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gecko-dev/widget/android/nsWindow.cpp

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/* -*- Mode: c++; c-basic-offset: 2; tab-width: 4; indent-tabs-mode: nil; -*-
* vim: set sw=2 ts=4 expandtab:
* 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 <android/log.h>
#include <android/native_window.h>
#include <android/native_window_jni.h>
#include <math.h>
#include <queue>
#include <unistd.h>
#include "mozilla/MiscEvents.h"
#include "mozilla/MouseEvents.h"
#include "mozilla/Preferences.h"
#include "mozilla/RWLock.h"
#include "mozilla/StaticPrefs_android.h"
#include "mozilla/StaticPrefs_ui.h"
#include "mozilla/TouchEvents.h"
#include "mozilla/TypeTraits.h"
#include "mozilla/Unused.h"
#include "mozilla/WeakPtr.h"
#include "mozilla/WheelHandlingHelper.h" // for WheelDeltaAdjustmentStrategy
#include "mozilla/Preferences.h"
#include "mozilla/Unused.h"
#include "mozilla/a11y/SessionAccessibility.h"
#include "mozilla/dom/ContentChild.h"
#include "mozilla/dom/ContentParent.h"
#include "mozilla/dom/MouseEventBinding.h"
#include "mozilla/gfx/2D.h"
#include "mozilla/gfx/DataSurfaceHelpers.h"
#include "mozilla/layers/RenderTrace.h"
#include <algorithm>
using mozilla::Unused;
using mozilla::dom::ContentChild;
using mozilla::dom::ContentParent;
#include "nsWindow.h"
#include "AndroidGraphics.h"
#include "JavaExceptions.h"
#include "nsIWidgetListener.h"
#include "nsIWindowWatcher.h"
#include "nsIAppWindow.h"
#include "nsAppShell.h"
#include "nsFocusManager.h"
#include "nsIdleService.h"
#include "nsLayoutUtils.h"
#include "nsViewManager.h"
#include "WidgetUtils.h"
#include "nsContentUtils.h"
#include "nsGfxCIID.h"
#include "nsGkAtoms.h"
#include "nsWidgetsCID.h"
#include "gfxContext.h"
#include "AndroidContentController.h"
#include "GLContext.h"
#include "GLContextProvider.h"
#include "Layers.h"
#include "ScopedGLHelpers.h"
#include "mozilla/layers/APZEventState.h"
#include "mozilla/layers/APZInputBridge.h"
#include "mozilla/layers/APZThreadUtils.h"
#include "mozilla/layers/AsyncCompositionManager.h"
#include "mozilla/layers/CompositorOGL.h"
#include "mozilla/layers/IAPZCTreeManager.h"
#include "mozilla/layers/LayerManagerComposite.h"
#include "nsTArray.h"
#include "AndroidBridge.h"
#include "AndroidBridgeUtilities.h"
#include "AndroidUiThread.h"
#include "GeckoEditableSupport.h"
#include "GeneratedJNINatives.h"
#include "KeyEvent.h"
#include "MotionEvent.h"
#include "ScreenHelperAndroid.h"
#include "GeckoProfiler.h" // For AUTO_PROFILER_LABEL
#include "nsPrintfCString.h"
#include "nsString.h"
#include "JavaBuiltins.h"
#include "mozilla/ipc/Shmem.h"
using namespace mozilla;
using namespace mozilla::dom;
using namespace mozilla::layers;
using namespace mozilla::widget;
using namespace mozilla::ipc;
using mozilla::java::GeckoSession;
#include "mozilla/layers/CompositorBridgeChild.h"
#include "mozilla/layers/CompositorSession.h"
#include "mozilla/layers/LayerTransactionParent.h"
#include "mozilla/layers/UiCompositorControllerChild.h"
#include "nsThreadUtils.h"
// All the toplevel windows that have been created; these are in
// stacking order, so the window at gTopLevelWindows[0] is the topmost
// one.
static nsTArray<nsWindow*> gTopLevelWindows;
static bool sFailedToCreateGLContext = false;
// Multitouch swipe thresholds in inches
static const double SWIPE_MAX_PINCH_DELTA_INCHES = 0.4;
static const double SWIPE_MIN_DISTANCE_INCHES = 0.6;
static const int32_t INPUT_RESULT_UNHANDLED =
java::PanZoomController::INPUT_RESULT_UNHANDLED;
static const int32_t INPUT_RESULT_HANDLED =
java::PanZoomController::INPUT_RESULT_HANDLED;
static const int32_t INPUT_RESULT_HANDLED_CONTENT =
java::PanZoomController::INPUT_RESULT_HANDLED_CONTENT;
template <typename Lambda, bool IsStatic, typename InstanceType, class Impl>
class nsWindow::WindowEvent : public Runnable {
bool IsStaleCall() {
if (IsStatic) {
// Static calls are never stale.
return false;
}
JNIEnv* const env = mozilla::jni::GetEnvForThread();
const auto natives = reinterpret_cast<mozilla::WeakPtr<Impl>*>(
jni::GetNativeHandle(env, mInstance.Get()));
MOZ_CATCH_JNI_EXCEPTION(env);
// The call is stale if the nsWindow has been destroyed on the
// Gecko side, but the Java object is still attached to it through
// a weak pointer. Stale calls should be discarded. Note that it's
// an error if natives is nullptr here; we return false but the
// native call will throw an error.
return natives && !natives->get();
}
Lambda mLambda;
const InstanceType mInstance;
public:
WindowEvent(Lambda&& aLambda, InstanceType&& aInstance)
: Runnable("nsWindowEvent"),
mLambda(std::move(aLambda)),
mInstance(std::forward<InstanceType>(aInstance)) {}
explicit WindowEvent(Lambda&& aLambda)
: Runnable("nsWindowEvent"),
mLambda(std::move(aLambda)),
mInstance(mLambda.GetThisArg()) {}
NS_IMETHOD Run() override {
if (!IsStaleCall()) {
mLambda();
}
return NS_OK;
}
};
namespace {
template <class Instance, class Impl>
typename EnableIf<jni::detail::NativePtrPicker<Impl>::value ==
jni::detail::REFPTR,
void>::Type
CallAttachNative(Instance aInstance, Impl* aImpl) {
Impl::AttachNative(aInstance, RefPtr<Impl>(aImpl).get());
}
template <class Instance, class Impl>
typename EnableIf<jni::detail::NativePtrPicker<Impl>::value ==
jni::detail::OWNING,
void>::Type
CallAttachNative(Instance aInstance, Impl* aImpl) {
Impl::AttachNative(aInstance, UniquePtr<Impl>(aImpl));
}
template <class Lambda>
bool DispatchToUiThread(const char* aName, Lambda&& aLambda) {
if (RefPtr<nsThread> uiThread = GetAndroidUiThread()) {
uiThread->Dispatch(NS_NewRunnableFunction(aName, std::move(aLambda)));
return true;
}
return false;
}
} // namespace
template <class Impl>
template <class Cls, typename... Args>
void nsWindow::NativePtr<Impl>::Attach(const jni::LocalRef<Cls>& aInstance,
nsWindow* aWindow, Args&&... aArgs) {
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(!mPtr && !mImpl);
Impl* const impl = new Impl(this, aWindow, std::forward<Args>(aArgs)...);
mImpl = impl;
// CallAttachNative transfers ownership of impl.
CallAttachNative<>(aInstance, impl);
}
template <class Impl>
template <class Cls, typename T>
void nsWindow::NativePtr<Impl>::Detach(const jni::Ref<Cls, T>& aInstance) {
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(mPtr && mImpl);
// nsIRunnable that takes care of disposing the native object attached to
// the Java object in a safe manner.
class ImplDisposer : public Runnable {
const typename Cls::GlobalRef mInstance;
const uintptr_t mOldImpl;
public:
explicit ImplDisposer(const typename Cls::LocalRef& aInstance)
: Runnable("nsWindow::NativePtr::Detach"),
mInstance(aInstance.Env(), aInstance),
mOldImpl(aInstance
? jni::GetNativeHandle(aInstance.Env(), aInstance.Get())
: 0) {
MOZ_CATCH_JNI_EXCEPTION(aInstance.Env());
}
NS_IMETHOD Run() override {
if (!mInstance) {
return NS_OK;
}
if (!NS_IsMainThread()) {
NS_DispatchToMainThread(this);
return NS_OK;
}
typename Cls::LocalRef instance(jni::GetGeckoThreadEnv(), mInstance);
auto newImpl = jni::GetNativeHandle(instance.Env(), instance.Get());
MOZ_CATCH_JNI_EXCEPTION(instance.Env());
if (mOldImpl == newImpl) {
// Only dispose the object if the native object has not changed.
Impl::DisposeNative(instance);
}
return NS_OK;
}
};
// Objects that use nsWindow::NativePtr are expected to implement a public
// member function with signature "void OnDetach(
// already_AddRefed<Runnable> aDisposer)". This function should perform
// necessary cleanups for the native/Java objects, as well as mark the Java
// object as being disposed, so no native methods are called after that
// point. After this disposal step, the function must call "aDisposer->
// Run()" to finish disposing the native object. The disposer is
// thread-safe and may be called on any thread as necessary.
mImpl->OnDetach(
do_AddRef(new ImplDisposer({jni::GetGeckoThreadEnv(), aInstance})));
{
Locked implLock(*this);
mImpl = nullptr;
}
typename WindowPtr<Impl>::Locked lock(*mPtr);
mPtr->mWindow = nullptr;
mPtr->mPtr = nullptr;
mPtr = nullptr;
}
template <class Impl>
class nsWindow::NativePtr<Impl>::Locked final : private MutexAutoLock {
Impl* const mImpl;
public:
explicit Locked(NativePtr<Impl>& aPtr)
: MutexAutoLock(aPtr.mImplLock), mImpl(aPtr.mImpl) {}
operator Impl*() const { return mImpl; }
Impl* operator->() const { return mImpl; }
};
class nsWindow::GeckoViewSupport final
: public GeckoSession::Window::Natives<GeckoViewSupport>,
public SupportsWeakPtr<GeckoViewSupport> {
nsWindow& window;
// We hold a WeakRef because we want to allow the
// GeckoSession.Window to be garbage collected.
// Callers need to create a LocalRef from this
// before calling methods.
GeckoSession::Window::WeakRef mGeckoViewWindow;
public:
typedef GeckoSession::Window::Natives<GeckoViewSupport> Base;
typedef SupportsWeakPtr<GeckoViewSupport> SupportsWeakPtr;
MOZ_DECLARE_WEAKREFERENCE_TYPENAME(GeckoViewSupport);
template <typename Functor>
static void OnNativeCall(Functor&& aCall) {
NS_DispatchToMainThread(new WindowEvent<Functor>(std::move(aCall)));
}
GeckoViewSupport(nsWindow* aWindow,
const GeckoSession::Window::LocalRef& aInstance)
: window(*aWindow), mGeckoViewWindow(aInstance) {
Base::AttachNative(aInstance, static_cast<SupportsWeakPtr*>(this));
}
~GeckoViewSupport();
using Base::DisposeNative;
/**
* GeckoView methods
*/
private:
nsCOMPtr<nsPIDOMWindowOuter> mDOMWindow;
bool mIsReady{false};
public:
// Create and attach a window.
static void Open(const jni::Class::LocalRef& aCls,
GeckoSession::Window::Param aWindow,
jni::Object::Param aQueue, jni::Object::Param aCompositor,
jni::Object::Param aDispatcher,
jni::Object::Param aSessionAccessibility,
jni::Object::Param aInitData, jni::String::Param aId,
jni::String::Param aChromeURI, int32_t aScreenId,
bool aPrivateMode, bool aRemote);
// Close and destroy the nsWindow.
void Close();
// Transfer this nsWindow to new GeckoSession objects.
void Transfer(const GeckoSession::Window::LocalRef& inst,
jni::Object::Param aQueue, jni::Object::Param aCompositor,
jni::Object::Param aDispatcher,
jni::Object::Param aSessionAccessibility,
jni::Object::Param aInitData);
void AttachEditable(const GeckoSession::Window::LocalRef& inst,
jni::Object::Param aEditableParent);
void AttachAccessibility(const GeckoSession::Window::LocalRef& inst,
jni::Object::Param aSessionAccessibility);
void OnReady(jni::Object::Param aQueue = nullptr);
};
/**
* PanZoomController handles its native calls on the UI thread, so make
* it separate from GeckoViewSupport.
*/
class nsWindow::NPZCSupport final
: public java::PanZoomController::NativeProvider::Natives<NPZCSupport> {
using LockedWindowPtr = WindowPtr<NPZCSupport>::Locked;
WindowPtr<NPZCSupport> mWindow;
java::PanZoomController::NativeProvider::WeakRef mNPZC;
int mPreviousButtons;
template <typename Lambda>
class InputEvent final : public nsAppShell::Event {
java::PanZoomController::NativeProvider::GlobalRef mNPZC;
Lambda mLambda;
public:
InputEvent(const NPZCSupport* aNPZCSupport, Lambda&& aLambda)
: mNPZC(aNPZCSupport->mNPZC), mLambda(std::move(aLambda)) {}
void Run() override {
MOZ_ASSERT(NS_IsMainThread());
JNIEnv* const env = jni::GetGeckoThreadEnv();
NPZCSupport* npzcSupport = GetNative(
java::PanZoomController::NativeProvider::LocalRef(env, mNPZC));
if (!npzcSupport || !npzcSupport->mWindow) {
// We already shut down.
env->ExceptionClear();
return;
}
nsWindow* const window = npzcSupport->mWindow;
window->UserActivity();
return mLambda(window);
}
bool IsUIEvent() const override { return true; }
};
template <typename Lambda>
void PostInputEvent(Lambda&& aLambda) {
// Use priority queue for input events.
nsAppShell::PostEvent(
MakeUnique<InputEvent<Lambda>>(this, std::move(aLambda)));
}
public:
typedef java::PanZoomController::NativeProvider::Natives<NPZCSupport> Base;
NPZCSupport(NativePtr<NPZCSupport>* aPtr, nsWindow* aWindow,
const java::PanZoomController::NativeProvider::LocalRef& aNPZC)
: mWindow(aPtr, aWindow), mNPZC(aNPZC), mPreviousButtons(0) {
MOZ_ASSERT(mWindow);
}
~NPZCSupport() {}
using Base::AttachNative;
using Base::DisposeNative;
void OnDetach(already_AddRefed<Runnable> aDisposer) {
RefPtr<Runnable> disposer = aDisposer;
// There are several considerations when shutting down NPZC. 1) The
// Gecko thread may destroy NPZC at any time when nsWindow closes. 2)
// There may be pending events on the Gecko thread when NPZC is
// destroyed. 3) mWindow may not be available when the pending event
// runs. 4) The UI thread may destroy NPZC at any time when GeckoView
// is destroyed. 5) The UI thread may destroy NPZC at the same time as
// Gecko thread trying to destroy NPZC. 6) There may be pending calls
// on the UI thread when NPZC is destroyed. 7) mWindow may have been
// cleared on the Gecko thread when the pending call happens on the UI
// thread.
//
// 1) happens through OnDetach, which first notifies the UI
// thread through Destroy; Destroy then calls DisposeNative, which
// finally disposes the native instance back on the Gecko thread. Using
// Destroy to indirectly call DisposeNative here also solves 5), by
// making everything go through the UI thread, avoiding contention.
//
// 2) and 3) are solved by clearing mWindow, which signals to the
// pending event that we had shut down. In that case the event bails
// and does not touch mWindow.
//
// 4) happens through DisposeNative directly. OnDetach is not
// called.
//
// 6) is solved by keeping a destroyed flag in the Java NPZC instance,
// and only make a pending call if the destroyed flag is not set.
//
// 7) is solved by taking a lock whenever mWindow is modified on the
// Gecko thread or accessed on the UI thread. That way, we don't
// release mWindow until the UI thread is done using it, thus avoiding
// the race condition.
if (RefPtr<nsThread> uiThread = GetAndroidUiThread()) {
auto npzc = java::PanZoomController::NativeProvider::GlobalRef(mNPZC);
if (!npzc) {
return;
}
uiThread->Dispatch(NS_NewRunnableFunction(
"NPZCSupport::OnDetach", [npzc, disposer = std::move(disposer)] {
npzc->SetAttached(false);
disposer->Run();
}));
}
}
const java::PanZoomController::NativeProvider::Ref& GetJavaNPZC() const {
return mNPZC;
}
public:
void SetIsLongpressEnabled(bool aIsLongpressEnabled) {
RefPtr<IAPZCTreeManager> controller;
if (LockedWindowPtr window{mWindow}) {
controller = window->mAPZC;
}
if (controller) {
controller->SetLongTapEnabled(aIsLongpressEnabled);
}
}
int32_t HandleScrollEvent(int64_t aTime, int32_t aMetaState, float aX,
float aY, float aHScroll, float aVScroll) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
RefPtr<IAPZCTreeManager> controller;
if (LockedWindowPtr window{mWindow}) {
controller = window->mAPZC;
}
if (!controller) {
return INPUT_RESULT_UNHANDLED;
}
ScreenPoint origin = ScreenPoint(aX, aY);
if (StaticPrefs::ui_scrolling_negate_wheel_scroll()) {
aHScroll = -aHScroll;
aVScroll = -aVScroll;
}
ScrollWheelInput input(
aTime, GetEventTimeStamp(aTime), GetModifiers(aMetaState),
ScrollWheelInput::SCROLLMODE_SMOOTH,
ScrollWheelInput::SCROLLDELTA_PIXEL, origin, aHScroll, aVScroll, false,
// XXX Do we need to support auto-dir scrolling
// for Android widgets with a wheel device?
// Currently, I just leave it unimplemented. If
// we need to implement it, what's the extra work
// to do?
WheelDeltaAdjustmentStrategy::eNone);
APZEventResult result = controller->InputBridge()->ReceiveInputEvent(input);
if (result.mStatus == nsEventStatus_eConsumeNoDefault) {
return INPUT_RESULT_HANDLED;
}
PostInputEvent([input, result](nsWindow* window) {
WidgetWheelEvent wheelEvent = input.ToWidgetWheelEvent(window);
window->ProcessUntransformedAPZEvent(&wheelEvent, result);
});
return result.mHitRegionWithApzAwareListeners ? INPUT_RESULT_HANDLED_CONTENT
: INPUT_RESULT_HANDLED;
}
private:
static MouseInput::ButtonType GetButtonType(int button) {
MouseInput::ButtonType result = MouseInput::NONE;
switch (button) {
case java::sdk::MotionEvent::BUTTON_PRIMARY:
result = MouseInput::LEFT_BUTTON;
break;
case java::sdk::MotionEvent::BUTTON_SECONDARY:
result = MouseInput::RIGHT_BUTTON;
break;
case java::sdk::MotionEvent::BUTTON_TERTIARY:
result = MouseInput::MIDDLE_BUTTON;
break;
default:
break;
}
return result;
}
static int16_t ConvertButtons(int buttons) {
int16_t result = 0;
if (buttons & java::sdk::MotionEvent::BUTTON_PRIMARY) {
result |= MouseButtonsFlag::eLeftFlag;
}
if (buttons & java::sdk::MotionEvent::BUTTON_SECONDARY) {
result |= MouseButtonsFlag::eRightFlag;
}
if (buttons & java::sdk::MotionEvent::BUTTON_TERTIARY) {
result |= MouseButtonsFlag::eMiddleFlag;
}
if (buttons & java::sdk::MotionEvent::BUTTON_BACK) {
result |= MouseButtonsFlag::e4thFlag;
}
if (buttons & java::sdk::MotionEvent::BUTTON_FORWARD) {
result |= MouseButtonsFlag::e5thFlag;
}
return result;
}
public:
int32_t HandleMouseEvent(int32_t aAction, int64_t aTime, int32_t aMetaState,
float aX, float aY, int buttons) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
RefPtr<IAPZCTreeManager> controller;
if (LockedWindowPtr window{mWindow}) {
controller = window->mAPZC;
}
if (!controller) {
return INPUT_RESULT_UNHANDLED;
}
MouseInput::MouseType mouseType = MouseInput::MOUSE_NONE;
MouseInput::ButtonType buttonType = MouseInput::NONE;
switch (aAction) {
case java::sdk::MotionEvent::ACTION_DOWN:
mouseType = MouseInput::MOUSE_DOWN;
buttonType = GetButtonType(buttons ^ mPreviousButtons);
mPreviousButtons = buttons;
break;
case java::sdk::MotionEvent::ACTION_UP:
mouseType = MouseInput::MOUSE_UP;
buttonType = GetButtonType(buttons ^ mPreviousButtons);
mPreviousButtons = buttons;
break;
case java::sdk::MotionEvent::ACTION_MOVE:
mouseType = MouseInput::MOUSE_MOVE;
break;
case java::sdk::MotionEvent::ACTION_HOVER_MOVE:
mouseType = MouseInput::MOUSE_MOVE;
break;
case java::sdk::MotionEvent::ACTION_HOVER_ENTER:
mouseType = MouseInput::MOUSE_WIDGET_ENTER;
break;
case java::sdk::MotionEvent::ACTION_HOVER_EXIT:
mouseType = MouseInput::MOUSE_WIDGET_EXIT;
break;
default:
break;
}
if (mouseType == MouseInput::MOUSE_NONE) {
return INPUT_RESULT_UNHANDLED;
}
ScreenPoint origin = ScreenPoint(aX, aY);
MouseInput input(mouseType, buttonType,
MouseEvent_Binding::MOZ_SOURCE_MOUSE,
ConvertButtons(buttons), origin, aTime,
GetEventTimeStamp(aTime), GetModifiers(aMetaState));
APZEventResult result = controller->InputBridge()->ReceiveInputEvent(input);
if (result.mStatus == nsEventStatus_eConsumeNoDefault) {
return INPUT_RESULT_HANDLED;
}
PostInputEvent([input, result](nsWindow* window) {
WidgetMouseEvent mouseEvent = input.ToWidgetMouseEvent(window);
window->ProcessUntransformedAPZEvent(&mouseEvent, result);
});
return result.mHitRegionWithApzAwareListeners ? INPUT_RESULT_HANDLED_CONTENT
: INPUT_RESULT_HANDLED;
}
int32_t HandleMotionEvent(
const java::PanZoomController::NativeProvider::LocalRef& aInstance,
int32_t aAction, int32_t aActionIndex, int64_t aTime, int32_t aMetaState,
float aScreenX, float aScreenY, jni::IntArray::Param aPointerId,
jni::FloatArray::Param aX, jni::FloatArray::Param aY,
jni::FloatArray::Param aOrientation, jni::FloatArray::Param aPressure,
jni::FloatArray::Param aToolMajor, jni::FloatArray::Param aToolMinor) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
RefPtr<IAPZCTreeManager> controller;
if (LockedWindowPtr window{mWindow}) {
controller = window->mAPZC;
}
if (!controller) {
return INPUT_RESULT_UNHANDLED;
}
nsTArray<int32_t> pointerId(aPointerId->GetElements());
MultiTouchInput::MultiTouchType type;
size_t startIndex = 0;
size_t endIndex = pointerId.Length();
switch (aAction) {
case java::sdk::MotionEvent::ACTION_DOWN:
case java::sdk::MotionEvent::ACTION_POINTER_DOWN:
type = MultiTouchInput::MULTITOUCH_START;
break;
case java::sdk::MotionEvent::ACTION_MOVE:
type = MultiTouchInput::MULTITOUCH_MOVE;
break;
case java::sdk::MotionEvent::ACTION_UP:
case java::sdk::MotionEvent::ACTION_POINTER_UP:
// for pointer-up events we only want the data from
// the one pointer that went up
type = MultiTouchInput::MULTITOUCH_END;
startIndex = aActionIndex;
endIndex = aActionIndex + 1;
break;
case java::sdk::MotionEvent::ACTION_OUTSIDE:
case java::sdk::MotionEvent::ACTION_CANCEL:
type = MultiTouchInput::MULTITOUCH_CANCEL;
break;
default:
return INPUT_RESULT_UNHANDLED;
}
MultiTouchInput input(type, aTime, GetEventTimeStamp(aTime), 0);
input.modifiers = GetModifiers(aMetaState);
input.mTouches.SetCapacity(endIndex - startIndex);
input.mScreenOffset =
ExternalIntPoint(int32_t(floorf(aScreenX)), int32_t(floorf(aScreenY)));
nsTArray<float> x(aX->GetElements());
nsTArray<float> y(aY->GetElements());
nsTArray<float> orientation(aOrientation->GetElements());
nsTArray<float> pressure(aPressure->GetElements());
nsTArray<float> toolMajor(aToolMajor->GetElements());
nsTArray<float> toolMinor(aToolMinor->GetElements());
MOZ_ASSERT(pointerId.Length() == x.Length());
MOZ_ASSERT(pointerId.Length() == y.Length());
MOZ_ASSERT(pointerId.Length() == orientation.Length());
MOZ_ASSERT(pointerId.Length() == pressure.Length());
MOZ_ASSERT(pointerId.Length() == toolMajor.Length());
MOZ_ASSERT(pointerId.Length() == toolMinor.Length());
for (size_t i = startIndex; i < endIndex; i++) {
float orien = orientation[i] * 180.0f / M_PI;
// w3c touchevents spec does not allow orientations == 90
// this shifts it to -90, which will be shifted to zero below
if (orien >= 90.0) {
orien -= 180.0f;
}
nsIntPoint point =
nsIntPoint(int32_t(floorf(x[i])), int32_t(floorf(y[i])));
// w3c touchevent radii are given with an orientation between 0 and
// 90. The radii are found by removing the orientation and
// measuring the x and y radii of the resulting ellipse. For
// Android orientations >= 0 and < 90, use the y radius as the
// major radius, and x as the minor radius. However, for an
// orientation < 0, we have to shift the orientation by adding 90,
// and reverse which radius is major and minor.
gfx::Size radius;
if (orien < 0.0f) {
orien += 90.0f;
radius = gfx::Size(int32_t(toolMajor[i] / 2.0f),
int32_t(toolMinor[i] / 2.0f));
} else {
radius = gfx::Size(int32_t(toolMinor[i] / 2.0f),
int32_t(toolMajor[i] / 2.0f));
}
input.mTouches.AppendElement(SingleTouchData(
pointerId[i], ScreenIntPoint::FromUnknownPoint(point),
ScreenSize::FromUnknownSize(radius), orien, pressure[i]));
}
APZEventResult result = controller->InputBridge()->ReceiveInputEvent(input);
if (result.mStatus == nsEventStatus_eConsumeNoDefault) {
return INPUT_RESULT_HANDLED;
}
// Dispatch APZ input event on Gecko thread.
PostInputEvent([input, result](nsWindow* window) {
WidgetTouchEvent touchEvent = input.ToWidgetTouchEvent(window);
window->ProcessUntransformedAPZEvent(&touchEvent, result);
window->DispatchHitTest(touchEvent);
});
return result.mHitRegionWithApzAwareListeners ? INPUT_RESULT_HANDLED_CONTENT
: INPUT_RESULT_HANDLED;
}
};
template <>
const char nsWindow::NativePtr<nsWindow::NPZCSupport>::sName[] = "NPZCSupport";
NS_IMPL_ISUPPORTS(nsWindow::AndroidView, nsIAndroidEventDispatcher,
nsIAndroidView)
nsresult nsWindow::AndroidView::GetInitData(JSContext* aCx,
JS::MutableHandleValue aOut) {
if (!mInitData) {
aOut.setNull();
return NS_OK;
}
return widget::EventDispatcher::UnboxBundle(aCx, mInitData, aOut);
}
/**
* Compositor has some unique requirements for its native calls, so make it
* separate from GeckoViewSupport.
*/
class nsWindow::LayerViewSupport final
: public GeckoSession::Compositor::Natives<LayerViewSupport> {
using LockedWindowPtr = WindowPtr<LayerViewSupport>::Locked;
WindowPtr<LayerViewSupport> mWindow;
GeckoSession::Compositor::WeakRef mCompositor;
Atomic<bool, ReleaseAcquire> mCompositorPaused;
jni::Object::GlobalRef mSurface;
struct CaptureRequest {
explicit CaptureRequest() : mResult(nullptr) {}
explicit CaptureRequest(java::GeckoResult::GlobalRef aResult,
const ScreenRect& aSource,
const IntSize& aOutputSize)
: mResult(aResult), mSource(aSource), mOutputSize(aOutputSize) {}
// where to send the pixels
java::GeckoResult::GlobalRef mResult;
ScreenRect mSource;
IntSize mOutputSize;
};
std::queue<CaptureRequest> mCapturePixelsResults;
// In order to use Event::HasSameTypeAs in PostTo(), we cannot make
// LayerViewEvent a template because each template instantiation is
// a different type. So implement LayerViewEvent as a ProxyEvent.
class LayerViewEvent final : public nsAppShell::ProxyEvent {
using Event = nsAppShell::Event;
public:
static UniquePtr<Event> MakeEvent(UniquePtr<Event>&& event) {
return MakeUnique<LayerViewEvent>(std::move(event));
}
explicit LayerViewEvent(UniquePtr<Event>&& event)
: nsAppShell::ProxyEvent(std::move(event)) {}
void PostTo(LinkedList<Event>& queue) override {
// Give priority to compositor events, but keep in order with
// existing compositor events.
nsAppShell::Event* event = queue.getFirst();
while (event && event->HasSameTypeAs(this)) {
event = event->getNext();
}
if (event) {
event->setPrevious(this);
} else {
queue.insertBack(this);
}
}
};
public:
typedef GeckoSession::Compositor::Natives<LayerViewSupport> Base;
static LayerViewSupport* FromNative(
const GeckoSession::Compositor::LocalRef& instance) {
return GetNative(instance);
}
LayerViewSupport(NativePtr<LayerViewSupport>* aPtr, nsWindow* aWindow,
const GeckoSession::Compositor::LocalRef& aInstance)
: mWindow(aPtr, aWindow),
mCompositor(aInstance),
mCompositorPaused(true) {
MOZ_ASSERT(mWindow);
}
~LayerViewSupport() {}
using Base::AttachNative;
using Base::DisposeNative;
void OnDetach(already_AddRefed<Runnable> aDisposer) {
RefPtr<Runnable> disposer = aDisposer;
if (RefPtr<nsThread> uiThread = GetAndroidUiThread()) {
GeckoSession::Compositor::GlobalRef compositor(mCompositor);
if (!compositor) {
return;
}
uiThread->Dispatch(NS_NewRunnableFunction(
"LayerViewSupport::OnDetach",
[compositor, disposer = std::move(disposer),
results = &mCapturePixelsResults, window = &mWindow] {
if (LockedWindowPtr lock{*window}) {
while (!results->empty()) {
auto aResult =
java::GeckoResult::LocalRef(results->front().mResult);
if (aResult) {
aResult->CompleteExceptionally(
java::sdk::IllegalStateException::New(
"The compositor has detached from the session")
.Cast<jni::Throwable>());
results->pop();
}
}
compositor->OnCompositorDetached();
disposer->Run();
}
}));
}
}
const GeckoSession::Compositor::Ref& GetJavaCompositor() const {
return mCompositor;
}
bool CompositorPaused() const { return mCompositorPaused; }
jni::Object::Param GetSurface() { return mSurface; }
private:
already_AddRefed<UiCompositorControllerChild>
GetUiCompositorControllerChild() {
RefPtr<UiCompositorControllerChild> child;
if (LockedWindowPtr window{mWindow}) {
child = window->GetUiCompositorControllerChild();
}
return child.forget();
}
int8_t* FlipScreenPixels(Shmem& aMem, const ScreenIntSize& aInSize,
const ScreenRect& aInRegion,
const IntSize& aOutSize) {
RefPtr<DataSourceSurface> image = gfx::CreateDataSourceSurfaceFromData(
IntSize(aInSize.width, aInSize.height), SurfaceFormat::B8G8R8A8,
aMem.get<uint8_t>(),
StrideForFormatAndWidth(SurfaceFormat::B8G8R8A8, aInSize.width));
RefPtr<DrawTarget> drawTarget =
gfxPlatform::GetPlatform()->CreateOffscreenContentDrawTarget(
aOutSize, SurfaceFormat::B8G8R8A8);
drawTarget->SetTransform(Matrix::Scaling(1.0, -1.0) *
Matrix::Translation(0, aOutSize.height));
gfx::Rect srcRect(aInRegion.x,
(aInSize.height - aInRegion.height) - aInRegion.y,
aInRegion.width, aInRegion.height);
gfx::Rect destRect(0, 0, aOutSize.width, aOutSize.height);
drawTarget->DrawSurface(image, destRect, srcRect);
RefPtr<SourceSurface> snapshot = drawTarget->Snapshot();
RefPtr<DataSourceSurface> data = snapshot->GetDataSurface();
DataSourceSurface::ScopedMap* smap =
new DataSourceSurface::ScopedMap(data, DataSourceSurface::READ);
return reinterpret_cast<int8_t*>(smap->GetData());
}
/**
* Compositor methods
*/
public:
void AttachNPZC(jni::Object::Param aNPZC) {
MOZ_ASSERT(NS_IsMainThread());
if (!mWindow) {
return; // Already shut down.
}
MOZ_ASSERT(aNPZC);
// We can have this situation if we get two GeckoViewSupport::Transfer()
// called before the first AttachNPZC() gets here. Just detach the current
// instance since that's what happens in GeckoViewSupport::Transfer() as
// well.
if (mWindow->mNPZCSupport) {
mWindow->mNPZCSupport.Detach(mWindow->mNPZCSupport->GetJavaNPZC());
}
auto npzc = java::PanZoomController::NativeProvider::LocalRef(
jni::GetGeckoThreadEnv(),
java::PanZoomController::NativeProvider::Ref::From(aNPZC));
mWindow->mNPZCSupport.Attach(npzc, mWindow, npzc);
DispatchToUiThread(
"LayerViewSupport::AttachNPZC",
[npzc = java::PanZoomController::NativeProvider::GlobalRef(npzc)] {
npzc->SetAttached(true);
});
}
void OnBoundsChanged(int32_t aLeft, int32_t aTop, int32_t aWidth,
int32_t aHeight) {
MOZ_ASSERT(NS_IsMainThread());
if (!mWindow) {
return; // Already shut down.
}
mWindow->Resize(aLeft, aTop, aWidth, aHeight, /* repaint */ false);
}
void SetDynamicToolbarMaxHeight(int32_t aHeight) {
MOZ_ASSERT(NS_IsMainThread());
if (!mWindow) {
return; // Already shut down.
}
mWindow->UpdateDynamicToolbarMaxHeight(ScreenIntCoord(aHeight));
}
void SyncPauseCompositor() {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
if (RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild()) {
mCompositorPaused = true;
child->Pause();
}
}
void SyncResumeCompositor() {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
if (RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild()) {
mCompositorPaused = false;
child->Resume();
}
}
void SyncResumeResizeCompositor(
const GeckoSession::Compositor::LocalRef& aObj, int32_t aX, int32_t aY,
int32_t aWidth, int32_t aHeight, jni::Object::Param aSurface) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
mSurface = aSurface;
if (RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild()) {
child->ResumeAndResize(aX, aY, aWidth, aHeight);
}
mCompositorPaused = false;
class OnResumedEvent : public nsAppShell::Event {
GeckoSession::Compositor::GlobalRef mCompositor;
public:
explicit OnResumedEvent(GeckoSession::Compositor::GlobalRef&& aCompositor)
: mCompositor(std::move(aCompositor)) {}
void Run() override {
MOZ_ASSERT(NS_IsMainThread());
JNIEnv* const env = jni::GetGeckoThreadEnv();
LayerViewSupport* const lvs =
GetNative(GeckoSession::Compositor::LocalRef(env, mCompositor));
if (!lvs || !lvs->mWindow) {
env->ExceptionClear();
return; // Already shut down.
}
// When we get here, the compositor has already been told to
// resume. This means it's now safe for layer updates to occur.
// Since we might have prevented one or more draw events from
// occurring while the compositor was paused, we need to
// schedule a draw event now.
if (!lvs->mCompositorPaused) {
lvs->mWindow->RedrawAll();
}
}
};
// Use priority queue for timing-sensitive event.
nsAppShell::PostEvent(
MakeUnique<LayerViewEvent>(MakeUnique<OnResumedEvent>(aObj)));
}
void SyncInvalidateAndScheduleComposite() {
RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild();
if (!child) {
return;
}
if (AndroidBridge::IsJavaUiThread()) {
child->InvalidateAndRender();
return;
}
if (RefPtr<nsThread> uiThread = GetAndroidUiThread()) {
uiThread->Dispatch(NewRunnableMethod<>(
"LayerViewSupport::InvalidateAndRender", child,
&UiCompositorControllerChild::InvalidateAndRender),
nsIThread::DISPATCH_NORMAL);
}
}
void SetMaxToolbarHeight(int32_t aHeight) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
if (RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild()) {
child->SetMaxToolbarHeight(aHeight);
}
}
void SetFixedBottomOffset(int32_t aOffset) {
if (mWindow) {
mWindow->UpdateDynamicToolbarOffset(ScreenIntCoord(aOffset));
}
if (RefPtr<nsThread> uiThread = GetAndroidUiThread()) {
uiThread->Dispatch(NS_NewRunnableFunction(
"LayerViewSupport::SetFixedBottomOffset", [this, offset = aOffset] {
if (RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild()) {
child->SetFixedBottomOffset(offset);
}
}));
}
}
void SetPinned(bool aPinned, int32_t aReason) {
RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild();
if (!child) {
return;
}
if (AndroidBridge::IsJavaUiThread()) {
child->SetPinned(aPinned, aReason);
return;
}
if (RefPtr<nsThread> uiThread = GetAndroidUiThread()) {
uiThread->Dispatch(
NewRunnableMethod<bool, int32_t>(
"LayerViewSupport::SetPinned", child,
&UiCompositorControllerChild::SetPinned, aPinned, aReason),
nsIThread::DISPATCH_NORMAL);
}
}
void SendToolbarAnimatorMessage(int32_t aMessage) {
RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild();
if (!child) {
return;
}
if (AndroidBridge::IsJavaUiThread()) {
child->ToolbarAnimatorMessageFromUI(aMessage);
return;
}
if (RefPtr<nsThread> uiThread = GetAndroidUiThread()) {
uiThread->Dispatch(
NewRunnableMethod<int32_t>(
"LayerViewSupport::ToolbarAnimatorMessageFromUI", child,
&UiCompositorControllerChild::ToolbarAnimatorMessageFromUI,
aMessage),
nsIThread::DISPATCH_NORMAL);
}
}
void RecvToolbarAnimatorMessage(int32_t aMessage) {
auto compositor = GeckoSession::Compositor::LocalRef(mCompositor);
if (compositor) {
compositor->RecvToolbarAnimatorMessage(aMessage);
}
}
void SetDefaultClearColor(int32_t aColor) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
if (RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild()) {
child->SetDefaultClearColor((uint32_t)aColor);
}
}
void RequestScreenPixels(jni::Object::Param aResult, int32_t aXOffset,
int32_t aYOffset, int32_t aSrcWidth,
int32_t aSrcHeight, int32_t aOutWidth,
int32_t aOutHeight) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
int size = 0;
if (LockedWindowPtr window{mWindow}) {
mCapturePixelsResults.push(CaptureRequest(
java::GeckoResult::GlobalRef(java::GeckoResult::LocalRef(aResult)),
ScreenRect(aXOffset, aYOffset, aSrcWidth, aSrcHeight),
IntSize(aOutWidth, aOutHeight)));
size = mCapturePixelsResults.size();
}
if (size == 1) {
if (RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild()) {
child->RequestScreenPixels();
}
}
}
void RecvScreenPixels(Shmem&& aMem, const ScreenIntSize& aSize) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
CaptureRequest aCaptureRequest;
java::GeckoResult::LocalRef aResult = nullptr;
if (LockedWindowPtr window{mWindow}) {
aCaptureRequest = mCapturePixelsResults.front();
aResult = java::GeckoResult::LocalRef(aCaptureRequest.mResult);
if (aResult) {
mCapturePixelsResults.pop();
}
}
if (aResult) {
auto pixels = mozilla::jni::ByteBuffer::New(
FlipScreenPixels(aMem, aSize, aCaptureRequest.mSource,
aCaptureRequest.mOutputSize),
aMem.Size<int8_t>());
aResult->Complete(pixels);
}
// Pixels have been copied, so Dealloc Shmem
if (RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild()) {
child->DeallocPixelBuffer(aMem);
if (LockedWindowPtr window{mWindow}) {
if (!mCapturePixelsResults.empty()) {
child->RequestScreenPixels();
}
}
}
}
void EnableLayerUpdateNotifications(bool aEnable) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
if (RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild()) {
child->EnableLayerUpdateNotifications(aEnable);
}
}
void SendToolbarPixelsToCompositor(int32_t aWidth, int32_t aHeight,
jni::IntArray::Param aPixels) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
if (RefPtr<UiCompositorControllerChild> child =
GetUiCompositorControllerChild()) {
Shmem mem;
child->AllocPixelBuffer(aPixels->Length() * sizeof(int32_t), &mem);
aPixels->CopyTo(mem.get<int32_t>(), mem.Size<int32_t>());
if (!child->ToolbarPixelsToCompositor(mem,
ScreenIntSize(aWidth, aHeight))) {
child->DeallocPixelBuffer(mem);
}
}
}
};
template <>
const char nsWindow::NativePtr<nsWindow::LayerViewSupport>::sName[] =
"LayerViewSupport";
nsWindow::GeckoViewSupport::~GeckoViewSupport() {
// Disassociate our GeckoEditable instance with our native object.
if (window.mEditableSupport) {
window.mEditableSupport.Detach(window.mEditableSupport->GetJavaEditable());
window.mEditableParent = nullptr;
}
if (window.mNPZCSupport) {
window.mNPZCSupport.Detach(window.mNPZCSupport->GetJavaNPZC());
}
if (window.mLayerViewSupport) {
window.mLayerViewSupport.Detach(
window.mLayerViewSupport->GetJavaCompositor());
}
if (window.mSessionAccessibility) {
window.mSessionAccessibility.Detach(
window.mSessionAccessibility->GetJavaAccessibility());
}
}
/* static */
void nsWindow::GeckoViewSupport::Open(
const jni::Class::LocalRef& aCls, GeckoSession::Window::Param aWindow,
jni::Object::Param aQueue, jni::Object::Param aCompositor,
jni::Object::Param aDispatcher, jni::Object::Param aSessionAccessibility,
jni::Object::Param aInitData, jni::String::Param aId,
jni::String::Param aChromeURI, int32_t aScreenId, bool aPrivateMode,
bool aRemote) {
MOZ_ASSERT(NS_IsMainThread());
AUTO_PROFILER_LABEL("nsWindow::GeckoViewSupport::Open", OTHER);
nsCOMPtr<nsIWindowWatcher> ww = do_GetService(NS_WINDOWWATCHER_CONTRACTID);
MOZ_RELEASE_ASSERT(ww);
nsAutoCString url;
if (aChromeURI) {
url = aChromeURI->ToCString();
} else {
nsresult rv = Preferences::GetCString("toolkit.defaultChromeURI", url);
if (NS_FAILED(rv)) {
url = NS_LITERAL_CSTRING("chrome://geckoview/content/geckoview.xhtml");
}
}
// Prepare an nsIAndroidView to pass as argument to the window.
RefPtr<AndroidView> androidView = new AndroidView();
androidView->mEventDispatcher->Attach(
java::EventDispatcher::Ref::From(aDispatcher), nullptr);
androidView->mInitData = java::GeckoBundle::Ref::From(aInitData);
nsAutoCString chromeFlags("chrome,dialog=0,resizable,scrollbars");
if (aPrivateMode) {
chromeFlags += ",private";
}
if (aRemote) {
chromeFlags += ",remote";
}
nsCOMPtr<mozIDOMWindowProxy> domWindow;
ww->OpenWindow(nullptr, url.get(), aId->ToCString().get(), chromeFlags.get(),
androidView, getter_AddRefs(domWindow));
MOZ_RELEASE_ASSERT(domWindow);
nsCOMPtr<nsPIDOMWindowOuter> pdomWindow = nsPIDOMWindowOuter::From(domWindow);
const RefPtr<nsWindow> window = nsWindow::From(pdomWindow);
MOZ_ASSERT(window);
window->SetScreenId(aScreenId);
// Attach a new GeckoView support object to the new window.
GeckoSession::Window::LocalRef sessionWindow(aCls.Env(), aWindow);
window->mGeckoViewSupport =
mozilla::MakeUnique<GeckoViewSupport>(window, sessionWindow);
window->mGeckoViewSupport->mDOMWindow = pdomWindow;
window->mAndroidView = androidView;
// Attach other session support objects.
window->mGeckoViewSupport->Transfer(sessionWindow, aQueue, aCompositor,
aDispatcher, aSessionAccessibility,
aInitData);
if (window->mWidgetListener) {
nsCOMPtr<nsIAppWindow> appWindow(window->mWidgetListener->GetAppWindow());
if (appWindow) {
// Our window is not intrinsically sized, so tell AppWindow to
// not set a size for us.
appWindow->SetIntrinsicallySized(false);
}
}
}
void nsWindow::GeckoViewSupport::Close() {
if (window.mAndroidView) {
window.mAndroidView->mEventDispatcher->Detach();
}
if (!mDOMWindow) {
return;
}
mDOMWindow->ForceClose();
mDOMWindow = nullptr;
mGeckoViewWindow = nullptr;
}
void nsWindow::GeckoViewSupport::Transfer(
const GeckoSession::Window::LocalRef& inst, jni::Object::Param aQueue,
jni::Object::Param aCompositor, jni::Object::Param aDispatcher,
jni::Object::Param aSessionAccessibility, jni::Object::Param aInitData) {
if (window.mNPZCSupport) {
MOZ_ASSERT(window.mLayerViewSupport);
window.mNPZCSupport.Detach(window.mNPZCSupport->GetJavaNPZC());
}
auto compositor = GeckoSession::Compositor::LocalRef(
inst.Env(), GeckoSession::Compositor::Ref::From(aCompositor));
if (window.mLayerViewSupport &&
window.mLayerViewSupport->GetJavaCompositor() != compositor) {
window.mLayerViewSupport.Detach(
window.mLayerViewSupport->GetJavaCompositor());
}
if (!window.mLayerViewSupport) {
window.mLayerViewSupport.Attach(compositor, &window, compositor);
}
MOZ_ASSERT(window.mAndroidView);
window.mAndroidView->mEventDispatcher->Attach(
java::EventDispatcher::Ref::From(aDispatcher), mDOMWindow);
if (window.mSessionAccessibility) {
window.mSessionAccessibility.Detach(
window.mSessionAccessibility->GetJavaAccessibility());
}
if (aSessionAccessibility) {
AttachAccessibility(inst, aSessionAccessibility);
}
if (mIsReady) {
// We're in a transfer; update init-data and notify JS code.
window.mAndroidView->mInitData = java::GeckoBundle::Ref::From(aInitData);
OnReady(aQueue);
window.mAndroidView->mEventDispatcher->Dispatch(
u"GeckoView:UpdateInitData");
}
DispatchToUiThread("GeckoViewSupport::Transfer",
[compositor = GeckoSession::Compositor::GlobalRef(
compositor)] { compositor->OnCompositorAttached(); });
}
void nsWindow::GeckoViewSupport::AttachEditable(
const GeckoSession::Window::LocalRef& inst,
jni::Object::Param aEditableParent) {
if (!window.mEditableSupport) {
auto editableChild = java::GeckoEditableChild::New(aEditableParent,
/* default */ true);
window.mEditableSupport.Attach(editableChild, &window, editableChild);
} else {
window.mEditableSupport->TransferParent(aEditableParent);
}
window.mEditableParent = aEditableParent;
}
void nsWindow::GeckoViewSupport::AttachAccessibility(
const GeckoSession::Window::LocalRef& inst,
jni::Object::Param aSessionAccessibility) {
MOZ_ASSERT(!window.mSessionAccessibility);
java::SessionAccessibility::NativeProvider::LocalRef sessionAccessibility(
inst.Env());
sessionAccessibility = java::SessionAccessibility::NativeProvider::Ref::From(
aSessionAccessibility);
if (window.mSessionAccessibility) {
window.mSessionAccessibility.Detach(
window.mSessionAccessibility->GetJavaAccessibility());
}
window.mSessionAccessibility.Attach(sessionAccessibility, &window,
sessionAccessibility);
}
void nsWindow::InitNatives() {
jni::InitConversionStatics();
nsWindow::GeckoViewSupport::Base::Init();
nsWindow::LayerViewSupport::Init();
nsWindow::NPZCSupport::Init();
GeckoEditableSupport::Init();
a11y::SessionAccessibility::Init();
}
/* static */
already_AddRefed<nsWindow> nsWindow::From(nsPIDOMWindowOuter* aDOMWindow) {
nsCOMPtr<nsIWidget> widget = WidgetUtils::DOMWindowToWidget(aDOMWindow);
return From(widget);
}
/* static */
already_AddRefed<nsWindow> nsWindow::From(nsIWidget* aWidget) {
// `widget` may be one of several different types in the parent
// process, including the Android nsWindow, PuppetWidget, etc. To
// ensure that the cast to the Android nsWindow is valid, we check that the
// widget is a top-level window and that its NS_NATIVE_WIDGET value is
// non-null, which is not the case for non-native widgets like
// PuppetWidget.
if (aWidget && aWidget->WindowType() == nsWindowType::eWindowType_toplevel &&
aWidget->GetNativeData(NS_NATIVE_WIDGET) == aWidget) {
RefPtr<nsWindow> window = static_cast<nsWindow*>(aWidget);
return window.forget();
}
return nullptr;
}
nsWindow* nsWindow::TopWindow() {
if (!gTopLevelWindows.IsEmpty()) return gTopLevelWindows[0];
return nullptr;
}
void nsWindow::LogWindow(nsWindow* win, int index, int indent) {
#if defined(DEBUG) || defined(FORCE_ALOG)
char spaces[] = " ";
spaces[indent < 20 ? indent : 20] = 0;
ALOG("%s [% 2d] 0x%p [parent 0x%p] [% 3d,% 3dx% 3d,% 3d] vis %d type %d",
spaces, index, win, win->mParent, win->mBounds.x, win->mBounds.y,
win->mBounds.width, win->mBounds.height, win->mIsVisible,
win->mWindowType);
#endif
}
void nsWindow::DumpWindows() { DumpWindows(gTopLevelWindows); }
void nsWindow::DumpWindows(const nsTArray<nsWindow*>& wins, int indent) {
for (uint32_t i = 0; i < wins.Length(); ++i) {
nsWindow* w = wins[i];
LogWindow(w, i, indent);
DumpWindows(w->mChildren, indent + 1);
}
}
nsWindow::nsWindow()
: mScreenId(0), // Use 0 (primary screen) as the default value.
mIsVisible(false),
mParent(nullptr),
mDynamicToolbarMaxHeight(0),
mIsFullScreen(false),
mIsDisablingWebRender(false) {}
nsWindow::~nsWindow() {
gTopLevelWindows.RemoveElement(this);
ALOG("nsWindow %p destructor", (void*)this);
// The mCompositorSession should have been cleaned up in nsWindow::Destroy()
// DestroyLayerManager() will call DestroyCompositor() which will crash if
// called from nsBaseWidget destructor. See Bug 1392705
MOZ_ASSERT(!mCompositorSession);
}
bool nsWindow::IsTopLevel() {
return mWindowType == eWindowType_toplevel ||
mWindowType == eWindowType_dialog ||
mWindowType == eWindowType_invisible;
}
nsresult nsWindow::Create(nsIWidget* aParent, nsNativeWidget aNativeParent,
const LayoutDeviceIntRect& aRect,
nsWidgetInitData* aInitData) {
ALOG("nsWindow[%p]::Create %p [%d %d %d %d]", (void*)this, (void*)aParent,
aRect.x, aRect.y, aRect.width, aRect.height);
nsWindow* parent = (nsWindow*)aParent;
if (aNativeParent) {
if (parent) {
ALOG(
"Ignoring native parent on Android window [%p], "
"since parent was specified (%p %p)",
(void*)this, (void*)aNativeParent, (void*)aParent);
} else {
parent = (nsWindow*)aNativeParent;
}
}
// A default size of 1x1 confuses MobileViewportManager, so
// use 0x0 instead. This is also a little more fitting since
// we don't yet have a surface yet (and therefore a valid size)
// and 0x0 is usually recognized as invalid.
LayoutDeviceIntRect rect = aRect;
if (aRect.width == 1 && aRect.height == 1) {
rect.width = 0;
rect.height = 0;
}
mBounds = rect;
BaseCreate(nullptr, aInitData);
NS_ASSERTION(IsTopLevel() || parent,
"non-top-level window doesn't have a parent!");
if (IsTopLevel()) {
gTopLevelWindows.AppendElement(this);
} else if (parent) {
parent->mChildren.AppendElement(this);
mParent = parent;
}
CreateLayerManager();
#ifdef DEBUG_ANDROID_WIDGET
DumpWindows();
#endif
return NS_OK;
}
void nsWindow::Destroy() {
nsBaseWidget::mOnDestroyCalled = true;
if (mGeckoViewSupport) {
// Disassociate our native object with GeckoView.
mGeckoViewSupport = nullptr;
}
// Stuff below may release the last ref to this
nsCOMPtr<nsIWidget> kungFuDeathGrip(this);
while (mChildren.Length()) {
// why do we still have children?
ALOG("### Warning: Destroying window %p and reparenting child %p to null!",
(void*)this, (void*)mChildren[0]);
mChildren[0]->SetParent(nullptr);
}
// Ensure the compositor has been shutdown before this nsWindow is potentially
// deleted
nsBaseWidget::DestroyCompositor();
nsBaseWidget::Destroy();
if (IsTopLevel()) gTopLevelWindows.RemoveElement(this);
SetParent(nullptr);
nsBaseWidget::OnDestroy();
#ifdef DEBUG_ANDROID_WIDGET
DumpWindows();
#endif
}
nsresult nsWindow::ConfigureChildren(
const nsTArray<nsIWidget::Configuration>& config) {
for (uint32_t i = 0; i < config.Length(); ++i) {
nsWindow* childWin = (nsWindow*)config[i].mChild.get();
childWin->Resize(config[i].mBounds.x, config[i].mBounds.y,
config[i].mBounds.width, config[i].mBounds.height, false);
}
return NS_OK;
}
void nsWindow::RedrawAll() {
if (mAttachedWidgetListener) {
mAttachedWidgetListener->RequestRepaint();
} else if (mWidgetListener) {
mWidgetListener->RequestRepaint();
}
}
RefPtr<UiCompositorControllerChild> nsWindow::GetUiCompositorControllerChild() {
return mCompositorSession
? mCompositorSession->GetUiCompositorControllerChild()
: nullptr;
}
mozilla::layers::LayersId nsWindow::GetRootLayerId() const {
return mCompositorSession ? mCompositorSession->RootLayerTreeId()
: mozilla::layers::LayersId{0};
}
void nsWindow::OnGeckoViewReady() {
if (!mGeckoViewSupport) {
return;
}
mGeckoViewSupport->OnReady();
}
void nsWindow::SetParent(nsIWidget* aNewParent) {
if ((nsIWidget*)mParent == aNewParent) return;
// If we had a parent before, remove ourselves from its list of
// children.
if (mParent) mParent->mChildren.RemoveElement(this);
mParent = (nsWindow*)aNewParent;
if (mParent) mParent->mChildren.AppendElement(this);
// if we are now in the toplevel window's hierarchy, schedule a redraw
if (FindTopLevel() == nsWindow::TopWindow()) RedrawAll();
}
nsIWidget* nsWindow::GetParent() { return mParent; }
float nsWindow::GetDPI() {
float dpi = 160.0f;
nsCOMPtr<nsIScreen> screen = GetWidgetScreen();
if (screen) {
screen->GetDpi(&dpi);
}
return dpi;
}
double nsWindow::GetDefaultScaleInternal() {
double scale = 1.0f;
nsCOMPtr<nsIScreen> screen = GetWidgetScreen();
if (screen) {
screen->GetContentsScaleFactor(&scale);
}
return scale;
}
void nsWindow::Show(bool aState) {
ALOG("nsWindow[%p]::Show %d", (void*)this, aState);
if (mWindowType == eWindowType_invisible) {
ALOG("trying to show invisible window! ignoring..");
return;
}
if (aState == mIsVisible) return;
mIsVisible = aState;
if (IsTopLevel()) {
// XXX should we bring this to the front when it's shown,
// if it's a toplevel widget?
// XXX we should synthesize a eMouseExitFromWidget (for old top
// window)/eMouseEnterIntoWidget (for new top window) since we need
// to pretend that the top window always has focus. Not sure
// if Show() is the right place to do this, though.
if (aState) {
// It just became visible, so bring it to the front.
BringToFront();
} else if (nsWindow::TopWindow() == this) {
// find the next visible window to show
unsigned int i;
for (i = 1; i < gTopLevelWindows.Length(); i++) {
nsWindow* win = gTopLevelWindows[i];
if (!win->mIsVisible) continue;
win->BringToFront();
break;
}
}
} else if (FindTopLevel() == nsWindow::TopWindow()) {
RedrawAll();
}
#ifdef DEBUG_ANDROID_WIDGET
DumpWindows();
#endif
}
bool nsWindow::IsVisible() const { return mIsVisible; }
void nsWindow::ConstrainPosition(bool aAllowSlop, int32_t* aX, int32_t* aY) {
ALOG("nsWindow[%p]::ConstrainPosition %d [%d %d]", (void*)this, aAllowSlop,
*aX, *aY);
// constrain toplevel windows; children we don't care about
if (IsTopLevel()) {
*aX = 0;
*aY = 0;
}
}
void nsWindow::Move(double aX, double aY) {
if (IsTopLevel()) return;
Resize(aX, aY, mBounds.width, mBounds.height, true);
}
void nsWindow::Resize(double aWidth, double aHeight, bool aRepaint) {
Resize(mBounds.x, mBounds.y, aWidth, aHeight, aRepaint);
}
void nsWindow::Resize(double aX, double aY, double aWidth, double aHeight,
bool aRepaint) {
ALOG("nsWindow[%p]::Resize [%f %f %f %f] (repaint %d)", (void*)this, aX, aY,
aWidth, aHeight, aRepaint);
bool needPositionDispatch = aX != mBounds.x || aY != mBounds.y;
bool needSizeDispatch = aWidth != mBounds.width || aHeight != mBounds.height;
mBounds.x = NSToIntRound(aX);
mBounds.y = NSToIntRound(aY);
mBounds.width = NSToIntRound(aWidth);
mBounds.height = NSToIntRound(aHeight);
if (needSizeDispatch) {
OnSizeChanged(gfx::IntSize::Truncate(aWidth, aHeight));
}
if (needPositionDispatch) {
NotifyWindowMoved(mBounds.x, mBounds.y);
}
// Should we skip honoring aRepaint here?
if (aRepaint && FindTopLevel() == nsWindow::TopWindow()) RedrawAll();
}
void nsWindow::SetZIndex(int32_t aZIndex) {
ALOG("nsWindow[%p]::SetZIndex %d ignored", (void*)this, aZIndex);
}
void nsWindow::SetSizeMode(nsSizeMode aMode) {
if (aMode == mSizeMode) {
return;
}
nsBaseWidget::SetSizeMode(aMode);
switch (aMode) {
case nsSizeMode_Minimized:
java::GeckoAppShell::MoveTaskToBack();
break;
case nsSizeMode_Fullscreen:
MakeFullScreen(true);
break;
default:
break;
}
}
void nsWindow::Enable(bool aState) {
ALOG("nsWindow[%p]::Enable %d ignored", (void*)this, aState);
}
bool nsWindow::IsEnabled() const { return true; }
void nsWindow::Invalidate(const LayoutDeviceIntRect& aRect) {}
nsWindow* nsWindow::FindTopLevel() {
nsWindow* toplevel = this;
while (toplevel) {
if (toplevel->IsTopLevel()) return toplevel;
toplevel = toplevel->mParent;
}
ALOG(
"nsWindow::FindTopLevel(): couldn't find a toplevel or dialog window in "
"this [%p] widget's hierarchy!",
(void*)this);
return this;
}
void nsWindow::SetFocus(Raise, mozilla::dom::CallerType aCallerType) {
FindTopLevel()->BringToFront();
}
void nsWindow::BringToFront() {
// If the window to be raised is the same as the currently raised one,
// do nothing. We need to check the focus manager as well, as the first
// window that is created will be first in the window list but won't yet
// be focused.
nsCOMPtr<nsIFocusManager> fm = do_GetService(FOCUSMANAGER_CONTRACTID);
nsCOMPtr<mozIDOMWindowProxy> existingTopWindow;
fm->GetActiveWindow(getter_AddRefs(existingTopWindow));
if (existingTopWindow && FindTopLevel() == nsWindow::TopWindow()) return;
if (!IsTopLevel()) {
FindTopLevel()->BringToFront();
return;
}
RefPtr<nsWindow> kungFuDeathGrip(this);
nsWindow* oldTop = nullptr;
if (!gTopLevelWindows.IsEmpty()) {
oldTop = gTopLevelWindows[0];
}
gTopLevelWindows.RemoveElement(this);
gTopLevelWindows.InsertElementAt(0, this);
if (oldTop) {
nsIWidgetListener* listener = oldTop->GetWidgetListener();
if (listener) {
listener->WindowDeactivated();
}
}
if (mWidgetListener) {
mWidgetListener->WindowActivated();
}
RedrawAll();
}
LayoutDeviceIntRect nsWindow::GetScreenBounds() {
return LayoutDeviceIntRect(WidgetToScreenOffset(), mBounds.Size());
}
LayoutDeviceIntPoint nsWindow::WidgetToScreenOffset() {
LayoutDeviceIntPoint p(0, 0);
for (nsWindow* w = this; !!w; w = w->mParent) {
p.x += w->mBounds.x;
p.y += w->mBounds.y;
if (w->IsTopLevel()) {
break;
}
}
return p;
}
nsresult nsWindow::DispatchEvent(WidgetGUIEvent* aEvent,
nsEventStatus& aStatus) {
aStatus = DispatchEvent(aEvent);
return NS_OK;
}
nsEventStatus nsWindow::DispatchEvent(WidgetGUIEvent* aEvent) {
if (mAttachedWidgetListener) {
return mAttachedWidgetListener->HandleEvent(aEvent, mUseAttachedEvents);
} else if (mWidgetListener) {
return mWidgetListener->HandleEvent(aEvent, mUseAttachedEvents);
}
return nsEventStatus_eIgnore;
}
nsresult nsWindow::MakeFullScreen(bool aFullScreen, nsIScreen*) {
if (!mAndroidView) {
return NS_ERROR_NOT_AVAILABLE;
}
mIsFullScreen = aFullScreen;
mAndroidView->mEventDispatcher->Dispatch(
aFullScreen ? u"GeckoView:FullScreenEnter" : u"GeckoView:FullScreenExit");
nsIWidgetListener* listener = GetWidgetListener();
if (listener) {
mSizeMode = mIsFullScreen ? nsSizeMode_Fullscreen : nsSizeMode_Normal;
listener->SizeModeChanged(mSizeMode);
listener->FullscreenChanged(mIsFullScreen);
}
return NS_OK;
}
mozilla::layers::LayerManager* nsWindow::GetLayerManager(
PLayerTransactionChild*, LayersBackend, LayerManagerPersistence) {
if (mLayerManager) {
return mLayerManager;
}
if (mIsDisablingWebRender) {
CreateLayerManager();
mIsDisablingWebRender = false;
return mLayerManager;
}
return nullptr;
}
void nsWindow::CreateLayerManager() {
if (mLayerManager) {
return;
}
nsWindow* topLevelWindow = FindTopLevel();
if (!topLevelWindow || topLevelWindow->mWindowType == eWindowType_invisible) {
// don't create a layer manager for an invisible top-level window
return;
}
// Ensure that gfxPlatform is initialized first.
gfxPlatform::GetPlatform();
if (ShouldUseOffMainThreadCompositing()) {
LayoutDeviceIntRect rect = GetBounds();
CreateCompositor(rect.Width(), rect.Height());
if (mLayerManager) {
return;
}
// If we get here, then off main thread compositing failed to initialize.
sFailedToCreateGLContext = true;
}
if (!ComputeShouldAccelerate() || sFailedToCreateGLContext) {
printf_stderr(" -- creating basic, not accelerated\n");
mLayerManager = CreateBasicLayerManager();
}
}
void nsWindow::NotifyDisablingWebRender() {
mIsDisablingWebRender = true;
RedrawAll();
}
void nsWindow::OnSizeChanged(const gfx::IntSize& aSize) {
ALOG("nsWindow: %p OnSizeChanged [%d %d]", (void*)this, aSize.width,
aSize.height);
mBounds.width = aSize.width;
mBounds.height = aSize.height;
if (mWidgetListener) {
mWidgetListener->WindowResized(this, aSize.width, aSize.height);
}
if (mAttachedWidgetListener) {
mAttachedWidgetListener->WindowResized(this, aSize.width, aSize.height);
}
}
void nsWindow::InitEvent(WidgetGUIEvent& event, LayoutDeviceIntPoint* aPoint) {
if (aPoint) {
event.mRefPoint = *aPoint;
} else {
event.mRefPoint = LayoutDeviceIntPoint(0, 0);
}
event.mTime = PR_Now() / 1000;
}
void nsWindow::UpdateOverscrollVelocity(const float aX, const float aY) {
if (NativePtr<LayerViewSupport>::Locked lvs{mLayerViewSupport}) {
const auto& compositor = lvs->GetJavaCompositor();
if (AndroidBridge::IsJavaUiThread()) {
compositor->UpdateOverscrollVelocity(aX, aY);
return;
}
DispatchToUiThread(
"nsWindow::UpdateOverscrollVelocity",
[compositor = GeckoSession::Compositor::GlobalRef(compositor), aX, aY] {
compositor->UpdateOverscrollVelocity(aX, aY);
});
}
}
void nsWindow::UpdateOverscrollOffset(const float aX, const float aY) {
if (NativePtr<LayerViewSupport>::Locked lvs{mLayerViewSupport}) {
const auto& compositor = lvs->GetJavaCompositor();
if (AndroidBridge::IsJavaUiThread()) {
compositor->UpdateOverscrollOffset(aX, aY);
return;
}
DispatchToUiThread(
"nsWindow::UpdateOverscrollOffset",
[compositor = GeckoSession::Compositor::GlobalRef(compositor), aX, aY] {
compositor->UpdateOverscrollOffset(aX, aY);
});
}
}
void* nsWindow::GetNativeData(uint32_t aDataType) {
switch (aDataType) {
// used by GLContextProviderEGL, nullptr is EGL_DEFAULT_DISPLAY
case NS_NATIVE_DISPLAY:
return nullptr;
case NS_NATIVE_WIDGET:
return (void*)this;
case NS_RAW_NATIVE_IME_CONTEXT: {
void* pseudoIMEContext = GetPseudoIMEContext();
if (pseudoIMEContext) {
return pseudoIMEContext;
}
// We assume that there is only one context per process on Android
return NS_ONLY_ONE_NATIVE_IME_CONTEXT;
}
case NS_JAVA_SURFACE:
if (NativePtr<LayerViewSupport>::Locked lvs{mLayerViewSupport}) {
return lvs->GetSurface().Get();
}
return nullptr;
}
return nullptr;
}
void nsWindow::SetNativeData(uint32_t aDataType, uintptr_t aVal) {
switch (aDataType) {}
}
void nsWindow::DispatchHitTest(const WidgetTouchEvent& aEvent) {
if (aEvent.mMessage == eTouchStart && aEvent.mTouches.Length() == 1) {
// Since touch events don't get retargeted by PositionedEventTargeting.cpp
// code, we dispatch a dummy mouse event that *does* get retargeted.
// Front-end code can use this to activate the highlight element in case
// this touchstart is the start of a tap.
WidgetMouseEvent hittest(true, eMouseHitTest, this,
WidgetMouseEvent::eReal);
hittest.mRefPoint = aEvent.mTouches[0]->mRefPoint;
hittest.mIgnoreRootScrollFrame = true;
hittest.mInputSource = MouseEvent_Binding::MOZ_SOURCE_TOUCH;
nsEventStatus status;
DispatchEvent(&hittest, status);
if (mAPZEventState && hittest.mHitCluster) {
mAPZEventState->ProcessClusterHit();
}
}
}
mozilla::Modifiers nsWindow::GetModifiers(int32_t metaState) {
using mozilla::java::sdk::KeyEvent;
return (metaState & KeyEvent::META_ALT_MASK ? MODIFIER_ALT : 0) |
(metaState & KeyEvent::META_SHIFT_MASK ? MODIFIER_SHIFT : 0) |
(metaState & KeyEvent::META_CTRL_MASK ? MODIFIER_CONTROL : 0) |
(metaState & KeyEvent::META_META_MASK ? MODIFIER_META : 0) |
(metaState & KeyEvent::META_FUNCTION_ON ? MODIFIER_FN : 0) |
(metaState & KeyEvent::META_CAPS_LOCK_ON ? MODIFIER_CAPSLOCK : 0) |
(metaState & KeyEvent::META_NUM_LOCK_ON ? MODIFIER_NUMLOCK : 0) |
(metaState & KeyEvent::META_SCROLL_LOCK_ON ? MODIFIER_SCROLLLOCK : 0);
}
TimeStamp nsWindow::GetEventTimeStamp(int64_t aEventTime) {
// Android's event time is SystemClock.uptimeMillis that is counted in ms
// since OS was booted.
// (https://developer.android.com/reference/android/os/SystemClock.html)
// and this SystemClock.uptimeMillis uses SYSTEM_TIME_MONOTONIC.
// Our posix implemententaion of TimeStamp::Now uses SYSTEM_TIME_MONOTONIC
// too. Due to same implementation, we can use this via FromSystemTime.
int64_t tick =
BaseTimeDurationPlatformUtils::TicksFromMilliseconds(aEventTime);
return TimeStamp::FromSystemTime(tick);
}
void nsWindow::GeckoViewSupport::OnReady(jni::Object::Param aQueue) {
GeckoSession::Window::LocalRef window(mGeckoViewWindow);
if (!window) {
return;
}
window->OnReady(aQueue);
mIsReady = true;
}
void nsWindow::UserActivity() {
if (!mIdleService) {
mIdleService = do_GetService("@mozilla.org/widget/idleservice;1");
}
if (mIdleService) {
mIdleService->ResetIdleTimeOut(0);
}
if (FindTopLevel() != nsWindow::TopWindow()) {
BringToFront();
}
}
TextEventDispatcherListener* nsWindow::GetNativeTextEventDispatcherListener() {
nsWindow* top = FindTopLevel();
MOZ_ASSERT(top);
if (!top->mEditableSupport) {
// Non-GeckoView windows don't support IME operations.
return nullptr;
}
return top->mEditableSupport;
}
void nsWindow::SetInputContext(const InputContext& aContext,
const InputContextAction& aAction) {
nsWindow* top = FindTopLevel();
MOZ_ASSERT(top);
if (!top->mEditableSupport) {
// Non-GeckoView windows don't support IME operations.
return;
}
// We are using an IME event later to notify Java, and the IME event
// will be processed by the top window. Therefore, to ensure the
// IME event uses the correct mInputContext, we need to let the top
// window process SetInputContext
top->mEditableSupport->SetInputContext(aContext, aAction);
}
InputContext nsWindow::GetInputContext() {
nsWindow* top = FindTopLevel();
MOZ_ASSERT(top);
if (!top->mEditableSupport) {
// Non-GeckoView windows don't support IME operations.
return InputContext();
}
// We let the top window process SetInputContext,
// so we should let it process GetInputContext as well.
return top->mEditableSupport->GetInputContext();
}
nsresult nsWindow::SynthesizeNativeTouchPoint(uint32_t aPointerId,
TouchPointerState aPointerState,
LayoutDeviceIntPoint aPoint,
double aPointerPressure,
uint32_t aPointerOrientation,
nsIObserver* aObserver) {
mozilla::widget::AutoObserverNotifier notifier(aObserver, "touchpoint");
int eventType;
switch (aPointerState) {
case TOUCH_CONTACT:
// This could be a ACTION_DOWN or ACTION_MOVE depending on the
// existing state; it is mapped to the right thing in Java.
eventType = java::sdk::MotionEvent::ACTION_POINTER_DOWN;
break;
case TOUCH_REMOVE:
// This could be turned into a ACTION_UP in Java
eventType = java::sdk::MotionEvent::ACTION_POINTER_UP;
break;
case TOUCH_CANCEL:
eventType = java::sdk::MotionEvent::ACTION_CANCEL;
break;
case TOUCH_HOVER: // not supported for now
default:
return NS_ERROR_UNEXPECTED;
}
MOZ_ASSERT(mNPZCSupport);
const auto& npzc = mNPZCSupport->GetJavaNPZC();
const auto& bounds = FindTopLevel()->mBounds;
aPoint.x -= bounds.x;
aPoint.y -= bounds.y;
DispatchToUiThread(
"nsWindow::SynthesizeNativeTouchPoint",
[npzc = java::PanZoomController::NativeProvider::GlobalRef(npzc),
aPointerId, eventType, aPoint, aPointerPressure, aPointerOrientation] {
npzc->SynthesizeNativeTouchPoint(aPointerId, eventType, aPoint.x,
aPoint.y, aPointerPressure,
aPointerOrientation);
});
return NS_OK;
}
nsresult nsWindow::SynthesizeNativeMouseEvent(LayoutDeviceIntPoint aPoint,
uint32_t aNativeMessage,
uint32_t aModifierFlags,
nsIObserver* aObserver) {
mozilla::widget::AutoObserverNotifier notifier(aObserver, "mouseevent");
MOZ_ASSERT(mNPZCSupport);
const auto& npzc = mNPZCSupport->GetJavaNPZC();
const auto& bounds = FindTopLevel()->mBounds;
aPoint.x -= bounds.x;
aPoint.y -= bounds.y;
DispatchToUiThread(
"nsWindow::SynthesizeNativeMouseEvent",
[npzc = java::PanZoomController::NativeProvider::GlobalRef(npzc),
aNativeMessage, aPoint] {
npzc->SynthesizeNativeMouseEvent(aNativeMessage, aPoint.x, aPoint.y);
});
return NS_OK;
}
nsresult nsWindow::SynthesizeNativeMouseMove(LayoutDeviceIntPoint aPoint,
nsIObserver* aObserver) {
mozilla::widget::AutoObserverNotifier notifier(aObserver, "mouseevent");
MOZ_ASSERT(mNPZCSupport);
const auto& npzc = mNPZCSupport->GetJavaNPZC();
const auto& bounds = FindTopLevel()->mBounds;
aPoint.x -= bounds.x;
aPoint.y -= bounds.y;
DispatchToUiThread(
"nsWindow::SynthesizeNativeMouseMove",
[npzc = java::PanZoomController::NativeProvider::GlobalRef(npzc),
aPoint] {
npzc->SynthesizeNativeMouseEvent(
java::sdk::MotionEvent::ACTION_HOVER_MOVE, aPoint.x, aPoint.y);
});
return NS_OK;
}
bool nsWindow::WidgetPaintsBackground() {
return StaticPrefs::android_widget_paints_background();
}
bool nsWindow::NeedsPaint() {
if (!mLayerViewSupport || mLayerViewSupport->CompositorPaused() ||
// FindTopLevel() != nsWindow::TopWindow() ||
!GetLayerManager(nullptr)) {
return false;
}
return nsIWidget::NeedsPaint();
}
void nsWindow::ConfigureAPZControllerThread() {
APZThreadUtils::SetControllerThread(mozilla::GetAndroidUiThreadMessageLoop());
}
already_AddRefed<GeckoContentController>
nsWindow::CreateRootContentController() {
RefPtr<GeckoContentController> controller =
new AndroidContentController(this, mAPZEventState, mAPZC);
return controller.forget();
}
uint32_t nsWindow::GetMaxTouchPoints() const {
return java::GeckoAppShell::GetMaxTouchPoints();
}
void nsWindow::UpdateZoomConstraints(
const uint32_t& aPresShellId, const ScrollableLayerGuid::ViewID& aViewId,
const mozilla::Maybe<ZoomConstraints>& aConstraints) {
nsBaseWidget::UpdateZoomConstraints(aPresShellId, aViewId, aConstraints);
}
CompositorBridgeChild* nsWindow::GetCompositorBridgeChild() const {
return mCompositorSession ? mCompositorSession->GetCompositorBridgeChild()
: nullptr;
}
already_AddRefed<nsIScreen> nsWindow::GetWidgetScreen() {
RefPtr<nsIScreen> screen =
ScreenHelperAndroid::GetSingleton()->ScreenForId(mScreenId);
return screen.forget();
}
void nsWindow::SetContentDocumentDisplayed(bool aDisplayed) {
mContentDocumentDisplayed = aDisplayed;
}
bool nsWindow::IsContentDocumentDisplayed() {
return mContentDocumentDisplayed;
}
void nsWindow::RecvToolbarAnimatorMessageFromCompositor(int32_t aMessage) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
if (NativePtr<LayerViewSupport>::Locked lvs{mLayerViewSupport}) {
lvs->RecvToolbarAnimatorMessage(aMessage);
}
}
void nsWindow::UpdateRootFrameMetrics(const ScreenPoint& aScrollOffset,
const CSSToScreenScale& aZoom) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
if (NativePtr<LayerViewSupport>::Locked lvs{mLayerViewSupport}) {
const auto& compositor = lvs->GetJavaCompositor();
mContentDocumentDisplayed = true;
compositor->UpdateRootFrameMetrics(aScrollOffset.x, aScrollOffset.y,
aZoom.scale);
}
}
void nsWindow::RecvScreenPixels(Shmem&& aMem, const ScreenIntSize& aSize) {
MOZ_ASSERT(AndroidBridge::IsJavaUiThread());
if (NativePtr<LayerViewSupport>::Locked lvs{mLayerViewSupport}) {
lvs->RecvScreenPixels(std::move(aMem), aSize);
}
}
void nsWindow::UpdateDynamicToolbarMaxHeight(ScreenIntCoord aHeight) {
if (mDynamicToolbarMaxHeight == aHeight) {
return;
}
mDynamicToolbarMaxHeight = aHeight;
if (mWidgetListener) {
mWidgetListener->DynamicToolbarMaxHeightChanged(aHeight);
}
if (mAttachedWidgetListener) {
mAttachedWidgetListener->DynamicToolbarMaxHeightChanged(aHeight);
}
}
void nsWindow::UpdateDynamicToolbarOffset(ScreenIntCoord aOffset) {
if (mWidgetListener) {
mWidgetListener->DynamicToolbarOffsetChanged(aOffset);
}
if (mAttachedWidgetListener) {
mAttachedWidgetListener->DynamicToolbarOffsetChanged(aOffset);
}
}
nsresult nsWindow::SetPrefersReducedMotionOverrideForTest(bool aValue) {
LookAndFeel::SetPrefersReducedMotionOverrideForTest(aValue);
// Notify as if the corresponding setting changed.
java::GeckoSystemStateListener::NotifyPrefersReducedMotionChangedForTest();
return NS_OK;
}
nsresult nsWindow::ResetPrefersReducedMotionOverrideForTest() {
LookAndFeel::ResetPrefersReducedMotionOverrideForTest();
return NS_OK;
}
already_AddRefed<nsIWidget> nsIWidget::CreateTopLevelWindow() {
nsCOMPtr<nsIWidget> window = new nsWindow();
return window.forget();
}
already_AddRefed<nsIWidget> nsIWidget::CreateChildWindow() {
nsCOMPtr<nsIWidget> window = new nsWindow();
return window.forget();
}
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