#include <cmath> // pow()
#include "iwa_noise1234.h"
namespace {
double perlin_noise_3d_(const double x, const double y, const double z,
const int octaves_start // 0<=
,
const int octaves_end // 0<=
,
const double persistence // Not 0
// 1/4 or 1/2 or 1/sqrt(3) or 1/sqrt(2) or 1 or ...
) {
double total = 0;
Noise1234 pn;
for (int ii = octaves_start; ii <= octaves_end; ++ii) {
const double frequency = pow(2.0, ii); // 1,2,4,8...
const double amplitude = pow(persistence, ii);
total += pn.noise(x * frequency, y * frequency, z * frequency) * amplitude;
}
return total;
}
double perlin_noise_minmax_(const int octaves_start // 0<=
,
const int octaves_end // 0<=
,
const double persistence // Not 0
// 1/4 or 1/2 or 1/sqrt(3) or 1/sqrt(2) or 1 or ...
) {
double total = 0;
for (int ii = octaves_start; ii <= octaves_end; ++ii) {
total += pow(persistence, ii);
}
return total;
}
} // namespace
//--------------------------------------------------------------------
#include <stdexcept> // std::domain_error(-)
#include <limits> // std::numeric_limits
#include "igs_ifx_common.h" /* igs::image::rgba */
#include "igs_perlin_noise.h"
namespace {
template <class T>
void change_(T *image_array, const int height, const int width,
const int wrap, // pixel
const int channels, const bool alpha_rendering_sw,
const double a11 // geometry of 2D affine transformation
,
const double a12, const double a13, const double a21,
const double a22, const double a23, const double zz,
const int octaves_start // 0<=
,
const int octaves_end // 0<=
,
const double persistence // Not 0
) {
const int max_div = std::numeric_limits<T>::max();
const int max_div_2 = max_div / 2;
// 255 / 2 --> 127
// 65535 / 2 --> 32767
// const double max_mul = static_cast<double>(max_div_2+0.999999);
// const double max_off = static_cast<double>(max_div_2+1);
const double max_mul = static_cast<double>(max_div_2 + 0.499999);
const double max_off = static_cast<double>(max_div_2 + 1.5);
/*
-1 .............. 0 ......... 1
x127+0.499999
------------------------------------------
-127+0.499999 ... 0 ......... 127+0.499999
+127+1.5 ... 127+1.5 ... 127+1.5
------------------------------------------
1.000001 ........ 127+1.5 ... 255.999999
integer
------------------------------------------
1 ............... 128 ....... 255
*/
const double maxi =
perlin_noise_minmax_(octaves_start, octaves_end, persistence);
using namespace igs::image::rgba;
T *image_crnt;
T *image_scanline = image_array;
for (int yy = 0; yy < height; ++yy) {
image_crnt = image_scanline;
for (int xx = 0; xx < width; ++xx, image_crnt += channels) {
const T val = static_cast<T>(
perlin_noise_3d_(xx * a11 + yy * a12 + a13, xx * a21 + yy * a22 + a23,
zz, octaves_start, octaves_end, persistence) /
maxi * max_mul +
max_off);
for (int zz = 0; zz < channels; ++zz) {
if (!alpha_rendering_sw && (alp == zz)) {
image_crnt[zz] = static_cast<T>(max_div);
} else {
image_crnt[zz] = val;
}
}
}
image_scanline += channels * wrap;
}
}
template <>
void change_(float *image_array, const int height, const int width,
const int wrap, // pixel
const int channels, const bool alpha_rendering_sw,
const double a11 // geometry of 2D affine transformation
,
const double a12, const double a13, const double a21,
const double a22, const double a23, const double zz,
const int octaves_start // 0<=
,
const int octaves_end // 0<=
,
const double persistence // Not 0
) {
const float max_div = 1.f;
const float max_div_2 = 0.5f;
const double maxi =
perlin_noise_minmax_(octaves_start, octaves_end, persistence);
using namespace igs::image::rgba;
float *image_crnt;
float *image_scanline = image_array;
for (int yy = 0; yy < height; ++yy) {
image_crnt = image_scanline;
for (int xx = 0; xx < width; ++xx, image_crnt += channels) {
const float val = static_cast<float>(
perlin_noise_3d_(xx * a11 + yy * a12 + a13, xx * a21 + yy * a22 + a23,
zz, octaves_start, octaves_end, persistence) /
maxi * 0.5f +
0.5f);
for (int zz = 0; zz < channels; ++zz) {
if (!alpha_rendering_sw && (alp == zz)) {
image_crnt[zz] = 1.f;
} else {
image_crnt[zz] = val;
}
}
}
image_scanline += channels * wrap;
}
}
} // namespace
// #include "igs_geometry2d.h"
void igs::perlin_noise::change(
unsigned char *image_array, const int height, const int width,
const int wrap, // pixel
const int channels, const int bits, const bool alpha_rendering_sw,
const double a11 // geometry of 2D affine transformation
,
const double a12, const double a13, const double a21, const double a22,
const double a23, const double zz, const int octaves_start // 0...
,
const int octaves_end // 0...
,
const double persistence // not 0
) {
// igs::geometry2d::affine af(a11 , a12 , a13 , a21 , a22 , a23);
// igs::geometry2d::translate();
if (std::numeric_limits<unsigned char>::digits == bits) {
change_(image_array, height, width, wrap, channels, alpha_rendering_sw, a11,
a12, a13, a21, a22, a23, zz, octaves_start, octaves_end,
persistence);
} else if (std::numeric_limits<unsigned short>::digits == bits) {
change_(reinterpret_cast<unsigned short *>(image_array), height, width,
wrap, channels, alpha_rendering_sw, a11, a12, a13, a21, a22, a23,
zz, octaves_start, octaves_end, persistence);
} else if (std::numeric_limits<float>::digits == bits) {
change_(reinterpret_cast<float *>(image_array), height, width, wrap,
channels, alpha_rendering_sw, a11, a12, a13, a21, a22, a23, zz,
octaves_start, octaves_end, persistence);
} else {
throw std::domain_error("Bad bits,Not uchar/ushort");
}
}