tdesktop/Telegram/SourceFiles/ui/widgets/checkbox.cpp

/*
This file is part of Telegram Desktop,
the official desktop application for the Telegram messaging service.

For license and copyright information please follow this link:
https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
*/
#include "ui/widgets/checkbox.h"

#include "lang/lang_keys.h"
#include "ui/effects/ripple_animation.h"

namespace Ui {
namespace {

TextParseOptions _checkboxOptions = {
	TextParseMultiline, // flags
	0, // maxw
	0, // maxh
	Qt::LayoutDirectionAuto, // dir
};

TextParseOptions _checkboxRichOptions = {
	TextParseMultiline | TextParseRichText, // flags
	0, // maxw
	0, // maxh
	Qt::LayoutDirectionAuto, // dir
};

} // namespace

AbstractCheckView::AbstractCheckView(int duration, bool checked, Fn<void()> updateCallback)
: _duration(duration)
, _checked(checked)
, _updateCallback(std::move(updateCallback)) {
}

void AbstractCheckView::setChecked(bool checked, anim::type animated) {
	const auto changed = (_checked != checked);
	_checked = checked;
	if (animated == anim::type::instant) {
		finishAnimating();
		if (_updateCallback) {
			_updateCallback();
		}
	} else if (changed) {
		_toggleAnimation.start(
			[=] { if (_updateCallback) _updateCallback(); },
			_checked ? 0. : 1.,
			_checked ? 1. : 0.,
			_duration);
	}
	checkedChangedHook(animated);
	if (changed) {
		_checks.fire_copy(_checked);
	}
}

void AbstractCheckView::setUpdateCallback(Fn<void()> updateCallback) {
	_updateCallback = std::move(updateCallback);
}

void AbstractCheckView::update() {
	if (_updateCallback) {
		_updateCallback();
	}
}

void AbstractCheckView::finishAnimating() {
	_toggleAnimation.stop();
}

float64 AbstractCheckView::currentAnimationValue() {
	return _toggleAnimation.value(_checked ? 1. : 0.);
}

bool AbstractCheckView::animating() const {
	return _toggleAnimation.animating();
}

ToggleView::ToggleView(
	const style::Toggle &st,
	bool checked,
	Fn<void()> updateCallback)
: AbstractCheckView(st.duration, checked, std::move(updateCallback))
, _st(&st) {
}

QSize ToggleView::getSize() const {
	return QSize(2 * _st->border + _st->diameter + _st->width, 2 * _st->border + _st->diameter);
}

void ToggleView::setStyle(const style::Toggle &st) {
	_st = &st;
}

void ToggleView::paint(Painter &p, int left, int top, int outerWidth) {
	left += _st->border;
	top += _st->border;

	PainterHighQualityEnabler hq(p);
	auto toggled = currentAnimationValue();
	auto fullWidth = _st->diameter + _st->width;
	auto innerDiameter = _st->diameter - 2 * _st->shift;
	auto innerRadius = float64(innerDiameter) / 2.;
	auto toggleLeft = left + anim::interpolate(0, fullWidth - _st->diameter, toggled);
	auto bgRect = rtlrect(left + _st->shift, top + _st->shift, fullWidth - 2 * _st->shift, innerDiameter, outerWidth);
	auto fgRect = rtlrect(toggleLeft, top, _st->diameter, _st->diameter, outerWidth);
	auto fgBrush = anim::brush(_st->untoggledFg, _st->toggledFg, toggled);

	p.setPen(Qt::NoPen);
	p.setBrush(fgBrush);
	p.drawRoundedRect(bgRect, innerRadius, innerRadius);

	auto pen = anim::pen(_st->untoggledFg, _st->toggledFg, toggled);
	pen.setWidth(_st->border);
	p.setPen(pen);
	p.setBrush(anim::brush(_st->untoggledBg, _st->toggledBg, toggled));
	p.drawEllipse(fgRect);

	if (_st->xsize > 0) {
		p.setPen(Qt::NoPen);
		p.setBrush(fgBrush);
		if (_locked) {
			const auto color = anim::color(_st->untoggledFg, _st->toggledFg, toggled);
			_st->lockIcon.paint(p, toggleLeft, top, outerWidth, color);
		} else {
			paintXV(p, toggleLeft, top, outerWidth, toggled, fgBrush);
		}
	}
}

void ToggleView::paintXV(Painter &p, int left, int top, int outerWidth, float64 toggled, const QBrush &brush) {
	Expects(_st->vsize > 0);
	Expects(_st->stroke > 0);

	static const auto sqrt2 = sqrt(2.);
	const auto stroke = (0. + _st->stroke) / sqrt2;
	if (toggled < 1) {
		// Just X or X->V.
		const auto xSize = 0. + _st->xsize;
		const auto xLeft = left + (_st->diameter - xSize) / 2.;
		const auto xTop = top + (_st->diameter - xSize) / 2.;
		QPointF pathX[] = {
			{ xLeft, xTop + stroke },
			{ xLeft + stroke, xTop },
			{ xLeft + (xSize / 2.), xTop + (xSize / 2.) - stroke },
			{ xLeft + xSize - stroke, xTop },
			{ xLeft + xSize, xTop + stroke },
			{ xLeft + (xSize / 2.) + stroke, xTop + (xSize / 2.) },
			{ xLeft + xSize, xTop + xSize - stroke },
			{ xLeft + xSize - stroke, xTop + xSize },
			{ xLeft + (xSize / 2.), xTop + (xSize / 2.) + stroke },
			{ xLeft + stroke, xTop + xSize },
			{ xLeft, xTop + xSize - stroke },
			{ xLeft + (xSize / 2.) - stroke, xTop + (xSize / 2.) },
		};
		for (auto &point : pathX) {
			point = rtlpoint(point, outerWidth);
		}
		if (toggled > 0) {
			// X->V.
			const auto vSize = 0. + _st->vsize;
			const auto fSize = (xSize + vSize - 2. * stroke);
			const auto vLeft = left + (_st->diameter - fSize) / 2.;
			const auto vTop = 0. + xTop + _st->vshift;
			QPointF pathV[] = {
				{ vLeft, vTop + xSize - vSize + stroke },
				{ vLeft + stroke, vTop + xSize - vSize },
				{ vLeft + vSize - stroke, vTop + xSize - 2 * stroke },
				{ vLeft + fSize - stroke, vTop },
				{ vLeft + fSize, vTop + stroke },
				{ vLeft + vSize, vTop + xSize - stroke },
				{ vLeft + vSize, vTop + xSize - stroke },
				{ vLeft + vSize - stroke, vTop + xSize },
				{ vLeft + vSize - stroke, vTop + xSize },
				{ vLeft + vSize - stroke, vTop + xSize },
				{ vLeft + vSize - 2 * stroke, vTop + xSize - stroke },
				{ vLeft + vSize - 2 * stroke, vTop + xSize - stroke },
			};
			for (auto &point : pathV) {
				point = rtlpoint(point, outerWidth);
			}
			p.fillPath(anim::interpolate(pathX, pathV, toggled), brush);
		} else {
			// Just X.
			p.fillPath(anim::path(pathX), brush);
		}
	} else {
		// Just V.
		const auto xSize = 0. + _st->xsize;
		const auto xTop = top + (_st->diameter - xSize) / 2.;
		const auto vSize = 0. + _st->vsize;
		const auto fSize = (xSize + vSize - 2. * stroke);
		const auto vLeft = left + (_st->diameter - (_st->xsize + _st->vsize - 2. * stroke)) / 2.;
		const auto vTop = 0. + xTop + _st->vshift;
		QPointF pathV[] = {
			{ vLeft, vTop + xSize - vSize + stroke },
			{ vLeft + stroke, vTop + xSize - vSize },
			{ vLeft + vSize - stroke, vTop + xSize - 2 * stroke },
			{ vLeft + fSize - stroke, vTop },
			{ vLeft + fSize, vTop + stroke },
			{ vLeft + vSize, vTop + xSize - stroke },
			{ vLeft + vSize, vTop + xSize - stroke },
			{ vLeft + vSize - stroke, vTop + xSize },
			{ vLeft + vSize - stroke, vTop + xSize },
			{ vLeft + vSize - stroke, vTop + xSize },
			{ vLeft + vSize - 2 * stroke, vTop + xSize - stroke },
			{ vLeft + vSize - 2 * stroke, vTop + xSize - stroke },
		};

		p.fillPath(anim::path(pathV), brush);
	}
}

QSize ToggleView::rippleSize() const {
	return getSize() + 2 * QSize(_st->rippleAreaPadding, _st->rippleAreaPadding);
}

QImage ToggleView::prepareRippleMask() const {
	auto size = rippleSize();
	return RippleAnimation::roundRectMask(size, size.height() / 2);
}

bool ToggleView::checkRippleStartPosition(QPoint position) const {
	return QRect(QPoint(0, 0), rippleSize()).contains(position);
}

void ToggleView::setLocked(bool locked) {
	if (_locked != locked) {
		_locked = locked;
		update();
	}
}

CheckView::CheckView(const style::Check &st, bool checked, Fn<void()> updateCallback) : AbstractCheckView(st.duration, checked, std::move(updateCallback))
, _st(&st) {
}

QSize CheckView::getSize() const {
	return QSize(_st->diameter, _st->diameter);
}

void CheckView::setStyle(const style::Check &st) {
	_st = &st;
}

void CheckView::paint(Painter &p, int left, int top, int outerWidth) {
	auto toggled = currentAnimationValue();
	auto pen = _untoggledOverride
		? anim::pen(*_untoggledOverride, _st->toggledFg, toggled)
		: anim::pen(_st->untoggledFg, _st->toggledFg, toggled);
	pen.setWidth(_st->thickness);
	p.setPen(pen);
	p.setBrush(anim::brush(
		_st->bg,
		(_untoggledOverride
			? anim::color(*_untoggledOverride, _st->toggledFg, toggled)
			: anim::color(_st->untoggledFg, _st->toggledFg, toggled)),
		toggled));

	{
		PainterHighQualityEnabler hq(p);
		p.drawRoundedRect(rtlrect(QRectF(left, top, _st->diameter, _st->diameter).marginsRemoved(QMarginsF(_st->thickness / 2., _st->thickness / 2., _st->thickness / 2., _st->thickness / 2.)), outerWidth), st::buttonRadius - (_st->thickness / 2.), st::buttonRadius - (_st->thickness / 2.));
	}

	if (toggled > 0) {
		_st->icon.paint(p, QPoint(left, top), outerWidth);
	}
}

QSize CheckView::rippleSize() const {
	return getSize() + 2 * QSize(_st->rippleAreaPadding, _st->rippleAreaPadding);
}

QImage CheckView::prepareRippleMask() const {
	return RippleAnimation::ellipseMask(rippleSize());
}

bool CheckView::checkRippleStartPosition(QPoint position) const {
	return QRect(QPoint(0, 0), rippleSize()).contains(position);
}

void CheckView::setUntoggledOverride(
		std::optional<QColor> untoggledOverride) {
	_untoggledOverride = untoggledOverride;
	update();
}

RadioView::RadioView(
	const style::Radio &st,
	bool checked,
	Fn<void()> updateCallback)
: AbstractCheckView(st.duration, checked, std::move(updateCallback))
, _st(&st) {
}

QSize RadioView::getSize() const {
	return QSize(_st->diameter, _st->diameter);
}

void RadioView::setStyle(const style::Radio &st) {
	_st = &st;
}

void RadioView::paint(Painter &p, int left, int top, int outerWidth) {
	PainterHighQualityEnabler hq(p);

	auto toggled = currentAnimationValue();
	auto pen = _toggledOverride
		? (_untoggledOverride
			? anim::pen(*_untoggledOverride, *_toggledOverride, toggled)
			: anim::pen(_st->untoggledFg, *_toggledOverride, toggled))
		: (_untoggledOverride
			? anim::pen(*_untoggledOverride, _st->toggledFg, toggled)
			: anim::pen(_st->untoggledFg, _st->toggledFg, toggled));
	pen.setWidth(_st->thickness);
	p.setPen(pen);
	p.setBrush(_st->bg);
	//int32 skip = qCeil(_st->thickness / 2.);
	//p.drawEllipse(_checkRect.marginsRemoved(QMargins(skip, skip, skip, skip)));
	p.drawEllipse(rtlrect(QRectF(left, top, _st->diameter, _st->diameter).marginsRemoved(QMarginsF(_st->thickness / 2., _st->thickness / 2., _st->thickness / 2., _st->thickness / 2.)), outerWidth));

	if (toggled > 0) {
		p.setPen(Qt::NoPen);
		p.setBrush(_toggledOverride
			? (_untoggledOverride
				? anim::brush(*_untoggledOverride, *_toggledOverride, toggled)
				: anim::brush(_st->untoggledFg, *_toggledOverride, toggled))
			: (_untoggledOverride
				? anim::brush(*_untoggledOverride, _st->toggledFg, toggled)
				: anim::brush(_st->untoggledFg, _st->toggledFg, toggled)));

		auto skip0 = _st->diameter / 2., skip1 = _st->skip / 10., checkSkip = skip0 * (1. - toggled) + skip1 * toggled;
		p.drawEllipse(rtlrect(QRectF(left, top, _st->diameter, _st->diameter).marginsRemoved(QMarginsF(checkSkip, checkSkip, checkSkip, checkSkip)), outerWidth));
		//int32 fskip = qFloor(checkSkip), cskip = qCeil(checkSkip);
		//if (2 * fskip < _checkRect.width()) {
		//	if (fskip != cskip) {
		//		p.setOpacity(float64(cskip) - checkSkip);
		//		p.drawEllipse(_checkRect.marginsRemoved(QMargins(fskip, fskip, fskip, fskip)));
		//		p.setOpacity(1.);
		//	}
		//	if (2 * cskip < _checkRect.width()) {
		//		p.drawEllipse(_checkRect.marginsRemoved(QMargins(cskip, cskip, cskip, cskip)));
		//	}
		//}
	}
}

QSize RadioView::rippleSize() const {
	return getSize() + 2 * QSize(_st->rippleAreaPadding, _st->rippleAreaPadding);
}

QImage RadioView::prepareRippleMask() const {
	return RippleAnimation::ellipseMask(rippleSize());
}

bool RadioView::checkRippleStartPosition(QPoint position) const {
	return QRect(QPoint(0, 0), rippleSize()).contains(position);
}

void RadioView::setToggledOverride(std::optional<QColor> toggledOverride) {
	_toggledOverride = toggledOverride;
	update();
}

void RadioView::setUntoggledOverride(
		std::optional<QColor> untoggledOverride) {
	_untoggledOverride = untoggledOverride;
	update();
}

Checkbox::Checkbox(
	QWidget *parent,
	const QString &text,
	bool checked,
	const style::Checkbox &st,
	const style::Check &checkSt)
: Checkbox(
	parent,
	text,
	st,
	std::make_unique<CheckView>(
		checkSt,
		checked)) {
}

Checkbox::Checkbox(
	QWidget *parent,
	const QString &text,
	bool checked,
	const style::Checkbox &st,
	const style::Toggle &toggleSt)
: Checkbox(
	parent,
	text,
	st,
	std::make_unique<ToggleView>(
		toggleSt,
		checked)) {
}

Checkbox::Checkbox(
	QWidget *parent,
	const QString &text,
	const style::Checkbox &st,
	std::unique_ptr<AbstractCheckView> check)
: RippleButton(parent, st.ripple)
, _st(st)
, _check(std::move(check))
, _text(
		_st.style,
		text,
		_checkboxOptions,
		countTextMinWidth()) {
	_check->setUpdateCallback([=] { updateCheck(); });
	resizeToText();
	setCursor(style::cur_pointer);
}

int Checkbox::countTextMinWidth() const {
	const auto leftSkip = _st.checkPosition.x()
		+ checkRect().width()
		+ _st.textPosition.x();
	return (_st.width > 0)
		? std::max(_st.width - leftSkip, 1)
		: QFIXED_MAX;
}

QRect Checkbox::checkRect() const {
	auto size = _check->getSize();
	return QRect({
		(_checkAlignment & Qt::AlignHCenter)
			? (width() - size.width()) / 2
			: (_checkAlignment & Qt::AlignRight)
				? (width() - _st.checkPosition.x() - size.width())
				: _st.checkPosition.x(),
		(_checkAlignment & Qt::AlignVCenter)
			? (height() - size.height()) / 2
			: (_checkAlignment & Qt::AlignBottom)
				? (height() - _st.checkPosition.y() - size.height())
				: _st.checkPosition.y()
	}, size);
}

void Checkbox::setText(const QString &text, bool rich) {
	_text.setText(_st.style, text, rich ? _checkboxRichOptions : _checkboxOptions);
	resizeToText();
	update();
}

void Checkbox::setCheckAlignment(style::align alignment) {
	if (_checkAlignment != alignment) {
		_checkAlignment = alignment;
		update();
	}
}

void Checkbox::setAllowMultiline(bool allow) {
	_allowMultiline = allow;
	update();
}

bool Checkbox::checked() const {
	return _check->checked();
}

rpl::producer<bool> Checkbox::checkedChanges() const {
	return _checkedChanges.events();
}

rpl::producer<bool> Checkbox::checkedValue() const {
	return _checkedChanges.events_starting_with(checked());
}

void Checkbox::resizeToText() {
	if (_st.width <= 0) {
		resizeToWidth(_text.maxWidth() - _st.width);
	} else {
		resizeToWidth(_st.width);
	}
}

void Checkbox::setChecked(bool checked, NotifyAboutChange notify) {
	if (_check->checked() != checked) {
		_check->setChecked(checked, anim::type::normal);
		if (notify == NotifyAboutChange::Notify) {
			_checkedChanges.fire_copy(checked);
		}
	}
}

void Checkbox::finishAnimating() {
	_check->finishAnimating();
}

int Checkbox::naturalWidth() const {
	if (_st.width > 0) {
		return _st.width;
	}
	auto result = _st.checkPosition.x() + _check->getSize().width();
	if (!_text.isEmpty()) {
		result += _st.textPosition.x() + _text.maxWidth();
	}
	return result - _st.width;
}

void Checkbox::paintEvent(QPaintEvent *e) {
	Painter p(this);

	auto check = checkRect();
	auto ms = crl::now();
	auto active = _check->currentAnimationValue();
	if (isDisabled()) {
		p.setOpacity(_st.disabledOpacity);
	} else {
		auto color = anim::color(_st.rippleBg, _st.rippleBgActive, active);
		paintRipple(
			p,
			check.x() + _st.rippleAreaPosition.x(),
			check.y() + _st.rippleAreaPosition.y(),
			&color);
	}

	auto realCheckRect = myrtlrect(check);
	if (realCheckRect.intersects(e->rect())) {
		if (isDisabled()) {
			p.drawPixmapLeft(check.left(), check.top(), width(), _checkCache);
		} else {
			_check->paint(p, check.left(), check.top(), width());
		}
	}
	if (realCheckRect.contains(e->rect())) return;

	auto leftSkip = _st.checkPosition.x()
		+ check.width()
		+ _st.textPosition.x();
	auto availableTextWidth = qMax(width() - leftSkip, 1);

	if (!_text.isEmpty()) {
		p.setPen(anim::pen(_st.textFg, _st.textFgActive, active));
		auto textSkip = _st.checkPosition.x()
			+ check.width()
			+ _st.textPosition.x();
		auto textTop = _st.margin.top() + _st.textPosition.y();
		if (_checkAlignment & Qt::AlignLeft) {
			if (_allowMultiline) {
				_text.drawLeft(
					p,
					textSkip,
					textTop,
					availableTextWidth,
					width());
			} else {
				_text.drawLeftElided(
					p,
					textSkip,
					textTop,
					availableTextWidth,
					width());
			}
		} else if (_checkAlignment & Qt::AlignRight) {
			if (_allowMultiline) {
				_text.drawRight(
					p,
					textSkip,
					textTop,
					availableTextWidth,
					width());
			} else {
				_text.drawRightElided(
					p,
					textSkip,
					textTop,
					availableTextWidth,
					width());
			}
		} else if (_allowMultiline || _text.countHeight(width() - _st.margin.left() - _st.margin.right()) < 2 * _st.style.font->height) {
			_text.drawLeft(
				p,
				_st.margin.left(),
				textTop,
				width() - _st.margin.left() - _st.margin.right(),
				width(),
				style::al_top);
		} else {
			_text.drawLeftElided(
				p,
				_st.margin.left(),
				textTop,
				width() - _st.margin.left() - _st.margin.right(),
				width());
		}
	}
}

QPixmap Checkbox::grabCheckCache() const {
	auto checkSize = _check->getSize();
	auto image = QImage(checkSize * cIntRetinaFactor(), QImage::Format_ARGB32_Premultiplied);
	image.fill(Qt::transparent);
	image.setDevicePixelRatio(cRetinaFactor());
	{
		Painter p(&image);
		_check->paint(p, 0, 0, checkSize.width());
	}
	return App::pixmapFromImageInPlace(std::move(image));
}

void Checkbox::onStateChanged(State was, StateChangeSource source) {
	RippleButton::onStateChanged(was, source);

	if (isDisabled() && !(was & StateFlag::Disabled)) {
		setCursor(style::cur_default);
		finishAnimating();
		_checkCache = grabCheckCache();
	} else if (!isDisabled() && (was & StateFlag::Disabled)) {
		setCursor(style::cur_pointer);
		_checkCache = QPixmap();
	}

	auto now = state();
	if (!isDisabled() && (was & StateFlag::Over) && (now & StateFlag::Over)) {
		if ((was & StateFlag::Down) && !(now & StateFlag::Down)) {
			handlePress();
		}
	}
}

void Checkbox::handlePress() {
	setChecked(!checked());
}

int Checkbox::resizeGetHeight(int newWidth) {
	const auto result = _check->getSize().height();
	const auto centered = ((_checkAlignment & Qt::AlignHCenter) != 0);
	if (!centered && !_allowMultiline) {
		return result;
	}
	const auto leftSkip = _st.checkPosition.x()
		+ checkRect().width()
		+ _st.textPosition.x();
	const auto availableTextWidth = centered
		? (newWidth - _st.margin.left() - _st.margin.right())
		: qMax(width() - leftSkip, 1);
	const auto textBottom = _st.textPosition.y()
		+ ((centered && !_allowMultiline)
			? _st.style.font->height
			: _text.countHeight(availableTextWidth));
	return std::max(result, textBottom);
}

QImage Checkbox::prepareRippleMask() const {
	return _check->prepareRippleMask();
}

QPoint Checkbox::prepareRippleStartPosition() const {
	if (isDisabled()) {
		return DisabledRippleStartPosition();
	}
	auto position = myrtlpoint(mapFromGlobal(QCursor::pos()))
		- checkRect().topLeft()
		- _st.rippleAreaPosition;
	return _check->checkRippleStartPosition(position)
		? position
		: DisabledRippleStartPosition();
}

void RadiobuttonGroup::setValue(int value) {
	if (_hasValue && _value == value) {
		return;
	}
	_hasValue = true;
	_value = value;
	for (const auto button : _buttons) {
		button->handleNewGroupValue(_value);
	}
	if (const auto callback = _changedCallback) {
		callback(_value);
	}
}

Radiobutton::Radiobutton(
	QWidget *parent,
	const std::shared_ptr<RadiobuttonGroup> &group,
	int value,
	const QString &text,
	const style::Checkbox &st,
	const style::Radio &radioSt)
: Radiobutton(
	parent,
	group,
	value,
	text,
	st,
	std::make_unique<RadioView>(
		radioSt,
		(group->hasValue() && group->value() == value))) {
}

Radiobutton::Radiobutton(
	QWidget *parent,
	const std::shared_ptr<RadiobuttonGroup> &group,
	int value,
	const QString &text,
	const style::Checkbox &st,
	std::unique_ptr<AbstractCheckView> check)
: Checkbox(
	parent,
	text,
	st,
	std::move(check))
, _group(group)
, _value(value) {
	using namespace rpl::mappers;

	checkbox()->setChecked(group->hasValue() && group->value() == value);
	_group->registerButton(this);
	checkbox()->checkedChanges(
	) | rpl::filter(
		_1
	) | rpl::start_with_next([=] {
		_group->setValue(_value);
	}, lifetime());
}

void Radiobutton::handleNewGroupValue(int value) {
	auto checked = (value == _value);
	if (checkbox()->checked() != checked) {
		checkbox()->setChecked(
			checked,
			Ui::Checkbox::NotifyAboutChange::DontNotify);
	}
}

void Radiobutton::handlePress() {
	if (!checkbox()->checked()) {
		checkbox()->setChecked(true);
	}
}

Radiobutton::~Radiobutton() {
	_group->unregisterButton(this);
}

} // namespace Ui