621 lines
16 KiB
C++
621 lines
16 KiB
C++
/*
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This file is part of Telegram Desktop,
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the official desktop application for the Telegram messaging service.
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For license and copyright information please follow this link:
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https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
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*/
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#include "ui/grouped_layout.h"
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namespace Ui {
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namespace {
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int Round(float64 value) {
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return int(base::SafeRound(value));
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}
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class Layouter {
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public:
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Layouter(
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const std::vector<QSize> &sizes,
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int maxWidth,
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int minWidth,
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int spacing);
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std::vector<GroupMediaLayout> layout() const;
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private:
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static std::vector<float64> CountRatios(const std::vector<QSize> &sizes);
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static std::string CountProportions(const std::vector<float64> &ratios);
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std::vector<GroupMediaLayout> layoutTwo() const;
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std::vector<GroupMediaLayout> layoutThree() const;
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std::vector<GroupMediaLayout> layoutFour() const;
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std::vector<GroupMediaLayout> layoutOne() const;
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std::vector<GroupMediaLayout> layoutTwoTopBottom() const;
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std::vector<GroupMediaLayout> layoutTwoLeftRightEqual() const;
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std::vector<GroupMediaLayout> layoutTwoLeftRight() const;
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std::vector<GroupMediaLayout> layoutThreeLeftAndOther() const;
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std::vector<GroupMediaLayout> layoutThreeTopAndOther() const;
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std::vector<GroupMediaLayout> layoutFourLeftAndOther() const;
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std::vector<GroupMediaLayout> layoutFourTopAndOther() const;
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const std::vector<QSize> &_sizes;
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const std::vector<float64> _ratios;
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const std::string _proportions;
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const int _count = 0;
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const int _maxWidth = 0;
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const int _maxHeight = 0;
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const int _minWidth = 0;
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const int _spacing = 0;
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const float64 _averageRatio = 1.;
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const float64 _maxSizeRatio = 1.;
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};
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class ComplexLayouter {
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public:
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ComplexLayouter(
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const std::vector<float64> &ratios,
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float64 averageRatio,
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int maxWidth,
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int minWidth,
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int spacing);
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std::vector<GroupMediaLayout> layout() const;
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private:
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struct Attempt {
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std::vector<int> lineCounts;
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std::vector<float64> heights;
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};
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static std::vector<float64> CropRatios(
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const std::vector<float64> &ratios,
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float64 averageRatio);
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const std::vector<float64> _ratios;
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const int _count = 0;
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const int _maxWidth = 0;
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const int _maxHeight = 0;
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const int _minWidth = 0;
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const int _spacing = 0;
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const float64 _averageRatio = 1.;
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};
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Layouter::Layouter(
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const std::vector<QSize> &sizes,
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int maxWidth,
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int minWidth,
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int spacing)
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: _sizes(sizes)
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, _ratios(CountRatios(_sizes))
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, _proportions(CountProportions(_ratios))
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, _count(int(_ratios.size()))
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// All apps currently use square max size first.
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// In complex case they use maxWidth * 4 / 3 as maxHeight.
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, _maxWidth(maxWidth)
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, _maxHeight(maxWidth)
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, _minWidth(minWidth)
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, _spacing(spacing)
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, _averageRatio(ranges::accumulate(_ratios, 1.) / _count)
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, _maxSizeRatio(_maxWidth / float64(_maxHeight)) {
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}
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std::vector<float64> Layouter::CountRatios(const std::vector<QSize> &sizes) {
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return ranges::views::all(
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sizes
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) | ranges::views::transform([](const QSize &size) {
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return size.width() / float64(size.height());
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}) | ranges::to_vector;
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}
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std::string Layouter::CountProportions(const std::vector<float64> &ratios) {
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return ranges::views::all(
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ratios
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) | ranges::views::transform([](float64 ratio) {
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return (ratio > 1.2) ? 'w' : (ratio < 0.8) ? 'n' : 'q';
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}) | ranges::to<std::string>();
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}
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std::vector<GroupMediaLayout> Layouter::layout() const {
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if (!_count) {
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return {};
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} else if (_count == 1) {
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return layoutOne();
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}
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using namespace rpl::mappers;
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if (_count >= 5 || ranges::find_if(_ratios, _1 > 2) != _ratios.end()) {
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return ComplexLayouter(
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_ratios,
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_averageRatio,
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_maxWidth,
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_minWidth,
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_spacing).layout();
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}
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if (_count == 2) {
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return layoutTwo();
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} else if (_count == 3) {
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return layoutThree();
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}
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return layoutFour();
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}
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std::vector<GroupMediaLayout> Layouter::layoutTwo() const {
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Expects(_count == 2);
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if ((_proportions == "ww")
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&& (_averageRatio > 1.4 * _maxSizeRatio)
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&& (_ratios[1] - _ratios[0] < 0.2)) {
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return layoutTwoTopBottom();
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} else if (_proportions == "ww" || _proportions == "qq") {
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return layoutTwoLeftRightEqual();
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}
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return layoutTwoLeftRight();
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}
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std::vector<GroupMediaLayout> Layouter::layoutThree() const {
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Expects(_count == 3);
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auto result = std::vector<GroupMediaLayout>(_count);
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if (_proportions[0] == 'n') {
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return layoutThreeLeftAndOther();
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}
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return layoutThreeTopAndOther();
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}
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std::vector<GroupMediaLayout> Layouter::layoutFour() const {
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Expects(_count == 4);
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auto result = std::vector<GroupMediaLayout>(_count);
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if (_proportions[0] == 'w') {
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return layoutFourTopAndOther();
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}
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return layoutFourLeftAndOther();
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}
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std::vector<GroupMediaLayout> Layouter::layoutOne() const {
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Expects(_count == 1);
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const auto width = _maxWidth;
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const auto height = (_sizes[0].height() * width) / _sizes[0].width();
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return {
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{
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QRect(0, 0, width, height),
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RectPart::Left | RectPart::Top | RectPart::Right | RectPart::Bottom
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},
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};
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}
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std::vector<GroupMediaLayout> Layouter::layoutTwoTopBottom() const {
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Expects(_count == 2);
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const auto width = _maxWidth;
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const auto height = Round(std::min(
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width / _ratios[0],
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std::min(
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width / _ratios[1],
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(_maxHeight - _spacing) / 2.)));
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return {
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{
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QRect(0, 0, width, height),
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RectPart::Left | RectPart::Top | RectPart::Right
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},
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{
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QRect(0, height + _spacing, width, height),
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RectPart::Left | RectPart::Bottom | RectPart::Right
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},
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};
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}
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std::vector<GroupMediaLayout> Layouter::layoutTwoLeftRightEqual() const {
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Expects(_count == 2);
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const auto width = (_maxWidth - _spacing) / 2;
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const auto height = Round(std::min(
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width / _ratios[0],
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std::min(width / _ratios[1], _maxHeight * 1.)));
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return {
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{
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QRect(0, 0, width, height),
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RectPart::Top | RectPart::Left | RectPart::Bottom
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},
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{
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QRect(width + _spacing, 0, width, height),
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RectPart::Top | RectPart::Right | RectPart::Bottom
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},
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};
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}
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std::vector<GroupMediaLayout> Layouter::layoutTwoLeftRight() const {
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Expects(_count == 2);
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const auto minimalWidth = Round(_minWidth * 1.5);
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const auto secondWidth = std::min(
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Round(std::max(
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0.4 * (_maxWidth - _spacing),
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(_maxWidth - _spacing) / _ratios[0]
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/ (1. / _ratios[0] + 1. / _ratios[1]))),
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_maxWidth - _spacing - minimalWidth);
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const auto firstWidth = _maxWidth
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- secondWidth
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- _spacing;
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const auto height = std::min(
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_maxHeight,
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Round(std::min(
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firstWidth / _ratios[0],
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secondWidth / _ratios[1])));
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return {
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{
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QRect(0, 0, firstWidth, height),
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RectPart::Top | RectPart::Left | RectPart::Bottom
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},
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{
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QRect(firstWidth + _spacing, 0, secondWidth, height),
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RectPart::Top | RectPart::Right | RectPart::Bottom
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},
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};
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}
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std::vector<GroupMediaLayout> Layouter::layoutThreeLeftAndOther() const {
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Expects(_count == 3);
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const auto firstHeight = _maxHeight;
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const auto thirdHeight = Round(std::min(
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(_maxHeight - _spacing) / 2.,
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(_ratios[1] * (_maxWidth - _spacing)
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/ (_ratios[2] + _ratios[1]))));
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const auto secondHeight = firstHeight
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- thirdHeight
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- _spacing;
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const auto rightWidth = std::max(
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_minWidth,
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Round(std::min(
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(_maxWidth - _spacing) / 2.,
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std::min(
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thirdHeight * _ratios[2],
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secondHeight * _ratios[1]))));
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const auto leftWidth = std::min(
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Round(firstHeight * _ratios[0]),
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_maxWidth - _spacing - rightWidth);
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return {
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{
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QRect(0, 0, leftWidth, firstHeight),
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RectPart::Top | RectPart::Left | RectPart::Bottom
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},
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{
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QRect(leftWidth + _spacing, 0, rightWidth, secondHeight),
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RectPart::Top | RectPart::Right
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},
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{
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QRect(leftWidth + _spacing, secondHeight + _spacing, rightWidth, thirdHeight),
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RectPart::Bottom | RectPart::Right
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},
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};
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}
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std::vector<GroupMediaLayout> Layouter::layoutThreeTopAndOther() const {
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Expects(_count == 3);
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const auto firstWidth = _maxWidth;
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const auto firstHeight = Round(std::min(
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firstWidth / _ratios[0],
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(_maxHeight - _spacing) * 0.66));
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const auto secondWidth = (_maxWidth - _spacing) / 2;
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const auto secondHeight = std::min(
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_maxHeight - firstHeight - _spacing,
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Round(std::min(
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secondWidth / _ratios[1],
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secondWidth / _ratios[2])));
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const auto thirdWidth = firstWidth - secondWidth - _spacing;
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return {
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{
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QRect(0, 0, firstWidth, firstHeight),
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RectPart::Left | RectPart::Top | RectPart::Right
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},
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{
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QRect(0, firstHeight + _spacing, secondWidth, secondHeight),
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RectPart::Bottom | RectPart::Left
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},
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{
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QRect(secondWidth + _spacing, firstHeight + _spacing, thirdWidth, secondHeight),
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RectPart::Bottom | RectPart::Right
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},
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};
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}
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std::vector<GroupMediaLayout> Layouter::layoutFourTopAndOther() const {
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Expects(_count == 4);
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const auto w = _maxWidth;
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const auto h0 = Round(std::min(
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w / _ratios[0],
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(_maxHeight - _spacing) * 0.66));
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const auto h = Round(
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(_maxWidth - 2 * _spacing)
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/ (_ratios[1] + _ratios[2] + _ratios[3]));
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const auto w0 = std::max(
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_minWidth,
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Round(std::min(
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(_maxWidth - 2 * _spacing) * 0.4,
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h * _ratios[1])));
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const auto w2 = Round(std::max(
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std::max(
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_minWidth * 1.,
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(_maxWidth - 2 * _spacing) * 0.33),
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h * _ratios[3]));
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const auto w1 = w - w0 - w2 - 2 * _spacing;
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const auto h1 = std::min(
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_maxHeight - h0 - _spacing,
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h);
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return {
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{
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QRect(0, 0, w, h0),
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RectPart::Left | RectPart::Top | RectPart::Right
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},
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{
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QRect(0, h0 + _spacing, w0, h1),
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RectPart::Bottom | RectPart::Left
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},
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{
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QRect(w0 + _spacing, h0 + _spacing, w1, h1),
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RectPart::Bottom,
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},
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{
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QRect(w0 + _spacing + w1 + _spacing, h0 + _spacing, w2, h1),
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RectPart::Right | RectPart::Bottom
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},
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};
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}
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std::vector<GroupMediaLayout> Layouter::layoutFourLeftAndOther() const {
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Expects(_count == 4);
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const auto h = _maxHeight;
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const auto w0 = Round(std::min(
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h * _ratios[0],
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(_maxWidth - _spacing) * 0.6));
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const auto w = Round(
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(_maxHeight - 2 * _spacing)
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/ (1. / _ratios[1] + 1. / _ratios[2] + 1. / _ratios[3])
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);
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const auto h0 = Round(w / _ratios[1]);
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const auto h1 = Round(w / _ratios[2]);
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const auto h2 = h - h0 - h1 - 2 * _spacing;
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const auto w1 = std::max(
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_minWidth,
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std::min(_maxWidth - w0 - _spacing, w));
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return {
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{
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QRect(0, 0, w0, h),
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RectPart::Top | RectPart::Left | RectPart::Bottom
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},
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{
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QRect(w0 + _spacing, 0, w1, h0),
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RectPart::Top | RectPart::Right
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},
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{
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QRect(w0 + _spacing, h0 + _spacing, w1, h1),
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RectPart::Right
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},
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{
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QRect(w0 + _spacing, h0 + h1 + 2 * _spacing, w1, h2),
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RectPart::Bottom | RectPart::Right
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},
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};
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}
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ComplexLayouter::ComplexLayouter(
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const std::vector<float64> &ratios,
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float64 averageRatio,
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int maxWidth,
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int minWidth,
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int spacing)
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: _ratios(CropRatios(ratios, averageRatio))
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, _count(int(_ratios.size()))
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// All apps currently use square max size first.
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// In complex case they use maxWidth * 4 / 3 as maxHeight.
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, _maxWidth(maxWidth)
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, _maxHeight(maxWidth * 4 / 3)
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, _minWidth(minWidth)
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, _spacing(spacing)
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, _averageRatio(averageRatio) {
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}
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std::vector<float64> ComplexLayouter::CropRatios(
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const std::vector<float64> &ratios,
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float64 averageRatio) {
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return ranges::views::all(
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ratios
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) | ranges::views::transform([&](float64 ratio) {
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constexpr auto kMaxRatio = 2.75;
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constexpr auto kMinRatio = 0.6667;
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return (averageRatio > 1.1)
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? std::clamp(ratio, 1., kMaxRatio)
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: std::clamp(ratio, kMinRatio, 1.);
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}) | ranges::to_vector;
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}
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std::vector<GroupMediaLayout> ComplexLayouter::layout() const {
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Expects(_count > 1);
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auto result = std::vector<GroupMediaLayout>(_count);
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auto attempts = std::vector<Attempt>();
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const auto multiHeight = [&](int offset, int count) {
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const auto ratios = gsl::make_span(_ratios).subspan(offset, count);
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const auto sum = ranges::accumulate(ratios, 0.);
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return (_maxWidth - (count - 1) * _spacing) / sum;
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};
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const auto pushAttempt = [&](std::vector<int> lineCounts) {
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auto heights = std::vector<float64>();
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heights.reserve(lineCounts.size());
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auto offset = 0;
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for (auto count : lineCounts) {
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heights.push_back(multiHeight(offset, count));
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offset += count;
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}
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attempts.push_back({ std::move(lineCounts), std::move(heights) });
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};
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for (auto first = 1; first != _count; ++first) {
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const auto second = _count - first;
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if (first > 3 || second > 3) {
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continue;
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}
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pushAttempt({ first, second });
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}
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for (auto first = 1; first != _count - 1; ++first) {
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for (auto second = 1; second != _count - first; ++second) {
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const auto third = _count - first - second;
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if ((first > 3)
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|| (second > ((_averageRatio < 0.85) ? 4 : 3))
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|| (third > 3)) {
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continue;
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}
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pushAttempt({ first, second, third });
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}
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}
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for (auto first = 1; first != _count - 1; ++first) {
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for (auto second = 1; second != _count - first; ++second) {
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for (auto third = 1; third != _count - first - second; ++third) {
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const auto fourth = _count - first - second - third;
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if (first > 3 || second > 3 || third > 3 || fourth > 3) {
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continue;
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}
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pushAttempt({ first, second, third, fourth });
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}
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}
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}
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auto optimalAttempt = (const Attempt*)nullptr;
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auto optimalDiff = 0.;
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for (const auto &attempt : attempts) {
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const auto &heights = attempt.heights;
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const auto &counts = attempt.lineCounts;
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const auto lineCount = int(counts.size());
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const auto totalHeight = ranges::accumulate(heights, 0.)
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+ _spacing * (lineCount - 1);
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const auto minLineHeight = ranges::min(heights);
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const auto bad1 = (minLineHeight < _minWidth) ? 1.5 : 1.;
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const auto bad2 = [&] {
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for (auto line = 1; line != lineCount; ++line) {
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if (counts[line - 1] > counts[line]) {
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return 1.5;
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}
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}
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return 1.;
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}();
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const auto diff = std::abs(totalHeight - _maxHeight) * bad1 * bad2;
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if (!optimalAttempt || diff < optimalDiff) {
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optimalAttempt = &attempt;
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optimalDiff = diff;
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}
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}
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Assert(optimalAttempt != nullptr);
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const auto &optimalCounts = optimalAttempt->lineCounts;
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const auto &optimalHeights = optimalAttempt->heights;
|
|
const auto rowCount = int(optimalCounts.size());
|
|
|
|
auto index = 0;
|
|
auto y = 0.;
|
|
for (auto row = 0; row != rowCount; ++row) {
|
|
const auto colCount = optimalCounts[row];
|
|
const auto lineHeight = optimalHeights[row];
|
|
const auto height = Round(lineHeight);
|
|
|
|
auto x = 0;
|
|
for (auto col = 0; col != colCount; ++col) {
|
|
const auto sides = RectPart::None
|
|
| (row == 0 ? RectPart::Top : RectPart::None)
|
|
| (row == rowCount - 1 ? RectPart::Bottom : RectPart::None)
|
|
| (col == 0 ? RectPart::Left : RectPart::None)
|
|
| (col == colCount - 1 ? RectPart::Right : RectPart::None);
|
|
|
|
const auto ratio = _ratios[index];
|
|
const auto width = (col == colCount - 1)
|
|
? (_maxWidth - x)
|
|
: Round(ratio * lineHeight);
|
|
result[index] = {
|
|
QRect(x, y, width, height),
|
|
sides
|
|
};
|
|
|
|
x += width + _spacing;
|
|
++index;
|
|
}
|
|
y += height + _spacing;
|
|
}
|
|
|
|
return result;
|
|
}
|
|
|
|
} // namespace
|
|
|
|
std::vector<GroupMediaLayout> LayoutMediaGroup(
|
|
const std::vector<QSize> &sizes,
|
|
int maxWidth,
|
|
int minWidth,
|
|
int spacing) {
|
|
return Layouter(sizes, maxWidth, minWidth, spacing).layout();
|
|
}
|
|
|
|
RectParts GetCornersFromSides(RectParts sides) {
|
|
const auto convert = [&](
|
|
RectPart side1,
|
|
RectPart side2,
|
|
RectPart corner) {
|
|
return ((sides & side1) && (sides & side2))
|
|
? corner
|
|
: RectPart::None;
|
|
};
|
|
return RectPart::None
|
|
| convert(RectPart::Top, RectPart::Left, RectPart::TopLeft)
|
|
| convert(RectPart::Top, RectPart::Right, RectPart::TopRight)
|
|
| convert(RectPart::Bottom, RectPart::Left, RectPart::BottomLeft)
|
|
| convert(RectPart::Bottom, RectPart::Right, RectPart::BottomRight);
|
|
}
|
|
|
|
QSize GetImageScaleSizeForGeometry(QSize original, QSize geometry) {
|
|
const auto width = geometry.width();
|
|
const auto height = geometry.height();
|
|
auto tw = original.width();
|
|
auto th = original.height();
|
|
if (tw * height > th * width) {
|
|
if (th > height || tw * height < 2 * th * width) {
|
|
tw = (height * tw) / th;
|
|
th = height;
|
|
} else if (tw < width) {
|
|
th = (width * th) / tw;
|
|
tw = width;
|
|
}
|
|
} else {
|
|
if (tw > width || th * width < 2 * tw * height) {
|
|
th = (width * th) / tw;
|
|
tw = width;
|
|
} else if (tw > 0 && th < height) {
|
|
tw = (height * tw) / th;
|
|
th = height;
|
|
}
|
|
}
|
|
if (tw < 1) tw = 1;
|
|
if (th < 1) th = 1;
|
|
return { tw, th };
|
|
}
|
|
|
|
} // namespace Ui
|