minimumFilter1d.hpp

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#pragma once
 
#include "NumCpp/Core/Slice.hpp"
#include "NumCpp/Core/Types.hpp"
#include "NumCpp/Filter/Boundaries/Boundaries1d/addBoundary1d.hpp"
#include "NumCpp/Filter/Boundaries/Boundary.hpp"
#include "NumCpp/NdArray.hpp"
 
namespace nc::filter
{
    //============================================================================
    // Method Description:
    template<typename dtype>
    NdArray<dtype> minumumFilter1d(const NdArray<dtype>& inImageArray,
                                   uint32                inSize,
                                   Boundary              inBoundaryType  = Boundary::REFLECT,
                                   dtype                 inConstantValue = 0)
    {
        NdArray<dtype> arrayWithBoundary =
            boundary::addBoundary1d(inImageArray, inBoundaryType, inSize, inConstantValue);
        NdArray<dtype> output(1, inImageArray.size());
 
        const uint32 boundarySize = inSize / 2; // integer division
        const uint32 endPoint     = boundarySize + inImageArray.size();
 
        for (uint32 i = boundarySize; i < endPoint; ++i)
        {
            NdArray<dtype> window = arrayWithBoundary[Slice(i - boundarySize, i + boundarySize + 1)];
 
            output[i - boundarySize] = window.min().item();
        }
 
        return output;
    }
    NdArray<dtype> minumumFilter1d(const NdArray<dtype>& inImageArray, {…}
} // namespace nc::filter