/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "nsBaseWidget.h" #include #include "GLConsts.h" #include "InputData.h" #include "LiveResizeListener.h" #include "SwipeTracker.h" #include "TouchEvents.h" #include "X11UndefineNone.h" #include "base/thread.h" #include "mozilla/ArrayUtils.h" #include "mozilla/Attributes.h" #include "mozilla/GlobalKeyListener.h" #include "mozilla/IMEStateManager.h" #include "mozilla/Logging.h" #include "mozilla/MouseEvents.h" #include "mozilla/NativeKeyBindingsType.h" #include "mozilla/Preferences.h" #include "mozilla/PresShell.h" #include "mozilla/ScopeExit.h" #include "mozilla/Sprintf.h" #include "mozilla/StaticPrefs_apz.h" #include "mozilla/StaticPrefs_dom.h" #include "mozilla/StaticPrefs_gfx.h" #include "mozilla/StaticPrefs_layers.h" #include "mozilla/StaticPrefs_layout.h" #include "mozilla/TextEventDispatcher.h" #include "mozilla/TextEventDispatcherListener.h" #include "mozilla/UniquePtr.h" #include "mozilla/Unused.h" #include "mozilla/VsyncDispatcher.h" #include "mozilla/dom/BrowserParent.h" #include "mozilla/dom/ContentChild.h" #include "mozilla/dom/Document.h" #include "mozilla/dom/SimpleGestureEventBinding.h" #include "mozilla/gfx/2D.h" #include "mozilla/gfx/GPUProcessManager.h" #include "mozilla/gfx/gfxVars.h" #include "mozilla/layers/APZCCallbackHelper.h" #include "mozilla/layers/TouchActionHelper.h" #include "mozilla/layers/APZEventState.h" #include "mozilla/layers/APZInputBridge.h" #include "mozilla/layers/APZThreadUtils.h" #include "mozilla/layers/ChromeProcessController.h" #include "mozilla/layers/Compositor.h" #include "mozilla/layers/CompositorBridgeChild.h" #include "mozilla/layers/CompositorBridgeParent.h" #include "mozilla/layers/CompositorOptions.h" #include "mozilla/layers/IAPZCTreeManager.h" #include "mozilla/layers/ImageBridgeChild.h" #include "mozilla/layers/InputAPZContext.h" #include "mozilla/layers/WebRenderLayerManager.h" #include "mozilla/webrender/WebRenderTypes.h" #include "mozilla/widget/ScreenManager.h" #include "nsAppDirectoryServiceDefs.h" #include "nsCOMPtr.h" #include "nsContentUtils.h" #include "nsDeviceContext.h" #include "nsGfxCIID.h" #include "nsIAppWindow.h" #include "nsIBaseWindow.h" #include "nsIContent.h" #include "nsIScreenManager.h" #include "nsISimpleEnumerator.h" #include "nsIWidgetListener.h" #include "nsRefPtrHashtable.h" #include "nsServiceManagerUtils.h" #include "nsWidgetsCID.h" #include "nsXULPopupManager.h" #include "prdtoa.h" #include "prenv.h" #ifdef ACCESSIBILITY # include "nsAccessibilityService.h" #endif #include "gfxConfig.h" #include "gfxUtils.h" // for ToDeviceColor #include "mozilla/layers/CompositorSession.h" #include "VRManagerChild.h" #include "gfxConfig.h" #include "nsView.h" #include "nsViewManager.h" static mozilla::LazyLogModule sBaseWidgetLog("BaseWidget"); #ifdef DEBUG # include "nsIObserver.h" static void debug_RegisterPrefCallbacks(); #endif #ifdef NOISY_WIDGET_LEAKS static int32_t gNumWidgets; #endif using namespace mozilla::dom; using namespace mozilla::layers; using namespace mozilla::ipc; using namespace mozilla::widget; using namespace mozilla; // Async pump timer during injected long touch taps #define TOUCH_INJECT_PUMP_TIMER_MSEC 50 #define TOUCH_INJECT_LONG_TAP_DEFAULT_MSEC 1500 int32_t nsIWidget::sPointerIdCounter = 0; // Some statics from nsIWidget.h /*static*/ uint64_t AutoObserverNotifier::sObserverId = 0; /*static*/ nsTHashMap> AutoObserverNotifier::sSavedObservers; // The maximum amount of time to let the EnableDragDrop runnable wait in the // idle queue before timing out and moving it to the regular queue. Value is in // milliseconds. const uint32_t kAsyncDragDropTimeout = 1000; NS_IMPL_ISUPPORTS(nsBaseWidget, nsIWidget, nsISupportsWeakReference) //------------------------------------------------------------------------- // // nsBaseWidget constructor // //------------------------------------------------------------------------- nsBaseWidget::nsBaseWidget() : nsBaseWidget(BorderStyle::None) {} nsBaseWidget::nsBaseWidget(BorderStyle aBorderStyle) : mWidgetListener(nullptr), mAttachedWidgetListener(nullptr), mPreviouslyAttachedWidgetListener(nullptr), mCompositorVsyncDispatcher(nullptr), mBorderStyle(aBorderStyle), mBounds(0, 0, 0, 0), mIsTiled(false), mPopupLevel(PopupLevel::Top), mPopupType(PopupType::Any), mHasRemoteContent(false), mUpdateCursor(true), mUseAttachedEvents(false), mIMEHasFocus(false), mIMEHasQuit(false), mIsFullyOccluded(false), mNeedFastSnaphot(false), mCurrentPanGestureBelongsToSwipe(false), mIsPIPWindow(false) { #ifdef NOISY_WIDGET_LEAKS gNumWidgets++; printf("WIDGETS+ = %d\n", gNumWidgets); #endif #ifdef DEBUG debug_RegisterPrefCallbacks(); #endif mShutdownObserver = new WidgetShutdownObserver(this); } NS_IMPL_ISUPPORTS(WidgetShutdownObserver, nsIObserver) WidgetShutdownObserver::WidgetShutdownObserver(nsBaseWidget* aWidget) : mWidget(aWidget), mRegistered(false) { Register(); } WidgetShutdownObserver::~WidgetShutdownObserver() { // No need to call Unregister(), we can't be destroyed until nsBaseWidget // gets torn down. The observer service and nsBaseWidget have a ref on us // so nsBaseWidget has to call Unregister and then clear its ref. } NS_IMETHODIMP WidgetShutdownObserver::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { if (!mWidget) { return NS_OK; } if (!strcmp(aTopic, NS_XPCOM_SHUTDOWN_OBSERVER_ID)) { RefPtr widget(mWidget); widget->Shutdown(); } else if (!strcmp(aTopic, "quit-application")) { RefPtr widget(mWidget); widget->QuitIME(); } return NS_OK; } void WidgetShutdownObserver::Register() { if (!mRegistered) { mRegistered = true; nsContentUtils::RegisterShutdownObserver(this); #ifndef MOZ_WIDGET_ANDROID // The primary purpose of observing quit-application is // to avoid leaking a widget on Windows when nothing else // breaks the circular reference between the widget and // TSFTextStore. However, our Android IME code crashes if // doing this on Android, so let's not do this on Android. // Doing this on Gtk and Mac just in case. nsCOMPtr observerService = mozilla::services::GetObserverService(); if (observerService) { observerService->AddObserver(this, "quit-application", false); } #endif } } void WidgetShutdownObserver::Unregister() { if (mRegistered) { mWidget = nullptr; #ifndef MOZ_WIDGET_ANDROID nsCOMPtr observerService = mozilla::services::GetObserverService(); if (observerService) { observerService->RemoveObserver(this, "quit-application"); } #endif nsContentUtils::UnregisterShutdownObserver(this); mRegistered = false; } } #define INTL_APP_LOCALES_CHANGED "intl:app-locales-changed" NS_IMPL_ISUPPORTS(LocalesChangedObserver, nsIObserver) LocalesChangedObserver::LocalesChangedObserver(nsBaseWidget* aWidget) : mWidget(aWidget), mRegistered(false) { Register(); } LocalesChangedObserver::~LocalesChangedObserver() { // No need to call Unregister(), we can't be destroyed until nsBaseWidget // gets torn down. The observer service and nsBaseWidget have a ref on us // so nsBaseWidget has to call Unregister and then clear its ref. } NS_IMETHODIMP LocalesChangedObserver::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { if (!mWidget) { return NS_OK; } if (!strcmp(aTopic, INTL_APP_LOCALES_CHANGED)) { RefPtr widget(mWidget); widget->LocalesChanged(); } return NS_OK; } void LocalesChangedObserver::Register() { if (mRegistered) { return; } nsCOMPtr obs = mozilla::services::GetObserverService(); if (obs) { obs->AddObserver(this, INTL_APP_LOCALES_CHANGED, true); } // Locale might be update before registering RefPtr widget(mWidget); widget->LocalesChanged(); mRegistered = true; } void LocalesChangedObserver::Unregister() { if (!mRegistered) { return; } nsCOMPtr obs = mozilla::services::GetObserverService(); if (obs) { obs->RemoveObserver(this, INTL_APP_LOCALES_CHANGED); } mWidget = nullptr; mRegistered = false; } void nsBaseWidget::Shutdown() { NotifyLiveResizeStopped(); DestroyCompositor(); FreeLocalesChangedObserver(); FreeShutdownObserver(); } void nsBaseWidget::QuitIME() { IMEStateManager::WidgetOnQuit(this); this->mIMEHasQuit = true; } void nsBaseWidget::DestroyCompositor() { RevokeTransactionIdAllocator(); // We release this before releasing the compositor, since it may hold the // last reference to our ClientLayerManager. ClientLayerManager's dtor can // trigger a paint, creating a new compositor, and we don't want to re-use // the old vsync dispatcher. if (mCompositorVsyncDispatcher) { MOZ_ASSERT(mCompositorVsyncDispatcherLock.get()); MutexAutoLock lock(*mCompositorVsyncDispatcherLock.get()); mCompositorVsyncDispatcher->Shutdown(); mCompositorVsyncDispatcher = nullptr; } // The compositor shutdown sequence looks like this: // 1. CompositorSession calls CompositorBridgeChild::Destroy. // 2. CompositorBridgeChild synchronously sends WillClose. // 3. CompositorBridgeParent releases some resources (such as the layer // manager, compositor, and widget). // 4. CompositorBridgeChild::Destroy returns. // 5. Asynchronously, CompositorBridgeParent::ActorDestroy will fire on the // compositor thread when the I/O thread closes the IPC channel. // 6. Step 5 will schedule DeferredDestroy on the compositor thread, which // releases the reference CompositorBridgeParent holds to itself. // // When CompositorSession::Shutdown returns, we assume the compositor is gone // or will be gone very soon. if (mCompositorSession) { ReleaseContentController(); mAPZC = nullptr; SetCompositorWidgetDelegate(nullptr); mCompositorBridgeChild = nullptr; mCompositorSession->Shutdown(); mCompositorSession = nullptr; } } // This prevents the layer manager from starting a new transaction during // shutdown. void nsBaseWidget::RevokeTransactionIdAllocator() { if (!mWindowRenderer || !mWindowRenderer->AsWebRender()) { return; } mWindowRenderer->AsWebRender()->SetTransactionIdAllocator(nullptr); } void nsBaseWidget::ReleaseContentController() { if (mRootContentController) { mRootContentController->Destroy(); mRootContentController = nullptr; } } void nsBaseWidget::DestroyLayerManager() { if (mWindowRenderer) { mWindowRenderer->Destroy(); mWindowRenderer = nullptr; } DestroyCompositor(); } void nsBaseWidget::OnRenderingDeviceReset() { DestroyLayerManager(); } void nsBaseWidget::FreeShutdownObserver() { if (mShutdownObserver) { mShutdownObserver->Unregister(); } mShutdownObserver = nullptr; } void nsBaseWidget::FreeLocalesChangedObserver() { if (mLocalesChangedObserver) { mLocalesChangedObserver->Unregister(); } mLocalesChangedObserver = nullptr; } //------------------------------------------------------------------------- // // nsBaseWidget destructor // //------------------------------------------------------------------------- nsBaseWidget::~nsBaseWidget() { if (mSwipeTracker) { mSwipeTracker->Destroy(); mSwipeTracker = nullptr; } IMEStateManager::WidgetDestroyed(this); FreeLocalesChangedObserver(); FreeShutdownObserver(); DestroyLayerManager(); #ifdef NOISY_WIDGET_LEAKS gNumWidgets--; printf("WIDGETS- = %d\n", gNumWidgets); #endif } //------------------------------------------------------------------------- // // Basic create. // //------------------------------------------------------------------------- void nsBaseWidget::BaseCreate(nsIWidget* aParent, widget::InitData* aInitData) { if (aInitData) { mWindowType = aInitData->mWindowType; mBorderStyle = aInitData->mBorderStyle; mPopupLevel = aInitData->mPopupLevel; mPopupType = aInitData->mPopupHint; mHasRemoteContent = aInitData->mHasRemoteContent; mIsPIPWindow = aInitData->mPIPWindow; } if (aParent) { aParent->AddChild(this); } } //------------------------------------------------------------------------- // // Accessor functions to get/set the client data // //------------------------------------------------------------------------- nsIWidgetListener* nsBaseWidget::GetWidgetListener() const { return mWidgetListener; } void nsBaseWidget::SetWidgetListener(nsIWidgetListener* aWidgetListener) { mWidgetListener = aWidgetListener; } already_AddRefed nsBaseWidget::CreateChild( const LayoutDeviceIntRect& aRect, widget::InitData* aInitData, bool aForceUseIWidgetParent) { nsIWidget* parent = this; nsNativeWidget nativeParent = nullptr; if (!aForceUseIWidgetParent) { // Use only either parent or nativeParent, not both, to match // existing code. Eventually Create() should be divested of its // nativeWidget parameter. nativeParent = parent ? parent->GetNativeData(NS_NATIVE_WIDGET) : nullptr; parent = nativeParent ? nullptr : parent; MOZ_ASSERT(!parent || !nativeParent, "messed up logic"); } nsCOMPtr widget; if (aInitData && aInitData->mWindowType == WindowType::Popup) { widget = AllocateChildPopupWidget(); } else { widget = nsIWidget::CreateChildWindow(); } if (widget && mNeedFastSnaphot) { widget->SetNeedFastSnaphot(); } if (widget && NS_SUCCEEDED(widget->Create(parent, nativeParent, aRect, aInitData))) { return widget.forget(); } return nullptr; } // Attach a view to our widget which we'll send events to. void nsBaseWidget::AttachViewToTopLevel(bool aUseAttachedEvents) { NS_ASSERTION((mWindowType == WindowType::TopLevel || mWindowType == WindowType::Dialog || mWindowType == WindowType::Invisible || mWindowType == WindowType::Child), "Can't attach to window of that type"); mUseAttachedEvents = aUseAttachedEvents; } nsIWidgetListener* nsBaseWidget::GetAttachedWidgetListener() const { return mAttachedWidgetListener; } nsIWidgetListener* nsBaseWidget::GetPreviouslyAttachedWidgetListener() { return mPreviouslyAttachedWidgetListener; } void nsBaseWidget::SetPreviouslyAttachedWidgetListener( nsIWidgetListener* aListener) { mPreviouslyAttachedWidgetListener = aListener; } void nsBaseWidget::SetAttachedWidgetListener(nsIWidgetListener* aListener) { mAttachedWidgetListener = aListener; } //------------------------------------------------------------------------- // // Close this nsBaseWidget // //------------------------------------------------------------------------- void nsBaseWidget::Destroy() { DestroyCompositor(); // Just in case our parent is the only ref to us nsCOMPtr kungFuDeathGrip(this); // disconnect from the parent nsIWidget* parent = GetParent(); if (parent) { parent->RemoveChild(this); } } //------------------------------------------------------------------------- // // Get this nsBaseWidget parent // //------------------------------------------------------------------------- nsIWidget* nsBaseWidget::GetParent(void) { return nullptr; } //------------------------------------------------------------------------- // // Get this nsBaseWidget top level widget // //------------------------------------------------------------------------- nsIWidget* nsBaseWidget::GetTopLevelWidget() { nsIWidget *topLevelWidget = nullptr, *widget = this; while (widget) { topLevelWidget = widget; widget = widget->GetParent(); } return topLevelWidget; } //------------------------------------------------------------------------- // // Get this nsBaseWidget's top (non-sheet) parent (if it's a sheet) // //------------------------------------------------------------------------- nsIWidget* nsBaseWidget::GetSheetWindowParent(void) { return nullptr; } float nsBaseWidget::GetDPI() { return 96.0f; } CSSToLayoutDeviceScale nsIWidget::GetDefaultScale() { double devPixelsPerCSSPixel = StaticPrefs::layout_css_devPixelsPerPx(); if (devPixelsPerCSSPixel <= 0.0) { devPixelsPerCSSPixel = GetDefaultScaleInternal(); } return CSSToLayoutDeviceScale(devPixelsPerCSSPixel); } nsIntSize nsIWidget::CustomCursorSize(const Cursor& aCursor) { MOZ_ASSERT(aCursor.IsCustom()); int32_t width = 0; int32_t height = 0; aCursor.mContainer->GetWidth(&width); aCursor.mContainer->GetHeight(&height); aCursor.mResolution.ApplyTo(width, height); return {width, height}; } LayoutDeviceIntSize nsIWidget::ClientToWindowSizeDifference() { auto margin = ClientToWindowMargin(); MOZ_ASSERT(margin.top >= 0, "Window should be bigger than client area"); MOZ_ASSERT(margin.left >= 0, "Window should be bigger than client area"); MOZ_ASSERT(margin.right >= 0, "Window should be bigger than client area"); MOZ_ASSERT(margin.bottom >= 0, "Window should be bigger than client area"); return {margin.LeftRight(), margin.TopBottom()}; } RefPtr nsIWidget::GetVsyncDispatcher() { return nullptr; } //------------------------------------------------------------------------- // // Add a child to the list of children // //------------------------------------------------------------------------- void nsBaseWidget::AddChild(nsIWidget* aChild) { MOZ_ASSERT(!aChild->GetNextSibling() && !aChild->GetPrevSibling(), "aChild not properly removed from its old child list"); if (!mFirstChild) { mFirstChild = mLastChild = aChild; } else { // append to the list MOZ_ASSERT(mLastChild); MOZ_ASSERT(!mLastChild->GetNextSibling()); mLastChild->SetNextSibling(aChild); aChild->SetPrevSibling(mLastChild); mLastChild = aChild; } } //------------------------------------------------------------------------- // // Remove a child from the list of children // //------------------------------------------------------------------------- void nsBaseWidget::RemoveChild(nsIWidget* aChild) { #ifdef DEBUG # ifdef XP_MACOSX // nsCocoaWindow doesn't implement GetParent, so in that case parent will be // null and we'll just have to do without this assertion. nsIWidget* parent = aChild->GetParent(); NS_ASSERTION(!parent || parent == this, "Not one of our kids!"); # else MOZ_RELEASE_ASSERT(aChild->GetParent() == this, "Not one of our kids!"); # endif #endif if (mLastChild == aChild) { mLastChild = mLastChild->GetPrevSibling(); } if (mFirstChild == aChild) { mFirstChild = mFirstChild->GetNextSibling(); } // Now remove from the list. Make sure that we pass ownership of the tail // of the list correctly before we have aChild let go of it. nsIWidget* prev = aChild->GetPrevSibling(); nsIWidget* next = aChild->GetNextSibling(); if (prev) { prev->SetNextSibling(next); } if (next) { next->SetPrevSibling(prev); } aChild->SetNextSibling(nullptr); aChild->SetPrevSibling(nullptr); } //------------------------------------------------------------------------- // // Sets widget's position within its parent's child list. // //------------------------------------------------------------------------- void nsBaseWidget::SetZIndex(int32_t aZIndex) { // Hold a ref to ourselves just in case, since we're going to remove // from our parent. nsCOMPtr kungFuDeathGrip(this); mZIndex = aZIndex; // reorder this child in its parent's list. auto* parent = static_cast(GetParent()); if (parent) { parent->RemoveChild(this); // Scope sib outside the for loop so we can check it afterward nsIWidget* sib = parent->GetFirstChild(); for (; sib; sib = sib->GetNextSibling()) { int32_t childZIndex = GetZIndex(); if (aZIndex < childZIndex) { // Insert ourselves before sib nsIWidget* prev = sib->GetPrevSibling(); mNextSibling = sib; mPrevSibling = prev; sib->SetPrevSibling(this); if (prev) { prev->SetNextSibling(this); } else { NS_ASSERTION(sib == parent->mFirstChild, "Broken child list"); // We've taken ownership of sib, so it's safe to have parent let // go of it parent->mFirstChild = this; } PlaceBehind(eZPlacementBelow, sib, false); break; } } // were we added to the list? if (!sib) { parent->AddChild(this); } } } void nsBaseWidget::GetWorkspaceID(nsAString& workspaceID) { workspaceID.Truncate(); } void nsBaseWidget::MoveToWorkspace(const nsAString& workspaceID) { // Noop. } //------------------------------------------------------------------------- // // Get this component cursor // //------------------------------------------------------------------------- void nsBaseWidget::SetCursor(const Cursor& aCursor) { mCursor = aCursor; } //------------------------------------------------------------------------- // // Window transparency methods // //------------------------------------------------------------------------- void nsBaseWidget::SetTransparencyMode(TransparencyMode aMode) {} TransparencyMode nsBaseWidget::GetTransparencyMode() { return TransparencyMode::Opaque; } /* virtual */ void nsBaseWidget::PerformFullscreenTransition(FullscreenTransitionStage aStage, uint16_t aDuration, nsISupports* aData, nsIRunnable* aCallback) { MOZ_ASSERT_UNREACHABLE( "Should never call PerformFullscreenTransition on nsBaseWidget"); } //------------------------------------------------------------------------- // // Put the window into full-screen mode // //------------------------------------------------------------------------- void nsBaseWidget::InfallibleMakeFullScreen(bool aFullScreen) { #define MOZ_FORMAT_RECT(fmtstr) "[" fmtstr "," fmtstr " " fmtstr "x" fmtstr "]" #define MOZ_SPLAT_RECT(rect) \ (rect).X(), (rect).Y(), (rect).Width(), (rect).Height() // Windows which can be made fullscreen are exactly those which are located on // the desktop, rather than being a child of some other window. MOZ_DIAGNOSTIC_ASSERT(BoundsUseDesktopPixels(), "non-desktop windows cannot be made fullscreen"); // Ensure that the OS chrome is hidden/shown before we resize and/or exit the // function. // // HideWindowChrome() may (depending on platform, implementation details, and // OS-level user preferences) alter the reported size of the window. The // obvious and principled solution is socks-and-shoes: // - On entering fullscreen mode: hide window chrome, then perform resize. // - On leaving fullscreen mode: unperform resize, then show window chrome. // // ... unfortunately, HideWindowChrome() requires Resize() to be called // afterwards (see bug 498835), which prevents this from being done in a // straightforward way. // // Instead, we always call HideWindowChrome() just before we call Resize(). // This at least ensures that our measurements are consistently taken in a // pre-transition state. // // ... unfortunately again, coupling HideWindowChrome() to Resize() means that // we have to worry about the possibility of control flows that don't call // Resize() at all. (That shouldn't happen, but it's not trivial to rule out.) // We therefore set up a fallback to fix up the OS chrome if it hasn't been // done at exit time. bool hasAdjustedOSChrome = false; const auto adjustOSChrome = [&]() { if (hasAdjustedOSChrome) { MOZ_ASSERT_UNREACHABLE("window chrome should only be adjusted once"); return; } HideWindowChrome(aFullScreen); hasAdjustedOSChrome = true; }; const auto adjustChromeOnScopeExit = MakeScopeExit([&]() { if (hasAdjustedOSChrome) { return; } MOZ_LOG(sBaseWidgetLog, LogLevel::Warning, ("window was not resized within InfallibleMakeFullScreen()")); // Hide chrome and "resize" the window to its current size. auto rect = GetBounds(); adjustOSChrome(); Resize(rect.X(), rect.Y(), rect.Width(), rect.Height(), true); }); // Attempt to resize to `rect`. // // Returns the actual rectangle resized to. (This may differ from `rect`, if // the OS is unhappy with it. See bug 1786226.) const auto doReposition = [&](auto rect) -> void { static_assert(std::is_base_of_v>, "doReposition requires a rectangle using desktop pixels"); if (MOZ_LOG_TEST(sBaseWidgetLog, LogLevel::Debug)) { const DesktopRect previousSize = GetScreenBounds() / GetDesktopToDeviceScale(); MOZ_LOG(sBaseWidgetLog, LogLevel::Debug, ("before resize: " MOZ_FORMAT_RECT("%f"), MOZ_SPLAT_RECT(previousSize))); } adjustOSChrome(); Resize(rect.X(), rect.Y(), rect.Width(), rect.Height(), true); if (MOZ_LOG_TEST(sBaseWidgetLog, LogLevel::Warning)) { // `rect` may have any underlying data type; coerce to float to // simplify printf-style logging const gfx::RectTyped rectAsFloat{rect}; // The OS may have objected to the target position. That's not necessarily // a problem -- it'll happen regularly on Macs with camera notches in the // monitor, for instance (see bug 1786226) -- but it probably deserves to // be called out. // // Since there's floating-point math involved, the actual values may be // off by a few ulps -- as an upper bound, perhaps 8 * FLT_EPSILON * // max(MOZ_SPLAT_RECT(rect)) -- but 0.01 should be several orders of // magnitude bigger than that. const auto postResizeRectRaw = GetScreenBounds(); const auto postResizeRect = postResizeRectRaw / GetDesktopToDeviceScale(); const bool succeeded = postResizeRect.WithinEpsilonOf(rectAsFloat, 0.01); if (succeeded) { MOZ_LOG(sBaseWidgetLog, LogLevel::Debug, ("resized to: " MOZ_FORMAT_RECT("%f"), MOZ_SPLAT_RECT(rectAsFloat))); } else { MOZ_LOG(sBaseWidgetLog, LogLevel::Warning, ("attempted to resize to: " MOZ_FORMAT_RECT("%f"), MOZ_SPLAT_RECT(rectAsFloat))); MOZ_LOG(sBaseWidgetLog, LogLevel::Warning, ("... but ended up at: " MOZ_FORMAT_RECT("%f"), MOZ_SPLAT_RECT(postResizeRect))); } MOZ_LOG( sBaseWidgetLog, LogLevel::Verbose, ("(... which, before DPI adjustment, is:" MOZ_FORMAT_RECT("%d") ")", MOZ_SPLAT_RECT(postResizeRectRaw))); } }; if (aFullScreen) { if (!mSavedBounds) { mSavedBounds = Some(FullscreenSavedState()); } // save current position mSavedBounds->windowRect = GetScreenBounds() / GetDesktopToDeviceScale(); nsCOMPtr screen = GetWidgetScreen(); if (!screen) { return; } // Move to fill the screen. doReposition(screen->GetRectDisplayPix()); // Save off the new position. (This may differ from GetRectDisplayPix(), if // the OS was unhappy with it. See bug 1786226.) mSavedBounds->screenRect = GetScreenBounds() / GetDesktopToDeviceScale(); } else { if (!mSavedBounds) { // This should never happen, at present, since we don't make windows // fullscreen at their creation time; but it's not logically impossible. MOZ_ASSERT(false, "fullscreen window did not have saved position"); return; } // Figure out where to go from here. // // Fortunately, since we're currently fullscreen (and other code should be // handling _keeping_ us fullscreen even after display-layout changes), // there's an obvious choice for which display we should attach to; all we // need to determine is where on that display we should go. const DesktopRect currentWinRect = GetScreenBounds() / GetDesktopToDeviceScale(); // Optimization: if where we are is where we were, then where we originally // came from is where we're going to go. if (currentWinRect == DesktopRect(mSavedBounds->screenRect)) { MOZ_LOG(sBaseWidgetLog, LogLevel::Debug, ("no location change detected; returning to saved location")); doReposition(mSavedBounds->windowRect); return; } /* General case: figure out where we're going to go by dividing where we are by where we were, and then multiplying by where we originally came from. Less abstrusely: resize so that we occupy the same proportional position on our current display after leaving fullscreen as we occupied on our previous display before entering fullscreen. (N.B.: We do not clamp. If we were only partially on the old display, we'll be only partially on the new one, too.) */ MOZ_LOG(sBaseWidgetLog, LogLevel::Debug, ("location change detected; computing new destination")); // splat: convert an arbitrary Rect into a tuple, for syntactic convenience. const auto splat = [](auto rect) { return std::tuple(rect.X(), rect.Y(), rect.Width(), rect.Height()); }; // remap: find the unique affine mapping which transforms `src` to `dst`, // and apply it to `val`. using Range = std::pair; const auto remap = [](Range dst, Range src, float val) { // linear interpolation and its inverse: lerp(a, b, invlerp(a, b, t)) == t const auto lerp = [](float lo, float hi, float t) { return lo + t * (hi - lo); }; const auto invlerp = [](float lo, float hi, float mid) { return (mid - lo) / (hi - lo); }; const auto [dst_a, dst_b] = dst; const auto [src_a, src_b] = src; return lerp(dst_a, dst_b, invlerp(src_a, src_b, val)); }; // original position const auto [px, py, pw, ph] = splat(mSavedBounds->windowRect); // source desktop rect const auto [sx, sy, sw, sh] = splat(mSavedBounds->screenRect); // target desktop rect const auto [tx, ty, tw, th] = splat(currentWinRect); const float nx = remap({tx, tx + tw}, {sx, sx + sw}, px); const float ny = remap({ty, ty + th}, {sy, sy + sh}, py); const float nw = remap({0, tw}, {0, sw}, pw); const float nh = remap({0, th}, {0, sh}, ph); doReposition(DesktopRect{nx, ny, nw, nh}); } #undef MOZ_SPLAT_RECT #undef MOZ_FORMAT_RECT } nsresult nsBaseWidget::MakeFullScreen(bool aFullScreen) { InfallibleMakeFullScreen(aFullScreen); return NS_OK; } nsBaseWidget::AutoLayerManagerSetup::AutoLayerManagerSetup( nsBaseWidget* aWidget, gfxContext* aTarget, BufferMode aDoubleBuffering) : mWidget(aWidget) { WindowRenderer* renderer = mWidget->GetWindowRenderer(); if (renderer->AsFallback()) { mRenderer = renderer->AsFallback(); mRenderer->SetTarget(aTarget, aDoubleBuffering); } } nsBaseWidget::AutoLayerManagerSetup::~AutoLayerManagerSetup() { if (mRenderer) { mRenderer->SetTarget(nullptr, mozilla::layers::BufferMode::BUFFER_NONE); } } bool nsBaseWidget::IsSmallPopup() const { return mWindowType == WindowType::Popup && mPopupType != PopupType::Panel; } bool nsBaseWidget::ComputeShouldAccelerate() { return gfx::gfxConfig::IsEnabled(gfx::Feature::HW_COMPOSITING) && (WidgetTypeSupportsAcceleration() || StaticPrefs::gfx_webrender_unaccelerated_widget_force()); } bool nsBaseWidget::UseAPZ() { return (gfxPlatform::AsyncPanZoomEnabled() && (mWindowType == WindowType::TopLevel || mWindowType == WindowType::Child || ((mWindowType == WindowType::Popup || mWindowType == WindowType::Dialog) && HasRemoteContent() && StaticPrefs::apz_popups_enabled()))); } void nsBaseWidget::CreateCompositor() { LayoutDeviceIntRect rect = GetBounds(); CreateCompositor(rect.Width(), rect.Height()); } void nsIWidget::PauseOrResumeCompositor(bool aPause) { auto* renderer = GetRemoteRenderer(); if (!renderer) { return; } if (aPause) { renderer->SendPause(); } else { renderer->SendResume(); } } already_AddRefed nsBaseWidget::CreateRootContentController() { RefPtr controller = new ChromeProcessController(this, mAPZEventState, mAPZC); return controller.forget(); } void nsBaseWidget::ConfigureAPZCTreeManager() { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(mAPZC); mAPZC->SetDPI(GetDPI()); if (StaticPrefs::apz_keyboard_enabled_AtStartup()) { KeyboardMap map = RootWindowGlobalKeyListener::CollectKeyboardShortcuts(); mAPZC->SetKeyboardMap(map); } ContentReceivedInputBlockCallback callback( [treeManager = RefPtr{mAPZC.get()}](uint64_t aInputBlockId, bool aPreventDefault) { MOZ_ASSERT(NS_IsMainThread()); treeManager->ContentReceivedInputBlock(aInputBlockId, aPreventDefault); }); mAPZEventState = new APZEventState(this, std::move(callback)); mRootContentController = CreateRootContentController(); if (mRootContentController) { mCompositorSession->SetContentController(mRootContentController); } // When APZ is enabled, we can actually enable raw touch events because we // have code that can deal with them properly. If APZ is not enabled, this // function doesn't get called. if (StaticPrefs::dom_w3c_touch_events_enabled()) { RegisterTouchWindow(); } } void nsBaseWidget::ConfigureAPZControllerThread() { // By default the controller thread is the main thread. APZThreadUtils::SetControllerThread(NS_GetCurrentThread()); } void nsBaseWidget::SetConfirmedTargetAPZC( uint64_t aInputBlockId, const nsTArray& aTargets) const { mAPZC->SetTargetAPZC(aInputBlockId, aTargets); } void nsBaseWidget::UpdateZoomConstraints( const uint32_t& aPresShellId, const ScrollableLayerGuid::ViewID& aViewId, const Maybe& aConstraints) { if (!mCompositorSession || !mAPZC) { if (mInitialZoomConstraints) { MOZ_ASSERT(mInitialZoomConstraints->mPresShellID == aPresShellId); MOZ_ASSERT(mInitialZoomConstraints->mViewID == aViewId); if (!aConstraints) { mInitialZoomConstraints.reset(); } } if (aConstraints) { // We have some constraints, but the compositor and APZC aren't created // yet. Save these so we can use them later. mInitialZoomConstraints = Some( InitialZoomConstraints(aPresShellId, aViewId, aConstraints.ref())); } return; } LayersId layersId = mCompositorSession->RootLayerTreeId(); mAPZC->UpdateZoomConstraints( ScrollableLayerGuid(layersId, aPresShellId, aViewId), aConstraints); } bool nsBaseWidget::AsyncPanZoomEnabled() const { return !!mAPZC; } nsEventStatus nsBaseWidget::ProcessUntransformedAPZEvent( WidgetInputEvent* aEvent, const APZEventResult& aApzResult) { MOZ_ASSERT(NS_IsMainThread()); ScrollableLayerGuid targetGuid = aApzResult.mTargetGuid; uint64_t inputBlockId = aApzResult.mInputBlockId; InputAPZContext context(aApzResult.mTargetGuid, inputBlockId, aApzResult.GetStatus()); // Make a copy of the original event for the APZCCallbackHelper helpers that // we call later, because the event passed to DispatchEvent can get mutated in // ways that we don't want (i.e. touch points can get stripped out). nsEventStatus status; UniquePtr original(aEvent->Duplicate()); DispatchEvent(aEvent, status); if (mAPZC && !InputAPZContext::WasRoutedToChildProcess() && !InputAPZContext::WasDropped() && inputBlockId) { // EventStateManager did not route the event into the child process and // the event was dispatched in the parent process. // It's safe to communicate to APZ that the event has been processed. // Note that here aGuid.mLayersId might be different from // mCompositorSession->RootLayerTreeId() because the event might have gotten // hit-tested by APZ to be targeted at a child process, but a parent process // event listener called preventDefault on it. In that case aGuid.mLayersId // would still be the layers id for the child process, but the event would // not have actually gotten routed to the child process. The main-thread // hit-test result therefore needs to use the parent process layers id. LayersId rootLayersId = mCompositorSession->RootLayerTreeId(); RefPtr postLayerization; if (WidgetTouchEvent* touchEvent = aEvent->AsTouchEvent()) { nsTArray allowedTouchBehaviors; if (touchEvent->mMessage == eTouchStart) { auto& originalEvent = *original->AsTouchEvent(); MOZ_ASSERT(NS_IsMainThread()); allowedTouchBehaviors = TouchActionHelper::GetAllowedTouchBehavior( this, GetDocument(), originalEvent); if (!allowedTouchBehaviors.IsEmpty()) { mAPZC->SetAllowedTouchBehavior(inputBlockId, allowedTouchBehaviors); } postLayerization = APZCCallbackHelper::SendSetTargetAPZCNotification( this, GetDocument(), originalEvent, rootLayersId, inputBlockId); } mAPZEventState->ProcessTouchEvent(*touchEvent, targetGuid, inputBlockId, aApzResult.GetStatus(), status, std::move(allowedTouchBehaviors)); } else if (WidgetWheelEvent* wheelEvent = aEvent->AsWheelEvent()) { MOZ_ASSERT(wheelEvent->mFlags.mHandledByAPZ); postLayerization = APZCCallbackHelper::SendSetTargetAPZCNotification( this, GetDocument(), *original->AsWheelEvent(), rootLayersId, inputBlockId); if (wheelEvent->mCanTriggerSwipe) { ReportSwipeStarted(inputBlockId, wheelEvent->TriggersSwipe()); } mAPZEventState->ProcessWheelEvent(*wheelEvent, inputBlockId); } else if (WidgetMouseEvent* mouseEvent = aEvent->AsMouseEvent()) { MOZ_ASSERT(mouseEvent->mFlags.mHandledByAPZ); postLayerization = APZCCallbackHelper::SendSetTargetAPZCNotification( this, GetDocument(), *original->AsMouseEvent(), rootLayersId, inputBlockId); mAPZEventState->ProcessMouseEvent(*mouseEvent, inputBlockId); } if (postLayerization) { postLayerization->Register(); } } return status; } template class DispatchEventOnMainThread : public Runnable { public: DispatchEventOnMainThread(const InputType& aInput, nsBaseWidget* aWidget, const APZEventResult& aAPZResult) : mozilla::Runnable("DispatchEventOnMainThread"), mInput(aInput), mWidget(aWidget), mAPZResult(aAPZResult) {} NS_IMETHOD Run() override { EventType event = mInput.ToWidgetEvent(mWidget); mWidget->ProcessUntransformedAPZEvent(&event, mAPZResult); return NS_OK; } private: InputType mInput; nsBaseWidget* mWidget; APZEventResult mAPZResult; }; template class DispatchInputOnControllerThread : public Runnable { public: DispatchInputOnControllerThread(const EventType& aEvent, IAPZCTreeManager* aAPZC, nsBaseWidget* aWidget) : mozilla::Runnable("DispatchInputOnControllerThread"), mMainMessageLoop(MessageLoop::current()), mInput(aEvent), mAPZC(aAPZC), mWidget(aWidget) {} NS_IMETHOD Run() override { APZEventResult result = mAPZC->InputBridge()->ReceiveInputEvent(mInput); if (result.GetStatus() == nsEventStatus_eConsumeNoDefault) { return NS_OK; } RefPtr r = new DispatchEventOnMainThread( mInput, mWidget, result); mMainMessageLoop->PostTask(r.forget()); return NS_OK; } private: MessageLoop* mMainMessageLoop; InputType mInput; RefPtr mAPZC; nsBaseWidget* mWidget; }; void nsBaseWidget::DispatchTouchInput(MultiTouchInput& aInput, uint16_t aInputSource) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aInputSource == mozilla::dom::MouseEvent_Binding::MOZ_SOURCE_TOUCH || aInputSource == mozilla::dom::MouseEvent_Binding::MOZ_SOURCE_PEN); if (mAPZC) { MOZ_ASSERT(APZThreadUtils::IsControllerThread()); APZEventResult result = mAPZC->InputBridge()->ReceiveInputEvent(aInput); if (result.GetStatus() == nsEventStatus_eConsumeNoDefault) { return; } WidgetTouchEvent event = aInput.ToWidgetEvent(this, aInputSource); ProcessUntransformedAPZEvent(&event, result); } else { WidgetTouchEvent event = aInput.ToWidgetEvent(this, aInputSource); nsEventStatus status; DispatchEvent(&event, status); } } void nsBaseWidget::DispatchPanGestureInput(PanGestureInput& aInput) { MOZ_ASSERT(NS_IsMainThread()); if (mAPZC) { MOZ_ASSERT(APZThreadUtils::IsControllerThread()); APZEventResult result = mAPZC->InputBridge()->ReceiveInputEvent(aInput); if (result.GetStatus() == nsEventStatus_eConsumeNoDefault) { return; } WidgetWheelEvent event = aInput.ToWidgetEvent(this); ProcessUntransformedAPZEvent(&event, result); } else { WidgetWheelEvent event = aInput.ToWidgetEvent(this); nsEventStatus status; DispatchEvent(&event, status); } } void nsBaseWidget::DispatchPinchGestureInput(PinchGestureInput& aInput) { MOZ_ASSERT(NS_IsMainThread()); if (mAPZC) { MOZ_ASSERT(APZThreadUtils::IsControllerThread()); APZEventResult result = mAPZC->InputBridge()->ReceiveInputEvent(aInput); if (result.GetStatus() == nsEventStatus_eConsumeNoDefault) { return; } WidgetWheelEvent event = aInput.ToWidgetEvent(this); ProcessUntransformedAPZEvent(&event, result); } else { WidgetWheelEvent event = aInput.ToWidgetEvent(this); nsEventStatus status; DispatchEvent(&event, status); } } nsIWidget::ContentAndAPZEventStatus nsBaseWidget::DispatchInputEvent( WidgetInputEvent* aEvent) { nsIWidget::ContentAndAPZEventStatus status; MOZ_ASSERT(NS_IsMainThread()); if (mAPZC) { if (APZThreadUtils::IsControllerThread()) { APZEventResult result = mAPZC->InputBridge()->ReceiveInputEvent(*aEvent); status.mApzStatus = result.GetStatus(); if (result.GetStatus() == nsEventStatus_eConsumeNoDefault) { return status; } status.mContentStatus = ProcessUntransformedAPZEvent(aEvent, result); return status; } if (WidgetWheelEvent* wheelEvent = aEvent->AsWheelEvent()) { RefPtr r = new DispatchInputOnControllerThread(*wheelEvent, mAPZC, this); APZThreadUtils::RunOnControllerThread(std::move(r)); status.mContentStatus = nsEventStatus_eConsumeDoDefault; return status; } if (WidgetMouseEvent* mouseEvent = aEvent->AsMouseEvent()) { RefPtr r = new DispatchInputOnControllerThread( *mouseEvent, mAPZC, this); APZThreadUtils::RunOnControllerThread(std::move(r)); status.mContentStatus = nsEventStatus_eConsumeDoDefault; return status; } if (WidgetTouchEvent* touchEvent = aEvent->AsTouchEvent()) { RefPtr r = new DispatchInputOnControllerThread(*touchEvent, mAPZC, this); APZThreadUtils::RunOnControllerThread(std::move(r)); status.mContentStatus = nsEventStatus_eConsumeDoDefault; return status; } // Allow dispatching keyboard events on Gecko thread. MOZ_ASSERT(aEvent->AsKeyboardEvent()); } DispatchEvent(aEvent, status.mContentStatus); return status; } void nsBaseWidget::DispatchEventToAPZOnly(mozilla::WidgetInputEvent* aEvent) { MOZ_ASSERT(NS_IsMainThread()); if (mAPZC) { MOZ_ASSERT(APZThreadUtils::IsControllerThread()); mAPZC->InputBridge()->ReceiveInputEvent(*aEvent); } } bool nsBaseWidget::DispatchWindowEvent(WidgetGUIEvent& event) { nsEventStatus status; DispatchEvent(&event, status); return ConvertStatus(status); } Document* nsBaseWidget::GetDocument() const { if (mWidgetListener) { if (PresShell* presShell = mWidgetListener->GetPresShell()) { return presShell->GetDocument(); } } return nullptr; } void nsBaseWidget::CreateCompositorVsyncDispatcher() { // Parent directly listens to the vsync source whereas // child process communicate via IPC // Should be called AFTER gfxPlatform is initialized if (XRE_IsParentProcess()) { if (!mCompositorVsyncDispatcherLock) { mCompositorVsyncDispatcherLock = MakeUnique("mCompositorVsyncDispatcherLock"); } MutexAutoLock lock(*mCompositorVsyncDispatcherLock.get()); if (!mCompositorVsyncDispatcher) { RefPtr vsyncDispatcher = gfxPlatform::GetPlatform()->GetGlobalVsyncDispatcher(); mCompositorVsyncDispatcher = new CompositorVsyncDispatcher(std::move(vsyncDispatcher)); } } } already_AddRefed nsBaseWidget::GetCompositorVsyncDispatcher() { MOZ_ASSERT(mCompositorVsyncDispatcherLock.get()); MutexAutoLock lock(*mCompositorVsyncDispatcherLock.get()); RefPtr dispatcher = mCompositorVsyncDispatcher; return dispatcher.forget(); } already_AddRefed nsBaseWidget::CreateCompositorSession( int aWidth, int aHeight, CompositorOptions* aOptionsOut) { MOZ_ASSERT(aOptionsOut); do { CreateCompositorVsyncDispatcher(); gfx::GPUProcessManager* gpu = gfx::GPUProcessManager::Get(); // Make sure GPU process is ready for use. // If it failed to connect to GPU process, GPU process usage is disabled in // EnsureGPUReady(). It could update gfxVars and gfxConfigs. nsresult rv = gpu->EnsureGPUReady(); if (NS_WARN_IF(rv == NS_ERROR_ILLEGAL_DURING_SHUTDOWN)) { return nullptr; } // If widget type does not supports acceleration, we may be allowed to use // software WebRender instead. bool supportsAcceleration = WidgetTypeSupportsAcceleration(); bool enableSWWR = true; if (supportsAcceleration || StaticPrefs::gfx_webrender_unaccelerated_widget_force()) { enableSWWR = gfx::gfxVars::UseSoftwareWebRender(); } bool enableAPZ = UseAPZ(); CompositorOptions options(enableAPZ, enableSWWR); #ifdef XP_WIN if (supportsAcceleration) { options.SetAllowSoftwareWebRenderD3D11( gfx::gfxVars::AllowSoftwareWebRenderD3D11()); } if (mNeedFastSnaphot) { options.SetNeedFastSnaphot(true); } #elif defined(MOZ_WIDGET_ANDROID) MOZ_ASSERT(supportsAcceleration); options.SetAllowSoftwareWebRenderOGL( gfx::gfxVars::AllowSoftwareWebRenderOGL()); #elif defined(MOZ_WIDGET_GTK) if (supportsAcceleration) { options.SetAllowSoftwareWebRenderOGL( gfx::gfxVars::AllowSoftwareWebRenderOGL()); } #endif #ifdef MOZ_WIDGET_ANDROID // Unconditionally set the compositor as initially paused, as we have not // yet had a chance to send the compositor surface to the GPU process. We // will do so shortly once we have returned to nsWindow::CreateLayerManager, // where we will also resume the compositor if required. options.SetInitiallyPaused(true); #else options.SetInitiallyPaused(CompositorInitiallyPaused()); #endif RefPtr lm = new WebRenderLayerManager(this); uint64_t innerWindowId = 0; if (Document* doc = GetDocument()) { innerWindowId = doc->InnerWindowID(); } bool retry = false; mCompositorSession = gpu->CreateTopLevelCompositor( this, lm, GetDefaultScale(), options, UseExternalCompositingSurface(), gfx::IntSize(aWidth, aHeight), innerWindowId, &retry); if (mCompositorSession) { TextureFactoryIdentifier textureFactoryIdentifier; nsCString error; lm->Initialize(mCompositorSession->GetCompositorBridgeChild(), wr::AsPipelineId(mCompositorSession->RootLayerTreeId()), &textureFactoryIdentifier, error); if (textureFactoryIdentifier.mParentBackend != LayersBackend::LAYERS_WR) { retry = true; DestroyCompositor(); // gfxVars::UseDoubleBufferingWithCompositor() is also disabled. gfx::GPUProcessManager::Get()->DisableWebRender( wr::WebRenderError::INITIALIZE, error); } } // We need to retry in a loop because the act of failing to create the // compositor can change our state (e.g. disable WebRender). if (mCompositorSession || !retry) { *aOptionsOut = options; return lm.forget(); } } while (true); } void nsBaseWidget::CreateCompositor(int aWidth, int aHeight) { // This makes sure that gfxPlatforms gets initialized if it hasn't by now. gfxPlatform::GetPlatform(); MOZ_ASSERT(gfxPlatform::UsesOffMainThreadCompositing(), "This function assumes OMTC"); MOZ_ASSERT(!mCompositorSession && !mCompositorBridgeChild, "Should have properly cleaned up the previous PCompositor pair " "beforehand"); if (mCompositorBridgeChild) { mCompositorBridgeChild->Destroy(); } // Recreating this is tricky, as we may still have an old and we need // to make sure it's properly destroyed by calling DestroyCompositor! // If we've already received a shutdown notification, don't try // create a new compositor. if (!mShutdownObserver) { return; } // The controller thread must be configured before the compositor // session is created, so that the input bridge runs on the right // thread. ConfigureAPZControllerThread(); CompositorOptions options; RefPtr lm = CreateCompositorSession(aWidth, aHeight, &options); if (!lm) { return; } MOZ_ASSERT(mCompositorSession); mCompositorBridgeChild = mCompositorSession->GetCompositorBridgeChild(); SetCompositorWidgetDelegate( mCompositorSession->GetCompositorWidgetDelegate()); if (options.UseAPZ()) { mAPZC = mCompositorSession->GetAPZCTreeManager(); ConfigureAPZCTreeManager(); } else { mAPZC = nullptr; } if (mInitialZoomConstraints) { UpdateZoomConstraints(mInitialZoomConstraints->mPresShellID, mInitialZoomConstraints->mViewID, Some(mInitialZoomConstraints->mConstraints)); mInitialZoomConstraints.reset(); } TextureFactoryIdentifier textureFactoryIdentifier = lm->GetTextureFactoryIdentifier(); MOZ_ASSERT(textureFactoryIdentifier.mParentBackend == LayersBackend::LAYERS_WR); ImageBridgeChild::IdentifyCompositorTextureHost(textureFactoryIdentifier); gfx::VRManagerChild::IdentifyTextureHost(textureFactoryIdentifier); WindowUsesOMTC(); mWindowRenderer = std::move(lm); // Only track compositors for top-level windows, since other window types // may use the basic compositor. Except on the OS X - see bug 1306383 #if defined(XP_MACOSX) bool getCompositorFromThisWindow = true; #else bool getCompositorFromThisWindow = mWindowType == WindowType::TopLevel; #endif if (getCompositorFromThisWindow) { gfxPlatform::GetPlatform()->NotifyCompositorCreated( mWindowRenderer->GetCompositorBackendType()); } } void nsBaseWidget::NotifyCompositorSessionLost(CompositorSession* aSession) { MOZ_ASSERT(aSession == mCompositorSession); DestroyLayerManager(); } bool nsBaseWidget::ShouldUseOffMainThreadCompositing() { return gfxPlatform::UsesOffMainThreadCompositing(); } WindowRenderer* nsBaseWidget::GetWindowRenderer() { if (!mWindowRenderer) { if (!mShutdownObserver) { // We are shutting down, do not try to re-create a LayerManager return nullptr; } // Try to use an async compositor first, if possible if (ShouldUseOffMainThreadCompositing()) { CreateCompositor(); } if (!mWindowRenderer) { mWindowRenderer = CreateFallbackRenderer(); } } return mWindowRenderer; } WindowRenderer* nsBaseWidget::CreateFallbackRenderer() { return new FallbackRenderer; } CompositorBridgeChild* nsBaseWidget::GetRemoteRenderer() { return mCompositorBridgeChild; } void nsBaseWidget::ClearCachedWebrenderResources() { if (!mWindowRenderer || !mWindowRenderer->AsWebRender()) { return; } mWindowRenderer->AsWebRender()->ClearCachedResources(); } void nsBaseWidget::ClearWebrenderAnimationResources() { if (!mWindowRenderer || !mWindowRenderer->AsWebRender()) { return; } mWindowRenderer->AsWebRender()->ClearAnimationResources(); } bool nsBaseWidget::SetNeedFastSnaphot() { MOZ_ASSERT(XRE_IsParentProcess()); MOZ_ASSERT(!mCompositorSession); if (!XRE_IsParentProcess() || mCompositorSession) { return false; } mNeedFastSnaphot = true; return true; } already_AddRefed nsBaseWidget::StartRemoteDrawing() { return nullptr; } uint32_t nsBaseWidget::GetGLFrameBufferFormat() { return LOCAL_GL_RGBA; } //------------------------------------------------------------------------- // // Destroy the window // //------------------------------------------------------------------------- void nsBaseWidget::OnDestroy() { if (mTextEventDispatcher) { mTextEventDispatcher->OnDestroyWidget(); // Don't release it until this widget actually released because after this // is called, TextEventDispatcher() may create it again. } // If this widget is being destroyed, let the APZ code know to drop references // to this widget. Callers of this function all should be holding a deathgrip // on this widget already. ReleaseContentController(); } void nsBaseWidget::MoveClient(const DesktopPoint& aOffset) { LayoutDeviceIntPoint clientOffset(GetClientOffset()); // GetClientOffset returns device pixels; scale back to desktop pixels // if that's what this widget uses for the Move/Resize APIs if (BoundsUseDesktopPixels()) { DesktopPoint desktopOffset = clientOffset / GetDesktopToDeviceScale(); Move(aOffset.x - desktopOffset.x, aOffset.y - desktopOffset.y); } else { LayoutDevicePoint layoutOffset = aOffset * GetDesktopToDeviceScale(); Move(layoutOffset.x - LayoutDeviceCoord(clientOffset.x), layoutOffset.y - LayoutDeviceCoord(clientOffset.y)); } } void nsBaseWidget::ResizeClient(const DesktopSize& aSize, bool aRepaint) { NS_ASSERTION((aSize.width >= 0), "Negative width passed to ResizeClient"); NS_ASSERTION((aSize.height >= 0), "Negative height passed to ResizeClient"); LayoutDeviceIntRect clientBounds = GetClientBounds(); // GetClientBounds and mBounds are device pixels; scale back to desktop pixels // if that's what this widget uses for the Move/Resize APIs if (BoundsUseDesktopPixels()) { DesktopSize desktopDelta = (LayoutDeviceIntSize(mBounds.Width(), mBounds.Height()) - clientBounds.Size()) / GetDesktopToDeviceScale(); Resize(aSize.width + desktopDelta.width, aSize.height + desktopDelta.height, aRepaint); } else { LayoutDeviceSize layoutSize = aSize * GetDesktopToDeviceScale(); Resize(mBounds.Width() + (layoutSize.width - clientBounds.Width()), mBounds.Height() + (layoutSize.height - clientBounds.Height()), aRepaint); } } void nsBaseWidget::ResizeClient(const DesktopRect& aRect, bool aRepaint) { NS_ASSERTION((aRect.Width() >= 0), "Negative width passed to ResizeClient"); NS_ASSERTION((aRect.Height() >= 0), "Negative height passed to ResizeClient"); LayoutDeviceIntRect clientBounds = GetClientBounds(); LayoutDeviceIntPoint clientOffset = GetClientOffset(); DesktopToLayoutDeviceScale scale = GetDesktopToDeviceScale(); if (BoundsUseDesktopPixels()) { DesktopPoint desktopOffset = clientOffset / scale; DesktopSize desktopDelta = (LayoutDeviceIntSize(mBounds.Width(), mBounds.Height()) - clientBounds.Size()) / scale; Resize(aRect.X() - desktopOffset.x, aRect.Y() - desktopOffset.y, aRect.Width() + desktopDelta.width, aRect.Height() + desktopDelta.height, aRepaint); } else { LayoutDeviceRect layoutRect = aRect * scale; Resize(layoutRect.X() - clientOffset.x, layoutRect.Y() - clientOffset.y, layoutRect.Width() + mBounds.Width() - clientBounds.Width(), layoutRect.Height() + mBounds.Height() - clientBounds.Height(), aRepaint); } } //------------------------------------------------------------------------- // // Bounds // //------------------------------------------------------------------------- /** * If the implementation of nsWindow supports borders this method MUST be * overridden * **/ LayoutDeviceIntRect nsBaseWidget::GetClientBounds() { return GetBounds(); } /** * If the implementation of nsWindow supports borders this method MUST be * overridden * **/ LayoutDeviceIntRect nsBaseWidget::GetBounds() { return mBounds; } /** * If the implementation of nsWindow uses a local coordinate system within the *window, this method must be overridden * **/ LayoutDeviceIntRect nsBaseWidget::GetScreenBounds() { return GetBounds(); } nsresult nsBaseWidget::GetRestoredBounds(LayoutDeviceIntRect& aRect) { if (SizeMode() != nsSizeMode_Normal) { return NS_ERROR_FAILURE; } aRect = GetScreenBounds(); return NS_OK; } LayoutDeviceIntPoint nsBaseWidget::GetClientOffset() { return LayoutDeviceIntPoint(0, 0); } nsresult nsBaseWidget::SetNonClientMargins(const LayoutDeviceIntMargin&) { return NS_ERROR_NOT_IMPLEMENTED; } void nsBaseWidget::SetResizeMargin(LayoutDeviceIntCoord aResizeMargin) {} uint32_t nsBaseWidget::GetMaxTouchPoints() const { return 0; } bool nsBaseWidget::HasPendingInputEvent() { return false; } bool nsBaseWidget::ShowsResizeIndicator(LayoutDeviceIntRect* aResizerRect) { return false; } /** * Modifies aFile to point at an icon file with the given name and suffix. The * suffix may correspond to a file extension with leading '.' if appropriate. * Returns true if the icon file exists and can be read. */ static bool ResolveIconNameHelper(nsIFile* aFile, const nsAString& aIconName, const nsAString& aIconSuffix) { aFile->Append(u"icons"_ns); aFile->Append(u"default"_ns); aFile->Append(aIconName + aIconSuffix); bool readable; return NS_SUCCEEDED(aFile->IsReadable(&readable)) && readable; } /** * Resolve the given icon name into a local file object. This method is * intended to be called by subclasses of nsBaseWidget. aIconSuffix is a * platform specific icon file suffix (e.g., ".ico" under Win32). * * If no file is found matching the given parameters, then null is returned. */ void nsBaseWidget::ResolveIconName(const nsAString& aIconName, const nsAString& aIconSuffix, nsIFile** aResult) { *aResult = nullptr; nsCOMPtr dirSvc = do_GetService(NS_DIRECTORY_SERVICE_CONTRACTID); if (!dirSvc) return; // first check auxilary chrome directories nsCOMPtr dirs; dirSvc->Get(NS_APP_CHROME_DIR_LIST, NS_GET_IID(nsISimpleEnumerator), getter_AddRefs(dirs)); if (dirs) { bool hasMore; while (NS_SUCCEEDED(dirs->HasMoreElements(&hasMore)) && hasMore) { nsCOMPtr element; dirs->GetNext(getter_AddRefs(element)); if (!element) continue; nsCOMPtr file = do_QueryInterface(element); if (!file) continue; if (ResolveIconNameHelper(file, aIconName, aIconSuffix)) { NS_ADDREF(*aResult = file); return; } } } // then check the main app chrome directory nsCOMPtr file; dirSvc->Get(NS_APP_CHROME_DIR, NS_GET_IID(nsIFile), getter_AddRefs(file)); if (file && ResolveIconNameHelper(file, aIconName, aIconSuffix)) NS_ADDREF(*aResult = file); } void nsBaseWidget::SetSizeConstraints(const SizeConstraints& aConstraints) { mSizeConstraints = aConstraints; // Popups are constrained during layout, and we don't want to synchronously // paint from reflow, so bail out... This is not great, but it's no worse than // what we used to do. // // The right fix here is probably making constraint changes go through the // view manager and such. if (mWindowType == WindowType::Popup) { return; } // If the current size doesn't meet the new constraints, trigger a // resize to apply it. Note that, we don't want to invoke Resize if // the new constraints don't affect the current size, because Resize // implementation on some platforms may touch other geometry even if // the size don't need to change. LayoutDeviceIntSize curSize = mBounds.Size(); LayoutDeviceIntSize clampedSize = Max(aConstraints.mMinSize, Min(aConstraints.mMaxSize, curSize)); if (clampedSize != curSize) { gfx::Size size; if (BoundsUseDesktopPixels()) { DesktopSize desktopSize = clampedSize / GetDesktopToDeviceScale(); size = desktopSize.ToUnknownSize(); } else { size = gfx::Size(clampedSize.ToUnknownSize()); } Resize(size.width, size.height, true); } } const widget::SizeConstraints nsBaseWidget::GetSizeConstraints() { return mSizeConstraints; } // static nsIRollupListener* nsBaseWidget::GetActiveRollupListener() { // TODO: Simplify this. return nsXULPopupManager::GetInstance(); } void nsBaseWidget::NotifyWindowDestroyed() { if (!mWidgetListener) return; nsCOMPtr window = mWidgetListener->GetAppWindow(); nsCOMPtr appWindow(do_QueryInterface(window)); if (appWindow) { appWindow->Destroy(); } } void nsBaseWidget::NotifyWindowMoved(int32_t aX, int32_t aY, ByMoveToRect aByMoveToRect) { if (mWidgetListener) { mWidgetListener->WindowMoved(this, aX, aY, aByMoveToRect); } if (mIMEHasFocus && IMENotificationRequestsRef().WantPositionChanged()) { NotifyIME(IMENotification(IMEMessage::NOTIFY_IME_OF_POSITION_CHANGE)); } } void nsBaseWidget::NotifySizeMoveDone() { if (!mWidgetListener) { return; } if (PresShell* presShell = mWidgetListener->GetPresShell()) { presShell->WindowSizeMoveDone(); } } void nsBaseWidget::NotifyThemeChanged(ThemeChangeKind aKind) { LookAndFeel::NotifyChangedAllWindows(aKind); } nsresult nsBaseWidget::NotifyIME(const IMENotification& aIMENotification) { if (mIMEHasQuit) { return NS_OK; } switch (aIMENotification.mMessage) { case REQUEST_TO_COMMIT_COMPOSITION: case REQUEST_TO_CANCEL_COMPOSITION: // We should send request to IME only when there is a TextEventDispatcher // instance (this means that this widget has dispatched at least one // composition event or keyboard event) and the it has composition. // Otherwise, there is nothing to do. // Note that if current input transaction is for native input events, // TextEventDispatcher::NotifyIME() will call // TextEventDispatcherListener::NotifyIME(). if (mTextEventDispatcher && mTextEventDispatcher->IsComposing()) { return mTextEventDispatcher->NotifyIME(aIMENotification); } return NS_OK; default: { if (aIMENotification.mMessage == NOTIFY_IME_OF_FOCUS) { mIMEHasFocus = true; } EnsureTextEventDispatcher(); // TextEventDispatcher::NotifyIME() will always call // TextEventDispatcherListener::NotifyIME(). I.e., even if current // input transaction is for synthesized events for automated tests, // notifications will be sent to native IME. nsresult rv = mTextEventDispatcher->NotifyIME(aIMENotification); if (aIMENotification.mMessage == NOTIFY_IME_OF_BLUR) { mIMEHasFocus = false; } return rv; } } } void nsBaseWidget::EnsureTextEventDispatcher() { if (mTextEventDispatcher) { return; } mTextEventDispatcher = new TextEventDispatcher(this); } nsIWidget::NativeIMEContext nsBaseWidget::GetNativeIMEContext() { if (mTextEventDispatcher && mTextEventDispatcher->GetPseudoIMEContext()) { // If we already have a TextEventDispatcher and it's working with // a TextInputProcessor, we need to return pseudo IME context since // TextCompositionArray::IndexOf(nsIWidget*) should return a composition // on the pseudo IME context in such case. NativeIMEContext pseudoIMEContext; pseudoIMEContext.InitWithRawNativeIMEContext( mTextEventDispatcher->GetPseudoIMEContext()); return pseudoIMEContext; } return NativeIMEContext(this); } nsIWidget::TextEventDispatcher* nsBaseWidget::GetTextEventDispatcher() { EnsureTextEventDispatcher(); return mTextEventDispatcher; } void* nsBaseWidget::GetPseudoIMEContext() { TextEventDispatcher* dispatcher = GetTextEventDispatcher(); if (!dispatcher) { return nullptr; } return dispatcher->GetPseudoIMEContext(); } TextEventDispatcherListener* nsBaseWidget::GetNativeTextEventDispatcherListener() { // TODO: If all platforms supported use of TextEventDispatcher for handling // native IME and keyboard events, this method should be removed since // in such case, this is overridden by all the subclasses. return nullptr; } void nsBaseWidget::ZoomToRect(const uint32_t& aPresShellId, const ScrollableLayerGuid::ViewID& aViewId, const CSSRect& aRect, const uint32_t& aFlags) { if (!mCompositorSession || !mAPZC) { return; } LayersId layerId = mCompositorSession->RootLayerTreeId(); mAPZC->ZoomToRect(ScrollableLayerGuid(layerId, aPresShellId, aViewId), ZoomTarget{aRect}, aFlags); } #ifdef ACCESSIBILITY a11y::LocalAccessible* nsBaseWidget::GetRootAccessible() { NS_ENSURE_TRUE(mWidgetListener, nullptr); PresShell* presShell = mWidgetListener->GetPresShell(); NS_ENSURE_TRUE(presShell, nullptr); // If container is null then the presshell is not active. This often happens // when a preshell is being held onto for fastback. nsPresContext* presContext = presShell->GetPresContext(); NS_ENSURE_TRUE(presContext->GetContainerWeak(), nullptr); // LocalAccessible creation might be not safe so use IsSafeToRunScript to // make sure it's not created at unsafe times. nsAccessibilityService* accService = GetOrCreateAccService(); if (accService) { return accService->GetRootDocumentAccessible( presShell, nsContentUtils::IsSafeToRunScript()); } return nullptr; } #endif // ACCESSIBILITY void nsBaseWidget::StartAsyncScrollbarDrag( const AsyncDragMetrics& aDragMetrics) { if (!AsyncPanZoomEnabled()) { return; } MOZ_ASSERT(XRE_IsParentProcess() && mCompositorSession); LayersId layersId = mCompositorSession->RootLayerTreeId(); ScrollableLayerGuid guid(layersId, aDragMetrics.mPresShellId, aDragMetrics.mViewId); mAPZC->StartScrollbarDrag(guid, aDragMetrics); } bool nsBaseWidget::StartAsyncAutoscroll(const ScreenPoint& aAnchorLocation, const ScrollableLayerGuid& aGuid) { MOZ_ASSERT(XRE_IsParentProcess() && AsyncPanZoomEnabled()); return mAPZC->StartAutoscroll(aGuid, aAnchorLocation); } void nsBaseWidget::StopAsyncAutoscroll(const ScrollableLayerGuid& aGuid) { MOZ_ASSERT(XRE_IsParentProcess() && AsyncPanZoomEnabled()); mAPZC->StopAutoscroll(aGuid); } LayersId nsBaseWidget::GetRootLayerTreeId() { return mCompositorSession ? mCompositorSession->RootLayerTreeId() : LayersId{0}; } already_AddRefed nsBaseWidget::GetWidgetScreen() { ScreenManager& screenManager = ScreenManager::GetSingleton(); LayoutDeviceIntRect bounds = GetScreenBounds(); DesktopIntRect deskBounds = RoundedToInt(bounds / GetDesktopToDeviceScale()); return screenManager.ScreenForRect(deskBounds); } mozilla::DesktopToLayoutDeviceScale nsBaseWidget::GetDesktopToDeviceScaleByScreen() { return (nsView::GetViewFor(this)->GetViewManager()->GetDeviceContext()) ->GetDesktopToDeviceScale(); } nsresult nsIWidget::SynthesizeNativeTouchTap(LayoutDeviceIntPoint aPoint, bool aLongTap, nsIObserver* aObserver) { AutoObserverNotifier notifier(aObserver, "touchtap"); if (sPointerIdCounter > TOUCH_INJECT_MAX_POINTS) { sPointerIdCounter = 0; } int pointerId = sPointerIdCounter; sPointerIdCounter++; nsresult rv = SynthesizeNativeTouchPoint(pointerId, TOUCH_CONTACT, aPoint, 1.0, 90, nullptr); if (NS_FAILED(rv)) { return rv; } if (!aLongTap) { return SynthesizeNativeTouchPoint(pointerId, TOUCH_REMOVE, aPoint, 0, 0, nullptr); } // initiate a long tap int elapse = Preferences::GetInt("ui.click_hold_context_menus.delay", TOUCH_INJECT_LONG_TAP_DEFAULT_MSEC); if (!mLongTapTimer) { mLongTapTimer = NS_NewTimer(); if (!mLongTapTimer) { SynthesizeNativeTouchPoint(pointerId, TOUCH_CANCEL, aPoint, 0, 0, nullptr); return NS_ERROR_UNEXPECTED; } // Windows requires recuring events, so we set this to a smaller window // than the pref value. int timeout = elapse; if (timeout > TOUCH_INJECT_PUMP_TIMER_MSEC) { timeout = TOUCH_INJECT_PUMP_TIMER_MSEC; } mLongTapTimer->InitWithNamedFuncCallback( OnLongTapTimerCallback, this, timeout, nsITimer::TYPE_REPEATING_SLACK, "nsIWidget::SynthesizeNativeTouchTap"); } // If we already have a long tap pending, cancel it. We only allow one long // tap to be active at a time. if (mLongTapTouchPoint) { SynthesizeNativeTouchPoint(mLongTapTouchPoint->mPointerId, TOUCH_CANCEL, mLongTapTouchPoint->mPosition, 0, 0, nullptr); } mLongTapTouchPoint = MakeUnique( pointerId, aPoint, TimeDuration::FromMilliseconds(elapse), aObserver); notifier.SkipNotification(); // we'll do it in the long-tap callback return NS_OK; } // static void nsIWidget::OnLongTapTimerCallback(nsITimer* aTimer, void* aClosure) { auto* self = static_cast(aClosure); if ((self->mLongTapTouchPoint->mStamp + self->mLongTapTouchPoint->mDuration) > TimeStamp::Now()) { #ifdef XP_WIN // Windows needs us to keep pumping feedback to the digitizer, so update // the pointer id with the same position. self->SynthesizeNativeTouchPoint( self->mLongTapTouchPoint->mPointerId, TOUCH_CONTACT, self->mLongTapTouchPoint->mPosition, 1.0, 90, nullptr); #endif return; } AutoObserverNotifier notifier(self->mLongTapTouchPoint->mObserver, "touchtap"); // finished, remove the touch point self->mLongTapTimer->Cancel(); self->mLongTapTimer = nullptr; self->SynthesizeNativeTouchPoint( self->mLongTapTouchPoint->mPointerId, TOUCH_REMOVE, self->mLongTapTouchPoint->mPosition, 0, 0, nullptr); self->mLongTapTouchPoint = nullptr; } float nsIWidget::GetFallbackDPI() { RefPtr primaryScreen = ScreenManager::GetSingleton().GetPrimaryScreen(); return primaryScreen->GetDPI(); } CSSToLayoutDeviceScale nsIWidget::GetFallbackDefaultScale() { RefPtr s = ScreenManager::GetSingleton().GetPrimaryScreen(); return s->GetCSSToLayoutDeviceScale(Screen::IncludeOSZoom::No); } nsresult nsIWidget::ClearNativeTouchSequence(nsIObserver* aObserver) { AutoObserverNotifier notifier(aObserver, "cleartouch"); // XXX This is odd. This is called by the constructor of nsIWidget. However, // at that point, nsIWidget::mLongTapTimer must be nullptr. Therefore, // this must do nothing at initializing the instance. if (!mLongTapTimer) { return NS_OK; } mLongTapTimer->Cancel(); mLongTapTimer = nullptr; SynthesizeNativeTouchPoint(mLongTapTouchPoint->mPointerId, TOUCH_CANCEL, mLongTapTouchPoint->mPosition, 0, 0, nullptr); mLongTapTouchPoint = nullptr; return NS_OK; } MultiTouchInput nsBaseWidget::UpdateSynthesizedTouchState( MultiTouchInput* aState, mozilla::TimeStamp aTimeStamp, uint32_t aPointerId, TouchPointerState aPointerState, LayoutDeviceIntPoint aPoint, double aPointerPressure, uint32_t aPointerOrientation) { ScreenIntPoint pointerScreenPoint = ViewAs( aPoint, PixelCastJustification::LayoutDeviceIsScreenForBounds); // We can't dispatch *aState directly because (a) dispatching // it might inadvertently modify it and (b) in the case of touchend or // touchcancel events aState will hold the touches that are // still down whereas the input dispatched needs to hold the removed // touch(es). We use |inputToDispatch| for this purpose. MultiTouchInput inputToDispatch; inputToDispatch.mInputType = MULTITOUCH_INPUT; inputToDispatch.mTimeStamp = aTimeStamp; int32_t index = aState->IndexOfTouch((int32_t)aPointerId); if (aPointerState == TOUCH_CONTACT) { if (index >= 0) { // found an existing touch point, update it SingleTouchData& point = aState->mTouches[index]; point.mScreenPoint = pointerScreenPoint; point.mRotationAngle = (float)aPointerOrientation; point.mForce = (float)aPointerPressure; inputToDispatch.mType = MultiTouchInput::MULTITOUCH_MOVE; } else { // new touch point, add it aState->mTouches.AppendElement(SingleTouchData( (int32_t)aPointerId, pointerScreenPoint, ScreenSize(0, 0), (float)aPointerOrientation, (float)aPointerPressure)); inputToDispatch.mType = MultiTouchInput::MULTITOUCH_START; } inputToDispatch.mTouches = aState->mTouches; } else { MOZ_ASSERT(aPointerState == TOUCH_REMOVE || aPointerState == TOUCH_CANCEL); // a touch point is being lifted, so remove it from the stored list if (index >= 0) { aState->mTouches.RemoveElementAt(index); } inputToDispatch.mType = (aPointerState == TOUCH_REMOVE ? MultiTouchInput::MULTITOUCH_END : MultiTouchInput::MULTITOUCH_CANCEL); inputToDispatch.mTouches.AppendElement(SingleTouchData( (int32_t)aPointerId, pointerScreenPoint, ScreenSize(0, 0), (float)aPointerOrientation, (float)aPointerPressure)); } return inputToDispatch; } void nsBaseWidget::NotifyLiveResizeStarted() { // If we have mLiveResizeListeners already non-empty, we should notify those // listeners that the resize stopped before starting anew. In theory this // should never happen because we shouldn't get nested live resize actions. NotifyLiveResizeStopped(); MOZ_ASSERT(mLiveResizeListeners.IsEmpty()); // If we can get the active remote tab for the current widget, suppress // the displayport on it during the live resize. if (!mWidgetListener) { return; } nsCOMPtr appWindow = mWidgetListener->GetAppWindow(); if (!appWindow) { return; } mLiveResizeListeners = appWindow->GetLiveResizeListeners(); for (uint32_t i = 0; i < mLiveResizeListeners.Length(); i++) { mLiveResizeListeners[i]->LiveResizeStarted(); } } void nsBaseWidget::NotifyLiveResizeStopped() { if (!mLiveResizeListeners.IsEmpty()) { for (uint32_t i = 0; i < mLiveResizeListeners.Length(); i++) { mLiveResizeListeners[i]->LiveResizeStopped(); } mLiveResizeListeners.Clear(); } } nsresult nsBaseWidget::AsyncEnableDragDrop(bool aEnable) { RefPtr kungFuDeathGrip = this; return NS_DispatchToCurrentThreadQueue( NS_NewRunnableFunction( "AsyncEnableDragDropFn", [this, aEnable, kungFuDeathGrip]() { EnableDragDrop(aEnable); }), kAsyncDragDropTimeout, EventQueuePriority::Idle); } void nsBaseWidget::SwipeFinished() { if (mSwipeTracker) { mSwipeTracker->Destroy(); mSwipeTracker = nullptr; } } void nsBaseWidget::ReportSwipeStarted(uint64_t aInputBlockId, bool aStartSwipe) { if (mSwipeEventQueue && mSwipeEventQueue->inputBlockId == aInputBlockId) { if (aStartSwipe) { PanGestureInput& startEvent = mSwipeEventQueue->queuedEvents[0]; TrackScrollEventAsSwipe(startEvent, mSwipeEventQueue->allowedDirections, aInputBlockId); for (size_t i = 1; i < mSwipeEventQueue->queuedEvents.Length(); i++) { mSwipeTracker->ProcessEvent(mSwipeEventQueue->queuedEvents[i]); } } else if (mAPZC) { // If the event wasn't start swipe, we need to notify it to APZ. mAPZC->SetBrowserGestureResponse(aInputBlockId, BrowserGestureResponse::NotConsumed); } mSwipeEventQueue = nullptr; } } void nsBaseWidget::TrackScrollEventAsSwipe( const mozilla::PanGestureInput& aSwipeStartEvent, uint32_t aAllowedDirections, uint64_t aInputBlockId) { // If a swipe is currently being tracked kill it -- it's been interrupted // by another gesture event. if (mSwipeTracker) { mSwipeTracker->CancelSwipe(aSwipeStartEvent.mTimeStamp); mSwipeTracker->Destroy(); mSwipeTracker = nullptr; } uint32_t direction = (aSwipeStartEvent.mPanDisplacement.x > 0.0) ? (uint32_t)dom::SimpleGestureEvent_Binding::DIRECTION_RIGHT : (uint32_t)dom::SimpleGestureEvent_Binding::DIRECTION_LEFT; mSwipeTracker = new SwipeTracker(*this, aSwipeStartEvent, aAllowedDirections, direction); if (!mAPZC) { mCurrentPanGestureBelongsToSwipe = true; } else { // Now SwipeTracker has started consuming pan events, notify it to APZ so // that APZ can discard queued events. mAPZC->SetBrowserGestureResponse(aInputBlockId, BrowserGestureResponse::Consumed); } } nsBaseWidget::SwipeInfo nsBaseWidget::SendMayStartSwipe( const mozilla::PanGestureInput& aSwipeStartEvent) { nsCOMPtr kungFuDeathGrip(this); uint32_t direction = (aSwipeStartEvent.mPanDisplacement.x > 0.0) ? (uint32_t)dom::SimpleGestureEvent_Binding::DIRECTION_RIGHT : (uint32_t)dom::SimpleGestureEvent_Binding::DIRECTION_LEFT; // We're ready to start the animation. Tell Gecko about it, and at the same // time ask it if it really wants to start an animation for this event. // This event also reports back the directions that we can swipe in. LayoutDeviceIntPoint position = RoundedToInt(aSwipeStartEvent.mPanStartPoint * ScreenToLayoutDeviceScale(1)); WidgetSimpleGestureEvent geckoEvent = SwipeTracker::CreateSwipeGestureEvent( eSwipeGestureMayStart, this, position, aSwipeStartEvent.mTimeStamp); geckoEvent.mDirection = direction; geckoEvent.mDelta = 0.0; geckoEvent.mAllowedDirections = 0; bool shouldStartSwipe = DispatchWindowEvent(geckoEvent); // event cancelled == swipe should start SwipeInfo result = {shouldStartSwipe, geckoEvent.mAllowedDirections}; return result; } WidgetWheelEvent nsBaseWidget::MayStartSwipeForAPZ( const PanGestureInput& aPanInput, const APZEventResult& aApzResult) { WidgetWheelEvent event = aPanInput.ToWidgetEvent(this); // Ignore swipe-to-navigation in PiP window. if (mIsPIPWindow) { return event; } if (aPanInput.AllowsSwipe()) { SwipeInfo swipeInfo = SendMayStartSwipe(aPanInput); event.mCanTriggerSwipe = swipeInfo.wantsSwipe; if (swipeInfo.wantsSwipe) { if (aApzResult.GetStatus() == nsEventStatus_eIgnore) { // APZ has determined and that scrolling horizontally in the // requested direction is impossible, so it didn't do any // scrolling for the event. // We know now that MayStartSwipe wants a swipe, so we can start // the swipe now. TrackScrollEventAsSwipe(aPanInput, swipeInfo.allowedDirections, aApzResult.mInputBlockId); } else if (!aApzResult.GetHandledResult() || !aApzResult.GetHandledResult()->IsHandledByRoot()) { // We don't know whether this event can start a swipe, so we need // to queue up events and wait for a call to ReportSwipeStarted. // APZ might already have started scrolling in response to the // event if it knew that it's the right thing to do. In that case // we'll still get a call to ReportSwipeStarted, and we will // discard the queued events at that point. mSwipeEventQueue = MakeUnique( swipeInfo.allowedDirections, aApzResult.mInputBlockId); } } else { // Inform that the browser gesture didn't use the pan event (pan-start // precisely), so that APZ can now start using the event for // scrolling/overscrolling. mAPZC->SetBrowserGestureResponse(aApzResult.mInputBlockId, BrowserGestureResponse::NotConsumed); } } if (mSwipeEventQueue && mSwipeEventQueue->inputBlockId == aApzResult.mInputBlockId) { mSwipeEventQueue->queuedEvents.AppendElement(aPanInput); } return event; } bool nsBaseWidget::MayStartSwipeForNonAPZ(const PanGestureInput& aPanInput) { // Ignore swipe-to-navigation in PiP window. if (mIsPIPWindow) { return false; } if (aPanInput.mType == PanGestureInput::PANGESTURE_MAYSTART || aPanInput.mType == PanGestureInput::PANGESTURE_START) { mCurrentPanGestureBelongsToSwipe = false; } if (mCurrentPanGestureBelongsToSwipe) { // Ignore this event. It's a momentum event from a scroll gesture // that was processed as a swipe, and the swipe animation has // already finished (so mSwipeTracker is already null). MOZ_ASSERT(aPanInput.IsMomentum(), "If the fingers are still on the touchpad, we should still have " "a SwipeTracker, " "and it should have consumed this event."); return true; } if (!aPanInput.MayTriggerSwipe()) { return false; } SwipeInfo swipeInfo = SendMayStartSwipe(aPanInput); // We're in the non-APZ case here, but we still want to know whether // the event was routed to a child process, so we use InputAPZContext // to get that piece of information. ScrollableLayerGuid guid; uint64_t blockId = 0; InputAPZContext context(guid, blockId, nsEventStatus_eIgnore); WidgetWheelEvent event = aPanInput.ToWidgetEvent(this); event.mCanTriggerSwipe = swipeInfo.wantsSwipe; nsEventStatus status; DispatchEvent(&event, status); if (swipeInfo.wantsSwipe) { if (context.WasRoutedToChildProcess()) { // We don't know whether this event can start a swipe, so we need // to queue up events and wait for a call to ReportSwipeStarted. mSwipeEventQueue = MakeUnique(swipeInfo.allowedDirections, blockId); } else if (event.TriggersSwipe()) { TrackScrollEventAsSwipe(aPanInput, swipeInfo.allowedDirections, blockId); } } if (mSwipeEventQueue && mSwipeEventQueue->inputBlockId == 0) { mSwipeEventQueue->queuedEvents.AppendElement(aPanInput); } return true; } const IMENotificationRequests& nsIWidget::IMENotificationRequestsRef() { TextEventDispatcher* dispatcher = GetTextEventDispatcher(); return dispatcher->IMENotificationRequestsRef(); } void nsIWidget::PostHandleKeyEvent(mozilla::WidgetKeyboardEvent* aEvent) {} bool nsIWidget::GetEditCommands(NativeKeyBindingsType aType, const WidgetKeyboardEvent& aEvent, nsTArray& aCommands) { MOZ_ASSERT(aEvent.IsTrusted()); MOZ_ASSERT(aCommands.IsEmpty()); return true; } already_AddRefed nsIWidget::CreateBidiKeyboard() { if (XRE_IsContentProcess()) { return CreateBidiKeyboardContentProcess(); } return CreateBidiKeyboardInner(); } #ifdef ANDROID already_AddRefed nsIWidget::CreateBidiKeyboardInner() { // no bidi keyboard implementation return nullptr; } #endif namespace mozilla::widget { const char* ToChar(InputContext::Origin aOrigin) { switch (aOrigin) { case InputContext::ORIGIN_MAIN: return "ORIGIN_MAIN"; case InputContext::ORIGIN_CONTENT: return "ORIGIN_CONTENT"; default: return "Unexpected value"; } } const char* ToChar(IMEMessage aIMEMessage) { switch (aIMEMessage) { case NOTIFY_IME_OF_NOTHING: return "NOTIFY_IME_OF_NOTHING"; case NOTIFY_IME_OF_FOCUS: return "NOTIFY_IME_OF_FOCUS"; case NOTIFY_IME_OF_BLUR: return "NOTIFY_IME_OF_BLUR"; case NOTIFY_IME_OF_SELECTION_CHANGE: return "NOTIFY_IME_OF_SELECTION_CHANGE"; case NOTIFY_IME_OF_TEXT_CHANGE: return "NOTIFY_IME_OF_TEXT_CHANGE"; case NOTIFY_IME_OF_COMPOSITION_EVENT_HANDLED: return "NOTIFY_IME_OF_COMPOSITION_EVENT_HANDLED"; case NOTIFY_IME_OF_POSITION_CHANGE: return "NOTIFY_IME_OF_POSITION_CHANGE"; case NOTIFY_IME_OF_MOUSE_BUTTON_EVENT: return "NOTIFY_IME_OF_MOUSE_BUTTON_EVENT"; case REQUEST_TO_COMMIT_COMPOSITION: return "REQUEST_TO_COMMIT_COMPOSITION"; case REQUEST_TO_CANCEL_COMPOSITION: return "REQUEST_TO_CANCEL_COMPOSITION"; default: return "Unexpected value"; } } void NativeIMEContext::Init(nsIWidget* aWidget) { if (!aWidget) { mRawNativeIMEContext = reinterpret_cast(nullptr); mOriginProcessID = static_cast(-1); return; } if (!XRE_IsContentProcess()) { mRawNativeIMEContext = reinterpret_cast( aWidget->GetNativeData(NS_RAW_NATIVE_IME_CONTEXT)); mOriginProcessID = 0; return; } // If this is created in a child process, aWidget is an instance of // PuppetWidget which doesn't support NS_RAW_NATIVE_IME_CONTEXT. // Instead of that PuppetWidget::GetNativeIMEContext() returns cached // native IME context of the parent process. *this = aWidget->GetNativeIMEContext(); } void NativeIMEContext::InitWithRawNativeIMEContext(void* aRawNativeIMEContext) { if (NS_WARN_IF(!aRawNativeIMEContext)) { mRawNativeIMEContext = reinterpret_cast(nullptr); mOriginProcessID = static_cast(-1); return; } mRawNativeIMEContext = reinterpret_cast(aRawNativeIMEContext); mOriginProcessID = XRE_IsContentProcess() ? ContentChild::GetSingleton()->GetID() : 0; } void IMENotification::TextChangeDataBase::MergeWith( const IMENotification::TextChangeDataBase& aOther) { MOZ_ASSERT(aOther.IsValid(), "Merging data must store valid data"); MOZ_ASSERT(aOther.mStartOffset <= aOther.mRemovedEndOffset, "end of removed text must be same or larger than start"); MOZ_ASSERT(aOther.mStartOffset <= aOther.mAddedEndOffset, "end of added text must be same or larger than start"); if (!IsValid()) { *this = aOther; return; } // |mStartOffset| and |mRemovedEndOffset| represent all replaced or removed // text ranges. I.e., mStartOffset should be the smallest offset of all // modified text ranges in old text. |mRemovedEndOffset| should be the // largest end offset in old text of all modified text ranges. // |mAddedEndOffset| represents the end offset of all inserted text ranges. // I.e., only this is an offset in new text. // In other words, between mStartOffset and |mRemovedEndOffset| of the // premodified text was already removed. And some text whose length is // |mAddedEndOffset - mStartOffset| is inserted to |mStartOffset|. I.e., // this allows IME to mark dirty the modified text range with |mStartOffset| // and |mRemovedEndOffset| if IME stores all text of the focused editor and // to compute new text length with |mAddedEndOffset| and |mRemovedEndOffset|. // Additionally, IME can retrieve only the text between |mStartOffset| and // |mAddedEndOffset| for updating stored text. // For comparing new and old |mStartOffset|/|mRemovedEndOffset| values, they // should be adjusted to be in same text. The |newData.mStartOffset| and // |newData.mRemovedEndOffset| should be computed as in old text because // |mStartOffset| and |mRemovedEndOffset| represent the modified text range // in the old text but even if some text before the values of the newData // has already been modified, the values don't include the changes. // For comparing new and old |mAddedEndOffset| values, they should be // adjusted to be in same text. The |oldData.mAddedEndOffset| should be // computed as in the new text because |mAddedEndOffset| indicates the end // offset of inserted text in the new text but |oldData.mAddedEndOffset| // doesn't include any changes of the text before |newData.mAddedEndOffset|. const TextChangeDataBase& newData = aOther; const TextChangeDataBase oldData = *this; // mCausedOnlyByComposition should be true only when all changes are caused // by composition. mCausedOnlyByComposition = newData.mCausedOnlyByComposition && oldData.mCausedOnlyByComposition; // mIncludingChangesWithoutComposition should be true if at least one of // merged changes occurred without composition. mIncludingChangesWithoutComposition = newData.mIncludingChangesWithoutComposition || oldData.mIncludingChangesWithoutComposition; // mIncludingChangesDuringComposition should be true when at least one of // the merged non-composition changes occurred during the latest composition. if (!newData.mCausedOnlyByComposition && !newData.mIncludingChangesDuringComposition) { MOZ_ASSERT(newData.mIncludingChangesWithoutComposition); MOZ_ASSERT(mIncludingChangesWithoutComposition); // If new change is neither caused by composition nor occurred during // composition, set mIncludingChangesDuringComposition to false because // IME doesn't want outdated text changes as text change during current // composition. mIncludingChangesDuringComposition = false; } else { // Otherwise, set mIncludingChangesDuringComposition to true if either // oldData or newData includes changes during composition. mIncludingChangesDuringComposition = newData.mIncludingChangesDuringComposition || oldData.mIncludingChangesDuringComposition; } if (newData.mStartOffset >= oldData.mAddedEndOffset) { // Case 1: // If new start is after old end offset of added text, it means that text // after the modified range is modified. Like: // added range of old change: +----------+ // removed range of new change: +----------+ // So, the old start offset is always the smaller offset. mStartOffset = oldData.mStartOffset; // The new end offset of removed text is moved by the old change and we // need to cancel the move of the old change for comparing the offsets in // same text because it doesn't make sensce to compare offsets in different // text. uint32_t newRemovedEndOffsetInOldText = newData.mRemovedEndOffset - oldData.Difference(); mRemovedEndOffset = std::max(newRemovedEndOffsetInOldText, oldData.mRemovedEndOffset); // The new end offset of added text is always the larger offset. mAddedEndOffset = newData.mAddedEndOffset; return; } if (newData.mStartOffset >= oldData.mStartOffset) { // If new start is in the modified range, it means that new data changes // a part or all of the range. mStartOffset = oldData.mStartOffset; if (newData.mRemovedEndOffset >= oldData.mAddedEndOffset) { // Case 2: // If new end of removed text is greater than old end of added text, it // means that all or a part of modified range modified again and text // after the modified range is also modified. Like: // added range of old change: +----------+ // removed range of new change: +----------+ // So, the new removed end offset is moved by the old change and we need // to cancel the move of the old change for comparing the offsets in the // same text because it doesn't make sense to compare the offsets in // different text. uint32_t newRemovedEndOffsetInOldText = newData.mRemovedEndOffset - oldData.Difference(); mRemovedEndOffset = std::max(newRemovedEndOffsetInOldText, oldData.mRemovedEndOffset); // The old end of added text is replaced by new change. So, it should be // same as the new start. On the other hand, the new added end offset is // always same or larger. Therefore, the merged end offset of added // text should be the new end offset of added text. mAddedEndOffset = newData.mAddedEndOffset; return; } // Case 3: // If new end of removed text is less than old end of added text, it means // that only a part of the modified range is modified again. Like: // added range of old change: +------------+ // removed range of new change: +-----+ // So, the new end offset of removed text should be same as the old end // offset of removed text. Therefore, the merged end offset of removed // text should be the old text change's |mRemovedEndOffset|. mRemovedEndOffset = oldData.mRemovedEndOffset; // The old end of added text is moved by new change. So, we need to cancel // the move of the new change for comparing the offsets in same text. uint32_t oldAddedEndOffsetInNewText = oldData.mAddedEndOffset + newData.Difference(); mAddedEndOffset = std::max(newData.mAddedEndOffset, oldAddedEndOffsetInNewText); return; } if (newData.mRemovedEndOffset >= oldData.mStartOffset) { // If new end of removed text is greater than old start (and new start is // less than old start), it means that a part of modified range is modified // again and some new text before the modified range is also modified. MOZ_ASSERT(newData.mStartOffset < oldData.mStartOffset, "new start offset should be less than old one here"); mStartOffset = newData.mStartOffset; if (newData.mRemovedEndOffset >= oldData.mAddedEndOffset) { // Case 4: // If new end of removed text is greater than old end of added text, it // means that all modified text and text after the modified range is // modified. Like: // added range of old change: +----------+ // removed range of new change: +------------------+ // So, the new end of removed text is moved by the old change. Therefore, // we need to cancel the move of the old change for comparing the offsets // in same text because it doesn't make sense to compare the offsets in // different text. uint32_t newRemovedEndOffsetInOldText = newData.mRemovedEndOffset - oldData.Difference(); mRemovedEndOffset = std::max(newRemovedEndOffsetInOldText, oldData.mRemovedEndOffset); // The old end of added text is replaced by new change. So, the old end // offset of added text is same as new text change's start offset. Then, // new change's end offset of added text is always same or larger than // it. Therefore, merged end offset of added text is always the new end // offset of added text. mAddedEndOffset = newData.mAddedEndOffset; return; } // Case 5: // If new end of removed text is less than old end of added text, it // means that only a part of the modified range is modified again. Like: // added range of old change: +----------+ // removed range of new change: +----------+ // So, the new end of removed text should be same as old end of removed // text for preventing end of removed text to be modified. Therefore, // merged end offset of removed text is always the old end offset of removed // text. mRemovedEndOffset = oldData.mRemovedEndOffset; // The old end of added text is moved by this change. So, we need to // cancel the move of the new change for comparing the offsets in same text // because it doesn't make sense to compare the offsets in different text. uint32_t oldAddedEndOffsetInNewText = oldData.mAddedEndOffset + newData.Difference(); mAddedEndOffset = std::max(newData.mAddedEndOffset, oldAddedEndOffsetInNewText); return; } // Case 6: // Otherwise, i.e., both new end of added text and new start are less than // old start, text before the modified range is modified. Like: // added range of old change: +----------+ // removed range of new change: +----------+ MOZ_ASSERT(newData.mStartOffset < oldData.mStartOffset, "new start offset should be less than old one here"); mStartOffset = newData.mStartOffset; MOZ_ASSERT(newData.mRemovedEndOffset < oldData.mRemovedEndOffset, "new removed end offset should be less than old one here"); mRemovedEndOffset = oldData.mRemovedEndOffset; // The end of added text should be adjusted with the new difference. uint32_t oldAddedEndOffsetInNewText = oldData.mAddedEndOffset + newData.Difference(); mAddedEndOffset = std::max(newData.mAddedEndOffset, oldAddedEndOffsetInNewText); } #ifdef DEBUG // Let's test the code of merging multiple text change data in debug build // and crash if one of them fails because this feature is very complex but // cannot be tested with mochitest. void IMENotification::TextChangeDataBase::Test() { static bool gTestTextChangeEvent = true; if (!gTestTextChangeEvent) { return; } gTestTextChangeEvent = false; /**************************************************************************** * Case 1 ****************************************************************************/ // Appending text MergeWith(TextChangeData(10, 10, 20, false, false)); MergeWith(TextChangeData(20, 20, 35, false, false)); MOZ_ASSERT(mStartOffset == 10, "Test 1-1-1: mStartOffset should be the first offset"); MOZ_ASSERT( mRemovedEndOffset == 10, // 20 - (20 - 10) "Test 1-1-2: mRemovedEndOffset should be the first end of removed text"); MOZ_ASSERT( mAddedEndOffset == 35, "Test 1-1-3: mAddedEndOffset should be the last end of added text"); Clear(); // Removing text (longer line -> shorter line) MergeWith(TextChangeData(10, 20, 10, false, false)); MergeWith(TextChangeData(10, 30, 10, false, false)); MOZ_ASSERT(mStartOffset == 10, "Test 1-2-1: mStartOffset should be the first offset"); MOZ_ASSERT(mRemovedEndOffset == 40, // 30 + (10 - 20) "Test 1-2-2: mRemovedEndOffset should be the the last end of " "removed text " "with already removed length"); MOZ_ASSERT( mAddedEndOffset == 10, "Test 1-2-3: mAddedEndOffset should be the last end of added text"); Clear(); // Removing text (shorter line -> longer line) MergeWith(TextChangeData(10, 20, 10, false, false)); MergeWith(TextChangeData(10, 15, 10, false, false)); MOZ_ASSERT(mStartOffset == 10, "Test 1-3-1: mStartOffset should be the first offset"); MOZ_ASSERT(mRemovedEndOffset == 25, // 15 + (10 - 20) "Test 1-3-2: mRemovedEndOffset should be the the last end of " "removed text " "with already removed length"); MOZ_ASSERT( mAddedEndOffset == 10, "Test 1-3-3: mAddedEndOffset should be the last end of added text"); Clear(); // Appending text at different point (not sure if actually occurs) MergeWith(TextChangeData(10, 10, 20, false, false)); MergeWith(TextChangeData(55, 55, 60, false, false)); MOZ_ASSERT(mStartOffset == 10, "Test 1-4-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 45, // 55 - (10 - 20) "Test 1-4-2: mRemovedEndOffset should be the the largest end of removed " "text without already added length"); MOZ_ASSERT( mAddedEndOffset == 60, "Test 1-4-3: mAddedEndOffset should be the last end of added text"); Clear(); // Removing text at different point (not sure if actually occurs) MergeWith(TextChangeData(10, 20, 10, false, false)); MergeWith(TextChangeData(55, 68, 55, false, false)); MOZ_ASSERT(mStartOffset == 10, "Test 1-5-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 78, // 68 - (10 - 20) "Test 1-5-2: mRemovedEndOffset should be the the largest end of removed " "text with already removed length"); MOZ_ASSERT( mAddedEndOffset == 55, "Test 1-5-3: mAddedEndOffset should be the largest end of added text"); Clear(); // Replacing text and append text (becomes longer) MergeWith(TextChangeData(30, 35, 32, false, false)); MergeWith(TextChangeData(32, 32, 40, false, false)); MOZ_ASSERT(mStartOffset == 30, "Test 1-6-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 35, // 32 - (32 - 35) "Test 1-6-2: mRemovedEndOffset should be the the first end of removed " "text"); MOZ_ASSERT( mAddedEndOffset == 40, "Test 1-6-3: mAddedEndOffset should be the last end of added text"); Clear(); // Replacing text and append text (becomes shorter) MergeWith(TextChangeData(30, 35, 32, false, false)); MergeWith(TextChangeData(32, 32, 33, false, false)); MOZ_ASSERT(mStartOffset == 30, "Test 1-7-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 35, // 32 - (32 - 35) "Test 1-7-2: mRemovedEndOffset should be the the first end of removed " "text"); MOZ_ASSERT( mAddedEndOffset == 33, "Test 1-7-3: mAddedEndOffset should be the last end of added text"); Clear(); // Removing text and replacing text after first range (not sure if actually // occurs) MergeWith(TextChangeData(30, 35, 30, false, false)); MergeWith(TextChangeData(32, 34, 48, false, false)); MOZ_ASSERT(mStartOffset == 30, "Test 1-8-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 39, // 34 - (30 - 35) "Test 1-8-2: mRemovedEndOffset should be the the first end of " "removed text " "without already removed text"); MOZ_ASSERT( mAddedEndOffset == 48, "Test 1-8-3: mAddedEndOffset should be the last end of added text"); Clear(); // Removing text and replacing text after first range (not sure if actually // occurs) MergeWith(TextChangeData(30, 35, 30, false, false)); MergeWith(TextChangeData(32, 38, 36, false, false)); MOZ_ASSERT(mStartOffset == 30, "Test 1-9-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 43, // 38 - (30 - 35) "Test 1-9-2: mRemovedEndOffset should be the the first end of " "removed text " "without already removed text"); MOZ_ASSERT( mAddedEndOffset == 36, "Test 1-9-3: mAddedEndOffset should be the last end of added text"); Clear(); /**************************************************************************** * Case 2 ****************************************************************************/ // Replacing text in around end of added text (becomes shorter) (not sure // if actually occurs) MergeWith(TextChangeData(50, 50, 55, false, false)); MergeWith(TextChangeData(53, 60, 54, false, false)); MOZ_ASSERT(mStartOffset == 50, "Test 2-1-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 55, // 60 - (55 - 50) "Test 2-1-2: mRemovedEndOffset should be the the last end of " "removed text " "without already added text length"); MOZ_ASSERT( mAddedEndOffset == 54, "Test 2-1-3: mAddedEndOffset should be the last end of added text"); Clear(); // Replacing text around end of added text (becomes longer) (not sure // if actually occurs) MergeWith(TextChangeData(50, 50, 55, false, false)); MergeWith(TextChangeData(54, 62, 68, false, false)); MOZ_ASSERT(mStartOffset == 50, "Test 2-2-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 57, // 62 - (55 - 50) "Test 2-2-2: mRemovedEndOffset should be the the last end of " "removed text " "without already added text length"); MOZ_ASSERT( mAddedEndOffset == 68, "Test 2-2-3: mAddedEndOffset should be the last end of added text"); Clear(); // Replacing text around end of replaced text (became shorter) (not sure if // actually occurs) MergeWith(TextChangeData(36, 48, 45, false, false)); MergeWith(TextChangeData(43, 50, 49, false, false)); MOZ_ASSERT(mStartOffset == 36, "Test 2-3-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 53, // 50 - (45 - 48) "Test 2-3-2: mRemovedEndOffset should be the the last end of " "removed text " "without already removed text length"); MOZ_ASSERT( mAddedEndOffset == 49, "Test 2-3-3: mAddedEndOffset should be the last end of added text"); Clear(); // Replacing text around end of replaced text (became longer) (not sure if // actually occurs) MergeWith(TextChangeData(36, 52, 53, false, false)); MergeWith(TextChangeData(43, 68, 61, false, false)); MOZ_ASSERT(mStartOffset == 36, "Test 2-4-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 67, // 68 - (53 - 52) "Test 2-4-2: mRemovedEndOffset should be the the last end of " "removed text " "without already added text length"); MOZ_ASSERT( mAddedEndOffset == 61, "Test 2-4-3: mAddedEndOffset should be the last end of added text"); Clear(); /**************************************************************************** * Case 3 ****************************************************************************/ // Appending text in already added text (not sure if actually occurs) MergeWith(TextChangeData(10, 10, 20, false, false)); MergeWith(TextChangeData(15, 15, 30, false, false)); MOZ_ASSERT(mStartOffset == 10, "Test 3-1-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 10, "Test 3-1-2: mRemovedEndOffset should be the the first end of " "removed text"); MOZ_ASSERT( mAddedEndOffset == 35, // 20 + (30 - 15) "Test 3-1-3: mAddedEndOffset should be the first end of added text with " "added text length by the new change"); Clear(); // Replacing text in added text (not sure if actually occurs) MergeWith(TextChangeData(50, 50, 55, false, false)); MergeWith(TextChangeData(52, 53, 56, false, false)); MOZ_ASSERT(mStartOffset == 50, "Test 3-2-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 50, "Test 3-2-2: mRemovedEndOffset should be the the first end of " "removed text"); MOZ_ASSERT( mAddedEndOffset == 58, // 55 + (56 - 53) "Test 3-2-3: mAddedEndOffset should be the first end of added text with " "added text length by the new change"); Clear(); // Replacing text in replaced text (became shorter) (not sure if actually // occurs) MergeWith(TextChangeData(36, 48, 45, false, false)); MergeWith(TextChangeData(37, 38, 50, false, false)); MOZ_ASSERT(mStartOffset == 36, "Test 3-3-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 48, "Test 3-3-2: mRemovedEndOffset should be the the first end of " "removed text"); MOZ_ASSERT( mAddedEndOffset == 57, // 45 + (50 - 38) "Test 3-3-3: mAddedEndOffset should be the first end of added text with " "added text length by the new change"); Clear(); // Replacing text in replaced text (became longer) (not sure if actually // occurs) MergeWith(TextChangeData(32, 48, 53, false, false)); MergeWith(TextChangeData(43, 50, 52, false, false)); MOZ_ASSERT(mStartOffset == 32, "Test 3-4-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 48, "Test 3-4-2: mRemovedEndOffset should be the the last end of " "removed text " "without already added text length"); MOZ_ASSERT( mAddedEndOffset == 55, // 53 + (52 - 50) "Test 3-4-3: mAddedEndOffset should be the first end of added text with " "added text length by the new change"); Clear(); // Replacing text in replaced text (became shorter) (not sure if actually // occurs) MergeWith(TextChangeData(36, 48, 50, false, false)); MergeWith(TextChangeData(37, 49, 47, false, false)); MOZ_ASSERT(mStartOffset == 36, "Test 3-5-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 48, "Test 3-5-2: mRemovedEndOffset should be the the first end of removed " "text"); MOZ_ASSERT(mAddedEndOffset == 48, // 50 + (47 - 49) "Test 3-5-3: mAddedEndOffset should be the first end of added " "text without " "removed text length by the new change"); Clear(); // Replacing text in replaced text (became longer) (not sure if actually // occurs) MergeWith(TextChangeData(32, 48, 53, false, false)); MergeWith(TextChangeData(43, 50, 47, false, false)); MOZ_ASSERT(mStartOffset == 32, "Test 3-6-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 48, "Test 3-6-2: mRemovedEndOffset should be the the last end of " "removed text " "without already added text length"); MOZ_ASSERT(mAddedEndOffset == 50, // 53 + (47 - 50) "Test 3-6-3: mAddedEndOffset should be the first end of added " "text without " "removed text length by the new change"); Clear(); /**************************************************************************** * Case 4 ****************************************************************************/ // Replacing text all of already append text (not sure if actually occurs) MergeWith(TextChangeData(50, 50, 55, false, false)); MergeWith(TextChangeData(44, 66, 68, false, false)); MOZ_ASSERT(mStartOffset == 44, "Test 4-1-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 61, // 66 - (55 - 50) "Test 4-1-2: mRemovedEndOffset should be the the last end of " "removed text " "without already added text length"); MOZ_ASSERT( mAddedEndOffset == 68, "Test 4-1-3: mAddedEndOffset should be the last end of added text"); Clear(); // Replacing text around a point in which text was removed (not sure if // actually occurs) MergeWith(TextChangeData(50, 62, 50, false, false)); MergeWith(TextChangeData(44, 66, 68, false, false)); MOZ_ASSERT(mStartOffset == 44, "Test 4-2-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 78, // 66 - (50 - 62) "Test 4-2-2: mRemovedEndOffset should be the the last end of " "removed text " "without already removed text length"); MOZ_ASSERT( mAddedEndOffset == 68, "Test 4-2-3: mAddedEndOffset should be the last end of added text"); Clear(); // Replacing text all replaced text (became shorter) (not sure if actually // occurs) MergeWith(TextChangeData(50, 62, 60, false, false)); MergeWith(TextChangeData(49, 128, 130, false, false)); MOZ_ASSERT(mStartOffset == 49, "Test 4-3-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 130, // 128 - (60 - 62) "Test 4-3-2: mRemovedEndOffset should be the the last end of " "removed text " "without already removed text length"); MOZ_ASSERT( mAddedEndOffset == 130, "Test 4-3-3: mAddedEndOffset should be the last end of added text"); Clear(); // Replacing text all replaced text (became longer) (not sure if actually // occurs) MergeWith(TextChangeData(50, 61, 73, false, false)); MergeWith(TextChangeData(44, 100, 50, false, false)); MOZ_ASSERT(mStartOffset == 44, "Test 4-4-1: mStartOffset should be the smallest offset"); MOZ_ASSERT(mRemovedEndOffset == 88, // 100 - (73 - 61) "Test 4-4-2: mRemovedEndOffset should be the the last end of " "removed text " "with already added text length"); MOZ_ASSERT( mAddedEndOffset == 50, "Test 4-4-3: mAddedEndOffset should be the last end of added text"); Clear(); /**************************************************************************** * Case 5 ****************************************************************************/ // Replacing text around start of added text (not sure if actually occurs) MergeWith(TextChangeData(50, 50, 55, false, false)); MergeWith(TextChangeData(48, 52, 49, false, false)); MOZ_ASSERT(mStartOffset == 48, "Test 5-1-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 50, "Test 5-1-2: mRemovedEndOffset should be the the first end of removed " "text"); MOZ_ASSERT( mAddedEndOffset == 52, // 55 + (52 - 49) "Test 5-1-3: mAddedEndOffset should be the first end of added text with " "added text length by the new change"); Clear(); // Replacing text around start of replaced text (became shorter) (not sure if // actually occurs) MergeWith(TextChangeData(50, 60, 58, false, false)); MergeWith(TextChangeData(43, 50, 48, false, false)); MOZ_ASSERT(mStartOffset == 43, "Test 5-2-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 60, "Test 5-2-2: mRemovedEndOffset should be the the first end of removed " "text"); MOZ_ASSERT(mAddedEndOffset == 56, // 58 + (48 - 50) "Test 5-2-3: mAddedEndOffset should be the first end of added " "text without " "removed text length by the new change"); Clear(); // Replacing text around start of replaced text (became longer) (not sure if // actually occurs) MergeWith(TextChangeData(50, 60, 68, false, false)); MergeWith(TextChangeData(43, 55, 53, false, false)); MOZ_ASSERT(mStartOffset == 43, "Test 5-3-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 60, "Test 5-3-2: mRemovedEndOffset should be the the first end of removed " "text"); MOZ_ASSERT(mAddedEndOffset == 66, // 68 + (53 - 55) "Test 5-3-3: mAddedEndOffset should be the first end of added " "text without " "removed text length by the new change"); Clear(); // Replacing text around start of replaced text (became shorter) (not sure if // actually occurs) MergeWith(TextChangeData(50, 60, 58, false, false)); MergeWith(TextChangeData(43, 50, 128, false, false)); MOZ_ASSERT(mStartOffset == 43, "Test 5-4-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 60, "Test 5-4-2: mRemovedEndOffset should be the the first end of removed " "text"); MOZ_ASSERT( mAddedEndOffset == 136, // 58 + (128 - 50) "Test 5-4-3: mAddedEndOffset should be the first end of added text with " "added text length by the new change"); Clear(); // Replacing text around start of replaced text (became longer) (not sure if // actually occurs) MergeWith(TextChangeData(50, 60, 68, false, false)); MergeWith(TextChangeData(43, 55, 65, false, false)); MOZ_ASSERT(mStartOffset == 43, "Test 5-5-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 60, "Test 5-5-2: mRemovedEndOffset should be the the first end of removed " "text"); MOZ_ASSERT( mAddedEndOffset == 78, // 68 + (65 - 55) "Test 5-5-3: mAddedEndOffset should be the first end of added text with " "added text length by the new change"); Clear(); /**************************************************************************** * Case 6 ****************************************************************************/ // Appending text before already added text (not sure if actually occurs) MergeWith(TextChangeData(30, 30, 45, false, false)); MergeWith(TextChangeData(10, 10, 20, false, false)); MOZ_ASSERT(mStartOffset == 10, "Test 6-1-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 30, "Test 6-1-2: mRemovedEndOffset should be the the largest end of removed " "text"); MOZ_ASSERT( mAddedEndOffset == 55, // 45 + (20 - 10) "Test 6-1-3: mAddedEndOffset should be the first end of added text with " "added text length by the new change"); Clear(); // Removing text before already removed text (not sure if actually occurs) MergeWith(TextChangeData(30, 35, 30, false, false)); MergeWith(TextChangeData(10, 25, 10, false, false)); MOZ_ASSERT(mStartOffset == 10, "Test 6-2-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 35, "Test 6-2-2: mRemovedEndOffset should be the the largest end of removed " "text"); MOZ_ASSERT( mAddedEndOffset == 15, // 30 - (25 - 10) "Test 6-2-3: mAddedEndOffset should be the first end of added text with " "removed text length by the new change"); Clear(); // Replacing text before already replaced text (not sure if actually occurs) MergeWith(TextChangeData(50, 65, 70, false, false)); MergeWith(TextChangeData(13, 24, 15, false, false)); MOZ_ASSERT(mStartOffset == 13, "Test 6-3-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 65, "Test 6-3-2: mRemovedEndOffset should be the the largest end of removed " "text"); MOZ_ASSERT(mAddedEndOffset == 61, // 70 + (15 - 24) "Test 6-3-3: mAddedEndOffset should be the first end of added " "text without " "removed text length by the new change"); Clear(); // Replacing text before already replaced text (not sure if actually occurs) MergeWith(TextChangeData(50, 65, 70, false, false)); MergeWith(TextChangeData(13, 24, 36, false, false)); MOZ_ASSERT(mStartOffset == 13, "Test 6-4-1: mStartOffset should be the smallest offset"); MOZ_ASSERT( mRemovedEndOffset == 65, "Test 6-4-2: mRemovedEndOffset should be the the largest end of removed " "text"); MOZ_ASSERT(mAddedEndOffset == 82, // 70 + (36 - 24) "Test 6-4-3: mAddedEndOffset should be the first end of added " "text without " "removed text length by the new change"); Clear(); } #endif // #ifdef DEBUG } // namespace mozilla::widget #ifdef DEBUG ////////////////////////////////////////////////////////////// // // Convert a GUI event message code to a string. // Makes it a lot easier to debug events. // // See gtk/nsWidget.cpp and windows/nsWindow.cpp // for a DebugPrintEvent() function that uses // this. // ////////////////////////////////////////////////////////////// /* static */ nsAutoString nsBaseWidget::debug_GuiEventToString(WidgetGUIEvent* aGuiEvent) { NS_ASSERTION(nullptr != aGuiEvent, "cmon, null gui event."); nsAutoString eventName(u"UNKNOWN"_ns); # define _ASSIGN_eventName(_value, _name) \ case _value: \ eventName.AssignLiteral(_name); \ break switch (aGuiEvent->mMessage) { _ASSIGN_eventName(eBlur, "eBlur"); _ASSIGN_eventName(eDrop, "eDrop"); _ASSIGN_eventName(eDragEnter, "eDragEnter"); _ASSIGN_eventName(eDragExit, "eDragExit"); _ASSIGN_eventName(eDragOver, "eDragOver"); _ASSIGN_eventName(eEditorInput, "eEditorInput"); _ASSIGN_eventName(eFocus, "eFocus"); _ASSIGN_eventName(eFocusIn, "eFocusIn"); _ASSIGN_eventName(eFocusOut, "eFocusOut"); _ASSIGN_eventName(eFormSelect, "eFormSelect"); _ASSIGN_eventName(eFormChange, "eFormChange"); _ASSIGN_eventName(eFormReset, "eFormReset"); _ASSIGN_eventName(eFormSubmit, "eFormSubmit"); _ASSIGN_eventName(eImageAbort, "eImageAbort"); _ASSIGN_eventName(eLoadError, "eLoadError"); _ASSIGN_eventName(eKeyDown, "eKeyDown"); _ASSIGN_eventName(eKeyPress, "eKeyPress"); _ASSIGN_eventName(eKeyUp, "eKeyUp"); _ASSIGN_eventName(eMouseEnterIntoWidget, "eMouseEnterIntoWidget"); _ASSIGN_eventName(eMouseExitFromWidget, "eMouseExitFromWidget"); _ASSIGN_eventName(eMouseDown, "eMouseDown"); _ASSIGN_eventName(eMouseUp, "eMouseUp"); _ASSIGN_eventName(eMouseClick, "eMouseClick"); _ASSIGN_eventName(eMouseAuxClick, "eMouseAuxClick"); _ASSIGN_eventName(eMouseDoubleClick, "eMouseDoubleClick"); _ASSIGN_eventName(eMouseMove, "eMouseMove"); _ASSIGN_eventName(eLoad, "eLoad"); _ASSIGN_eventName(ePopState, "ePopState"); _ASSIGN_eventName(eBeforeScriptExecute, "eBeforeScriptExecute"); _ASSIGN_eventName(eAfterScriptExecute, "eAfterScriptExecute"); _ASSIGN_eventName(eUnload, "eUnload"); _ASSIGN_eventName(eHashChange, "eHashChange"); _ASSIGN_eventName(eReadyStateChange, "eReadyStateChange"); _ASSIGN_eventName(eXULBroadcast, "eXULBroadcast"); _ASSIGN_eventName(eXULCommandUpdate, "eXULCommandUpdate"); # undef _ASSIGN_eventName default: { eventName.AssignLiteral("UNKNOWN: "); eventName.AppendInt(aGuiEvent->mMessage); } break; } return nsAutoString(eventName); } ////////////////////////////////////////////////////////////// // // Code to deal with paint and event debug prefs. // ////////////////////////////////////////////////////////////// struct PrefPair { const char* name; bool value; }; static PrefPair debug_PrefValues[] = { {"nglayout.debug.crossing_event_dumping", false}, {"nglayout.debug.event_dumping", false}, {"nglayout.debug.invalidate_dumping", false}, {"nglayout.debug.motion_event_dumping", false}, {"nglayout.debug.paint_dumping", false}}; ////////////////////////////////////////////////////////////// bool nsBaseWidget::debug_GetCachedBoolPref(const char* aPrefName) { NS_ASSERTION(nullptr != aPrefName, "cmon, pref name is null."); for (uint32_t i = 0; i < ArrayLength(debug_PrefValues); i++) { if (strcmp(debug_PrefValues[i].name, aPrefName) == 0) { return debug_PrefValues[i].value; } } return false; } ////////////////////////////////////////////////////////////// static void debug_SetCachedBoolPref(const char* aPrefName, bool aValue) { NS_ASSERTION(nullptr != aPrefName, "cmon, pref name is null."); for (uint32_t i = 0; i < ArrayLength(debug_PrefValues); i++) { if (strcmp(debug_PrefValues[i].name, aPrefName) == 0) { debug_PrefValues[i].value = aValue; return; } } NS_ASSERTION(false, "cmon, this code is not reached dude."); } ////////////////////////////////////////////////////////////// class Debug_PrefObserver final : public nsIObserver { ~Debug_PrefObserver() = default; public: NS_DECL_ISUPPORTS NS_DECL_NSIOBSERVER }; NS_IMPL_ISUPPORTS(Debug_PrefObserver, nsIObserver) NS_IMETHODIMP Debug_PrefObserver::Observe(nsISupports* subject, const char* topic, const char16_t* data) { NS_ConvertUTF16toUTF8 prefName(data); bool value = Preferences::GetBool(prefName.get(), false); debug_SetCachedBoolPref(prefName.get(), value); return NS_OK; } ////////////////////////////////////////////////////////////// /* static */ void debug_RegisterPrefCallbacks() { static bool once = true; if (!once) { return; } once = false; nsCOMPtr obs(new Debug_PrefObserver()); for (uint32_t i = 0; i < ArrayLength(debug_PrefValues); i++) { // Initialize the pref values debug_PrefValues[i].value = Preferences::GetBool(debug_PrefValues[i].name, false); if (obs) { // Register callbacks for when these change nsCString name; name.AssignLiteral(debug_PrefValues[i].name, strlen(debug_PrefValues[i].name)); Preferences::AddStrongObserver(obs, name); } } } ////////////////////////////////////////////////////////////// static int32_t _GetPrintCount() { static int32_t sCount = 0; return ++sCount; } ////////////////////////////////////////////////////////////// /* static */ void nsBaseWidget::debug_DumpEvent(FILE* aFileOut, nsIWidget* aWidget, WidgetGUIEvent* aGuiEvent, const char* aWidgetName, int32_t aWindowID) { if (aGuiEvent->mMessage == eMouseMove) { if (!debug_GetCachedBoolPref("nglayout.debug.motion_event_dumping")) return; } if (aGuiEvent->mMessage == eMouseEnterIntoWidget || aGuiEvent->mMessage == eMouseExitFromWidget) { if (!debug_GetCachedBoolPref("nglayout.debug.crossing_event_dumping")) return; } if (!debug_GetCachedBoolPref("nglayout.debug.event_dumping")) return; NS_LossyConvertUTF16toASCII tempString( debug_GuiEventToString(aGuiEvent).get()); fprintf(aFileOut, "%4d %-26s widget=%-8p name=%-12s id=0x%-6x refpt=%d,%d\n", _GetPrintCount(), tempString.get(), (void*)aWidget, aWidgetName, aWindowID, aGuiEvent->mRefPoint.x.value, aGuiEvent->mRefPoint.y.value); } ////////////////////////////////////////////////////////////// /* static */ void nsBaseWidget::debug_DumpPaintEvent(FILE* aFileOut, nsIWidget* aWidget, const nsIntRegion& aRegion, const char* aWidgetName, int32_t aWindowID) { NS_ASSERTION(nullptr != aFileOut, "cmon, null output FILE"); NS_ASSERTION(nullptr != aWidget, "cmon, the widget is null"); if (!debug_GetCachedBoolPref("nglayout.debug.paint_dumping")) return; nsIntRect rect = aRegion.GetBounds(); fprintf(aFileOut, "%4d PAINT widget=%p name=%-12s id=0x%-6x bounds-rect=%3d,%-3d " "%3d,%-3d", _GetPrintCount(), (void*)aWidget, aWidgetName, aWindowID, rect.X(), rect.Y(), rect.Width(), rect.Height()); fprintf(aFileOut, "\n"); } ////////////////////////////////////////////////////////////// /* static */ void nsBaseWidget::debug_DumpInvalidate(FILE* aFileOut, nsIWidget* aWidget, const LayoutDeviceIntRect* aRect, const char* aWidgetName, int32_t aWindowID) { if (!debug_GetCachedBoolPref("nglayout.debug.invalidate_dumping")) return; NS_ASSERTION(nullptr != aFileOut, "cmon, null output FILE"); NS_ASSERTION(nullptr != aWidget, "cmon, the widget is null"); fprintf(aFileOut, "%4d Invalidate widget=%p name=%-12s id=0x%-6x", _GetPrintCount(), (void*)aWidget, aWidgetName, aWindowID); if (aRect) { fprintf(aFileOut, " rect=%3d,%-3d %3d,%-3d", aRect->X(), aRect->Y(), aRect->Width(), aRect->Height()); } else { fprintf(aFileOut, " rect=%-15s", "none"); } fprintf(aFileOut, "\n"); } ////////////////////////////////////////////////////////////// #endif // DEBUG