandardDeviationPerComponentSampleFilter<TSample>::GetMeanPerComponentOutput() const
-> const MeasurementVectorRealDecoratedType *
{
return static_cast<const MeasurementVectorRealDecoratedType *>(this->ProcessObject::GetOutput(1));
}
template <typename TSample>
auto
StandardDeviationPerComponentSampleFilter<TSample>::GetMeanPerComponent() const -> const MeasurementVectorRealType
{
return this->GetMeanPerComponentOutput()->Get();
}
} // end of namespace Statistics
} // end of namespace itk
#endif
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