blob: 023147c3a878e8179f83cc6b0bc06a0db452f65c [file] [log] [blame]
// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "ui/android/view_android.h"
#include <algorithm>
#include <cmath>
#include "base/android/jni_android.h"
#include "base/android/jni_string.h"
#include "base/containers/adapters.h"
#include "base/stl_util.h"
#include "cc/layers/layer.h"
#include "jni/ViewAndroidDelegate_jni.h"
#include "third_party/blink/public/platform/web_cursor_info.h"
#include "ui/android/event_forwarder.h"
#include "ui/android/window_android.h"
#include "ui/base/layout.h"
#include "ui/events/android/drag_event_android.h"
#include "ui/events/android/event_handler_android.h"
#include "ui/events/android/gesture_event_android.h"
#include "ui/events/android/key_event_android.h"
#include "ui/events/android/motion_event_android.h"
#include "ui/gfx/android/java_bitmap.h"
#include "url/gurl.h"
namespace ui {
using base::android::ConvertUTF8ToJavaString;
using base::android::JavaRef;
using base::android::ScopedJavaLocalRef;
using blink::WebCursorInfo;
ViewAndroid::ScopedAnchorView::ScopedAnchorView(
JNIEnv* env,
const JavaRef<jobject>& jview,
const JavaRef<jobject>& jdelegate)
: view_(env, jview.obj()), delegate_(env, jdelegate.obj()) {
// If there's a view, then we need a delegate to remove it.
DCHECK(!jdelegate.is_null() || jview.is_null());
}
ViewAndroid::ScopedAnchorView::ScopedAnchorView() { }
ViewAndroid::ScopedAnchorView::ScopedAnchorView(ScopedAnchorView&& other) {
view_ = other.view_;
other.view_.reset();
delegate_ = other.delegate_;
other.delegate_.reset();
}
ViewAndroid::ScopedAnchorView&
ViewAndroid::ScopedAnchorView::operator=(ScopedAnchorView&& other) {
if (this != &other) {
view_ = other.view_;
other.view_.reset();
delegate_ = other.delegate_;
other.delegate_.reset();
}
return *this;
}
ViewAndroid::ScopedAnchorView::~ScopedAnchorView() {
Reset();
}
void ViewAndroid::ScopedAnchorView::Reset() {
JNIEnv* env = base::android::AttachCurrentThread();
const ScopedJavaLocalRef<jobject> view = view_.get(env);
const ScopedJavaLocalRef<jobject> delegate = delegate_.get(env);
if (!view.is_null() && !delegate.is_null()) {
Java_ViewAndroidDelegate_removeView(env, delegate, view);
}
view_.reset();
delegate_.reset();
}
const base::android::ScopedJavaLocalRef<jobject>
ViewAndroid::ScopedAnchorView::view() const {
JNIEnv* env = base::android::AttachCurrentThread();
return view_.get(env);
}
ViewAndroid::ViewAndroid(LayoutType layout_type)
: parent_(nullptr), layout_type_(layout_type) {}
ViewAndroid::ViewAndroid() : ViewAndroid(LayoutType::NORMAL) {}
ViewAndroid::~ViewAndroid() {
RemoveAllChildren(GetWindowAndroid() != nullptr);
observer_list_.Clear();
RemoveFromParent();
}
void ViewAndroid::SetDelegate(const JavaRef<jobject>& delegate) {
// A ViewAndroid may have its own delegate or otherwise will use the next
// available parent's delegate.
JNIEnv* env = base::android::AttachCurrentThread();
delegate_ = JavaObjectWeakGlobalRef(env, delegate);
}
void ViewAndroid::UpdateFrameInfo(const FrameInfo& frame_info) {
frame_info_ = frame_info;
}
float ViewAndroid::GetDipScale() {
return ui::GetScaleFactorForNativeView(this);
}
ScopedJavaLocalRef<jobject> ViewAndroid::GetEventForwarder() {
if (!event_forwarder_) {
DCHECK(!RootPathHasEventForwarder(parent_))
<< "The view tree path already has an event forwarder.";
DCHECK(!SubtreeHasEventForwarder(this))
<< "The view tree path already has an event forwarder.";
event_forwarder_.reset(new EventForwarder(this));
}
return event_forwarder_->GetJavaObject();
}
void ViewAndroid::AddChild(ViewAndroid* child) {
DCHECK(child);
DCHECK(!base::ContainsValue(children_, child));
DCHECK(!RootPathHasEventForwarder(this) || !SubtreeHasEventForwarder(child))
<< "Some view tree path will have more than one event forwarder "
"if the child is added.";
// The new child goes to the top, which is the end of the list.
children_.push_back(child);
if (child->parent_)
child->RemoveFromParent();
child->parent_ = this;
// Empty physical backing size need not propagating down since it can
// accidentally overwrite the valid ones in the children.
if (!physical_size_.IsEmpty())
child->OnPhysicalBackingSizeChanged(physical_size_);
// Empty view size also need not propagating down in order to prevent
// spurious events with empty size from being sent down.
if (child->match_parent() && !bounds_.IsEmpty() &&
child->GetSize() != bounds_.size()) {
child->OnSizeChangedInternal(bounds_.size());
child->DispatchOnSizeChanged();
}
if (GetWindowAndroid())
child->OnAttachedToWindow();
}
// static
bool ViewAndroid::RootPathHasEventForwarder(ViewAndroid* view) {
while (view) {
if (view->has_event_forwarder())
return true;
view = view->parent_;
}
return false;
}
// static
bool ViewAndroid::SubtreeHasEventForwarder(ViewAndroid* view) {
if (view->has_event_forwarder())
return true;
for (auto* child : view->children_) {
if (SubtreeHasEventForwarder(child))
return true;
}
return false;
}
void ViewAndroid::MoveToFront(ViewAndroid* child) {
DCHECK(child);
auto it = std::find(children_.begin(), children_.end(), child);
DCHECK(it != children_.end());
// Top element is placed at the end of the list.
if (*it != children_.back())
children_.splice(children_.end(), children_, it);
}
void ViewAndroid::MoveToBack(ViewAndroid* child) {
DCHECK(child);
auto it = std::find(children_.begin(), children_.end(), child);
DCHECK(it != children_.end());
// Bottom element is placed at the beginning of the list.
if (*it != children_.front())
children_.splice(children_.begin(), children_, it);
}
void ViewAndroid::RemoveFromParent() {
if (parent_)
parent_->RemoveChild(this);
}
ViewAndroid::ScopedAnchorView ViewAndroid::AcquireAnchorView() {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return ViewAndroid::ScopedAnchorView();
JNIEnv* env = base::android::AttachCurrentThread();
return ViewAndroid::ScopedAnchorView(
env, Java_ViewAndroidDelegate_acquireView(env, delegate), delegate);
}
void ViewAndroid::SetAnchorRect(const JavaRef<jobject>& anchor,
const gfx::RectF& bounds_dip) {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return;
float dip_scale = GetDipScale();
int left_margin = std::round(bounds_dip.x() * dip_scale);
// Note that content_offset() is in CSS scale and bounds_dip is in DIP scale
// (i.e., CSS pixels * page scale factor), but the height of browser control
// is not affected by page scale factor. Thus, content_offset() in CSS scale
// is also in DIP scale.
int top_margin = std::round((content_offset() + bounds_dip.y()) * dip_scale);
const gfx::RectF bounds_px = gfx::ScaleRect(bounds_dip, dip_scale);
JNIEnv* env = base::android::AttachCurrentThread();
Java_ViewAndroidDelegate_setViewPosition(
env, delegate, anchor, bounds_px.x(), bounds_px.y(), bounds_px.width(),
bounds_px.height(), left_margin, top_margin);
}
ScopedJavaLocalRef<jobject> ViewAndroid::GetContainerView() {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return nullptr;
JNIEnv* env = base::android::AttachCurrentThread();
return Java_ViewAndroidDelegate_getContainerView(env, delegate);
}
gfx::Point ViewAndroid::GetLocationOfContainerViewInWindow() {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return gfx::Point();
JNIEnv* env = base::android::AttachCurrentThread();
gfx::Point result(
Java_ViewAndroidDelegate_getXLocationOfContainerViewInWindow(env,
delegate),
Java_ViewAndroidDelegate_getYLocationOfContainerViewInWindow(env,
delegate));
return result;
}
gfx::PointF ViewAndroid::GetLocationOnScreen(float x, float y) {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return gfx::PointF();
JNIEnv* env = base::android::AttachCurrentThread();
float loc_x = Java_ViewAndroidDelegate_getXLocationOnScreen(env, delegate);
float loc_y = Java_ViewAndroidDelegate_getYLocationOnScreen(env, delegate);
return gfx::PointF(x + loc_x, y + loc_y);
}
void ViewAndroid::RemoveAllChildren(bool attached_to_window) {
auto it = children_.begin();
while (it != children_.end()) {
if (attached_to_window)
(*it)->OnDetachedFromWindow();
(*it)->parent_ = nullptr;
// erase returns a new iterator for the element following the ereased one.
it = children_.erase(it);
}
}
void ViewAndroid::RemoveChild(ViewAndroid* child) {
DCHECK(child);
DCHECK_EQ(child->parent_, this);
if (GetWindowAndroid())
child->OnDetachedFromWindow();
std::list<ViewAndroid*>::iterator it =
std::find(children_.begin(), children_.end(), child);
DCHECK(it != children_.end());
children_.erase(it);
child->parent_ = nullptr;
}
void ViewAndroid::AddObserver(ViewAndroidObserver* observer) {
observer_list_.AddObserver(observer);
}
void ViewAndroid::RemoveObserver(ViewAndroidObserver* observer) {
observer_list_.RemoveObserver(observer);
}
void ViewAndroid::RequestDisallowInterceptTouchEvent() {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return;
JNIEnv* env = base::android::AttachCurrentThread();
Java_ViewAndroidDelegate_requestDisallowInterceptTouchEvent(env, delegate);
}
void ViewAndroid::RequestUnbufferedDispatch(const MotionEventAndroid& event) {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return;
JNIEnv* env = base::android::AttachCurrentThread();
Java_ViewAndroidDelegate_requestUnbufferedDispatch(env, delegate,
event.GetJavaObject());
}
void ViewAndroid::OnAttachedToWindow() {
for (auto& observer : observer_list_)
observer.OnAttachedToWindow();
for (auto* child : children_)
child->OnAttachedToWindow();
}
void ViewAndroid::OnDetachedFromWindow() {
for (auto& observer : observer_list_)
observer.OnDetachedFromWindow();
for (auto* child : children_)
child->OnDetachedFromWindow();
}
WindowAndroid* ViewAndroid::GetWindowAndroid() const {
return parent_ ? parent_->GetWindowAndroid() : nullptr;
}
const ScopedJavaLocalRef<jobject> ViewAndroid::GetViewAndroidDelegate()
const {
JNIEnv* env = base::android::AttachCurrentThread();
const ScopedJavaLocalRef<jobject> delegate = delegate_.get(env);
if (!delegate.is_null())
return delegate;
return parent_ ? parent_->GetViewAndroidDelegate() : delegate;
}
cc::Layer* ViewAndroid::GetLayer() const {
return layer_.get();
}
bool ViewAndroid::HasFocus() {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return false;
JNIEnv* env = base::android::AttachCurrentThread();
return Java_ViewAndroidDelegate_hasFocus(env, delegate);
}
void ViewAndroid::RequestFocus() {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return;
JNIEnv* env = base::android::AttachCurrentThread();
Java_ViewAndroidDelegate_requestFocus(env, delegate);
}
void ViewAndroid::SetLayer(scoped_refptr<cc::Layer> layer) {
layer_ = layer;
}
bool ViewAndroid::StartDragAndDrop(const JavaRef<jstring>& jtext,
const JavaRef<jobject>& jimage) {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return false;
JNIEnv* env = base::android::AttachCurrentThread();
return Java_ViewAndroidDelegate_startDragAndDrop(env, delegate, jtext,
jimage);
}
void ViewAndroid::OnCursorChanged(int type,
const SkBitmap& custom_image,
const gfx::Point& hotspot) {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return;
JNIEnv* env = base::android::AttachCurrentThread();
if (type == WebCursorInfo::kTypeCustom) {
if (custom_image.drawsNothing()) {
Java_ViewAndroidDelegate_onCursorChanged(env, delegate,
WebCursorInfo::kTypePointer);
return;
}
ScopedJavaLocalRef<jobject> java_bitmap =
gfx::ConvertToJavaBitmap(&custom_image);
Java_ViewAndroidDelegate_onCursorChangedToCustom(env, delegate, java_bitmap,
hotspot.x(), hotspot.y());
} else {
Java_ViewAndroidDelegate_onCursorChanged(env, delegate, type);
}
}
void ViewAndroid::OnBackgroundColorChanged(unsigned int color) {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return;
JNIEnv* env = base::android::AttachCurrentThread();
Java_ViewAndroidDelegate_onBackgroundColorChanged(env, delegate, color);
}
void ViewAndroid::OnTopControlsChanged(float top_controls_offset,
float top_content_offset) {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return;
JNIEnv* env = base::android::AttachCurrentThread();
Java_ViewAndroidDelegate_onTopControlsChanged(
env, delegate, top_controls_offset, top_content_offset);
}
void ViewAndroid::OnBottomControlsChanged(float bottom_controls_offset,
float bottom_content_offset) {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return;
JNIEnv* env = base::android::AttachCurrentThread();
Java_ViewAndroidDelegate_onBottomControlsChanged(
env, delegate, bottom_controls_offset, bottom_content_offset);
}
int ViewAndroid::GetSystemWindowInsetBottom() {
ScopedJavaLocalRef<jobject> delegate(GetViewAndroidDelegate());
if (delegate.is_null())
return 0;
JNIEnv* env = base::android::AttachCurrentThread();
return Java_ViewAndroidDelegate_getSystemWindowInsetBottom(env, delegate);
}
void ViewAndroid::OnSizeChanged(int width, int height) {
// Match-parent view must not receive size events.
DCHECK(!match_parent());
float scale = GetDipScale();
gfx::Size size(std::ceil(width / scale), std::ceil(height / scale));
if (bounds_.size() == size)
return;
OnSizeChangedInternal(size);
// Signal resize event after all the views in the tree get the updated size.
DispatchOnSizeChanged();
}
void ViewAndroid::OnSizeChangedInternal(const gfx::Size& size) {
if (bounds_.size() == size)
return;
bounds_.set_size(size);
for (auto* child : children_) {
if (child->match_parent())
child->OnSizeChangedInternal(size);
}
}
void ViewAndroid::DispatchOnSizeChanged() {
if (event_handler_)
event_handler_->OnSizeChanged();
for (auto* child : children_) {
if (child->match_parent())
child->DispatchOnSizeChanged();
}
}
void ViewAndroid::OnPhysicalBackingSizeChanged(const gfx::Size& size) {
if (physical_size_ == size)
return;
physical_size_ = size;
if (event_handler_)
event_handler_->OnPhysicalBackingSizeChanged();
for (auto* child : children_)
child->OnPhysicalBackingSizeChanged(size);
}
gfx::Size ViewAndroid::GetPhysicalBackingSize() const {
return physical_size_;
}
gfx::Size ViewAndroid::GetSize() const {
return bounds_.size();
}
bool ViewAndroid::OnDragEvent(const DragEventAndroid& event) {
return HitTest(base::BindRepeating(&ViewAndroid::SendDragEventToHandler),
event, event.location_f());
}
// static
bool ViewAndroid::SendDragEventToHandler(EventHandlerAndroid* handler,
const DragEventAndroid& event) {
return handler->OnDragEvent(event);
}
bool ViewAndroid::OnTouchEvent(const MotionEventAndroid& event) {
return HitTest(base::BindRepeating(&ViewAndroid::SendTouchEventToHandler),
event, event.GetPoint());
}
// static
bool ViewAndroid::SendTouchEventToHandler(EventHandlerAndroid* handler,
const MotionEventAndroid& event) {
return handler->OnTouchEvent(event);
}
bool ViewAndroid::OnMouseEvent(const MotionEventAndroid& event) {
return HitTest(base::BindRepeating(&ViewAndroid::SendMouseEventToHandler),
event, event.GetPoint());
}
// static
bool ViewAndroid::SendMouseEventToHandler(EventHandlerAndroid* handler,
const MotionEventAndroid& event) {
return handler->OnMouseEvent(event);
}
bool ViewAndroid::OnMouseWheelEvent(const MotionEventAndroid& event) {
return HitTest(
base::BindRepeating(&ViewAndroid::SendMouseWheelEventToHandler), event,
event.GetPoint());
}
// static
bool ViewAndroid::SendMouseWheelEventToHandler(
EventHandlerAndroid* handler,
const MotionEventAndroid& event) {
return handler->OnMouseWheelEvent(event);
}
bool ViewAndroid::OnGestureEvent(const GestureEventAndroid& event) {
return HitTest(base::BindRepeating(&ViewAndroid::SendGestureEventToHandler),
event, event.location());
}
// static
bool ViewAndroid::SendGestureEventToHandler(EventHandlerAndroid* handler,
const GestureEventAndroid& event) {
return handler->OnGestureEvent(event);
}
bool ViewAndroid::OnGenericMotionEvent(const MotionEventAndroid& event) {
if (event_handler_ && event_handler_->OnGenericMotionEvent(event))
return true;
for (auto* child : children_) {
if (child->OnGenericMotionEvent(event))
return true;
}
return false;
}
bool ViewAndroid::OnKeyUp(const KeyEventAndroid& event) {
if (event_handler_ && event_handler_->OnKeyUp(event))
return true;
for (auto* child : children_) {
if (child->OnKeyUp(event))
return true;
}
return false;
}
bool ViewAndroid::DispatchKeyEvent(const KeyEventAndroid& event) {
if (event_handler_ && event_handler_->DispatchKeyEvent(event))
return true;
for (auto* child : children_) {
if (child->DispatchKeyEvent(event))
return true;
}
return false;
}
bool ViewAndroid::ScrollBy(float delta_x, float delta_y) {
if (event_handler_ && event_handler_->ScrollBy(delta_x, delta_y))
return true;
for (auto* child : children_) {
if (child->ScrollBy(delta_x, delta_y))
return true;
}
return false;
}
bool ViewAndroid::ScrollTo(float x, float y) {
if (event_handler_ && event_handler_->ScrollTo(x, y))
return true;
for (auto* child : children_) {
if (child->ScrollTo(x, y))
return true;
}
return false;
}
template <typename E>
bool ViewAndroid::HitTest(EventHandlerCallback<E> handler_callback,
const E& event,
const gfx::PointF& point) {
if (event_handler_) {
if (bounds_.origin().IsOrigin()) { // (x, y) == (0, 0)
if (handler_callback.Run(event_handler_, event))
return true;
} else {
std::unique_ptr<E> e(event.CreateFor(point));
if (handler_callback.Run(event_handler_, *e))
return true;
}
}
if (!children_.empty()) {
gfx::PointF offset_point(point);
offset_point.Offset(-bounds_.x(), -bounds_.y());
gfx::Point int_point = gfx::ToFlooredPoint(offset_point);
// Match from back to front for hit testing.
for (auto* child : base::Reversed(children_)) {
bool matched = child->match_parent();
if (!matched)
matched = child->bounds_.Contains(int_point);
if (matched && child->HitTest(handler_callback, event, offset_point))
return true;
}
}
return false;
}
void ViewAndroid::SetLayoutForTesting(int x, int y, int width, int height) {
bounds_.SetRect(x, y, width, height);
}
} // namespace ui