510 lines
19 KiB
C++
510 lines
19 KiB
C++
/*
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This file is part of Telegram Desktop,
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the official desktop version of Telegram messaging app, see https://telegram.org
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Telegram Desktop is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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It is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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In addition, as a special exception, the copyright holders give permission
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to link the code of portions of this program with the OpenSSL library.
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Full license: https://github.com/telegramdesktop/tdesktop/blob/master/LICENSE
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Copyright (c) 2014-2017 John Preston, https://desktop.telegram.org
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*/
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#include "ui/effects/panel_animation.h"
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namespace Ui {
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void RoundShadowAnimation::start(int frameWidth, int frameHeight, float64 devicePixelRatio) {
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t_assert(!started());
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_frameWidth = frameWidth;
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_frameHeight = frameHeight;
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_frame = QImage(_frameWidth, _frameHeight, QImage::Format_ARGB32_Premultiplied);
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_frame.setDevicePixelRatio(devicePixelRatio);
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_frameIntsPerLine = (_frame.bytesPerLine() >> 2);
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_frameInts = reinterpret_cast<uint32*>(_frame.bits());
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_frameIntsPerLineAdded = _frameIntsPerLine - _frameWidth;
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t_assert(_frame.depth() == static_cast<int>(sizeof(uint32) << 3));
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t_assert(_frame.bytesPerLine() == (_frameIntsPerLine << 2));
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t_assert(_frameIntsPerLineAdded >= 0);
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}
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void RoundShadowAnimation::setShadow(const style::Shadow &st) {
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_shadow.extend = st.extend * cIntRetinaFactor();
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_shadow.left = cloneImage(st.left);
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if (_shadow.valid()) {
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_shadow.topLeft = cloneImage(st.topLeft);
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_shadow.top = cloneImage(st.top);
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_shadow.topRight = cloneImage(st.topRight);
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_shadow.right = cloneImage(st.right);
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_shadow.bottomRight = cloneImage(st.bottomRight);
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_shadow.bottom = cloneImage(st.bottom);
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_shadow.bottomLeft = cloneImage(st.bottomLeft);
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t_assert(!_shadow.topLeft.isNull()
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&& !_shadow.top.isNull()
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&& !_shadow.topRight.isNull()
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&& !_shadow.right.isNull()
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&& !_shadow.bottomRight.isNull()
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&& !_shadow.bottom.isNull()
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&& !_shadow.bottomLeft.isNull());
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} else {
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_shadow.topLeft =
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_shadow.top =
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_shadow.topRight =
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_shadow.right =
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_shadow.bottomRight =
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_shadow.bottom =
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_shadow.bottomLeft = QImage();
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}
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}
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void RoundShadowAnimation::setCornerMasks(QImage &&topLeft, QImage &&topRight, QImage &&bottomLeft, QImage &&bottomRight) {
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setCornerMask(_topLeft, std::move(topLeft));
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setCornerMask(_topRight, std::move(topRight));
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setCornerMask(_bottomLeft, std::move(bottomLeft));
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setCornerMask(_bottomRight, std::move(bottomRight));
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}
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void RoundShadowAnimation::setCornerMask(Corner &corner, QImage &&image) {
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t_assert(!started());
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corner.image = std::move(image);
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if (corner.valid()) {
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corner.width = corner.image.width();
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corner.height = corner.image.height();
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corner.bytes = corner.image.constBits();
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corner.bytesPerPixel = (corner.image.depth() >> 3);
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corner.bytesPerLineAdded = corner.image.bytesPerLine() - corner.width * corner.bytesPerPixel;
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t_assert(corner.image.depth() == (corner.bytesPerPixel << 3));
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t_assert(corner.bytesPerLineAdded >= 0);
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} else {
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corner.width = corner.height = 0;
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}
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}
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QImage RoundShadowAnimation::cloneImage(const style::icon &source) {
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if (source.empty()) return QImage();
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auto result = QImage(source.size() * cIntRetinaFactor(), QImage::Format_ARGB32_Premultiplied);
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result.setDevicePixelRatio(cRetinaFactor());
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result.fill(Qt::transparent);
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{
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Painter p(&result);
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source.paint(p, 0, 0, source.width());
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}
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return result;
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}
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void RoundShadowAnimation::paintCorner(Corner &corner, int left, int top) {
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auto mask = corner.bytes;
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auto bytesPerPixel = corner.bytesPerPixel;
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auto bytesPerLineAdded = corner.bytesPerLineAdded;
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auto frameInts = _frameInts + top * _frameIntsPerLine + left;
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auto frameIntsPerLineAdd = _frameIntsPerLine - corner.width;
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for (auto y = 0; y != corner.height; ++y) {
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for (auto x = 0; x != corner.width; ++x) {
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auto alpha = static_cast<uint32>(*mask) + 1;
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*frameInts = anim::unshifted(anim::shifted(*frameInts) * alpha);
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++frameInts;
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mask += bytesPerPixel;
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}
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frameInts += frameIntsPerLineAdd;
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mask += bytesPerLineAdded;
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}
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}
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void RoundShadowAnimation::paintShadow(int left, int top, int right, int bottom) {
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paintShadowCorner(left, top, _shadow.topLeft);
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paintShadowCorner(right - _shadow.topRight.width(), top, _shadow.topRight);
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paintShadowCorner(right - _shadow.bottomRight.width(), bottom - _shadow.bottomRight.height(), _shadow.bottomRight);
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paintShadowCorner(left, bottom - _shadow.bottomLeft.height(), _shadow.bottomLeft);
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paintShadowVertical(left, top + _shadow.topLeft.height(), bottom - _shadow.bottomLeft.height(), _shadow.left);
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paintShadowVertical(right - _shadow.right.width(), top + _shadow.topRight.height(), bottom - _shadow.bottomRight.height(), _shadow.right);
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paintShadowHorizontal(left + _shadow.topLeft.width(), right - _shadow.topRight.width(), top, _shadow.top);
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paintShadowHorizontal(left + _shadow.bottomLeft.width(), right - _shadow.bottomRight.width(), bottom - _shadow.bottom.height(), _shadow.bottom);
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}
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void RoundShadowAnimation::paintShadowCorner(int left, int top, const QImage &image) {
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auto imageWidth = image.width();
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auto imageHeight = image.height();
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auto imageInts = reinterpret_cast<const uint32*>(image.constBits());
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auto imageIntsPerLine = (image.bytesPerLine() >> 2);
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auto imageIntsPerLineAdded = imageIntsPerLine - imageWidth;
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if (left < 0) {
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auto shift = -base::take(left);
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imageWidth -= shift;
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imageInts += shift;
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}
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if (top < 0) {
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auto shift = -base::take(top);
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imageHeight -= shift;
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imageInts += shift * imageIntsPerLine;
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}
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if (left + imageWidth > _frameWidth) {
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imageWidth = _frameWidth - left;
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}
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if (top + imageHeight > _frameHeight) {
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imageHeight = _frameHeight - top;
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}
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if (imageWidth < 0 || imageHeight < 0) return;
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auto frameInts = _frameInts + top * _frameIntsPerLine + left;
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auto frameIntsPerLineAdd = _frameIntsPerLine - imageWidth;
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for (auto y = 0; y != imageHeight; ++y) {
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for (auto x = 0; x != imageWidth; ++x) {
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auto source = *frameInts;
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auto shadowAlpha = qMax(_frameAlpha - int(source >> 24), 0);
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*frameInts = anim::unshifted(anim::shifted(source) * 256 + anim::shifted(*imageInts) * shadowAlpha);
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++frameInts;
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++imageInts;
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}
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frameInts += frameIntsPerLineAdd;
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imageInts += imageIntsPerLineAdded;
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}
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}
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void RoundShadowAnimation::paintShadowVertical(int left, int top, int bottom, const QImage &image) {
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auto imageWidth = image.width();
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auto imageInts = reinterpret_cast<const uint32*>(image.constBits());
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if (left < 0) {
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auto shift = -base::take(left);
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imageWidth -= shift;
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imageInts += shift;
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}
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if (top < 0) top = 0;
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accumulate_min(bottom, _frameHeight);
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accumulate_min(imageWidth, _frameWidth - left);
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if (imageWidth < 0 || bottom <= top) return;
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auto frameInts = _frameInts + top * _frameIntsPerLine + left;
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auto frameIntsPerLineAdd = _frameIntsPerLine - imageWidth;
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for (auto y = top; y != bottom; ++y) {
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for (auto x = 0; x != imageWidth; ++x) {
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auto source = *frameInts;
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auto shadowAlpha = _frameAlpha - (source >> 24);
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*frameInts = anim::unshifted(anim::shifted(source) * 256 + anim::shifted(*imageInts) * shadowAlpha);
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++frameInts;
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++imageInts;
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}
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frameInts += frameIntsPerLineAdd;
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imageInts -= imageWidth;
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}
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}
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void RoundShadowAnimation::paintShadowHorizontal(int left, int right, int top, const QImage &image) {
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auto imageHeight = image.height();
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auto imageInts = reinterpret_cast<const uint32*>(image.constBits());
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auto imageIntsPerLine = (image.bytesPerLine() >> 2);
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if (top < 0) {
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auto shift = -base::take(top);
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imageHeight -= shift;
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imageInts += shift * imageIntsPerLine;
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}
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if (left < 0) left = 0;
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accumulate_min(right, _frameWidth);
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accumulate_min(imageHeight, _frameHeight - top);
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if (imageHeight < 0 || right <= left) return;
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auto frameInts = _frameInts + top * _frameIntsPerLine + left;
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auto frameIntsPerLineAdd = _frameIntsPerLine - (right - left);
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for (auto y = 0; y != imageHeight; ++y) {
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auto imagePattern = anim::shifted(*imageInts);
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for (auto x = left; x != right; ++x) {
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auto source = *frameInts;
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auto shadowAlpha = _frameAlpha - (source >> 24);
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*frameInts = anim::unshifted(anim::shifted(source) * 256 + imagePattern * shadowAlpha);
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++frameInts;
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}
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frameInts += frameIntsPerLineAdd;
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imageInts += imageIntsPerLine;
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}
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}
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void PanelAnimation::setFinalImage(QImage &&finalImage, QRect inner) {
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t_assert(!started());
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_finalImage = App::pixmapFromImageInPlace(std::move(finalImage).convertToFormat(QImage::Format_ARGB32_Premultiplied));
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t_assert(!_finalImage.isNull());
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_finalWidth = _finalImage.width();
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_finalHeight = _finalImage.height();
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t_assert(!(_finalWidth % cIntRetinaFactor()));
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t_assert(!(_finalHeight % cIntRetinaFactor()));
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_finalInnerLeft = inner.x();
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_finalInnerTop = inner.y();
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_finalInnerWidth = inner.width();
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_finalInnerHeight = inner.height();
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t_assert(!(_finalInnerLeft % cIntRetinaFactor()));
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t_assert(!(_finalInnerTop % cIntRetinaFactor()));
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t_assert(!(_finalInnerWidth % cIntRetinaFactor()));
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t_assert(!(_finalInnerHeight % cIntRetinaFactor()));
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_finalInnerRight = _finalInnerLeft + _finalInnerWidth;
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_finalInnerBottom = _finalInnerTop + _finalInnerHeight;
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t_assert(QRect(0, 0, _finalWidth, _finalHeight).contains(inner));
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setStartWidth();
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setStartHeight();
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setStartAlpha();
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setStartFadeTop();
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createFadeMask();
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setWidthDuration();
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setHeightDuration();
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setAlphaDuration();
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if (!_skipShadow) {
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setShadow(_st.shadow);
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}
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auto checkCorner = [this, inner](Corner &corner) {
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if (!corner.valid()) return;
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if ((_startWidth >= 0 && _startWidth < _finalWidth)
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|| (_startHeight >= 0 && _startHeight < _finalHeight)) {
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t_assert(corner.width <= inner.width());
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t_assert(corner.height <= inner.height());
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}
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};
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checkCorner(_topLeft);
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checkCorner(_topRight);
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checkCorner(_bottomLeft);
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checkCorner(_bottomRight);
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}
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void PanelAnimation::setStartWidth() {
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_startWidth = qRound(_st.startWidth * _finalInnerWidth);
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if (_startWidth >= 0) t_assert(_startWidth <= _finalInnerWidth);
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}
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void PanelAnimation::setStartHeight() {
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_startHeight = qRound(_st.startHeight * _finalInnerHeight);
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if (_startHeight >= 0) t_assert(_startHeight <= _finalInnerHeight);
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}
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void PanelAnimation::setStartAlpha() {
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_startAlpha = qRound(_st.startOpacity * 255);
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t_assert(_startAlpha >= 0 && _startAlpha < 256);
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}
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void PanelAnimation::setStartFadeTop() {
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_startFadeTop = qRound(_st.startFadeTop * _finalInnerHeight);
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}
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void PanelAnimation::createFadeMask() {
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auto resultHeight = qRound(_finalImage.height() * _st.fadeHeight);
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if (auto remove = (resultHeight % cIntRetinaFactor())) {
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resultHeight -= remove;
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}
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auto finalAlpha = qRound(_st.fadeOpacity * 255);
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t_assert(finalAlpha >= 0 && finalAlpha < 256);
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auto result = QImage(cIntRetinaFactor(), resultHeight, QImage::Format_ARGB32_Premultiplied);
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auto ints = reinterpret_cast<uint32*>(result.bits());
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auto intsPerLineAdded = (result.bytesPerLine() >> 2) - cIntRetinaFactor();
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auto up = (_origin == PanelAnimation::Origin::BottomLeft || _origin == PanelAnimation::Origin::BottomRight);
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auto from = up ? resultHeight : 0, to = resultHeight - from, delta = up ? -1 : 1;
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auto fadeFirstAlpha = up ? (finalAlpha + 1) : 1;
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auto fadeLastAlpha = up ? 1 : (finalAlpha + 1);
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_fadeFirst = QBrush(QColor(_st.fadeBg->c.red(), _st.fadeBg->c.green(), _st.fadeBg->c.blue(), (_st.fadeBg->c.alpha() * fadeFirstAlpha) >> 8));
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_fadeLast = QBrush(QColor(_st.fadeBg->c.red(), _st.fadeBg->c.green(), _st.fadeBg->c.blue(), (_st.fadeBg->c.alpha() * fadeLastAlpha) >> 8));
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for (auto y = from; y != to; y += delta) {
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auto alpha = static_cast<uint32>(finalAlpha * y) / resultHeight;
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auto value = (0xFFU << 24) | (alpha << 16) | (alpha << 8) | alpha;
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for (auto x = 0; x != cIntRetinaFactor(); ++x) {
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*ints++ = value;
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}
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ints += intsPerLineAdded;
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}
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_fadeMask = App::pixmapFromImageInPlace(style::colorizeImage(result, _st.fadeBg));
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_fadeHeight = _fadeMask.height();
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}
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void PanelAnimation::setSkipShadow(bool skipShadow) {
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t_assert(!started());
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_skipShadow = skipShadow;
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}
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void PanelAnimation::setWidthDuration() {
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_widthDuration = _st.widthDuration;
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t_assert(_widthDuration >= 0.);
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t_assert(_widthDuration <= 1.);
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}
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void PanelAnimation::setHeightDuration() {
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t_assert(!started());
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_heightDuration = _st.heightDuration;
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t_assert(_heightDuration >= 0.);
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t_assert(_heightDuration <= 1.);
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}
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void PanelAnimation::setAlphaDuration() {
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t_assert(!started());
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_alphaDuration = _st.opacityDuration;
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t_assert(_alphaDuration >= 0.);
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t_assert(_alphaDuration <= 1.);
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}
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void PanelAnimation::start() {
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t_assert(!_finalImage.isNull());
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RoundShadowAnimation::start(_finalWidth, _finalHeight, _finalImage.devicePixelRatio());
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auto checkCorner = [this](const Corner &corner) {
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if (!corner.valid()) return;
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if (_startWidth >= 0) t_assert(corner.width <= _startWidth);
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if (_startHeight >= 0) t_assert(corner.height <= _startHeight);
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t_assert(corner.width <= _finalInnerWidth);
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t_assert(corner.height <= _finalInnerHeight);
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};
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checkCorner(_topLeft);
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checkCorner(_topRight);
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checkCorner(_bottomLeft);
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checkCorner(_bottomRight);
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}
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void PanelAnimation::paintFrame(QPainter &p, int x, int y, int outerWidth, float64 dt, float64 opacity) {
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t_assert(started());
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t_assert(dt >= 0.);
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auto &transition = anim::easeOutCirc;
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if (dt < _alphaDuration) opacity *= transition(1., dt / _alphaDuration);
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_frameAlpha = anim::interpolate(1, 256, opacity);
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auto frameWidth = (_startWidth < 0 || dt >= _widthDuration) ? _finalInnerWidth : anim::interpolate(_startWidth, _finalInnerWidth, transition(1., dt / _widthDuration));
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auto frameHeight = (_startHeight < 0 || dt >= _heightDuration) ? _finalInnerHeight : anim::interpolate(_startHeight, _finalInnerHeight, transition(1., dt / _heightDuration));
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if (auto decrease = (frameWidth % cIntRetinaFactor())) {
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frameWidth -= decrease;
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}
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if (auto decrease = (frameHeight % cIntRetinaFactor())) {
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frameHeight -= decrease;
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}
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auto frameLeft = (_origin == Origin::TopLeft || _origin == Origin::BottomLeft) ? _finalInnerLeft : (_finalInnerRight - frameWidth);
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auto frameTop = (_origin == Origin::TopLeft || _origin == Origin::TopRight) ? _finalInnerTop : (_finalInnerBottom - frameHeight);
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auto frameRight = frameLeft + frameWidth;
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auto frameBottom = frameTop + frameHeight;
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auto fadeTop = (_fadeHeight > 0) ? snap(anim::interpolate(_startFadeTop, _finalInnerHeight, transition(1., dt)), 0, frameHeight) : frameHeight;
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if (auto decrease = (fadeTop % cIntRetinaFactor())) {
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fadeTop -= decrease;
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}
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auto fadeBottom = (fadeTop < frameHeight) ? qMin(fadeTop + _fadeHeight, frameHeight) : frameHeight;
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auto fadeSkipLines = 0;
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if (_origin == Origin::BottomLeft || _origin == Origin::BottomRight) {
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fadeTop = frameHeight - fadeTop;
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fadeBottom = frameHeight - fadeBottom;
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qSwap(fadeTop, fadeBottom);
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fadeSkipLines = fadeTop + _fadeHeight - fadeBottom;
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}
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fadeTop += frameTop;
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fadeBottom += frameTop;
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if (opacity < 1.) {
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_frame.fill(Qt::transparent);
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}
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{
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Painter p(&_frame);
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p.setOpacity(opacity);
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auto painterFrameLeft = frameLeft / cIntRetinaFactor();
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auto painterFrameTop = frameTop / cIntRetinaFactor();
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auto painterFadeBottom = fadeBottom / cIntRetinaFactor();
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p.drawPixmap(painterFrameLeft, painterFrameTop, _finalImage, frameLeft, frameTop, frameWidth, frameHeight);
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if (_fadeHeight) {
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if (frameTop != fadeTop) {
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p.fillRect(painterFrameLeft, painterFrameTop, frameWidth, fadeTop - frameTop, _fadeFirst);
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}
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if (fadeTop != fadeBottom) {
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auto painterFadeTop = fadeTop / cIntRetinaFactor();
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auto painterFrameWidth = frameWidth / cIntRetinaFactor();
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auto painterFrameHeight = frameHeight / cIntRetinaFactor();
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p.drawPixmap(painterFrameLeft, painterFadeTop, painterFrameWidth, painterFadeBottom - painterFadeTop, _fadeMask, 0, fadeSkipLines, cIntRetinaFactor(), fadeBottom - fadeTop);
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}
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if (fadeBottom != frameBottom) {
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p.fillRect(painterFrameLeft, painterFadeBottom, frameWidth, frameBottom - fadeBottom, _fadeLast);
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}
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}
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}
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auto frameInts = _frameInts + frameLeft + frameTop * _frameIntsPerLine;
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auto frameIntsPerLineAdd = (_finalWidth - frameWidth) + _frameIntsPerLineAdded;
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// Draw corners
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paintCorner(_topLeft, frameLeft, frameTop);
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paintCorner(_topRight, frameRight - _topRight.width, frameTop);
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paintCorner(_bottomLeft, frameLeft, frameBottom - _bottomLeft.height);
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paintCorner(_bottomRight, frameRight - _bottomRight.width, frameBottom - _bottomRight.height);
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// Draw shadow upon the transparent
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auto outerLeft = frameLeft;
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auto outerTop = frameTop;
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auto outerRight = frameRight;
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auto outerBottom = frameBottom;
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if (_shadow.valid()) {
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outerLeft -= _shadow.extend.left();
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outerTop -= _shadow.extend.top();
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outerRight += _shadow.extend.right();
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outerBottom += _shadow.extend.bottom();
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}
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if (cIntRetinaFactor() > 1) {
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if (auto skipLeft = (outerLeft % cIntRetinaFactor())) {
|
|
outerLeft -= skipLeft;
|
|
}
|
|
if (auto skipTop = (outerTop % cIntRetinaFactor())) {
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|
outerTop -= skipTop;
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|
}
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if (auto skipRight = (outerRight % cIntRetinaFactor())) {
|
|
outerRight += (cIntRetinaFactor() - skipRight);
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|
}
|
|
if (auto skipBottom = (outerBottom % cIntRetinaFactor())) {
|
|
outerBottom += (cIntRetinaFactor() - skipBottom);
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|
}
|
|
}
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|
|
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if (opacity == 1.) {
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// Fill above the frame top with transparent.
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auto fillTopInts = (_frameInts + outerTop * _frameIntsPerLine + outerLeft);
|
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auto fillWidth = (outerRight - outerLeft) * sizeof(uint32);
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for (auto fillTop = frameTop - outerTop; fillTop != 0; --fillTop) {
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memset(fillTopInts, 0, fillWidth);
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|
fillTopInts += _frameIntsPerLine;
|
|
}
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|
|
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// Fill to the left and to the right of the frame with transparent.
|
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auto fillLeft = (frameLeft - outerLeft) * sizeof(uint32);
|
|
auto fillRight = (outerRight - frameRight) * sizeof(uint32);
|
|
if (fillLeft || fillRight) {
|
|
auto fillInts = _frameInts + frameTop * _frameIntsPerLine;
|
|
for (auto y = frameTop; y != frameBottom; ++y) {
|
|
memset(fillInts + outerLeft, 0, fillLeft);
|
|
memset(fillInts + frameRight, 0, fillRight);
|
|
fillInts += _frameIntsPerLine;
|
|
}
|
|
}
|
|
|
|
// Fill below the frame bottom with transparent.
|
|
auto fillBottomInts = (_frameInts + frameBottom * _frameIntsPerLine + outerLeft);
|
|
for (auto fillBottom = outerBottom - frameBottom; fillBottom != 0; --fillBottom) {
|
|
memset(fillBottomInts, 0, fillWidth);
|
|
fillBottomInts += _frameIntsPerLine;
|
|
}
|
|
}
|
|
|
|
if (_shadow.valid()) {
|
|
paintShadow(outerLeft, outerTop, outerRight, outerBottom);
|
|
}
|
|
|
|
// Debug
|
|
//frameInts = _frameInts;
|
|
//auto pattern = anim::shifted((static_cast<uint32>(0xFF) << 24) | (static_cast<uint32>(0xFF) << 16) | (static_cast<uint32>(0xFF) << 8) | static_cast<uint32>(0xFF));
|
|
//for (auto y = 0; y != _finalHeight; ++y) {
|
|
// for (auto x = 0; x != _finalWidth; ++x) {
|
|
// auto source = *frameInts;
|
|
// auto sourceAlpha = (source >> 24);
|
|
// *frameInts = anim::unshifted(anim::shifted(source) * 256 + pattern * (256 - sourceAlpha));
|
|
// ++frameInts;
|
|
// }
|
|
// frameInts += _frameIntsPerLineAdded;
|
|
//}
|
|
|
|
p.drawImage(rtlpoint(x + (outerLeft / cIntRetinaFactor()), y + (outerTop / cIntRetinaFactor()), outerWidth), _frame, QRect(outerLeft, outerTop, outerRight - outerLeft, outerBottom - outerTop));
|
|
}
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|
|
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} // namespace Ui
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