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#include "igs_color_rgb_hsv.h"
namespace {
void pixel_rgba_(const double red_in, const double gre_in, const double blu_in,
                 double &red_out, double &gre_out, double &blu_out,
                 const double hue_pivot  // 0.0  ...0...360...
                 ,
                 const double hue_scale  // 1.0  ...1...
                 ,
                 const double hue_shift  // 0.0  ...0...360...
                 ,
                 const double sat_pivot  // 0.0  ...0...1...
                 ,
                 const double sat_scale  // 1.0  ...1...
                 ,
                 const double sat_shift  // 0.0  ...0...1...
                 ,
                 const double val_pivot  // 0.0  ...0...1...
                 ,
                 const double val_scale  // 1.0  ...1...
                 ,
                 const double val_shift  // 0.0  ...0...1...
                 ) {
  double hue, sat, val;
  igs::color::rgb_to_hsv(red_in, gre_in, blu_in, hue, sat, val);
  if ((1.0 != hue_scale) || (0.0 != hue_shift)) {
    hue -= hue_pivot;
    while (hue < -180.0) {
      hue += 360.0;
    }
    while (180.0 <= hue) {
      hue -= 360.0;
    }
    hue *= hue_scale;
    hue += hue_pivot;
    hue += hue_shift;
    while (hue < 0.0) {
      hue += 360.0;
    }
    while (360.0 <= hue) {
      hue -= 360.0;
    }
  }
  if ((1.0 != sat_scale) || (0.0 != sat_shift)) {
    sat -= sat_pivot;
    sat *= sat_scale;
    sat += sat_pivot;
    sat += sat_shift;
    sat = (sat < 0.0) ? 0.0 : ((1.0 < sat) ? 1.0 : sat);
  }
  if ((1.0 != val_scale) || (0.0 != val_shift)) {
    val -= val_pivot;
    val *= val_scale;
    val += val_pivot;
    val += val_shift;
    val = (val < 0.0) ? 0.0 : ((1.0 < val) ? 1.0 : val);
  }
  igs::color::hsv_to_rgb(hue, sat, val, red_out, gre_out, blu_out);
}
}
//------------------------------------------------------------
#include <limits>           /* std::numeric_limits */
#include "igs_ifx_common.h" /* igs::image::rgba */
#include "igs_hsv_adjust.h"
namespace {
/* raster画像にノイズをのせるtemplate */
template <class IT, class RT>
void change_template_(
    IT *image_array, const int height, const int width, const int channels

    ,
    const RT *ref /* 求める画像(out)と同じ高さ、幅、チャンネル数 */
    ,
    const int ref_mode  // R,G,B,A,luminance

    ,
    const double hue_pivot, const double hue_scale, const double hue_shift,
    const double sat_pivot, const double sat_scale, const double sat_shift,
    const double val_pivot, const double val_scale, const double val_shift

    ,
    const bool add_blend_sw) {
  const int t_max      = std::numeric_limits<IT>::max();
  const double div_val = static_cast<double>(t_max);
  const double mul_val = static_cast<double>(t_max) + 0.999999;
  const int pixsize    = height * width;
  const int r_max      = std::numeric_limits<RT>::max();
  if (igs::image::rgba::siz == channels) {
    using namespace igs::image::rgba;
    for (int ii = 0; ii < pixsize; ++ii, image_array += channels) {
      /* 変化量初期値 */
      double refv = 1.0;

      /* 参照画像によるピクセル単位の画像変化量を得る */
      if (ref != 0) {
        refv *= igs::color::ref_value(ref, channels, r_max, ref_mode);
        ref += channels; /* continue;の前に行うこと */
      }

      /* 加算合成で、Alpha値ゼロならRGB値を計算する必要はない */
      if (add_blend_sw && (0 == image_array[alp])) {
        continue;
      }
      /* 加算合成でなくAlpha合成の時は、
      Alpha値がゼロでもRGB値は存在する(してもよい) */

      /* RGB値を正規化 */
      const IT *const ia = image_array;
      const double rr1   = static_cast<double>(ia[red]) / div_val;
      const double gg1   = static_cast<double>(ia[gre]) / div_val;
      const double bb1   = static_cast<double>(ia[blu]) / div_val;

      /* pivot,scale,shiftによってRGB値を変化する */
      double rr2, gg2, bb2;
      pixel_rgba_(rr1, gg1, bb1, rr2, gg2, bb2, hue_pivot, hue_scale, hue_shift,
                  sat_pivot, sat_scale, sat_shift, val_pivot, val_scale,
                  val_shift);

      /* 加算合成で、その値がMaxでなければ変化量に乗算 */
      if (add_blend_sw && (ia[alp] < t_max)) {
        refv *= static_cast<double>(ia[alp]) / div_val;
      }

      /* ピクセル単位の変化量があれば、RGBを調整する */
      if ((ref != 0) || (add_blend_sw && (ia[alp] < t_max))) {
        rr2 = rr1 + (rr2 - rr1) * refv;
        gg2 = gg1 + (gg2 - gg1) * refv;
        bb2 = bb1 + (bb2 - bb1) * refv;
      }

      /* 結果をRGBに戻す */
      image_array[red] = static_cast<IT>(rr2 * mul_val);
      image_array[gre] = static_cast<IT>(gg2 * mul_val);
      image_array[blu] = static_cast<IT>(bb2 * mul_val);
    }
  } else if (igs::image::rgb::siz == channels) {
    using namespace igs::image::rgb;
    for (int ii = 0; ii < pixsize; ++ii, image_array += channels) {
      double refv = 1.0;
      if (ref != 0) {
        refv *= igs::color::ref_value(ref, channels, r_max, ref_mode);
        ref += channels;
      }

      const IT *const ia = image_array;
      const double rr1   = static_cast<double>(ia[red]) / div_val;
      const double gg1   = static_cast<double>(ia[gre]) / div_val;
      const double bb1   = static_cast<double>(ia[blu]) / div_val;
      double rr2, gg2, bb2;
      pixel_rgba_(rr1, gg1, bb1, rr2, gg2, bb2, hue_pivot, hue_scale, hue_shift,
                  sat_pivot, sat_scale, sat_shift, val_pivot, val_scale,
                  val_shift);

      if (ref != 0) {
        rr2 = rr1 + (rr2 - rr1) * refv;
        gg2 = gg1 + (gg2 - gg1) * refv;
        bb2 = bb1 + (bb2 - bb1) * refv;
      }

      image_array[red] = static_cast<IT>(rr2 * mul_val);
      image_array[gre] = static_cast<IT>(gg2 * mul_val);
      image_array[blu] = static_cast<IT>(bb2 * mul_val);
    }
  } else if (1 == channels) { /* grayscale */
    for (int ii = 0; ii < pixsize; ++ii, image_array += channels) {
      double refv = 1.0;
      if (ref != 0) {
        refv *= igs::color::ref_value(ref, channels, r_max, ref_mode);
        ref += channels;
      }

      double li1 = static_cast<double>(image_array[0]) / div_val,
             li2 = (li1 - val_pivot) * val_scale + val_pivot + val_shift;
      li2        = (li2 < 0.0) ? 0.0 : ((1.0 < li2) ? 1.0 : li2);

      if (ref != 0) {
        li2 = li1 + (li2 - li1) * refv;
      }

      image_array[0] = static_cast<IT>(li2 * mul_val);
    }
  }
}
}

#include <stdexcept> /* std::domain_error  */
void igs::hsv_adjust::change(
    unsigned char *image_array, const int height, const int width,
    const int channels, const int bits

    ,
    const unsigned char *ref /* 求める画像と同じ高、幅、channels数 */
    ,
    const int ref_bits /* refがゼロのときはここもゼロ */
    ,
    const int ref_mode /* 0=R,1=G,2=B,3=A,4=Luminance,5=Nothing */

    ,
    const double hue_pivot, const double hue_scale, const double hue_shift,
    const double sat_pivot, const double sat_scale, const double sat_shift,
    const double val_pivot, const double val_scale, const double val_shift

    ,
    const bool add_blend_sw) {
  if ((1.0 == hue_scale) && (0.0 == hue_shift) && (1.0 == sat_scale) &&
      (0.0 == sat_shift) && (1.0 == val_scale) && (0.0 == val_shift)) {
    return;
  }

  if ((igs::image::rgba::siz != channels) &&
      (igs::image::rgb::siz != channels) && (1 != channels) /* grayscale */
      ) {
    throw std::domain_error("Bad channels,Not rgba/rgb/grayscale");
  }

  /* rgb(a)画像にhsv(a)でドットノイズを加える */
  if ((std::numeric_limits<unsigned char>::digits == bits) &&
      ((std::numeric_limits<unsigned char>::digits == ref_bits) ||
       (0 == ref_bits))) {
    change_template_(image_array, height, width, channels, ref, ref_mode,
                     hue_pivot, hue_scale, hue_shift, sat_pivot, sat_scale,
                     sat_shift, val_pivot, val_scale, val_shift, add_blend_sw);
  } else if ((std::numeric_limits<unsigned short>::digits == bits) &&
             ((std::numeric_limits<unsigned char>::digits == ref_bits) ||
              (0 == ref_bits))) {
    change_template_(reinterpret_cast<unsigned short *>(image_array), height,
                     width, channels, ref, ref_mode, hue_pivot, hue_scale,
                     hue_shift, sat_pivot, sat_scale, sat_shift, val_pivot,
                     val_scale, val_shift, add_blend_sw);
  } else if ((std::numeric_limits<unsigned short>::digits == bits) &&
             (std::numeric_limits<unsigned short>::digits == ref_bits)) {
    change_template_(reinterpret_cast<unsigned short *>(image_array), height,
                     width, channels,
                     reinterpret_cast<const unsigned short *>(ref), ref_mode,
                     hue_pivot, hue_scale, hue_shift, sat_pivot, sat_scale,
                     sat_shift, val_pivot, val_scale, val_shift, add_blend_sw);
  } else if ((std::numeric_limits<unsigned char>::digits == bits) &&
             (std::numeric_limits<unsigned short>::digits == ref_bits)) {
    change_template_(image_array, height, width, channels,
                     reinterpret_cast<const unsigned short *>(ref), ref_mode,
                     hue_pivot, hue_scale, hue_shift, sat_pivot, sat_scale,
                     sat_shift, val_pivot, val_scale, val_shift, add_blend_sw);
  } else {
    throw std::domain_error("Bad bits,Not uchar/ushort");
  }
}