197 lines
6.1 KiB
C++
197 lines
6.1 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/effects/cross_animation.h"
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namespace Ui {
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namespace {
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constexpr auto kPointCount = 12;
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constexpr auto kStaticLoadingValue = float64(-666);
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//
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// 1 3
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// X X X X
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// X X X X
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// 0 X X 4
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// X X X X
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// X 2 X
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// X X
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// X X
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// 11 5
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// X X
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// X X
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// X 8 X
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// X X X X
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// 10 X X 6
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// X X X X
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// X X X X
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// 9 7
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//
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void transformLoadingCross(float64 loading, std::array<QPointF, kPointCount> &points, int &paintPointsCount) {
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auto moveTo = [](QPointF &point, QPointF &to, float64 ratio) {
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point = point * (1. - ratio) + to * ratio;
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};
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auto moveFrom = [](QPointF &point, QPointF &from, float64 ratio) {
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point = from * (1. - ratio) + point * ratio;
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};
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auto paintPoints = [&points, &paintPointsCount](std::initializer_list<int> &&indices) {
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auto index = 0;
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for (auto paintIndex : indices) {
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points[index++] = points[paintIndex];
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}
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paintPointsCount = indices.size();
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};
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if (loading < 0.125) {
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auto ratio = loading / 0.125;
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moveTo(points[6], points[5], ratio);
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moveTo(points[7], points[8], ratio);
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} else if (loading < 0.25) {
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auto ratio = (loading - 0.125) / 0.125;
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moveTo(points[9], points[8], ratio);
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moveTo(points[10], points[11], ratio);
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paintPoints({ 0, 1, 2, 3, 4, 9, 10, 11 });
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} else if (loading < 0.375) {
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auto ratio = (loading - 0.25) / 0.125;
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moveTo(points[0], points[11], ratio);
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moveTo(points[1], points[2], ratio);
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paintPoints({ 0, 1, 2, 3, 4, 8 });
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} else if (loading < 0.5) {
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auto ratio = (loading - 0.375) / 0.125;
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moveTo(points[8], points[4], ratio);
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moveTo(points[11], points[3], ratio);
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paintPoints({ 3, 4, 8, 11 });
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} else if (loading < 0.625) {
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auto ratio = (loading - 0.5) / 0.125;
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moveFrom(points[8], points[4], ratio);
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moveFrom(points[11], points[3], ratio);
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paintPoints({ 3, 4, 8, 11 });
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} else if (loading < 0.75) {
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auto ratio = (loading - 0.625) / 0.125;
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moveFrom(points[6], points[5], ratio);
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moveFrom(points[7], points[8], ratio);
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paintPoints({ 3, 4, 5, 6, 7, 11 });
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} else if (loading < 0.875) {
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auto ratio = (loading - 0.75) / 0.125;
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moveFrom(points[9], points[8], ratio);
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moveFrom(points[10], points[11], ratio);
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paintPoints({ 3, 4, 5, 6, 7, 8, 9, 10 });
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} else {
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auto ratio = (loading - 0.875) / 0.125;
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moveFrom(points[0], points[11], ratio);
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moveFrom(points[1], points[2], ratio);
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}
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}
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} // namespace
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void CrossAnimation::paintStaticLoading(
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Painter &p,
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const style::CrossAnimation &st,
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style::color color,
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int x,
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int y,
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int outerWidth,
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float64 shown) {
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paint(p, st, color, x, y, outerWidth, shown, kStaticLoadingValue);
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}
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void CrossAnimation::paint(
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Painter &p,
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const style::CrossAnimation &st,
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style::color color,
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int x,
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int y,
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int outerWidth,
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float64 shown,
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float64 loading) {
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PainterHighQualityEnabler hq(p);
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auto sqrt2 = sqrt(2.);
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auto deleteScale = shown + st.minScale * (1. - shown);
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auto deleteSkip = (deleteScale * st.skip) + (1. - deleteScale) * (st.size / 2);
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auto deleteLeft = rtlpoint(x + deleteSkip, 0, outerWidth).x() + 0.;
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auto deleteTop = y + deleteSkip + 0.;
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auto deleteWidth = st.size - 2 * deleteSkip;
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auto deleteHeight = st.size - 2 * deleteSkip;
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auto deleteStroke = st.stroke / sqrt2;
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std::array<QPointF, kPointCount> pathDelete = { {
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{ deleteLeft, deleteTop + deleteStroke },
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{ deleteLeft + deleteStroke, deleteTop },
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{ deleteLeft + (deleteWidth / 2.), deleteTop + (deleteHeight / 2.) - deleteStroke },
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{ deleteLeft + deleteWidth - deleteStroke, deleteTop },
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{ deleteLeft + deleteWidth, deleteTop + deleteStroke },
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{ deleteLeft + (deleteWidth / 2.) + deleteStroke, deleteTop + (deleteHeight / 2.) },
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{ deleteLeft + deleteWidth, deleteTop + deleteHeight - deleteStroke },
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{ deleteLeft + deleteWidth - deleteStroke, deleteTop + deleteHeight },
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{ deleteLeft + (deleteWidth / 2.), deleteTop + (deleteHeight / 2.) + deleteStroke },
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{ deleteLeft + deleteStroke, deleteTop + deleteHeight },
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{ deleteLeft, deleteTop + deleteHeight - deleteStroke },
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{ deleteLeft + (deleteWidth / 2.) - deleteStroke, deleteTop + (deleteHeight / 2.) },
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} };
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auto pathDeleteSize = kPointCount;
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const auto staticLoading = (loading == kStaticLoadingValue);
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auto loadingArcLength = staticLoading ? FullArcLength : 0;
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if (loading > 0.) {
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transformLoadingCross(loading, pathDelete, pathDeleteSize);
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auto loadingArc = (loading >= 0.5) ? (loading - 1.) : loading;
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loadingArcLength = qRound(-loadingArc * 2 * FullArcLength);
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}
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if (!staticLoading) {
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if (shown < 1.) {
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auto alpha = -(shown - 1.) * M_PI_2;
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auto cosalpha = cos(alpha);
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auto sinalpha = sin(alpha);
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auto shiftx = deleteLeft + (deleteWidth / 2.);
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auto shifty = deleteTop + (deleteHeight / 2.);
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for (auto &point : pathDelete) {
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auto x = point.x() - shiftx;
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auto y = point.y() - shifty;
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point.setX(shiftx + x * cosalpha - y * sinalpha);
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point.setY(shifty + y * cosalpha + x * sinalpha);
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}
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}
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QPainterPath path;
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path.moveTo(pathDelete[0]);
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for (int i = 1; i != pathDeleteSize; ++i) {
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path.lineTo(pathDelete[i]);
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}
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path.lineTo(pathDelete[0]);
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p.fillPath(path, color);
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}
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if (loadingArcLength != 0) {
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auto roundSkip = (st.size * (1 - sqrt2) + 2 * sqrt2 * deleteSkip + st.stroke) / 2;
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auto roundPart = QRectF(x + roundSkip, y + roundSkip, st.size - 2 * roundSkip, st.size - 2 * roundSkip);
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if (staticLoading) {
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anim::DrawStaticLoading(p, roundPart, st.stroke, color);
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} else {
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auto loadingArcStart = FullArcLength / 8;
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if (shown < 1.) {
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loadingArcStart -= qRound(-(shown - 1.) * FullArcLength / 4.);
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}
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if (loadingArcLength < 0) {
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loadingArcStart += loadingArcLength;
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loadingArcLength = -loadingArcLength;
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}
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p.setBrush(Qt::NoBrush);
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auto pen = color->p;
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pen.setWidthF(st.stroke);
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pen.setCapStyle(Qt::RoundCap);
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p.setPen(pen);
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p.drawArc(roundPart, loadingArcStart, loadingArcLength);
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}
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}
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}
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} // namespace Ui
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