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shun-iwasawa |
af8f7a |
#include "iwa_rainbowfx.h"
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shun-iwasawa |
af8f7a |
#include "iwa_cie_d65.h"
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shun-iwasawa |
af8f7a |
#include "iwa_xyz.h"
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shun-iwasawa |
af8f7a |
#include "iwa_rainbow_intensity.h"
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shun-iwasawa |
af8f7a |
#include "tparamuiconcept.h"
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shun-iwasawa |
481b59 |
#include "trop.h"
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
//--------------------------------------------------------------
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shun-iwasawa |
af8f7a |
double Iwa_RainbowFx::getSizePixelAmount(const double val,
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shun-iwasawa |
af8f7a |
const TAffine affine) {
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shun-iwasawa |
af8f7a |
/*--- Convert to vector --- */
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shun-iwasawa |
af8f7a |
TPointD vect;
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shun-iwasawa |
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vect.x = val;
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shun-iwasawa |
af8f7a |
vect.y = 0.0;
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shun-iwasawa |
af8f7a |
/*--- Apply geometrical transformation ---*/
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shun-iwasawa |
af8f7a |
// For the following lines I referred to lines 586-592 of
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shun-iwasawa |
af8f7a |
// sources/stdfx/motionblurfx.cpp
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shun-iwasawa |
af8f7a |
TAffine aff(affine);
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shun-iwasawa |
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aff.a13 = aff.a23 = 0; /* ignore translation */
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shun-iwasawa |
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vect = aff * vect;
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shun-iwasawa |
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/*--- return the length of the vector ---*/
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shun-iwasawa |
af8f7a |
return sqrt(vect.x * vect.x + vect.y * vect.y);
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
//------------------------------------------------------------
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
481b59 |
void Iwa_RainbowFx::buildRainbowColorMap(double3* core, double3* wide,
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shun-iwasawa |
481b59 |
double intensity, double inside,
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shun-iwasawa |
481b59 |
double secondary, bool doClamp) {
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shun-iwasawa |
af8f7a |
auto clamp01 = [](double val) { return std::min(1.0, std::max(0.0, val)); };
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
int mapSize[2] = {301, 91};
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shun-iwasawa |
af8f7a |
// secondary rainbow : gradually darken from 133 to 136 degrees
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shun-iwasawa |
af8f7a |
double secondary_grad_range[2] = {133, 136};
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shun-iwasawa |
af8f7a |
// supernumerary rainbow inside the primary rainbow : gradually darken from
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shun-iwasawa |
af8f7a |
// 139.75 to 139.2 degrees
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shun-iwasawa |
af8f7a |
double inside_grad_width = 0.57;
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shun-iwasawa |
af8f7a |
double inside_grad_start[2] = {139.75, 139.2};
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
for (int m = 0; m < 2; m++) {
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shun-iwasawa |
af8f7a |
double3* out_p = (m == 0) ? core : wide;
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shun-iwasawa |
af8f7a |
double xyz_sum[3];
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shun-iwasawa |
af8f7a |
for (int a = 0; a < mapSize[m]; a++, out_p++) {
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shun-iwasawa |
af8f7a |
double angle = (m == 0) ? 120.0 + (double)a * 0.1 : 90.0 + (double)a;
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
double second_ratio = 1.0;
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shun-iwasawa |
af8f7a |
if (angle <= secondary_grad_range[0]) {
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shun-iwasawa |
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second_ratio = secondary;
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shun-iwasawa |
af8f7a |
} else if (angle < secondary_grad_range[1]) {
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shun-iwasawa |
af8f7a |
double r = (angle - (double)secondary_grad_range[0]) /
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shun-iwasawa |
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(double)(secondary_grad_range[1] - secondary_grad_range[0]);
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shun-iwasawa |
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second_ratio = (1.0 - r) * secondary + r;
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
xyz_sum[0] = 0.0;
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shun-iwasawa |
af8f7a |
xyz_sum[1] = 0.0;
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shun-iwasawa |
af8f7a |
xyz_sum[2] = 0.0;
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shun-iwasawa |
af8f7a |
// sum for each wavelength (in the range of visible light, 380nm-710nm)
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shun-iwasawa |
af8f7a |
for (int ram = 0; ram < 34; ram++) {
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af8f7a |
double start =
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shun-iwasawa |
af8f7a |
inside_grad_start[0] +
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shun-iwasawa |
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(inside_grad_start[1] - inside_grad_start[0]) * (double)ram / 33.0;
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shun-iwasawa |
af8f7a |
double end = start + inside_grad_width;
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shun-iwasawa |
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double inside_ratio = 1.0;
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shun-iwasawa |
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if (angle >= end) {
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shun-iwasawa |
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inside_ratio = inside;
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shun-iwasawa |
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} else if (angle > start) {
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shun-iwasawa |
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double r = (angle - start) / inside_grad_width;
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shun-iwasawa |
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inside_ratio = (1.0 - r) + r * inside;
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
double* data =
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shun-iwasawa |
af8f7a |
(m == 0) ? &rainbow_core_data[a][0] : &rainbow_wide_data[a][0];
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shun-iwasawa |
af8f7a |
// accumulate XYZ channel values
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shun-iwasawa |
af8f7a |
for (int c = 0; c < 3; c++)
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xyz_sum[c] +=
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shun-iwasawa |
af8f7a |
cie_d65[ram] * data[ram] * xyz[ram * 3 + c] * inside_ratio;
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
double tmp_intensity = intensity * 25000.0 * second_ratio;
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shun-iwasawa |
481b59 |
out_p->r = (3.240479 * xyz_sum[0] - 1.537150 * xyz_sum[1] -
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shun-iwasawa |
481b59 |
0.498535 * xyz_sum[2]) *
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shun-iwasawa |
481b59 |
tmp_intensity;
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shun-iwasawa |
481b59 |
out_p->g = (-0.969256 * xyz_sum[0] + 1.875992 * xyz_sum[1] +
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shun-iwasawa |
481b59 |
0.041556 * xyz_sum[2]) *
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shun-iwasawa |
481b59 |
tmp_intensity;
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shun-iwasawa |
481b59 |
out_p->b = (0.055648 * xyz_sum[0] - 0.204043 * xyz_sum[1] +
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shun-iwasawa |
481b59 |
1.057311f * xyz_sum[2]) *
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shun-iwasawa |
481b59 |
tmp_intensity;
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shun-iwasawa |
481b59 |
if (doClamp) {
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shun-iwasawa |
481b59 |
out_p->r = clamp01(out_p->r);
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shun-iwasawa |
481b59 |
out_p->g = clamp01(out_p->g);
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shun-iwasawa |
481b59 |
out_p->b = clamp01(out_p->b);
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shun-iwasawa |
481b59 |
}
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
//------------------------------------------------------------
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
template <typename pixel="" raster,="" typename=""></typename>
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shun-iwasawa |
af8f7a |
void Iwa_RainbowFx::setOutputRaster(const RASTER ras, TDimensionI dim,
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shun-iwasawa |
af8f7a |
double3* outBuf_p) {
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shun-iwasawa |
af8f7a |
bool withAlpha = m_alpha_rendering->getValue();
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shun-iwasawa |
af8f7a |
double maxi = static_cast<double>(PIXEL::maxChannelValue); // 255or65535</double>
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shun-iwasawa |
af8f7a |
double3* out_p = outBuf_p;
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shun-iwasawa |
af8f7a |
for (int j = 0; j < dim.ly; j++) {
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shun-iwasawa |
af8f7a |
PIXEL* pix = ras->pixels(j);
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shun-iwasawa |
af8f7a |
for (int i = 0; i < dim.lx; i++, out_p++, pix++) {
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shun-iwasawa |
af8f7a |
pix->r = (typename PIXEL::Channel)(out_p->r * (maxi + 0.999999));
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shun-iwasawa |
af8f7a |
pix->g = (typename PIXEL::Channel)(out_p->g * (maxi + 0.999999));
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shun-iwasawa |
af8f7a |
pix->b = (typename PIXEL::Channel)(out_p->b * (maxi + 0.999999));
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
if (withAlpha) {
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shun-iwasawa |
af8f7a |
double chan_a = std::max(std::max(out_p->r, out_p->g), out_p->b);
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shun-iwasawa |
af8f7a |
pix->m = (typename PIXEL::Channel)(chan_a * (maxi + 0.999999));
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shun-iwasawa |
af8f7a |
} else
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shun-iwasawa |
af8f7a |
pix->m = (typename PIXEL::Channel)(PIXEL::maxChannelValue);
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
481b59 |
template <>
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shun-iwasawa |
481b59 |
void Iwa_RainbowFx::setOutputRaster<trasterfp, tpixelf="">(const TRasterFP ras,</trasterfp,>
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shun-iwasawa |
481b59 |
TDimensionI dim,
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shun-iwasawa |
481b59 |
double3* outBuf_p) {
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shun-iwasawa |
481b59 |
bool withAlpha = m_alpha_rendering->getValue();
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shun-iwasawa |
481b59 |
double3* out_p = outBuf_p;
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shun-iwasawa |
481b59 |
for (int j = 0; j < dim.ly; j++) {
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shun-iwasawa |
481b59 |
TPixelF* pix = ras->pixels(j);
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shun-iwasawa |
481b59 |
for (int i = 0; i < dim.lx; i++, out_p++, pix++) {
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shun-iwasawa |
481b59 |
pix->r = (float)(out_p->r);
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shun-iwasawa |
481b59 |
pix->g = (float)(out_p->g);
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shun-iwasawa |
481b59 |
pix->b = (float)(out_p->b);
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shun-iwasawa |
481b59 |
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shun-iwasawa |
481b59 |
if (withAlpha)
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shun-iwasawa |
481b59 |
pix->m = std::max(std::max(pix->r, pix->g), pix->b);
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shun-iwasawa |
481b59 |
else
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shun-iwasawa |
481b59 |
pix->m = 1.f;
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shun-iwasawa |
481b59 |
}
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shun-iwasawa |
481b59 |
}
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shun-iwasawa |
481b59 |
}
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shun-iwasawa |
481b59 |
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shun-iwasawa |
af8f7a |
//------------------------------------------------------------
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
Iwa_RainbowFx::Iwa_RainbowFx()
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shun-iwasawa |
af8f7a |
: m_center(TPointD(0.0, 0.0))
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shun-iwasawa |
af8f7a |
, m_radius(200.0)
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shun-iwasawa |
af8f7a |
, m_intensity(1.0)
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shun-iwasawa |
af8f7a |
, m_width_scale(1.0)
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shun-iwasawa |
af8f7a |
, m_inside(1.0)
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shun-iwasawa |
af8f7a |
, m_secondary_rainbow(1.0)
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shun-iwasawa |
af8f7a |
, m_alpha_rendering(false) {
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shun-iwasawa |
481b59 |
// Fx Version 1: *2.2 Gamma when linear rendering (it duplicately applies
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shun-iwasawa |
481b59 |
// gamma and is not correct) Fx Version 2: *1/2.2 Gamma when non-linear
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shun-iwasawa |
481b59 |
// rendering
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shun-iwasawa |
481b59 |
setFxVersion(2);
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shun-iwasawa |
481b59 |
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shun-iwasawa |
af8f7a |
bindParam(this, "center", m_center);
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shun-iwasawa |
af8f7a |
bindParam(this, "radius", m_radius);
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shun-iwasawa |
af8f7a |
bindParam(this, "intensity", m_intensity);
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shun-iwasawa |
af8f7a |
bindParam(this, "width_scale", m_width_scale);
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shun-iwasawa |
af8f7a |
bindParam(this, "inside", m_inside);
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shun-iwasawa |
af8f7a |
bindParam(this, "secondary_rainbow", m_secondary_rainbow);
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shun-iwasawa |
af8f7a |
bindParam(this, "alpha_rendering", m_alpha_rendering);
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
m_radius->setValueRange(0.0, std::numeric_limits<double>::max());</double>
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shun-iwasawa |
af8f7a |
m_intensity->setValueRange(0.1, 10.0);
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shun-iwasawa |
af8f7a |
m_inside->setValueRange(0.0, 1.0);
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shun-iwasawa |
af8f7a |
m_secondary_rainbow->setValueRange(0.0, 10.0);
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shun-iwasawa |
af8f7a |
m_width_scale->setValueRange(0.1, 50.0);
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shun-iwasawa |
481b59 |
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shun-iwasawa |
481b59 |
enableComputeInFloat(true);
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
//------------------------------------------------------------
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
bool Iwa_RainbowFx::doGetBBox(double frame, TRectD& bBox,
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shun-iwasawa |
af8f7a |
const TRenderSettings& ri) {
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shun-iwasawa |
af8f7a |
bBox = TConsts::infiniteRectD;
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shun-iwasawa |
af8f7a |
return true;
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
//------------------------------------------------------------
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
inline double3 Iwa_RainbowFx::angleToColor(double angle, double3* core,
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shun-iwasawa |
af8f7a |
double3* wide) {
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shun-iwasawa |
af8f7a |
// boundary conditions
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shun-iwasawa |
af8f7a |
if (angle <= 90.0)
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shun-iwasawa |
af8f7a |
return wide[0];
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shun-iwasawa |
af8f7a |
else if (angle >= 180.0)
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shun-iwasawa |
af8f7a |
return wide[90];
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
// inside of the range of hi-res color table
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shun-iwasawa |
af8f7a |
if (angle > 120.0 && angle < 150.0) {
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shun-iwasawa |
af8f7a |
double tablePos = (angle - 120) / 0.1;
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shun-iwasawa |
af8f7a |
int tableId = (int)std::floor(tablePos);
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shun-iwasawa |
af8f7a |
double ratio = tablePos - (double)tableId;
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shun-iwasawa |
af8f7a |
return {core[tableId].r * (1.0 - ratio) + core[tableId + 1].r * ratio,
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shun-iwasawa |
af8f7a |
core[tableId].g * (1.0 - ratio) + core[tableId + 1].g * ratio,
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shun-iwasawa |
af8f7a |
core[tableId].b * (1.0 - ratio) + core[tableId + 1].b * ratio};
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
// low-res color table
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shun-iwasawa |
af8f7a |
double tablePos = (angle - 90) / 1.0;
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shun-iwasawa |
af8f7a |
int tableId = (int)std::floor(tablePos);
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shun-iwasawa |
af8f7a |
double ratio = tablePos - (double)tableId;
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shun-iwasawa |
af8f7a |
return {wide[tableId].r * (1.0 - ratio) + wide[tableId + 1].r * ratio,
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shun-iwasawa |
af8f7a |
wide[tableId].g * (1.0 - ratio) + wide[tableId + 1].g * ratio,
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shun-iwasawa |
af8f7a |
wide[tableId].b * (1.0 - ratio) + wide[tableId + 1].b * ratio};
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shun-iwasawa |
af8f7a |
}
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
//------------------------------------------------------------
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shun-iwasawa |
af8f7a |
void Iwa_RainbowFx::doCompute(TTile& tile, double frame,
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shun-iwasawa |
af8f7a |
const TRenderSettings& ri) {
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shun-iwasawa |
af8f7a |
// build raibow color map
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shun-iwasawa |
af8f7a |
TRasterGR8P rainbowColorCore_ras(sizeof(double3) * 301, 1);
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shun-iwasawa |
af8f7a |
rainbowColorCore_ras->lock();
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shun-iwasawa |
af8f7a |
double3* rainbowColorCore_p = (double3*)rainbowColorCore_ras->getRawData();
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
TRasterGR8P rainbowColorWide_ras(sizeof(double3) * 91, 1);
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shun-iwasawa |
af8f7a |
rainbowColorWide_ras->lock();
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shun-iwasawa |
af8f7a |
double3* rainbowColorWide_p = (double3*)rainbowColorWide_ras->getRawData();
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shun-iwasawa |
af8f7a |
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shun-iwasawa |
af8f7a |
double intensity = m_intensity->getValue(frame);
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shun-iwasawa |
af8f7a |
double inside = m_inside->getValue(frame);
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shun-iwasawa |
af8f7a |
double secondary = m_secondary_rainbow->getValue(frame);
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shun-iwasawa |
481b59 |
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shun-iwasawa |
481b59 |
bool doClamp = (tile.getRaster()->getPixelSize() != 16);
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shun-iwasawa |
481b59 |
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shun-iwasawa |
481b59 |
buildRainbowColorMap(rainbowColorCore_p, rainbowColorWide_p, intensity,
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shun-iwasawa |
481b59 |
inside, secondary, doClamp);
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
// convert center position to render region coordinate
|
|
shun-iwasawa |
af8f7a |
TAffine aff = ri.m_affine;
|
|
shun-iwasawa |
af8f7a |
TDimensionI dimOut(tile.getRaster()->getLx(), tile.getRaster()->getLy());
|
|
shun-iwasawa |
af8f7a |
TPointD dimOffset((float)dimOut.lx / 2.0f, (float)dimOut.ly / 2.0f);
|
|
shun-iwasawa |
af8f7a |
TPointD centerPos = m_center->getValue(frame);
|
|
shun-iwasawa |
af8f7a |
centerPos = aff * centerPos - (tile.m_pos + tile.getRaster()->getCenterD()) +
|
|
shun-iwasawa |
af8f7a |
dimOffset;
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
// result image buffer
|
|
shun-iwasawa |
af8f7a |
TRasterGR8P outBuf_ras(sizeof(double3) * dimOut.lx * dimOut.ly, 1);
|
|
shun-iwasawa |
af8f7a |
outBuf_ras->lock();
|
|
shun-iwasawa |
af8f7a |
double3* outBuf_p = (double3*)outBuf_ras->getRawData();
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
double theta_peak = 41.3;
|
|
shun-iwasawa |
af8f7a |
double peakRadius =
|
|
shun-iwasawa |
af8f7a |
getSizePixelAmount(m_radius->getValue(frame), ri.m_affine);
|
|
shun-iwasawa |
af8f7a |
double anglePerPixel = theta_peak / peakRadius;
|
|
shun-iwasawa |
af8f7a |
double widthScale = m_width_scale->getValue(frame);
|
|
shun-iwasawa |
af8f7a |
double3* out_p = outBuf_p;
|
|
shun-iwasawa |
af8f7a |
// loop for all pixels
|
|
shun-iwasawa |
af8f7a |
for (int y = 0; y < dimOut.ly; y++) {
|
|
shun-iwasawa |
af8f7a |
for (int x = 0; x < dimOut.lx; x++, out_p++) {
|
|
shun-iwasawa |
af8f7a |
// convert pixel distance from the center to scattering angle (degrees)
|
|
shun-iwasawa |
af8f7a |
double s = x - centerPos.x;
|
|
shun-iwasawa |
af8f7a |
double t = y - centerPos.y;
|
|
shun-iwasawa |
af8f7a |
double theta = std::sqrt(s * s + t * t) * anglePerPixel;
|
|
shun-iwasawa |
af8f7a |
double phi = 180.0 - theta_peak + (theta_peak - theta) / widthScale;
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
*out_p = angleToColor(phi, rainbowColorCore_p, rainbowColorWide_p);
|
|
shun-iwasawa |
af8f7a |
}
|
|
shun-iwasawa |
af8f7a |
}
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
rainbowColorCore_ras->unlock();
|
|
shun-iwasawa |
af8f7a |
rainbowColorWide_ras->unlock();
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
// convert to channel values
|
|
shun-iwasawa |
af8f7a |
tile.getRaster()->clear();
|
|
shun-iwasawa |
af8f7a |
TRaster32P outRas32 = (TRaster32P)tile.getRaster();
|
|
shun-iwasawa |
af8f7a |
TRaster64P outRas64 = (TRaster64P)tile.getRaster();
|
|
shun-iwasawa |
481b59 |
TRasterFP outRasF = (TRasterFP)tile.getRaster();
|
|
shun-iwasawa |
af8f7a |
if (outRas32)
|
|
shun-iwasawa |
af8f7a |
setOutputRaster<traster32p, tpixel32="">(outRas32, dimOut, outBuf_p);</traster32p,>
|
|
shun-iwasawa |
af8f7a |
else if (outRas64)
|
|
shun-iwasawa |
af8f7a |
setOutputRaster<traster64p, tpixel64="">(outRas64, dimOut, outBuf_p);</traster64p,>
|
|
shun-iwasawa |
481b59 |
else if (outRasF)
|
|
shun-iwasawa |
481b59 |
setOutputRaster<trasterfp, tpixelf="">(outRasF, dimOut, outBuf_p);</trasterfp,>
|
|
shun-iwasawa |
481b59 |
|
|
shun-iwasawa |
481b59 |
// modify gamma
|
|
shun-iwasawa |
481b59 |
if (getFxVersion() == 1 && tile.getRaster()->isLinear()) {
|
|
shun-iwasawa |
481b59 |
tile.getRaster()->setLinear(false);
|
|
shun-iwasawa |
481b59 |
TRop::toLinearRGB(tile.getRaster(), ri.m_colorSpaceGamma);
|
|
shun-iwasawa |
481b59 |
} else if (getFxVersion() >= 2 && !tile.getRaster()->isLinear()) {
|
|
shun-iwasawa |
481b59 |
tile.getRaster()->setLinear(true);
|
|
shun-iwasawa |
481b59 |
TRop::tosRGB(tile.getRaster(), ri.m_colorSpaceGamma);
|
|
shun-iwasawa |
481b59 |
}
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
outBuf_ras->unlock();
|
|
shun-iwasawa |
af8f7a |
}
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
//------------------------------------------------------------
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
void Iwa_RainbowFx::getParamUIs(TParamUIConcept*& concepts, int& length) {
|
|
shun-iwasawa |
af8f7a |
concepts = new TParamUIConcept[length = 3];
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
concepts[0].m_type = TParamUIConcept::POINT;
|
|
shun-iwasawa |
af8f7a |
concepts[0].m_label = "Center";
|
|
shun-iwasawa |
af8f7a |
concepts[0].m_params.push_back(m_center);
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
concepts[1].m_type = TParamUIConcept::RADIUS;
|
|
shun-iwasawa |
af8f7a |
concepts[1].m_label = "Radius";
|
|
shun-iwasawa |
af8f7a |
concepts[1].m_params.push_back(m_radius);
|
|
shun-iwasawa |
af8f7a |
concepts[1].m_params.push_back(m_center);
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
concepts[2].m_type = TParamUIConcept::RAINBOW_WIDTH;
|
|
shun-iwasawa |
af8f7a |
concepts[2].m_label = "Width";
|
|
shun-iwasawa |
af8f7a |
concepts[2].m_params.push_back(m_width_scale);
|
|
shun-iwasawa |
af8f7a |
concepts[2].m_params.push_back(m_radius);
|
|
shun-iwasawa |
af8f7a |
concepts[2].m_params.push_back(m_center);
|
|
shun-iwasawa |
af8f7a |
}
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
481b59 |
//------------------------------------------------------------
|
|
shun-iwasawa |
481b59 |
|
|
shun-iwasawa |
481b59 |
bool Iwa_RainbowFx::toBeComputedInLinearColorSpace(bool settingsIsLinear,
|
|
shun-iwasawa |
481b59 |
bool tileIsLinear) const {
|
|
shun-iwasawa |
481b59 |
return settingsIsLinear;
|
|
shun-iwasawa |
481b59 |
}
|
|
shun-iwasawa |
481b59 |
|
|
shun-iwasawa |
af8f7a |
//==============================================================================
|
|
shun-iwasawa |
af8f7a |
|
|
shun-iwasawa |
af8f7a |
FX_PLUGIN_IDENTIFIER(Iwa_RainbowFx, "iwa_RainbowFx");
|