#pragma once

#include "shapes.hh"

#include <string>
#include <vector>

class ImageManipulator
{
public:
  ImageManipulator() = delete;

  /// \brief Copy contructor
  ImageManipulator(const ImageManipulator &other);

  /// \brief Move constructor
  ImageManipulator(ImageManipulator &&other) noexcept;

  /// \brief Load image from input, and prepare for output
  ImageManipulator(std::string const t_input_path,
                   std::string const t_output_path, int const iterations,
                   Shape::ShapeType const t_shape);

  /// \brief Basically makes views from image
  ImageManipulator(cv::Mat const &t_origin_image, int const t_iterations,
                   Shape::ShapeType const t_shape, int const t_x, int const t_y,
                   int const t_width, int const t_height);

  [[nodiscard]] auto operator=(ImageManipulator &other) = delete;

  [[nodiscard]] auto operator=(ImageManipulator &&other) noexcept = delete;

  /// \brief Execute the nth method on the current object
  void exec_method(int const t_nb_method, bool const t_controlled_size,
                   int const t_cols, int const t_rows, int const t_submethod);

  /**
   *  \brief Write the generated image to the output path
   *
   *  Write the generated image as a file to the specified path stored in the
   *  object
   */
  inline void write_file() const
  {
    cv::imwrite(output_path_, generated_image_);
  }

  /// \brief Returns a reference to the generated image
  [[nodiscard]] inline auto const &get_generated_image() const noexcept
  {
    return generated_image_;
  }

  /// \brief Destructor
  virtual ~ImageManipulator() noexcept = default;

protected:
private:
  // methods //////////////////////////////////////////////////////////////////

  /// \brief Creates and returns a random color
  [[nodiscard]] auto random_color() const noexcept;

  /// \brief Generates a candidate for image generation improvement
  [[nodiscard]] auto create_candidate(bool const t_controlled_size);

  /// \brief Generates organized views of the reference image for method 5
  [[nodiscard]] auto generate_tiles(int const t_cols, int const t_rows) const;

  /// \brief Gets all colors from the reference image
  void get_color_set();

  /// \brief Threaded helper for \ref get_color_set
  void threaded_get_color(int const t_h);

  void draw_shape(cv::Mat &t_img, cv::Scalar &&t_color);
  void create_shape() noexcept;
  void create_controlled_shape() noexcept;

  /// \brief Update this object’s generated image
  void update_gen_image(cv::Mat const &t_img, double const t_diff);

  /// \brief Merges tiles generated by method5
  void merge_tiles(std::vector<std::vector<ImageManipulator>> const &t_tiles);

  /// \brief First method as described in the
  /// [report](https://labs.phundrak.fr/phundrak/genetic-images/blob/master/report/report.pdf)
  void method1();

  /// \brief Second method as described in the
  /// [report](https://labs.phundrak.fr/phundrak/genetic-images/blob/master/report/report.pdf)
  void method2();

  /// \brief Third method as described in the
  /// [report](https://labs.phundrak.fr/phundrak/genetic-images/blob/master/report/report.pdf)
  void method3();

  /// \brief Fourth method as described in the
  /// [report](https://labs.phundrak.fr/phundrak/genetic-images/blob/master/report/report.pdf)
  void method4(bool const t_controlled_size);

  /// \brief Fifth method as described in the
  /// [report](https://labs.phundrak.fr/phundrak/genetic-images/blob/master/report/report.pdf)
  void method5(bool const t_controlled_size, int const cols, int const rows,
               int const submethod);

  // members //////////////////////////////////////////////////////////////////

  std::vector<std::array<uchar, 3>> colors_{}; /*!< Color set from reference */
  cv::Mat const reference_{};                  /*!< Reference image */
  cv::Mat generated_image_{
      reference_.size().height, reference_.size().width, CV_8UC3,
      cv::Scalar(0, 0, 0)}; /*!< Working, generated image */
  Shape shape_{Shape::ShapeType::Square};
  mutable std::mutex
      colors_mutex_{}; /*!< Thread mutex for color set generation */
  std::string const output_path_{}; /*!< Write path for the generated image */
  double diff_{
      cv::norm(reference_, generated_image_)}; /*!< Euclidian difference
                between \ref reference_ and \ref generated_image_ */
  int const total_iterations_{0}; /*!< Number of iterations to perform */
  int remaining_iter_{
      total_iterations_}; /*!< Remaining iterations to perform */
  int const width_{reference_.size().width};   /*!< Width of the image */
  int const height_{reference_.size().height}; /*!< Height of the image */
};