atrous_convolution.hpp

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#ifndef MLPACK_METHODS_ANN_LAYER_ATROUS_CONVOLUTION_HPP
#define MLPACK_METHODS_ANN_LAYER_ATROUS_CONVOLUTION_HPP

#include <mlpack/prereqs.hpp>

#include <mlpack/methods/ann/convolution_rules/border_modes.hpp>
#include <mlpack/methods/ann/convolution_rules/naive_convolution.hpp>
#include <mlpack/methods/ann/convolution_rules/fft_convolution.hpp>
#include <mlpack/methods/ann/convolution_rules/svd_convolution.hpp>

#include "layer_types.hpp"

namespace mlpack{
namespace ann  {

template <
    typename ForwardConvolutionRule = NaiveConvolution<ValidConvolution>,
    typename BackwardConvolutionRule = NaiveConvolution<FullConvolution>,
    typename GradientConvolutionRule = NaiveConvolution<ValidConvolution>,
    typename InputDataType = arma::mat,
    typename OutputDataType = arma::mat
>
class AtrousConvolution
{
 public:
  AtrousConvolution();

  AtrousConvolution(const size_t inSize,
                    const size_t outSize,
                    const size_t kW,
                    const size_t kH,
                    const size_t dW = 1,
                    const size_t dH = 1,
                    const size_t padW = 0,
                    const size_t padH = 0,
                    const size_t inputWidth = 0,
                    const size_t inputHeight = 0,
                    const size_t dilationW = 1,
                    const size_t dilationH = 1);

  /*
   * Set the weight and bias term.
   */
  void Reset();

  template<typename eT>
  void Forward(const arma::Mat<eT>&& input, arma::Mat<eT>&& output);

  template<typename eT>
  void Backward(const arma::Mat<eT>&& /* input */,
                arma::Mat<eT>&& gy,
                arma::Mat<eT>&& g);

  /*
   * Calculate the gradient using the output delta and the input activation.
   *
   * @param input The input parameter used for calculating the gradient.
   * @param error The calculated error.
   * @param gradient The calculated gradient.
   */
  template<typename eT>
  void Gradient(const arma::Mat<eT>&& /* input */,
                arma::Mat<eT>&& error,
                arma::Mat<eT>&& gradient);

  OutputDataType const& Parameters() const { return weights; }
  OutputDataType& Parameters() { return weights; }

  InputDataType const& InputParameter() const { return inputParameter; }
  InputDataType& InputParameter() { return inputParameter; }

  OutputDataType const& OutputParameter() const { return outputParameter; }
  OutputDataType& OutputParameter() { return outputParameter; }

  OutputDataType const& Delta() const { return delta; }
  OutputDataType& Delta() { return delta; }

  OutputDataType const& Gradient() const { return gradient; }
  OutputDataType& Gradient() { return gradient; }

  size_t const& InputWidth() const { return inputWidth; }
  size_t& InputWidth() { return inputWidth; }

  size_t const& InputHeight() const { return inputHeight; }
  size_t& InputHeight() { return inputHeight; }

  size_t const& OutputWidth() const { return outputWidth; }
  size_t& OutputWidth() { return outputWidth; }

  size_t const& OutputHeight() const { return outputHeight; }
  size_t& OutputHeight() { return outputHeight; }

  template<typename Archive>
  void serialize(Archive& ar, const unsigned int /* version */);

 private:
  /*
   * Return the convolution output size.
   *
   * @param size The size of the input (row or column).
   * @param k The size of the filter (width or height).
   * @param s The stride size (x or y direction).
   * @param p The size of the padding (width or height).
   * @param d The dilation size.
   * @return The convolution output size.
   */
  size_t ConvOutSize(const size_t size,
                      const size_t k,
                      const size_t s,
                      const size_t p,
                      const size_t d)
  {
    return std::floor(size + p * 2 - d * (k - 1) - 1) / s + 1;
  }

  /*
   * Rotates a 3rd-order tensor counterclockwise by 180 degrees.
   *
   * @param input The input data to be rotated.
   * @param output The rotated output.
   */
  template<typename eT>
  void Rotate180(const arma::Cube<eT>& input, arma::Cube<eT>& output)
  {
    output = arma::Cube<eT>(input.n_rows, input.n_cols, input.n_slices);

    // * left-right flip, up-down flip */
    for (size_t s = 0; s < output.n_slices; s++)
      output.slice(s) = arma::fliplr(arma::flipud(input.slice(s)));
  }

  /*
   * Rotates a dense matrix counterclockwise by 180 degrees.
   *
   * @param input The input data to be rotated.
   * @param output The rotated output.
   */
  template<typename eT>
  void Rotate180(const arma::Mat<eT>& input, arma::Mat<eT>& output)
  {
    // * left-right flip, up-down flip */
    output = arma::fliplr(arma::flipud(input));
  }

  /*
   * Pad the given input data.
   *
   * @param input The input to be padded.
   * @param wPad Padding width of the input.
   * @param hPad Padding height of the input.
   * @param output The padded output data.
   */
  template<typename eT>
  void Pad(const arma::Mat<eT>& input,
           size_t wPad,
           size_t hPad,
           arma::Mat<eT>& output)
  {
    if (output.n_rows != input.n_rows + wPad * 2 ||
        output.n_cols != input.n_cols + hPad * 2)
    {
      output = arma::zeros(input.n_rows + wPad * 2, input.n_cols + hPad * 2);
    }

    output.submat(wPad, hPad, wPad + input.n_rows - 1,
        hPad + input.n_cols - 1) = input;
  }

  /*
   * Pad the given input data.
   *
   * @param input The input to be padded.
   * @param wPad Padding width of the input.
   * @param hPad Padding height of the input.
   * @param output The padded output data.
   */
  template<typename eT>
  void Pad(const arma::Cube<eT>& input,
           size_t wPad,
           size_t hPad,
           arma::Cube<eT>& output)
  {
    output = arma::zeros(input.n_rows + wPad * 2,
        input.n_cols + hPad * 2, input.n_slices);

    for (size_t i = 0; i < input.n_slices; ++i)
    {
      Pad<double>(input.slice(i), wPad, hPad, output.slice(i));
    }
  }

  size_t inSize;

  size_t outSize;

  size_t kW;

  size_t kH;

  size_t dW;

  size_t dH;

  size_t padW;

  size_t padH;

  OutputDataType weights;

  arma::cube weight;

  arma::mat bias;

  size_t inputWidth;

  size_t inputHeight;

  size_t outputWidth;

  size_t outputHeight;

  size_t dilationW;

  size_t dilationH;

  arma::cube outputTemp;

  arma::cube inputTemp;

  arma::cube inputPaddedTemp;

  arma::cube gTemp;

  arma::cube gradientTemp;

  OutputDataType delta;

  OutputDataType gradient;

  InputDataType inputParameter;

  OutputDataType outputParameter;
}; // class AtrousConvolution

} // namespace ann
} // namespace mlpack

// Include implementation
#include "atrous_convolution_impl.hpp"

#endif