/* 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 "intro/intro_step.h" #include "intro/intro_widget.h" #include "storage/localstorage.h" #include "storage/storage_account.h" #include "lang/lang_keys.h" #include "lang/lang_instance.h" #include "lang/lang_cloud_manager.h" #include "main/main_account.h" #include "main/main_domain.h" #include "main/main_session.h" #include "main/main_session_settings.h" #include "core/application.h" #include "core/core_settings.h" #include "apiwrap.h" #include "mainwindow.h" #include "ui/boxes/confirm_box.h" #include "ui/text/text_utilities.h" #include "ui/widgets/labels.h" #include "ui/wrap/fade_wrap.h" #include "ui/effects/slide_animation.h" #include "ui/ui_utility.h" #include "data/data_user.h" #include "data/data_auto_download.h" #include "data/data_session.h" #include "data/data_chat_filters.h" #include "window/window_controller.h" #include "styles/style_intro.h" #include "styles/style_window.h" namespace Intro { namespace details { namespace { void PrepareSupportMode(not_null session) { using ::Data::AutoDownload::Full; anim::SetDisabled(true); Core::App().settings().setDesktopNotify(false); Core::App().settings().setSoundNotify(false); Core::App().settings().setFlashBounceNotify(false); Core::App().saveSettings(); session->settings().autoDownload() = Full::FullDisabled(); session->saveSettings(); } } // namespace Step::CoverAnimation::~CoverAnimation() = default; Step::Step( QWidget *parent, not_null account, not_null data, bool hasCover) : RpWidget(parent) , _account(account) , _data(data) , _hasCover(hasCover) , _title(this, _hasCover ? st::introCoverTitle : st::introTitle) , _description( this, object_ptr( this, _hasCover ? st::introCoverDescription : st::introDescription)) { hide(); style::PaletteChanged( ) | rpl::start_with_next([=] { if (!_coverMask.isNull()) { _coverMask = QPixmap(); prepareCoverMask(); } }, lifetime()); _errorText.value( ) | rpl::start_with_next([=](const QString &text) { refreshError(text); }, lifetime()); _titleText.value( ) | rpl::start_with_next([=](const QString &text) { _title->setText(text); updateLabelsPosition(); }, lifetime()); _descriptionText.value( ) | rpl::start_with_next([=](const TextWithEntities &text) { _description->entity()->setMarkedText(text); updateLabelsPosition(); }, lifetime()); } Step::~Step() = default; MTP::Sender &Step::api() const { if (!_api) { _api.emplace(&_account->mtp()); } return *_api; } void Step::apiClear() { _api.reset(); } rpl::producer Step::nextButtonText() const { return tr::lng_intro_next(); } void Step::goBack() { if (_goCallback) { _goCallback(nullptr, StackAction::Back, Animate::Back); } } void Step::goNext(Step *step) { if (_goCallback) { _goCallback(step, StackAction::Forward, Animate::Forward); } } void Step::goReplace(Step *step, Animate animate) { if (_goCallback) { _goCallback(step, StackAction::Replace, animate); } } void Step::finish(const MTPUser &user, QImage &&photo) { if (user.type() != mtpc_user || !user.c_user().is_self() || !user.c_user().vid().v) { // No idea what to do here. // We could've reset intro and MTP, but this really should not happen. Ui::show(Box("Internal error: bad user.is_self() after sign in.")); return; } // Check if such account is authorized already. for (const auto &[index, existing] : Core::App().domain().accounts()) { const auto raw = existing.get(); if (const auto session = raw->maybeSession()) { if (raw->mtp().environment() == _account->mtp().environment() && UserId(user.c_user().vid()) == session->userId()) { _account->logOut(); crl::on_main(raw, [=] { Core::App().domain().activate(raw); Local::sync(); }); return; } } } api().request(MTPmessages_GetDialogFilters( )).done([=](const MTPVector &result) { createSession(user, photo, result.v); }).fail([=](const MTP::Error &error) { createSession(user, photo, QVector()); }).send(); } void Step::createSession( const MTPUser &user, QImage photo, const QVector &filters) { // Save the default language if we've suggested some other and user ignored it. const auto currentId = Lang::Id(); const auto defaultId = Lang::DefaultLanguageId(); const auto suggested = Lang::CurrentCloudManager().suggestedLanguage(); if (currentId.isEmpty() && !suggested.isEmpty() && suggested != defaultId) { Lang::GetInstance().switchToId(Lang::DefaultLanguage()); Local::writeLangPack(); } auto settings = std::make_unique(); settings->setDialogsFiltersEnabled(!filters.isEmpty()); const auto account = _account; account->createSession(user, std::move(settings)); // "this" is already deleted here by creating the main widget. account->local().writeMtpData(); auto &session = account->session(); session.data().chatsFilters().setPreloaded(filters); if (!filters.isEmpty()) { session.saveSettingsDelayed(); } if (!photo.isNull()) { session.api().uploadPeerPhoto(session.user(), std::move(photo)); } if (session.supportMode()) { PrepareSupportMode(&session); } Local::sync(); } void Step::paintEvent(QPaintEvent *e) { Painter p(this); paintAnimated(p, e->rect()); } void Step::resizeEvent(QResizeEvent *e) { updateLabelsPosition(); } void Step::updateLabelsPosition() { Ui::SendPendingMoveResizeEvents(_description->entity()); if (hasCover()) { _title->moveToLeft((width() - _title->width()) / 2, contentTop() + st::introCoverTitleTop); _description->moveToLeft((width() - _description->width()) / 2, contentTop() + st::introCoverDescriptionTop); } else { _title->moveToLeft(contentLeft() + st::buttonRadius, contentTop() + st::introTitleTop); _description->resizeToWidth(st::introDescription.minWidth); _description->moveToLeft(contentLeft() + st::buttonRadius, contentTop() + st::introDescriptionTop); } if (_error) { if (_errorCentered) { _error->entity()->resizeToWidth(width()); } Ui::SendPendingMoveResizeEvents(_error->entity()); auto errorLeft = _errorCentered ? 0 : (contentLeft() + st::buttonRadius); _error->moveToLeft(errorLeft, errorTop()); } } int Step::errorTop() const { return contentTop() + st::introErrorTop; } void Step::setTitleText(rpl::producer titleText) { _titleText = std::move(titleText); } void Step::setDescriptionText( rpl::producer descriptionText) { setDescriptionText( std::move(descriptionText) | Ui::Text::ToWithEntities()); } void Step::setDescriptionText( rpl::producer richDescriptionText) { _descriptionText = std::move(richDescriptionText); } void Step::showFinished() { _a_show.stop(); _coverAnimation = CoverAnimation(); _slideAnimation.reset(); prepareCoverMask(); activate(); } bool Step::paintAnimated(Painter &p, QRect clip) { if (_slideAnimation) { _slideAnimation->paintFrame(p, (width() - st::introStepWidth) / 2, contentTop(), width()); if (!_slideAnimation->animating()) { showFinished(); return false; } return true; } auto dt = _a_show.value(1.); if (!_a_show.animating()) { if (hasCover()) { paintCover(p, 0); } if (_coverAnimation.title) { showFinished(); } if (!QRect(0, contentTop(), width(), st::introStepHeight).intersects(clip)) { return true; } return false; } if (!_coverAnimation.clipping.isEmpty()) { p.setClipRect(_coverAnimation.clipping); } auto progress = (hasCover() ? anim::easeOutCirc(1., dt) : anim::linear(1., dt)); auto arrivingAlpha = progress; auto departingAlpha = 1. - progress; auto showCoverMethod = progress; auto hideCoverMethod = progress; auto coverTop = (hasCover() ? anim::interpolate(-st::introCoverHeight, 0, showCoverMethod) : anim::interpolate(0, -st::introCoverHeight, hideCoverMethod)); paintCover(p, coverTop); auto positionReady = hasCover() ? showCoverMethod : hideCoverMethod; _coverAnimation.title->paintFrame(p, positionReady, departingAlpha, arrivingAlpha); _coverAnimation.description->paintFrame(p, positionReady, departingAlpha, arrivingAlpha); paintContentSnapshot(p, _coverAnimation.contentSnapshotWas, departingAlpha, showCoverMethod); paintContentSnapshot(p, _coverAnimation.contentSnapshotNow, arrivingAlpha, 1. - hideCoverMethod); return true; } void Step::fillSentCodeData(const MTPDauth_sentCode &data) { const auto &type = data.vtype(); switch (type.type()) { case mtpc_auth_sentCodeTypeApp: { getData()->codeByTelegram = true; getData()->codeLength = type.c_auth_sentCodeTypeApp().vlength().v; } break; case mtpc_auth_sentCodeTypeSms: { getData()->codeByTelegram = false; getData()->codeLength = type.c_auth_sentCodeTypeSms().vlength().v; } break; case mtpc_auth_sentCodeTypeCall: { getData()->codeByTelegram = false; getData()->codeLength = type.c_auth_sentCodeTypeCall().vlength().v; } break; case mtpc_auth_sentCodeTypeFlashCall: LOG(("Error: should not be flashcall!")); break; } } void Step::showDescription() { _description->show(anim::type::normal); } void Step::hideDescription() { _description->hide(anim::type::normal); } void Step::paintContentSnapshot(Painter &p, const QPixmap &snapshot, float64 alpha, float64 howMuchHidden) { if (!snapshot.isNull()) { auto contentTop = anim::interpolate(height() - (snapshot.height() / cIntRetinaFactor()), height(), howMuchHidden); if (contentTop < height()) { p.setOpacity(alpha); p.drawPixmap(QPoint(contentLeft(), contentTop), snapshot, QRect(0, 0, snapshot.width(), (height() - contentTop) * cIntRetinaFactor())); } } } void Step::prepareCoverMask() { if (!_coverMask.isNull()) return; auto maskWidth = cIntRetinaFactor(); auto maskHeight = st::introCoverHeight * cIntRetinaFactor(); auto mask = QImage(maskWidth, maskHeight, QImage::Format_ARGB32_Premultiplied); auto maskInts = reinterpret_cast(mask.bits()); Assert(mask.depth() == (sizeof(uint32) << 3)); auto maskIntsPerLineAdded = (mask.bytesPerLine() >> 2) - maskWidth; Assert(maskIntsPerLineAdded >= 0); auto realHeight = static_cast(maskHeight - 1); for (auto y = 0; y != maskHeight; ++y) { auto color = anim::color(st::introCoverTopBg, st::introCoverBottomBg, y / realHeight); auto colorInt = anim::getPremultiplied(color); for (auto x = 0; x != maskWidth; ++x) { *maskInts++ = colorInt; } maskInts += maskIntsPerLineAdded; } _coverMask = Ui::PixmapFromImage(std::move(mask)); } void Step::paintCover(Painter &p, int top) { auto coverHeight = top + st::introCoverHeight; if (coverHeight > 0) { p.drawPixmap(QRect(0, 0, width(), coverHeight), _coverMask, QRect(0, -top * cIntRetinaFactor(), _coverMask.width(), coverHeight * cIntRetinaFactor())); } auto left = 0; auto right = 0; if (width() < st::introCoverMaxWidth) { auto iconsMaxSkip = st::introCoverMaxWidth - st::introCoverLeft.width() - st::introCoverRight.width(); auto iconsSkip = st::introCoverIconsMinSkip + (iconsMaxSkip - st::introCoverIconsMinSkip) * (width() - st::introStepWidth) / (st::introCoverMaxWidth - st::introStepWidth); auto outside = iconsSkip + st::introCoverLeft.width() + st::introCoverRight.width() - width(); left = -outside / 2; right = -outside - left; } if (top < 0) { auto shown = float64(coverHeight) / st::introCoverHeight; auto leftShown = qRound(shown * (left + st::introCoverLeft.width())); left = leftShown - st::introCoverLeft.width(); auto rightShown = qRound(shown * (right + st::introCoverRight.width())); right = rightShown - st::introCoverRight.width(); } st::introCoverLeft.paint(p, left, coverHeight - st::introCoverLeft.height(), width()); st::introCoverRight.paint(p, width() - right - st::introCoverRight.width(), coverHeight - st::introCoverRight.height(), width()); auto planeLeft = (width() - st::introCoverIcon.width()) / 2 - st::introCoverIconLeft; auto planeTop = top + st::introCoverIconTop; if (top < 0 && !_hasCover) { auto deltaLeft = -qRound(float64(st::introPlaneWidth / st::introPlaneHeight) * top); // auto deltaTop = top; planeLeft += deltaLeft; // planeTop += top; } st::introCoverIcon.paint(p, planeLeft, planeTop, width()); } int Step::contentLeft() const { return (width() - st::introNextButton.width) / 2; } int Step::contentTop() const { auto result = (height() - st::introHeight) / 2; accumulate_max(result, st::introStepTopMin); if (_hasCover) { const auto currentHeightFull = result + st::introNextTop + st::introContentTopAdd; auto added = 1. - std::clamp( float64(currentHeightFull - st::windowMinHeight) / (st::introStepHeightFull - st::windowMinHeight), 0., 1.); result += qRound(added * st::introContentTopAdd); } return result; } void Step::setErrorCentered(bool centered) { _errorCentered = centered; _error.destroy(); } void Step::showError(rpl::producer text) { _errorText = std::move(text); } void Step::refreshError(const QString &text) { if (text.isEmpty()) { if (_error) _error->hide(anim::type::normal); } else { if (!_error) { _error.create( this, object_ptr( this, _errorCentered ? st::introErrorCentered : st::introError)); _error->hide(anim::type::instant); } _error->entity()->setText(text); updateLabelsPosition(); _error->show(anim::type::normal); } } void Step::prepareShowAnimated(Step *after) { setInnerFocus(); if (hasCover() || after->hasCover()) { _coverAnimation = prepareCoverAnimation(after); prepareCoverMask(); } else { auto leftSnapshot = after->prepareSlideAnimation(); auto rightSnapshot = prepareSlideAnimation(); _slideAnimation = std::make_unique(); _slideAnimation->setSnapshots(std::move(leftSnapshot), std::move(rightSnapshot)); _slideAnimation->setOverflowHidden(false); } } Step::CoverAnimation Step::prepareCoverAnimation(Step *after) { Ui::SendPendingMoveResizeEvents(this); auto result = CoverAnimation(); result.title = Ui::FlatLabel::CrossFade( after->_title, _title, st::introBg); result.description = Ui::FlatLabel::CrossFade( after->_description->entity(), _description->entity(), st::introBg, after->_description->pos(), _description->pos()); result.contentSnapshotWas = after->prepareContentSnapshot(); result.contentSnapshotNow = prepareContentSnapshot(); return result; } QPixmap Step::prepareContentSnapshot() { auto otherTop = _description->y() + _description->height(); auto otherRect = myrtlrect(contentLeft(), otherTop, st::introStepWidth, height() - otherTop); return Ui::GrabWidget(this, otherRect); } QPixmap Step::prepareSlideAnimation() { auto grabLeft = (width() - st::introStepWidth) / 2; auto grabTop = contentTop(); return Ui::GrabWidget( this, QRect(grabLeft, grabTop, st::introStepWidth, st::introStepHeight)); } void Step::showAnimated(Animate animate) { setFocus(); show(); hideChildren(); if (_slideAnimation) { auto slideLeft = (animate == Animate::Back); _slideAnimation->start( slideLeft, [=] { update(0, contentTop(), width(), st::introStepHeight); }, st::introSlideDuration); } else { _a_show.start([this] { update(); }, 0., 1., st::introCoverDuration); } } void Step::setShowAnimationClipping(QRect clipping) { _coverAnimation.clipping = clipping; } void Step::setGoCallback( Fn callback) { _goCallback = std::move(callback); } void Step::setShowResetCallback(Fn callback) { _showResetCallback = std::move(callback); } void Step::setShowTermsCallback(Fn callback) { _showTermsCallback = std::move(callback); } void Step::setCancelNearestDcCallback(Fn callback) { _cancelNearestDcCallback = std::move(callback); } void Step::setAcceptTermsCallback( Fn callback)> callback) { _acceptTermsCallback = std::move(callback); } void Step::showFast() { show(); showFinished(); } bool Step::animating() const { return (_slideAnimation && _slideAnimation->animating()) || _a_show.animating(); } bool Step::hasCover() const { return _hasCover; } bool Step::hasBack() const { return false; } void Step::activate() { _title->show(); _description->show(anim::type::instant); if (!_errorText.current().isEmpty()) { _error->show(anim::type::instant); } } void Step::cancelled() { } void Step::finished() { hide(); } } // namespace details } // namespace Intro