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bb87ed2df46601ea7bec15cd33ee65b948cab4ae
Jungfraujoch/common/ColorScale.cpp
Filip Leonarski 1c4dfd03e2
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v1.0.0-rc.123 (#30) 
This is an UNSTABLE release.

* jfjoch_broker: Use newer version of Google Ceres for (potential) CUDA 13 compatibility
* jfjoch_broker: Improve performance of generating preview images, especially for large detectors (9M-16M)
* jfjoch_viewer: Improve performance of displaying images, especially for large detectors (9M-16M)
* jfjoch_viewer: Add more color schemes for better image readability
* HDF5: Common mutex for reading and writing HDF5 if both operations were to happen in the same executable
* HDF5: suppress warning if path (upstream group) doesn't exists when checking if leaf exists

Reviewed-on: #30
Co-authored-by: Filip Leonarski <filip.leonarski@psi.ch>
Co-committed-by: Filip Leonarski <filip.leonarski@psi.ch>
2026-01-30 13:43:09 +01:00

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// SPDX-FileCopyrightText: 2025 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
// SPDX-License-Identifier: GPL-3.0-only
#include <cmath>
#include "ColorScale.h"
#include "JFJochException.h"
static inline float Clamp01(float x) {
return (x < 0.0f) ? 0.0f : (x > 1.0f ? 1.0f : x);
}
// Gamma-mapped green (recommended gamma = 0.7)
static inline rgb GreenGamma(float f, float gamma = 0.7f) {
f = Clamp01(f);
const float g = std::pow(f, gamma);
const uint8_t G = static_cast<uint8_t>(std::lround(255.0f * g));
return {.r = 0, .g = G, .b = 0};
}
// Asinh-mapped green (recommended k = 8.0)
static inline rgb GreenAsinh(float f, float k = 8.0f) {
f = Clamp01(f);
const float g = std::asinh(k * f) / std::asinh(k);
const uint8_t G = static_cast<uint8_t>(std::lround(255.0f * g));
return {.r = 0, .g = G, .b = 0};
}
float luminance(rgb input) {
return 0.2126f * input.r + 0.7152f * input.g + 0.0722f * input.b;
}
ColorScale::ColorScale() : lut_(kLutSize) {
CalcLUT();
}
void ColorScale::Select(ColorScaleEnum val) {
current = val;
CalcLUT();
}
const std::vector<rgb> &ColorScale::LUTData() const {
return lut_;
}
void ColorScale::CalcLUT() const {
const std::vector<rgb>* map = nullptr;
switch (current) {
case ColorScaleEnum::Viridis: map = &viridis_colormap; break;
case ColorScaleEnum::Heat: map = &heat_colormap;
break;
case ColorScaleEnum::Indigo: map = &white_to_indigo_colormap;
break;
case ColorScaleEnum::BW: map = &white_to_black_colormap;
break;
case ColorScaleEnum::WB: map = &black_to_white_colormap;
break;
case ColorScaleEnum::Green1:
case ColorScaleEnum::Green2:
map = nullptr;
break; // handled below
case ColorScaleEnum::Green3:
map = &green_colormap;
break;
case ColorScaleEnum::Magma:
map = &magma_colormap; break;
case ColorScaleEnum::Inferno:
map = &inferno_colormap; break;
default:
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Color scale unknown");
}
if (current == ColorScaleEnum::Green1) {
for (size_t i = 0; i < kLutSize; ++i) {
const float f = static_cast<float>(i) / static_cast<float>(kLutSize - 1);
lut_[i] = GreenGamma(f, 0.7f);
}
} else if (current == ColorScaleEnum::Green2) {
for (size_t i = 0; i < kLutSize; ++i) {
const float f = static_cast<float>(i) / static_cast<float>(kLutSize - 1);
lut_[i] = GreenAsinh(f, 8.0f);
}
} else {
for (size_t i = 0; i < kLutSize; ++i) {
const float f = static_cast<float>(i) / static_cast<float>(kLutSize - 1);
lut_[i] = Apply(f, *map);
}
}
}
rgb ColorScale::Apply(float input, const std::vector<rgb> &map) {
size_t num_colors = map.size();
if (num_colors < 2) {
throw std::invalid_argument("Colormap must have at least two colors.");
}
float scaled_value = input * (num_colors - 1);
size_t lower_idx = static_cast<size_t>(scaled_value);
size_t upper_idx = std::min(lower_idx + 1, num_colors - 1);
float t = scaled_value - lower_idx; // Fraction for interpolation
rgb lower = map[lower_idx];
rgb upper = map[upper_idx];
return {
.r = static_cast<uint8_t>(lower.r + t * (upper.r - lower.r)),
.g = static_cast<uint8_t>(lower.g + t * (upper.g - lower.g)),
.b = static_cast<uint8_t>(lower.b + t * (upper.b - lower.b))
};
}
rgb ColorScale::Apply(ColorScaleSpecial input) const {
switch (input) {
case ColorScaleSpecial::Gap:
return gap;
default:
case ColorScaleSpecial::BadPixel:
return bad;
}
}
rgb ColorScale::Apply(float input, float min, float max) const {
if (!std::isfinite(input))
return gap;
float f;
if (input <= min)
f = 0.0f;
else if (input >= max)
f = 1.0f;
else
f = (input - min) / (max - min);
const size_t idx = static_cast<size_t>(f * static_cast<float>(kLutSize - 1));
return lut_[idx];
}
rgb ColorScale::ApplyLUTIndex(size_t idx) const {
if (idx >= kLutSize)
return lut_[kLutSize-1];
return lut_[idx];
}
ColorScale &ColorScale::Gap(rgb input) {
gap = input;
return *this;
}
ColorScale &ColorScale::BadPixel(rgb input) {
bad = input;
return *this;
}
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