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chromium / chromium / src.git / ec6b51a9acf58ca21219c28a51e85d98f6f873dd / . / content / browser / renderer_host / input / touch_handle_unittest.cc
blob: 03903c3f9d9b92a173cff5fc76311f7f94ccdbd6 [file] [log] [blame]
// 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 "content/browser/renderer_host/input/touch_handle.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "ui/events/test/mock_motion_event.h"
#include "ui/gfx/geometry/rect_f.h"
using ui::test::MockMotionEvent;
namespace content {
namespace {
const int kDefaultTapTimeoutMs = 200;
const float kDefaultTapSlop = 10.f;
const float kDefaultDrawableSize = 10.f;
struct MockDrawableData {
MockDrawableData()
: orientation(TOUCH_HANDLE_ORIENTATION_UNDEFINED),
alpha(0.f),
enabled(false),
visible(false),
rect(0, 0, kDefaultDrawableSize, kDefaultDrawableSize) {}
TouchHandleOrientation orientation;
float alpha;
bool enabled;
bool visible;
gfx::RectF rect;
};
class MockTouchHandleDrawable : public TouchHandleDrawable {
public:
explicit MockTouchHandleDrawable(MockDrawableData* data) : data_(data) {}
virtual ~MockTouchHandleDrawable() {}
virtual void SetEnabled(bool enabled) override { data_->enabled = enabled; }
virtual void SetOrientation(TouchHandleOrientation orientation) override {
data_->orientation = orientation;
}
virtual void SetAlpha(float alpha) override { data_->alpha = alpha; }
virtual void SetFocus(const gfx::PointF& position) override {
// Anchor focus to the top left of the rect (regardless of orientation).
data_->rect.set_origin(position);
}
virtual void SetVisible(bool visible) override { data_->visible = visible; }
virtual bool IntersectsWith(const gfx::RectF& rect) const override {
return data_->rect.Intersects(rect);
}
private:
MockDrawableData* data_;
};
} // namespace
class TouchHandleTest : public testing::Test, public TouchHandleClient {
public:
TouchHandleTest()
: dragging_(false),
dragged_(false),
tapped_(false),
needs_animate_(false) {}
virtual ~TouchHandleTest() {}
// TouchHandleClient implementation.
virtual void OnHandleDragBegin(const TouchHandle& handle) override {
dragging_ = true;
}
virtual void OnHandleDragUpdate(const TouchHandle& handle,
const gfx::PointF& new_position) override {
dragged_ = true;
drag_position_ = new_position;
}
virtual void OnHandleDragEnd(const TouchHandle& handle) override {
dragging_ = false;
}
virtual void OnHandleTapped(const TouchHandle& handle) override {
tapped_ = true;
}
virtual void SetNeedsAnimate() override { needs_animate_ = true; }
virtual scoped_ptr<TouchHandleDrawable> CreateDrawable() override {
return scoped_ptr<TouchHandleDrawable>(
new MockTouchHandleDrawable(&drawable_data_));
}
virtual base::TimeDelta GetTapTimeout() const override {
return base::TimeDelta::FromMilliseconds(kDefaultTapTimeoutMs);
}
virtual float GetTapSlop() const override { return kDefaultTapSlop; }
void Animate(TouchHandle& handle) {
needs_animate_ = false;
base::TimeTicks now = base::TimeTicks::Now();
while (handle.Animate(now))
now += base::TimeDelta::FromMilliseconds(16);
}
bool GetAndResetHandleDragged() {
bool dragged = dragged_;
dragged_ = false;
return dragged;
}
bool GetAndResetHandleTapped() {
bool tapped = tapped_;
tapped_ = false;
return tapped;
}
bool GetAndResetNeedsAnimate() {
bool needs_animate = needs_animate_;
needs_animate_ = false;
return needs_animate;
}
bool IsDragging() const { return dragging_; }
const gfx::PointF& DragPosition() const { return drag_position_; }
bool NeedsAnimate() const { return needs_animate_; }
const MockDrawableData& drawable() { return drawable_data_; }
private:
gfx::PointF drag_position_;
bool dragging_;
bool dragged_;
bool tapped_;
bool needs_animate_;
MockDrawableData drawable_data_;
};
TEST_F(TouchHandleTest, Visibility) {
TouchHandle handle(this, TOUCH_HANDLE_CENTER);
EXPECT_FALSE(drawable().visible);
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
EXPECT_TRUE(drawable().visible);
EXPECT_EQ(1.f, drawable().alpha);
handle.SetVisible(false, TouchHandle::ANIMATION_NONE);
EXPECT_FALSE(drawable().visible);
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
EXPECT_TRUE(drawable().visible);
EXPECT_EQ(1.f, drawable().alpha);
}
TEST_F(TouchHandleTest, VisibilityAnimation) {
TouchHandle handle(this, TOUCH_HANDLE_CENTER);
ASSERT_FALSE(NeedsAnimate());
ASSERT_FALSE(drawable().visible);
ASSERT_EQ(0.f, drawable().alpha);
handle.SetVisible(true, TouchHandle::ANIMATION_SMOOTH);
EXPECT_TRUE(NeedsAnimate());
EXPECT_TRUE(drawable().visible);
EXPECT_EQ(0.f, drawable().alpha);
Animate(handle);
EXPECT_TRUE(drawable().visible);
EXPECT_EQ(1.f, drawable().alpha);
ASSERT_FALSE(NeedsAnimate());
handle.SetVisible(false, TouchHandle::ANIMATION_SMOOTH);
EXPECT_TRUE(NeedsAnimate());
EXPECT_TRUE(drawable().visible);
EXPECT_EQ(1.f, drawable().alpha);
Animate(handle);
EXPECT_FALSE(drawable().visible);
EXPECT_EQ(0.f, drawable().alpha);
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
EXPECT_EQ(1.f, drawable().alpha);
EXPECT_FALSE(GetAndResetNeedsAnimate());
handle.SetVisible(false, TouchHandle::ANIMATION_SMOOTH);
EXPECT_EQ(1.f, drawable().alpha);
EXPECT_TRUE(GetAndResetNeedsAnimate());
handle.SetVisible(true, TouchHandle::ANIMATION_SMOOTH);
EXPECT_EQ(1.f, drawable().alpha);
EXPECT_FALSE(GetAndResetNeedsAnimate());
}
TEST_F(TouchHandleTest, Orientation) {
TouchHandle handle(this, TOUCH_HANDLE_CENTER);
EXPECT_EQ(TOUCH_HANDLE_CENTER, drawable().orientation);
handle.SetOrientation(TOUCH_HANDLE_LEFT);
EXPECT_EQ(TOUCH_HANDLE_LEFT, drawable().orientation);
handle.SetOrientation(TOUCH_HANDLE_RIGHT);
EXPECT_EQ(TOUCH_HANDLE_RIGHT, drawable().orientation);
handle.SetOrientation(TOUCH_HANDLE_CENTER);
EXPECT_EQ(TOUCH_HANDLE_CENTER, drawable().orientation);
}
TEST_F(TouchHandleTest, Position) {
TouchHandle handle(this, TOUCH_HANDLE_CENTER);
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
gfx::PointF position;
EXPECT_EQ(gfx::PointF(), drawable().rect.origin());
position = gfx::PointF(7.3f, -3.7f);
handle.SetPosition(position);
EXPECT_EQ(position, drawable().rect.origin());
position = gfx::PointF(-7.3f, 3.7f);
handle.SetPosition(position);
EXPECT_EQ(position, drawable().rect.origin());
}
TEST_F(TouchHandleTest, PositionNotUpdatedWhileFadingOrInvisible) {
TouchHandle handle(this, TOUCH_HANDLE_CENTER);
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
ASSERT_TRUE(drawable().visible);
ASSERT_FALSE(NeedsAnimate());
gfx::PointF old_position(7.3f, -3.7f);
handle.SetPosition(old_position);
ASSERT_EQ(old_position, drawable().rect.origin());
handle.SetVisible(false, TouchHandle::ANIMATION_SMOOTH);
ASSERT_TRUE(NeedsAnimate());
gfx::PointF new_position(3.7f, -3.7f);
handle.SetPosition(new_position);
EXPECT_EQ(old_position, drawable().rect.origin());
EXPECT_TRUE(NeedsAnimate());
// While the handle is fading, the new position should not take affect.
base::TimeTicks now = base::TimeTicks::Now();
while (handle.Animate(now)) {
EXPECT_EQ(old_position, drawable().rect.origin());
now += base::TimeDelta::FromMilliseconds(16);
}
// Even after the animation terminates, the new position will not be pushed.
EXPECT_EQ(old_position, drawable().rect.origin());
// As soon as the handle becomes visible, the new position will be pushed.
handle.SetVisible(true, TouchHandle::ANIMATION_SMOOTH);
EXPECT_EQ(new_position, drawable().rect.origin());
}
TEST_F(TouchHandleTest, Enabled) {
// A newly created handle defaults to enabled.
TouchHandle handle(this, TOUCH_HANDLE_CENTER);
EXPECT_TRUE(drawable().enabled);
handle.SetVisible(true, TouchHandle::ANIMATION_SMOOTH);
EXPECT_TRUE(GetAndResetNeedsAnimate());
EXPECT_EQ(0.f, drawable().alpha);
handle.SetEnabled(false);
EXPECT_FALSE(drawable().enabled);
// Dragging should not be allowed while the handle is disabled.
base::TimeTicks event_time = base::TimeTicks::Now();
const float kOffset = kDefaultDrawableSize / 2.f;
MockMotionEvent event(
MockMotionEvent::ACTION_DOWN, event_time, kOffset, kOffset);
EXPECT_FALSE(handle.WillHandleTouchEvent(event));
// Disabling mid-animation should cancel the animation.
handle.SetEnabled(true);
handle.SetVisible(false, TouchHandle::ANIMATION_SMOOTH);
EXPECT_TRUE(drawable().visible);
EXPECT_TRUE(GetAndResetNeedsAnimate());
handle.SetEnabled(false);
EXPECT_FALSE(drawable().enabled);
EXPECT_FALSE(drawable().visible);
EXPECT_FALSE(handle.Animate(base::TimeTicks::Now()));
// Disabling mid-drag should cancel the drag.
handle.SetEnabled(true);
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(IsDragging());
handle.SetEnabled(false);
EXPECT_FALSE(IsDragging());
EXPECT_FALSE(handle.WillHandleTouchEvent(event));
}
TEST_F(TouchHandleTest, Drag) {
TouchHandle handle(this, TOUCH_HANDLE_CENTER);
base::TimeTicks event_time = base::TimeTicks::Now();
const float kOffset = kDefaultDrawableSize / 2.f;
// The handle must be visible to trigger drag.
MockMotionEvent event(
MockMotionEvent::ACTION_DOWN, event_time, kOffset, kOffset);
EXPECT_FALSE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(IsDragging());
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
// ACTION_DOWN must fall within the drawable region to trigger drag.
event = MockMotionEvent(MockMotionEvent::ACTION_DOWN, event_time, 50, 50);
EXPECT_FALSE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(IsDragging());
// Only ACTION_DOWN will trigger drag.
event = MockMotionEvent(
MockMotionEvent::ACTION_MOVE, event_time, kOffset, kOffset);
EXPECT_FALSE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(IsDragging());
// Start the drag.
event = MockMotionEvent(
MockMotionEvent::ACTION_DOWN, event_time, kOffset, kOffset);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(IsDragging());
event = MockMotionEvent(
MockMotionEvent::ACTION_MOVE, event_time, kOffset + 10, kOffset + 15);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(GetAndResetHandleDragged());
EXPECT_TRUE(IsDragging());
EXPECT_EQ(gfx::PointF(10, 15), DragPosition());
event = MockMotionEvent(
MockMotionEvent::ACTION_MOVE, event_time, kOffset - 10, kOffset - 15);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(GetAndResetHandleDragged());
EXPECT_TRUE(IsDragging());
EXPECT_EQ(gfx::PointF(-10, -15), DragPosition());
event = MockMotionEvent(MockMotionEvent::ACTION_UP);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(GetAndResetHandleDragged());
EXPECT_FALSE(IsDragging());
// Non-ACTION_DOWN events after the drag has terminated should not be handled.
event = MockMotionEvent(MockMotionEvent::ACTION_CANCEL);
EXPECT_FALSE(handle.WillHandleTouchEvent(event));
}
TEST_F(TouchHandleTest, DragDefersOrientationChange) {
TouchHandle handle(this, TOUCH_HANDLE_RIGHT);
ASSERT_EQ(drawable().orientation, TOUCH_HANDLE_RIGHT);
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
MockMotionEvent event(MockMotionEvent::ACTION_DOWN);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(IsDragging());
// Orientation changes will be deferred until the drag ends.
handle.SetOrientation(TOUCH_HANDLE_LEFT);
EXPECT_EQ(TOUCH_HANDLE_RIGHT, drawable().orientation);
event = MockMotionEvent(MockMotionEvent::ACTION_MOVE);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(GetAndResetHandleDragged());
EXPECT_TRUE(IsDragging());
EXPECT_EQ(TOUCH_HANDLE_RIGHT, drawable().orientation);
event = MockMotionEvent(MockMotionEvent::ACTION_UP);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(GetAndResetHandleDragged());
EXPECT_FALSE(IsDragging());
EXPECT_EQ(TOUCH_HANDLE_LEFT, drawable().orientation);
}
TEST_F(TouchHandleTest, DragDefersFade) {
TouchHandle handle(this, TOUCH_HANDLE_CENTER);
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
MockMotionEvent event(MockMotionEvent::ACTION_DOWN);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(IsDragging());
// Fade will be deferred until the drag ends.
handle.SetVisible(false, TouchHandle::ANIMATION_SMOOTH);
EXPECT_FALSE(NeedsAnimate());
EXPECT_TRUE(drawable().visible);
EXPECT_EQ(1.f, drawable().alpha);
event = MockMotionEvent(MockMotionEvent::ACTION_MOVE);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(NeedsAnimate());
EXPECT_TRUE(drawable().visible);
event = MockMotionEvent(MockMotionEvent::ACTION_UP);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(IsDragging());
EXPECT_TRUE(NeedsAnimate());
Animate(handle);
EXPECT_FALSE(drawable().visible);
EXPECT_EQ(0.f, drawable().alpha);
}
TEST_F(TouchHandleTest, DragTargettingUsesTouchSize) {
TouchHandle handle(this, TOUCH_HANDLE_CENTER);
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
base::TimeTicks event_time = base::TimeTicks::Now();
const float kTouchSize = 24.f;
const float kOffset = kDefaultDrawableSize + kTouchSize / 2.001f;
MockMotionEvent event(
MockMotionEvent::ACTION_DOWN, event_time, kOffset, kOffset);
event.SetTouchMajor(0.f);
EXPECT_FALSE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(IsDragging());
event.SetTouchMajor(kTouchSize / 2.f);
EXPECT_FALSE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(IsDragging());
event.SetTouchMajor(kTouchSize);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(IsDragging());
event.SetTouchMajor(kTouchSize * 2.f);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(IsDragging());
// Ensure a touch size of 0 can still register a hit.
event = MockMotionEvent(MockMotionEvent::ACTION_DOWN,
event_time,
kDefaultDrawableSize / 2.f,
kDefaultDrawableSize / 2.f);
event.SetTouchMajor(0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(IsDragging());
}
TEST_F(TouchHandleTest, Tap) {
TouchHandle handle(this, TOUCH_HANDLE_CENTER);
handle.SetVisible(true, TouchHandle::ANIMATION_NONE);
base::TimeTicks event_time = base::TimeTicks::Now();
// ACTION_CANCEL shouldn't trigger a tap.
MockMotionEvent event(MockMotionEvent::ACTION_DOWN, event_time, 0, 0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
event_time += base::TimeDelta::FromMilliseconds(50);
event = MockMotionEvent(MockMotionEvent::ACTION_CANCEL, event_time, 0, 0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(GetAndResetHandleTapped());
// Long press shouldn't trigger a tap.
event = MockMotionEvent(MockMotionEvent::ACTION_DOWN, event_time, 0, 0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
event_time += 2 * GetTapTimeout();
event = MockMotionEvent(MockMotionEvent::ACTION_UP, event_time, 0, 0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(GetAndResetHandleTapped());
// Only a brief tap within the slop region should trigger a tap.
event = MockMotionEvent(MockMotionEvent::ACTION_DOWN, event_time, 0, 0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
event_time += GetTapTimeout() / 2;
event = MockMotionEvent(
MockMotionEvent::ACTION_MOVE, event_time, kDefaultTapSlop / 2.f, 0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
event = MockMotionEvent(
MockMotionEvent::ACTION_UP, event_time, kDefaultTapSlop / 2.f, 0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_TRUE(GetAndResetHandleTapped());
// Moving beyond the slop region shouldn't trigger a tap.
event = MockMotionEvent(MockMotionEvent::ACTION_DOWN, event_time, 0, 0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
event_time += GetTapTimeout() / 2;
event = MockMotionEvent(
MockMotionEvent::ACTION_MOVE, event_time, kDefaultTapSlop * 2.f, 0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
event = MockMotionEvent(
MockMotionEvent::ACTION_UP, event_time, kDefaultTapSlop * 2.f, 0);
EXPECT_TRUE(handle.WillHandleTouchEvent(event));
EXPECT_FALSE(GetAndResetHandleTapped());
}
} // namespace content