// Copyright 2014 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/views/view_targeter.h" #include "base/macros.h" #include "ui/events/event_targeter.h" #include "ui/events/event_utils.h" #include "ui/gfx/path.h" #include "ui/views/masked_targeter_delegate.h" #include "ui/views/test/views_test_base.h" #include "ui/views/view_targeter.h" #include "ui/views/view_targeter_delegate.h" #include "ui/views/views_switches.h" #include "ui/views/widget/root_view.h" namespace views { // A derived class of View used for testing purposes. class TestingView : public View, public ViewTargeterDelegate { public: TestingView() : can_process_events_within_subtree_(true) {} ~TestingView() override {} // Reset all test state. void Reset() { can_process_events_within_subtree_ = true; } void set_can_process_events_within_subtree(bool can_process) { can_process_events_within_subtree_ = can_process; } // A call-through function to ViewTargeterDelegate::DoesIntersectRect(). bool TestDoesIntersectRect(const View* target, const gfx::Rect& rect) const { return DoesIntersectRect(target, rect); } // View: bool CanProcessEventsWithinSubtree() const override { return can_process_events_within_subtree_; } private: // Value to return from CanProcessEventsWithinSubtree(). bool can_process_events_within_subtree_; DISALLOW_COPY_AND_ASSIGN(TestingView); }; // A derived class of View having a triangular-shaped hit test mask. class TestMaskedView : public View, public MaskedTargeterDelegate { public: TestMaskedView() {} ~TestMaskedView() override {} // A call-through function to MaskedTargeterDelegate::DoesIntersectRect(). bool TestDoesIntersectRect(const View* target, const gfx::Rect& rect) const { return DoesIntersectRect(target, rect); } private: // MaskedTargeterDelegate: bool GetHitTestMask(gfx::Path* mask) const override { DCHECK(mask); SkScalar w = SkIntToScalar(width()); SkScalar h = SkIntToScalar(height()); // Create a triangular mask within the bounds of this View. mask->moveTo(w / 2, 0); mask->lineTo(w, h); mask->lineTo(0, h); mask->close(); return true; } DISALLOW_COPY_AND_ASSIGN(TestMaskedView); }; namespace test { // TODO(tdanderson): Clean up this test suite by moving common code/state into // ViewTargeterTest and overriding SetUp(), TearDown(), etc. // See crbug.com/355680. class ViewTargeterTest : public ViewsTestBase { public: ViewTargeterTest() {} ~ViewTargeterTest() override {} void SetGestureHandler(internal::RootView* root_view, View* handler) { root_view->gesture_handler_ = handler; } void SetGestureHandlerSetBeforeProcessing(internal::RootView* root_view, bool set) { root_view->gesture_handler_set_before_processing_ = set; } private: DISALLOW_COPY_AND_ASSIGN(ViewTargeterTest); }; namespace { gfx::Point ConvertPointFromWidgetToView(View* view, const gfx::Point& p) { gfx::Point tmp(p); View::ConvertPointToTarget(view->GetWidget()->GetRootView(), view, &tmp); return tmp; } gfx::Rect ConvertRectFromWidgetToView(View* view, const gfx::Rect& r) { gfx::Rect tmp(r); tmp.set_origin(ConvertPointFromWidgetToView(view, r.origin())); return tmp; } } // namespace // Verifies that the the functions ViewTargeter::FindTargetForEvent() // and ViewTargeter::FindNextBestTarget() are implemented correctly // for key events. TEST_F(ViewTargeterTest, ViewTargeterForKeyEvents) { Widget widget; Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_POPUP); init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; widget.Init(init_params); View* content = new View; View* child = new View; View* grandchild = new View; widget.SetContentsView(content); content->AddChildView(child); child->AddChildView(grandchild); grandchild->SetFocusable(true); grandchild->RequestFocus(); internal::RootView* root_view = static_cast(widget.GetRootView()); ui::EventTargeter* targeter = root_view->targeter(); ui::KeyEvent key_event('a', ui::VKEY_A, ui::EF_NONE); // The focused view should be the initial target of the event. ui::EventTarget* current_target = targeter->FindTargetForEvent(root_view, &key_event); EXPECT_EQ(grandchild, static_cast(current_target)); // Verify that FindNextBestTarget() will return the parent view of the // argument (and NULL if the argument has no parent view). current_target = targeter->FindNextBestTarget(grandchild, &key_event); EXPECT_EQ(child, static_cast(current_target)); current_target = targeter->FindNextBestTarget(child, &key_event); EXPECT_EQ(content, static_cast(current_target)); current_target = targeter->FindNextBestTarget(content, &key_event); EXPECT_EQ(widget.GetRootView(), static_cast(current_target)); current_target = targeter->FindNextBestTarget(widget.GetRootView(), &key_event); EXPECT_EQ(NULL, static_cast(current_target)); } // Verifies that the the functions ViewTargeter::FindTargetForEvent() // and ViewTargeter::FindNextBestTarget() are implemented correctly // for scroll events. TEST_F(ViewTargeterTest, ViewTargeterForScrollEvents) { Widget widget; Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_POPUP); init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; init_params.bounds = gfx::Rect(0, 0, 200, 200); widget.Init(init_params); // The coordinates used for SetBounds() are in the parent coordinate space. View* content = new View; content->SetBounds(0, 0, 100, 100); View* child = new View; child->SetBounds(50, 50, 20, 20); View* grandchild = new View; grandchild->SetBounds(0, 0, 5, 5); widget.SetContentsView(content); content->AddChildView(child); child->AddChildView(grandchild); internal::RootView* root_view = static_cast(widget.GetRootView()); ui::EventTargeter* targeter = root_view->targeter(); // The event falls within the bounds of |child| and |content| but not // |grandchild|, so |child| should be the initial target for the event. ui::ScrollEvent scroll(ui::ET_SCROLL, gfx::Point(60, 60), ui::EventTimeForNow(), 0, 0, 3, 0, 3, 2); ui::EventTarget* current_target = targeter->FindTargetForEvent(root_view, &scroll); EXPECT_EQ(child, static_cast(current_target)); // Verify that FindNextBestTarget() will return the parent view of the // argument (and NULL if the argument has no parent view). current_target = targeter->FindNextBestTarget(child, &scroll); EXPECT_EQ(content, static_cast(current_target)); current_target = targeter->FindNextBestTarget(content, &scroll); EXPECT_EQ(widget.GetRootView(), static_cast(current_target)); current_target = targeter->FindNextBestTarget(widget.GetRootView(), &scroll); EXPECT_EQ(NULL, static_cast(current_target)); // The event falls outside of the original specified bounds of |content|, // |child|, and |grandchild|. But since |content| is the contents view, // and contents views are resized to fill the entire area of the root // view, the event's initial target should still be |content|. scroll = ui::ScrollEvent(ui::ET_SCROLL, gfx::Point(150, 150), ui::EventTimeForNow(), 0, 0, 3, 0, 3, 2); current_target = targeter->FindTargetForEvent(root_view, &scroll); EXPECT_EQ(content, static_cast(current_target)); } // Convenience to make constructing a GestureEvent simpler. class GestureEventForTest : public ui::GestureEvent { public: GestureEventForTest(ui::EventType type, int x, int y) : GestureEvent(x, y, 0, base::TimeDelta(), ui::GestureEventDetails(type)) {} GestureEventForTest(ui::GestureEventDetails details) : GestureEvent(details.bounding_box().CenterPoint().x(), details.bounding_box().CenterPoint().y(), 0, base::TimeDelta(), details) {} }; // Verifies that the the functions ViewTargeter::FindTargetForEvent() // and ViewTargeter::FindNextBestTarget() are implemented correctly // for gesture events. TEST_F(ViewTargeterTest, ViewTargeterForGestureEvents) { Widget widget; Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_POPUP); init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; init_params.bounds = gfx::Rect(0, 0, 200, 200); widget.Init(init_params); // The coordinates used for SetBounds() are in the parent coordinate space. View* content = new View; content->SetBounds(0, 0, 100, 100); View* child = new View; child->SetBounds(50, 50, 20, 20); View* grandchild = new View; grandchild->SetBounds(0, 0, 5, 5); widget.SetContentsView(content); content->AddChildView(child); child->AddChildView(grandchild); internal::RootView* root_view = static_cast(widget.GetRootView()); ui::EventTargeter* targeter = root_view->targeter(); // Define some gesture events for testing. gfx::RectF bounding_box(gfx::PointF(46.f, 46.f), gfx::SizeF(8.f, 8.f)); ui::GestureEventDetails details(ui::ET_GESTURE_TAP); details.set_bounding_box(bounding_box); GestureEventForTest tap(details); details = ui::GestureEventDetails(ui::ET_GESTURE_SCROLL_BEGIN); details.set_bounding_box(bounding_box); GestureEventForTest scroll_begin(details); details = ui::GestureEventDetails(ui::ET_GESTURE_END); details.set_bounding_box(bounding_box); GestureEventForTest end(details); // Assume that the view currently handling gestures has been set as // |grandchild| by a previous gesture event. Thus subsequent TAP and // SCROLL_BEGIN events should be initially targeted to |grandchild|, and // re-targeting should be prohibited for TAP but permitted for // GESTURE_SCROLL_BEGIN (which should be re-targeted to the parent of // |grandchild|). SetGestureHandlerSetBeforeProcessing(root_view, true); SetGestureHandler(root_view, grandchild); EXPECT_EQ(grandchild, targeter->FindTargetForEvent(root_view, &tap)); EXPECT_EQ(NULL, targeter->FindNextBestTarget(grandchild, &tap)); EXPECT_EQ(grandchild, targeter->FindTargetForEvent(root_view, &scroll_begin)); EXPECT_EQ(child, targeter->FindNextBestTarget(grandchild, &scroll_begin)); // GESTURE_END events should be targeted to the existing gesture handler, // but re-targeting should be prohibited. EXPECT_EQ(grandchild, targeter->FindTargetForEvent(root_view, &end)); EXPECT_EQ(NULL, targeter->FindNextBestTarget(grandchild, &end)); // Assume that the view currently handling gestures is still set as // |grandchild|, but this was not done by a previous gesture. Thus we are // in the process of finding the View to which subsequent gestures will be // dispatched, so TAP and SCROLL_BEGIN events should be re-targeted up // the ancestor chain. SetGestureHandlerSetBeforeProcessing(root_view, false); EXPECT_EQ(child, targeter->FindNextBestTarget(grandchild, &tap)); EXPECT_EQ(child, targeter->FindNextBestTarget(grandchild, &scroll_begin)); // GESTURE_END events are not permitted to be re-targeted up the ancestor // chain; they are only ever targeted in the case where the gesture handler // was established by a previous gesture. EXPECT_EQ(NULL, targeter->FindNextBestTarget(grandchild, &end)); // Assume that the default gesture handler was set by the previous gesture, // but that this handler is currently NULL. No gesture events should be // re-targeted in this case (regardless of the view that is passed in to // FindNextBestTarget() as the previous target). SetGestureHandler(root_view, NULL); SetGestureHandlerSetBeforeProcessing(root_view, true); EXPECT_EQ(NULL, targeter->FindNextBestTarget(child, &tap)); EXPECT_EQ(NULL, targeter->FindNextBestTarget(NULL, &tap)); EXPECT_EQ(NULL, targeter->FindNextBestTarget(content, &scroll_begin)); EXPECT_EQ(NULL, targeter->FindNextBestTarget(content, &end)); // Reset the locations of the gesture events to be in the root view // coordinate space since we are about to call FindTargetForEvent() // again (calls to FindTargetForEvent() and FindNextBestTarget() // mutate the location of the gesture events to be in the coordinate // space of the returned view). details = ui::GestureEventDetails(ui::ET_GESTURE_TAP); details.set_bounding_box(bounding_box); tap = GestureEventForTest(details); details = ui::GestureEventDetails(ui::ET_GESTURE_SCROLL_BEGIN); details.set_bounding_box(bounding_box); scroll_begin = GestureEventForTest(details); details = ui::GestureEventDetails(ui::ET_GESTURE_END); details.set_bounding_box(bounding_box); end = GestureEventForTest(details); // If no default gesture handler is currently set, targeting should be // performed using the location of the gesture event for a TAP and a // SCROLL_BEGIN. SetGestureHandlerSetBeforeProcessing(root_view, false); EXPECT_EQ(grandchild, targeter->FindTargetForEvent(root_view, &tap)); EXPECT_EQ(grandchild, targeter->FindTargetForEvent(root_view, &scroll_begin)); // If no default gesture handler is currently set, GESTURE_END events // should never be re-targeted to any View. EXPECT_EQ(NULL, targeter->FindNextBestTarget(NULL, &end)); EXPECT_EQ(NULL, targeter->FindNextBestTarget(child, &end)); } // Tests that the contents view is targeted instead of the root view for // gesture events that should be targeted to the contents view. Also // tests that the root view is targeted for gesture events which should // not be targeted to any other view in the views tree. TEST_F(ViewTargeterTest, TargetContentsAndRootView) { Widget widget; Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_POPUP); init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; init_params.bounds = gfx::Rect(0, 0, 200, 200); widget.Init(init_params); // The coordinates used for SetBounds() are in the parent coordinate space. View* content = new View; content->SetBounds(0, 0, 100, 100); widget.SetContentsView(content); internal::RootView* root_view = static_cast(widget.GetRootView()); ui::EventTargeter* targeter = root_view->targeter(); // A gesture event located entirely within the contents view should // target the contents view. gfx::RectF bounding_box(gfx::PointF(96.f, 96.f), gfx::SizeF(8.f, 8.f)); ui::GestureEventDetails details(ui::ET_GESTURE_TAP); details.set_bounding_box(bounding_box); GestureEventForTest tap(details); EXPECT_EQ(content, targeter->FindTargetForEvent(root_view, &tap)); // A gesture event not located entirely within the contents view but // having its center within the contents view should target // the contents view. bounding_box = gfx::RectF(gfx::PointF(194.f, 100.f), gfx::SizeF(8.f, 8.f)); details.set_bounding_box(bounding_box); tap = GestureEventForTest(details); EXPECT_EQ(content, targeter->FindTargetForEvent(root_view, &tap)); // A gesture event with its center not located within the contents // view but that overlaps the contents view by at least 60% should // target the contents view. bounding_box = gfx::RectF(gfx::PointF(50.f, 0.f), gfx::SizeF(400.f, 200.f)); details.set_bounding_box(bounding_box); tap = GestureEventForTest(details); // This only applies if rect-based targeting is enabled. if (views::switches::IsRectBasedTargetingEnabled()) { EXPECT_EQ(content, targeter->FindTargetForEvent(root_view, &tap)); } else { EXPECT_EQ(widget.GetRootView(), targeter->FindTargetForEvent(root_view, &tap)); } // A gesture event not overlapping the contents view by at least // 60% and not having its center within the contents view should // be targeted to the root view. bounding_box = gfx::RectF(gfx::PointF(196.f, 100.f), gfx::SizeF(8.f, 8.f)); details.set_bounding_box(bounding_box); tap = GestureEventForTest(details); EXPECT_EQ(widget.GetRootView(), targeter->FindTargetForEvent(root_view, &tap)); // A gesture event completely outside the contents view should be targeted // to the root view. bounding_box = gfx::RectF(gfx::PointF(205.f, 100.f), gfx::SizeF(8.f, 8.f)); details.set_bounding_box(bounding_box); tap = GestureEventForTest(details); EXPECT_EQ(widget.GetRootView(), targeter->FindTargetForEvent(root_view, &tap)); // A gesture event with dimensions 1x1 located entirely within the // contents view should target the contents view. bounding_box = gfx::RectF(gfx::PointF(175.f, 100.f), gfx::SizeF(1.f, 1.f)); details.set_bounding_box(bounding_box); tap = GestureEventForTest(details); EXPECT_EQ(content, targeter->FindTargetForEvent(root_view, &tap)); // A gesture event with dimensions 1x1 located entirely outside the // contents view should be targeted to the root view. bounding_box = gfx::RectF(gfx::PointF(205.f, 100.f), gfx::SizeF(1.f, 1.f)); details.set_bounding_box(bounding_box); tap = GestureEventForTest(details); EXPECT_EQ(widget.GetRootView(), targeter->FindTargetForEvent(root_view, &tap)); } // Tests that calls to FindTargetForEvent() and FindNextBestTarget() change // the location of a gesture event to be in the correct coordinate space. TEST_F(ViewTargeterTest, GestureEventCoordinateConversion) { Widget widget; Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_POPUP); init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; init_params.bounds = gfx::Rect(0, 0, 200, 200); widget.Init(init_params); // The coordinates used for SetBounds() are in the parent coordinate space. View* content = new View; content->SetBounds(0, 0, 100, 100); View* child = new View; child->SetBounds(50, 50, 20, 20); View* grandchild = new View; grandchild->SetBounds(5, 5, 10, 10); View* great_grandchild = new View; great_grandchild->SetBounds(3, 3, 4, 4); widget.SetContentsView(content); content->AddChildView(child); child->AddChildView(grandchild); grandchild->AddChildView(great_grandchild); internal::RootView* root_view = static_cast(widget.GetRootView()); ui::EventTargeter* targeter = root_view->targeter(); // Define a GESTURE_TAP event with a bounding box centered at (60, 60) // in root view coordinates with width and height of 4. gfx::RectF bounding_box(gfx::PointF(58.f, 58.f), gfx::SizeF(4.f, 4.f)); gfx::PointF center_point(bounding_box.CenterPoint()); ui::GestureEventDetails details(ui::ET_GESTURE_TAP); details.set_bounding_box(bounding_box); GestureEventForTest tap(details); // Calculate the location of the gesture in each of the different // coordinate spaces. gfx::Point location_in_root(gfx::ToFlooredPoint(center_point)); EXPECT_EQ(gfx::Point(60, 60), location_in_root); gfx::Point location_in_great_grandchild( ConvertPointFromWidgetToView(great_grandchild, location_in_root)); EXPECT_EQ(gfx::Point(2, 2), location_in_great_grandchild); gfx::Point location_in_grandchild( ConvertPointFromWidgetToView(grandchild, location_in_root)); EXPECT_EQ(gfx::Point(5, 5), location_in_grandchild); gfx::Point location_in_child( ConvertPointFromWidgetToView(child, location_in_root)); EXPECT_EQ(gfx::Point(10, 10), location_in_child); gfx::Point location_in_content( ConvertPointFromWidgetToView(content, location_in_root)); EXPECT_EQ(gfx::Point(60, 60), location_in_content); // Verify the location of |tap| is in screen coordinates. EXPECT_EQ(gfx::Point(60, 60), tap.location()); // The initial target should be |great_grandchild| and the location of // the event should be changed into the coordinate space of the target. EXPECT_EQ(great_grandchild, targeter->FindTargetForEvent(root_view, &tap)); EXPECT_EQ(location_in_great_grandchild, tap.location()); SetGestureHandler(root_view, great_grandchild); // The next target should be |grandchild| and the location of // the event should be changed into the coordinate space of the target. EXPECT_EQ(grandchild, targeter->FindNextBestTarget(great_grandchild, &tap)); EXPECT_EQ(location_in_grandchild, tap.location()); SetGestureHandler(root_view, grandchild); // The next target should be |child| and the location of // the event should be changed into the coordinate space of the target. EXPECT_EQ(child, targeter->FindNextBestTarget(grandchild, &tap)); EXPECT_EQ(location_in_child, tap.location()); SetGestureHandler(root_view, child); // The next target should be |content| and the location of // the event should be changed into the coordinate space of the target. EXPECT_EQ(content, targeter->FindNextBestTarget(child, &tap)); EXPECT_EQ(location_in_content, tap.location()); SetGestureHandler(root_view, content); // The next target should be |root_view| and the location of // the event should be changed into the coordinate space of the target. EXPECT_EQ(widget.GetRootView(), targeter->FindNextBestTarget(content, &tap)); EXPECT_EQ(location_in_root, tap.location()); SetGestureHandler(root_view, widget.GetRootView()); // The next target should be NULL and the location of the event should // remain unchanged. EXPECT_EQ(NULL, targeter->FindNextBestTarget(widget.GetRootView(), &tap)); EXPECT_EQ(location_in_root, tap.location()); } // Tests that the functions ViewTargeterDelegate::DoesIntersectRect() // and MaskedTargeterDelegate::DoesIntersectRect() work as intended when // called on views which are derived from ViewTargeterDelegate. // Also verifies that ViewTargeterDelegate::DoesIntersectRect() can // be called from the ViewTargeter installed on RootView. TEST_F(ViewTargeterTest, DoesIntersectRect) { Widget widget; Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.ownership = views::Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; params.bounds = gfx::Rect(0, 0, 650, 650); widget.Init(params); internal::RootView* root_view = static_cast(widget.GetRootView()); ViewTargeter* view_targeter = root_view->targeter(); // The coordinates used for SetBounds() are in the parent coordinate space. TestingView v2; TestMaskedView v1, v3; v1.SetBounds(0, 0, 200, 200); v2.SetBounds(300, 0, 300, 300); v3.SetBounds(0, 0, 100, 100); root_view->AddChildView(&v1); root_view->AddChildView(&v2); v2.AddChildView(&v3); // The coordinates used below are in the local coordinate space of the // view that is passed in as an argument. // Hit tests against |v1|, which has a hit test mask. EXPECT_TRUE(v1.TestDoesIntersectRect(&v1, gfx::Rect(0, 0, 200, 200))); EXPECT_TRUE(v1.TestDoesIntersectRect(&v1, gfx::Rect(-10, -10, 110, 12))); EXPECT_TRUE(v1.TestDoesIntersectRect(&v1, gfx::Rect(112, 142, 1, 1))); EXPECT_FALSE(v1.TestDoesIntersectRect(&v1, gfx::Rect(0, 0, 20, 20))); EXPECT_FALSE(v1.TestDoesIntersectRect(&v1, gfx::Rect(-10, -10, 90, 12))); EXPECT_FALSE(v1.TestDoesIntersectRect(&v1, gfx::Rect(150, 49, 1, 1))); // Hit tests against |v2|, which does not have a hit test mask. EXPECT_TRUE(v2.TestDoesIntersectRect(&v2, gfx::Rect(0, 0, 200, 200))); EXPECT_TRUE(v2.TestDoesIntersectRect(&v2, gfx::Rect(-10, 250, 60, 60))); EXPECT_TRUE(v2.TestDoesIntersectRect(&v2, gfx::Rect(250, 250, 1, 1))); EXPECT_FALSE(v2.TestDoesIntersectRect(&v2, gfx::Rect(-10, 250, 7, 7))); EXPECT_FALSE(v2.TestDoesIntersectRect(&v2, gfx::Rect(-1, -1, 1, 1))); // Hit tests against |v3|, which has a hit test mask and is a child of |v2|. EXPECT_TRUE(v3.TestDoesIntersectRect(&v3, gfx::Rect(0, 0, 50, 50))); EXPECT_TRUE(v3.TestDoesIntersectRect(&v3, gfx::Rect(90, 90, 1, 1))); EXPECT_FALSE(v3.TestDoesIntersectRect(&v3, gfx::Rect(10, 125, 50, 50))); EXPECT_FALSE(v3.TestDoesIntersectRect(&v3, gfx::Rect(110, 110, 1, 1))); // Verify that hit-testing is performed correctly when using the // call-through function ViewTargeter::DoesIntersectRect(). EXPECT_TRUE(view_targeter->DoesIntersectRect(root_view, gfx::Rect(0, 0, 50, 50))); EXPECT_FALSE(view_targeter->DoesIntersectRect(root_view, gfx::Rect(-20, -20, 10, 10))); } // Tests that calls made directly on the hit-testing methods in View // (HitTestPoint(), HitTestRect(), etc.) return the correct values. TEST_F(ViewTargeterTest, HitTestCallsOnView) { // The coordinates in this test are in the coordinate space of the root view. Widget* widget = new Widget; Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); widget->Init(params); View* root_view = widget->GetRootView(); root_view->SetBoundsRect(gfx::Rect(0, 0, 500, 500)); // |v1| has no hit test mask. No ViewTargeter is installed on |v1|, which // means that View::HitTestRect() will call into the targeter installed on // the root view instead when we hit test against |v1|. gfx::Rect v1_bounds = gfx::Rect(0, 0, 100, 100); TestingView* v1 = new TestingView(); v1->SetBoundsRect(v1_bounds); root_view->AddChildView(v1); // |v2| has a triangular hit test mask. Install a ViewTargeter on |v2| which // will be called into by View::HitTestRect(). gfx::Rect v2_bounds = gfx::Rect(105, 0, 100, 100); TestMaskedView* v2 = new TestMaskedView(); v2->SetBoundsRect(v2_bounds); root_view->AddChildView(v2); ViewTargeter* view_targeter = new ViewTargeter(v2); v2->SetEventTargeter(make_scoped_ptr(view_targeter)); gfx::Point v1_centerpoint = v1_bounds.CenterPoint(); gfx::Point v2_centerpoint = v2_bounds.CenterPoint(); gfx::Point v1_origin = v1_bounds.origin(); gfx::Point v2_origin = v2_bounds.origin(); gfx::Rect r1(10, 10, 110, 15); gfx::Rect r2(106, 1, 98, 98); gfx::Rect r3(0, 0, 300, 300); gfx::Rect r4(115, 342, 200, 10); // Test calls into View::HitTestPoint(). EXPECT_TRUE( v1->HitTestPoint(ConvertPointFromWidgetToView(v1, v1_centerpoint))); EXPECT_TRUE( v2->HitTestPoint(ConvertPointFromWidgetToView(v2, v2_centerpoint))); EXPECT_TRUE(v1->HitTestPoint(ConvertPointFromWidgetToView(v1, v1_origin))); EXPECT_FALSE(v2->HitTestPoint(ConvertPointFromWidgetToView(v2, v2_origin))); // Test calls into View::HitTestRect(). EXPECT_TRUE(v1->HitTestRect(ConvertRectFromWidgetToView(v1, r1))); EXPECT_FALSE(v2->HitTestRect(ConvertRectFromWidgetToView(v2, r1))); EXPECT_FALSE(v1->HitTestRect(ConvertRectFromWidgetToView(v1, r2))); EXPECT_TRUE(v2->HitTestRect(ConvertRectFromWidgetToView(v2, r2))); EXPECT_TRUE(v1->HitTestRect(ConvertRectFromWidgetToView(v1, r3))); EXPECT_TRUE(v2->HitTestRect(ConvertRectFromWidgetToView(v2, r3))); EXPECT_FALSE(v1->HitTestRect(ConvertRectFromWidgetToView(v1, r4))); EXPECT_FALSE(v2->HitTestRect(ConvertRectFromWidgetToView(v2, r4))); // Test calls into View::GetEventHandlerForPoint(). EXPECT_EQ(v1, root_view->GetEventHandlerForPoint(v1_centerpoint)); EXPECT_EQ(v2, root_view->GetEventHandlerForPoint(v2_centerpoint)); EXPECT_EQ(v1, root_view->GetEventHandlerForPoint(v1_origin)); EXPECT_EQ(root_view, root_view->GetEventHandlerForPoint(v2_origin)); // Test calls into View::GetTooltipHandlerForPoint(). EXPECT_EQ(v1, root_view->GetTooltipHandlerForPoint(v1_centerpoint)); EXPECT_EQ(v2, root_view->GetTooltipHandlerForPoint(v2_centerpoint)); EXPECT_EQ(v1, root_view->GetTooltipHandlerForPoint(v1_origin)); EXPECT_EQ(root_view, root_view->GetTooltipHandlerForPoint(v2_origin)); EXPECT_FALSE(v1->GetTooltipHandlerForPoint(v2_origin)); widget->CloseNow(); } } // namespace test } // namespace views