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Diffstat (limited to 'third_party/jpeg-xl/lib/jxl/dec_tone_mapping-inl.h')
-rw-r--r-- | third_party/jpeg-xl/lib/jxl/dec_tone_mapping-inl.h | 234 |
1 files changed, 234 insertions, 0 deletions
diff --git a/third_party/jpeg-xl/lib/jxl/dec_tone_mapping-inl.h b/third_party/jpeg-xl/lib/jxl/dec_tone_mapping-inl.h new file mode 100644 index 0000000000..26bf643152 --- /dev/null +++ b/third_party/jpeg-xl/lib/jxl/dec_tone_mapping-inl.h @@ -0,0 +1,234 @@ +// Copyright (c) the JPEG XL Project Authors. All rights reserved. +// +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +#if defined(LIB_JXL_DEC_TONE_MAPPING_INL_H_) == defined(HWY_TARGET_TOGGLE) +#ifdef LIB_JXL_DEC_TONE_MAPPING_INL_H_ +#undef LIB_JXL_DEC_TONE_MAPPING_INL_H_ +#else +#define LIB_JXL_DEC_TONE_MAPPING_INL_H_ +#endif + +#include <hwy/highway.h> + +#include "lib/jxl/transfer_functions-inl.h" + +HWY_BEFORE_NAMESPACE(); +namespace jxl { +namespace HWY_NAMESPACE { +namespace { + +// These templates are not found via ADL. +using hwy::HWY_NAMESPACE::Clamp; +using hwy::HWY_NAMESPACE::Max; +using hwy::HWY_NAMESPACE::ZeroIfNegative; + +template <typename D> +class Rec2408ToneMapper { + private: + using V = hwy::HWY_NAMESPACE::Vec<D>; + + public: + explicit Rec2408ToneMapper(std::pair<float, float> source_range, + std::pair<float, float> target_range, + const float primaries_luminances[3]) + : source_range_(source_range), + target_range_(target_range), + red_Y_(primaries_luminances[0]), + green_Y_(primaries_luminances[1]), + blue_Y_(primaries_luminances[2]) {} + + void ToneMap(V* red, V* green, V* blue) const { + const V luminance = Mul(Set(df_, source_range_.second), + (MulAdd(Set(df_, red_Y_), *red, + MulAdd(Set(df_, green_Y_), *green, + Mul(Set(df_, blue_Y_), *blue))))); + const V pq_mastering_min = Set(df_, pq_mastering_min_); + const V inv_pq_mastering_range = Set(df_, inv_pq_mastering_range_); + const V normalized_pq = Min( + Set(df_, 1.f), + Mul(Sub(InvEOTF(luminance), pq_mastering_min), inv_pq_mastering_range)); + const V ks = Set(df_, ks_); + const V e2 = + IfThenElse(Lt(normalized_pq, ks), normalized_pq, P(normalized_pq)); + const V one_minus_e2 = Sub(Set(df_, 1), e2); + const V one_minus_e2_2 = Mul(one_minus_e2, one_minus_e2); + const V one_minus_e2_4 = Mul(one_minus_e2_2, one_minus_e2_2); + const V b = Set(df_, min_lum_); + const V e3 = MulAdd(b, one_minus_e2_4, e2); + const V pq_mastering_range = Set(df_, pq_mastering_range_); + const V e4 = MulAdd(e3, pq_mastering_range, pq_mastering_min); + const V new_luminance = + Min(Set(df_, target_range_.second), + ZeroIfNegative( + Mul(Set(df_, 10000), TF_PQ().DisplayFromEncoded(df_, e4)))); + + const V ratio = Div(new_luminance, luminance); + const V inv_target_peak = Set(df_, inv_target_peak_); + const V normalizer = Set(df_, normalizer_); + const V multiplier = Mul(ratio, normalizer); + for (V* const val : {red, green, blue}) { + *val = IfThenElse(Le(luminance, Set(df_, 1e-6f)), + Mul(new_luminance, inv_target_peak), + Mul(*val, multiplier)); + } + } + + private: + V InvEOTF(const V luminance) const { + return TF_PQ().EncodedFromDisplay(df_, + Mul(luminance, Set(df_, 1. / 10000))); + } + float InvEOTF(const float luminance) const { + return TF_PQ().EncodedFromDisplay(luminance / 10000.0f); + } + V T(const V a) const { + const V ks = Set(df_, ks_); + const V inv_one_minus_ks = Set(df_, inv_one_minus_ks_); + return Mul(Sub(a, ks), inv_one_minus_ks); + } + V P(const V b) const { + const V t_b = T(b); + const V t_b_2 = Mul(t_b, t_b); + const V t_b_3 = Mul(t_b_2, t_b); + const V ks = Set(df_, ks_); + const V max_lum = Set(df_, max_lum_); + return MulAdd( + MulAdd(Set(df_, 2), t_b_3, MulAdd(Set(df_, -3), t_b_2, Set(df_, 1))), + ks, + MulAdd(Add(t_b_3, MulAdd(Set(df_, -2), t_b_2, t_b)), + Sub(Set(df_, 1), ks), + Mul(MulAdd(Set(df_, -2), t_b_3, Mul(Set(df_, 3), t_b_2)), + max_lum))); + } + + D df_; + const std::pair<float, float> source_range_; + const std::pair<float, float> target_range_; + const float red_Y_; + const float green_Y_; + const float blue_Y_; + + const float pq_mastering_min_ = InvEOTF(source_range_.first); + const float pq_mastering_max_ = InvEOTF(source_range_.second); + const float pq_mastering_range_ = pq_mastering_max_ - pq_mastering_min_; + const float inv_pq_mastering_range_ = 1.0f / pq_mastering_range_; + // TODO(eustas): divide instead of inverse-multiply? + const float min_lum_ = (InvEOTF(target_range_.first) - pq_mastering_min_) * + inv_pq_mastering_range_; + // TODO(eustas): divide instead of inverse-multiply? + const float max_lum_ = (InvEOTF(target_range_.second) - pq_mastering_min_) * + inv_pq_mastering_range_; + const float ks_ = 1.5f * max_lum_ - 0.5f; + const float b_ = min_lum_; + + const float inv_one_minus_ks_ = 1.0f / std::max(1e-6f, 1.0f - ks_); + + const float normalizer_ = source_range_.second / target_range_.second; + const float inv_target_peak_ = 1.f / target_range_.second; +}; + +class HlgOOTF { + public: + explicit HlgOOTF(float source_luminance, float target_luminance, + const float primaries_luminances[3]) + : HlgOOTF(/*gamma=*/std::pow( + 1.111f, std::log2(target_luminance / source_luminance)), + primaries_luminances) {} + + static HlgOOTF FromSceneLight(float display_luminance, + const float primaries_luminances[3]) { + return HlgOOTF(/*gamma=*/1.2f * + std::pow(1.111f, std::log2(display_luminance / 1000.f)), + primaries_luminances); + } + + static HlgOOTF ToSceneLight(float display_luminance, + const float primaries_luminances[3]) { + return HlgOOTF( + /*gamma=*/(1 / 1.2f) * + std::pow(1.111f, -std::log2(display_luminance / 1000.f)), + primaries_luminances); + } + + template <typename V> + void Apply(V* red, V* green, V* blue) const { + hwy::HWY_NAMESPACE::DFromV<V> df; + if (!apply_ootf_) return; + const V luminance = + MulAdd(Set(df, red_Y_), *red, + MulAdd(Set(df, green_Y_), *green, Mul(Set(df, blue_Y_), *blue))); + const V ratio = + Min(FastPowf(df, luminance, Set(df, exponent_)), Set(df, 1e9)); + *red = Mul(*red, ratio); + *green = Mul(*green, ratio); + *blue = Mul(*blue, ratio); + } + + bool WarrantsGamutMapping() const { return apply_ootf_ && exponent_ < 0; } + + private: + explicit HlgOOTF(float gamma, const float luminances[3]) + : exponent_(gamma - 1), + red_Y_(luminances[0]), + green_Y_(luminances[1]), + blue_Y_(luminances[2]) {} + const float exponent_; + const bool apply_ootf_ = exponent_ < -0.01f || 0.01f < exponent_; + const float red_Y_; + const float green_Y_; + const float blue_Y_; +}; + +template <typename V> +void GamutMap(V* red, V* green, V* blue, const float primaries_luminances[3], + float preserve_saturation = 0.1f) { + hwy::HWY_NAMESPACE::DFromV<V> df; + const V luminance = + MulAdd(Set(df, primaries_luminances[0]), *red, + MulAdd(Set(df, primaries_luminances[1]), *green, + Mul(Set(df, primaries_luminances[2]), *blue))); + + // Desaturate out-of-gamut pixels. This is done by mixing each pixel + // with just enough gray of the target luminance to make all + // components non-negative. + // - For saturation preservation, if a component is still larger than + // 1 then the pixel is normalized to have a maximum component of 1. + // That will reduce its luminance. + // - For luminance preservation, getting all components below 1 is + // done by mixing in yet more gray. That will desaturate it further. + V gray_mix_saturation = Zero(df); + V gray_mix_luminance = Zero(df); + for (const V* ch : {red, green, blue}) { + const V& val = *ch; + const V inv_val_minus_gray = Div(Set(df, 1), (Sub(val, luminance))); + gray_mix_saturation = + IfThenElse(Ge(val, luminance), gray_mix_saturation, + Max(gray_mix_saturation, Mul(val, inv_val_minus_gray))); + gray_mix_luminance = + Max(gray_mix_luminance, + IfThenElse(Le(val, luminance), gray_mix_saturation, + Mul(Sub(val, Set(df, 1)), inv_val_minus_gray))); + } + const V gray_mix = Clamp( + MulAdd(Set(df, preserve_saturation), + Sub(gray_mix_saturation, gray_mix_luminance), gray_mix_luminance), + Zero(df), Set(df, 1)); + for (V* const val : {red, green, blue}) { + *val = MulAdd(gray_mix, Sub(luminance, *val), *val); + } + const V normalizer = + Div(Set(df, 1), Max(Set(df, 1), Max(*red, Max(*green, *blue)))); + for (V* const val : {red, green, blue}) { + *val = Mul(*val, normalizer); + } +} + +} // namespace +// NOLINTNEXTLINE(google-readability-namespace-comments) +} // namespace HWY_NAMESPACE +} // namespace jxl +HWY_AFTER_NAMESPACE(); + +#endif // LIB_JXL_DEC_TONE_MAPPING_INL_H_ |