ladybird/Libraries/LibGfx/MedianCut.cpp

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/*
* Copyright (c) 2024, Lucas Chollet <lucas.chollet@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/QuickSort.h>
#include <AK/Statistics.h>
#include <LibGfx/MedianCut.h>
namespace Gfx {
namespace {
using Bucket = Vector<ARGB32>;
using Buckets = Vector<Bucket>;
void sort_along_color(Bucket& bucket, u8 color_index)
{
auto less_than = [=](ARGB32 first, ARGB32 second) {
auto const first_color = Color::from_argb(first);
auto const second_color = Color::from_argb(second);
switch (color_index) {
case 0:
return first_color.red() < second_color.red();
case 1:
return first_color.green() < second_color.green();
case 2:
return first_color.blue() < second_color.blue();
default:
VERIFY_NOT_REACHED();
}
};
AK::quick_sort(bucket, less_than);
}
template<typename T>
struct MaxAndIndex {
T maximum;
u32 index;
};
template<typename T, class GreaterThan>
MaxAndIndex<T> max_and_index(Span<T> values, GreaterThan greater_than)
{
VERIFY(values.size() != 0);
u32 max_index = 0;
RemoveCV<T> max_value = values[0];
for (u32 i = 0; i < values.size(); ++i) {
if (greater_than(values[i], max_value)) {
max_value = values[i];
max_index = i;
}
}
return { max_value, max_index };
}
ErrorOr<void> split_bucket(Buckets& buckets, u32 index_to_split_at, u8 color_index)
{
auto& to_split = buckets[index_to_split_at];
sort_along_color(to_split, color_index);
Bucket new_bucket {};
auto const middle = to_split.size() / 2;
auto const span_to_move = to_split.span().slice(middle);
// FIXME: Make Vector::try_extend() take a span
for (u32 i = 0; i < span_to_move.size(); ++i)
TRY(new_bucket.try_append(span_to_move[i]));
to_split.remove(middle, span_to_move.size());
TRY(buckets.try_append(move(new_bucket)));
return {};
}
struct IndexAndChannel {
u32 bucket_index {};
float score {};
u8 color_index {};
};
ErrorOr<Optional<IndexAndChannel>> find_largest_bucket(Buckets const& buckets)
{
Vector<IndexAndChannel> bucket_stats {};
for (u32 i = 0; i < buckets.size(); ++i) {
auto const& bucket = buckets[i];
if (bucket.size() == 1)
continue;
Statistics<u32> red {};
Statistics<u32> green {};
Statistics<u32> blue {};
for (auto const argb : bucket) {
auto const color = Color::from_argb(argb);
red.add(color.red());
green.add(color.green());
blue.add(color.blue());
}
Array const variances = { red.variance(), green.variance(), blue.variance() };
auto const stats = max_and_index(variances.span(), [](auto a, auto b) { return a > b; });
TRY(bucket_stats.try_append({ i, stats.maximum, static_cast<u8>(stats.index) }));
}
if (bucket_stats.size() == 0)
return OptionalNone {};
return bucket_stats[max_and_index(bucket_stats.span(), [](auto a, auto b) { return a.score > b.score; }).index];
}
ErrorOr<void> split_largest_bucket(Buckets& buckets)
{
if (auto const bucket_info = TRY(find_largest_bucket(buckets)); bucket_info.has_value())
TRY(split_bucket(buckets, bucket_info->bucket_index, bucket_info->color_index));
return {};
}
ErrorOr<ColorPalette> color_palette_from_buckets(Buckets const& buckets)
{
Vector<Color> palette;
HashMap<Color, ColorPalette::ColorAndIndex> conversion_table;
for (auto const& bucket : buckets) {
u32 average_r {};
u32 average_g {};
u32 average_b {};
for (auto const argb : bucket) {
auto const color = Color::from_argb(argb);
average_r += color.red();
average_g += color.green();
average_b += color.blue();
}
auto const bucket_size = bucket.size();
auto const average_color = Color(
round_to<u32>(static_cast<double>(average_r) / bucket_size),
round_to<u32>(static_cast<double>(average_g) / bucket_size),
round_to<u32>(static_cast<double>(average_b) / bucket_size));
TRY(palette.try_append(average_color));
for (auto const color : bucket)
TRY(conversion_table.try_set(Color::from_argb(color), { average_color, palette.size() - 1 }));
}
return ColorPalette { move(palette), move(conversion_table) };
}
}
ErrorOr<ColorPalette> median_cut(Bitmap const& bitmap, u16 palette_size)
{
HashTable<ARGB32> color_set;
for (auto color : bitmap)
TRY(color_set.try_set(color));
Vector<ARGB32> first_bucket;
TRY(first_bucket.try_ensure_capacity(color_set.size()));
for (auto const color : color_set)
first_bucket.append(color);
Buckets bucket_list;
TRY(bucket_list.try_append(first_bucket));
u16 old_bucket_size = 0;
while (bucket_list.size() > old_bucket_size && bucket_list.size() < palette_size) {
old_bucket_size = bucket_list.size();
TRY(split_largest_bucket(bucket_list));
}
return color_palette_from_buckets(bucket_list);
}
}