1 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
7 #include "testing/gtest/include/gtest/gtest.h"
8 #include "ui/events/event.h"
9 #include "ui/events/event_targeter.h"
10 #include "ui/events/event_utils.h"
11 #include "ui/events/test/events_test_utils.h"
12 #include "ui/events/test/test_event_handler.h"
13 #include "ui/events/test/test_event_processor.h"
14 #include "ui/events/test/test_event_target.h"
16 typedef std::vector
<std::string
> HandlerSequenceRecorder
;
21 class EventProcessorTest
: public testing::Test
{
23 EventProcessorTest() {}
24 ~EventProcessorTest() override
{}
27 void SetUp() override
{
28 processor_
.SetRoot(scoped_ptr
<EventTarget
>(new TestEventTarget()));
30 root()->SetEventTargeter(make_scoped_ptr(new EventTargeter()));
33 TestEventTarget
* root() {
34 return static_cast<TestEventTarget
*>(processor_
.GetRootTarget());
37 TestEventProcessor
* processor() {
41 void DispatchEvent(Event
* event
) {
42 processor_
.OnEventFromSource(event
);
46 TestEventProcessor processor_
;
48 DISALLOW_COPY_AND_ASSIGN(EventProcessorTest
);
51 TEST_F(EventProcessorTest
, Basic
) {
52 scoped_ptr
<TestEventTarget
> child(new TestEventTarget());
53 root()->AddChild(child
.Pass());
55 MouseEvent
mouse(ET_MOUSE_MOVED
, gfx::Point(10, 10), gfx::Point(10, 10),
56 EventTimeForNow(), EF_NONE
, EF_NONE
);
57 DispatchEvent(&mouse
);
58 EXPECT_TRUE(root()->child_at(0)->DidReceiveEvent(ET_MOUSE_MOVED
));
59 EXPECT_FALSE(root()->DidReceiveEvent(ET_MOUSE_MOVED
));
61 root()->RemoveChild(root()->child_at(0));
62 DispatchEvent(&mouse
);
63 EXPECT_TRUE(root()->DidReceiveEvent(ET_MOUSE_MOVED
));
67 class BoundsEventTargeter
: public EventTargeter
{
69 ~BoundsEventTargeter() override
{}
72 bool SubtreeShouldBeExploredForEvent(
73 EventTarget
* target
, const LocatedEvent
& event
) override
{
74 T
* t
= static_cast<T
*>(target
);
75 return (t
->bounds().Contains(event
.location()));
79 class BoundsTestTarget
: public TestEventTarget
{
82 ~BoundsTestTarget() override
{}
84 void set_bounds(gfx::Rect rect
) { bounds_
= rect
; }
85 gfx::Rect
bounds() const { return bounds_
; }
87 static void ConvertPointToTarget(BoundsTestTarget
* source
,
88 BoundsTestTarget
* target
,
89 gfx::Point
* location
) {
91 if (source
->Contains(target
)) {
92 for (; target
&& target
!= source
;
93 target
= static_cast<BoundsTestTarget
*>(target
->parent())) {
94 vector
+= target
->bounds().OffsetFromOrigin();
97 } else if (target
->Contains(source
)) {
98 for (; source
&& source
!= target
;
99 source
= static_cast<BoundsTestTarget
*>(source
->parent())) {
100 vector
+= source
->bounds().OffsetFromOrigin();
110 void ConvertEventToTarget(EventTarget
* target
, LocatedEvent
* event
) override
{
111 event
->ConvertLocationToTarget(this,
112 static_cast<BoundsTestTarget
*>(target
));
117 DISALLOW_COPY_AND_ASSIGN(BoundsTestTarget
);
120 TEST_F(EventProcessorTest
, Bounds
) {
121 scoped_ptr
<BoundsTestTarget
> parent(new BoundsTestTarget());
122 scoped_ptr
<BoundsTestTarget
> child(new BoundsTestTarget());
123 scoped_ptr
<BoundsTestTarget
> grandchild(new BoundsTestTarget());
125 parent
->set_bounds(gfx::Rect(0, 0, 30, 30));
126 child
->set_bounds(gfx::Rect(5, 5, 20, 20));
127 grandchild
->set_bounds(gfx::Rect(5, 5, 5, 5));
129 child
->AddChild(scoped_ptr
<TestEventTarget
>(grandchild
.Pass()));
130 parent
->AddChild(scoped_ptr
<TestEventTarget
>(child
.Pass()));
131 root()->AddChild(scoped_ptr
<TestEventTarget
>(parent
.Pass()));
133 ASSERT_EQ(1u, root()->child_count());
134 ASSERT_EQ(1u, root()->child_at(0)->child_count());
135 ASSERT_EQ(1u, root()->child_at(0)->child_at(0)->child_count());
137 TestEventTarget
* parent_r
= root()->child_at(0);
138 TestEventTarget
* child_r
= parent_r
->child_at(0);
139 TestEventTarget
* grandchild_r
= child_r
->child_at(0);
141 // Dispatch a mouse event that falls on the parent, but not on the child. When
142 // the default event-targeter used, the event will still reach |grandchild|,
143 // because the default targeter does not look at the bounds.
144 MouseEvent
mouse(ET_MOUSE_MOVED
, gfx::Point(1, 1), gfx::Point(1, 1),
145 EventTimeForNow(), EF_NONE
, EF_NONE
);
146 DispatchEvent(&mouse
);
147 EXPECT_FALSE(root()->DidReceiveEvent(ET_MOUSE_MOVED
));
148 EXPECT_FALSE(parent_r
->DidReceiveEvent(ET_MOUSE_MOVED
));
149 EXPECT_FALSE(child_r
->DidReceiveEvent(ET_MOUSE_MOVED
));
150 EXPECT_TRUE(grandchild_r
->DidReceiveEvent(ET_MOUSE_MOVED
));
151 grandchild_r
->ResetReceivedEvents();
153 // Now install a targeter on the parent that looks at the bounds and makes
154 // sure the event reaches the target only if the location of the event within
155 // the bounds of the target.
156 MouseEvent
mouse2(ET_MOUSE_MOVED
, gfx::Point(1, 1), gfx::Point(1, 1),
157 EventTimeForNow(), EF_NONE
, EF_NONE
);
158 parent_r
->SetEventTargeter(scoped_ptr
<EventTargeter
>(
159 new BoundsEventTargeter
<BoundsTestTarget
>()));
160 DispatchEvent(&mouse2
);
161 EXPECT_FALSE(root()->DidReceiveEvent(ET_MOUSE_MOVED
));
162 EXPECT_TRUE(parent_r
->DidReceiveEvent(ET_MOUSE_MOVED
));
163 EXPECT_FALSE(child_r
->DidReceiveEvent(ET_MOUSE_MOVED
));
164 EXPECT_FALSE(grandchild_r
->DidReceiveEvent(ET_MOUSE_MOVED
));
165 parent_r
->ResetReceivedEvents();
167 MouseEvent
second(ET_MOUSE_MOVED
, gfx::Point(12, 12), gfx::Point(12, 12),
168 EventTimeForNow(), EF_NONE
, EF_NONE
);
169 DispatchEvent(&second
);
170 EXPECT_FALSE(root()->DidReceiveEvent(ET_MOUSE_MOVED
));
171 EXPECT_FALSE(parent_r
->DidReceiveEvent(ET_MOUSE_MOVED
));
172 EXPECT_FALSE(child_r
->DidReceiveEvent(ET_MOUSE_MOVED
));
173 EXPECT_TRUE(grandchild_r
->DidReceiveEvent(ET_MOUSE_MOVED
));
176 // ReDispatchEventHandler is used to receive mouse events and forward them
177 // to a specified EventProcessor. Verifies that the event has the correct
178 // target and phase both before and after the nested event processing. Also
179 // verifies that the location of the event remains the same after it has
180 // been processed by the second EventProcessor.
181 class ReDispatchEventHandler
: public TestEventHandler
{
183 ReDispatchEventHandler(EventProcessor
* processor
, EventTarget
* target
)
184 : processor_(processor
), expected_target_(target
) {}
185 ~ReDispatchEventHandler() override
{}
188 void OnMouseEvent(MouseEvent
* event
) override
{
189 TestEventHandler::OnMouseEvent(event
);
191 EXPECT_EQ(expected_target_
, event
->target());
192 EXPECT_EQ(EP_TARGET
, event
->phase());
194 gfx::Point
location(event
->location());
195 EventDispatchDetails details
= processor_
->OnEventFromSource(event
);
196 EXPECT_FALSE(details
.dispatcher_destroyed
);
197 EXPECT_FALSE(details
.target_destroyed
);
199 // The nested event-processing should not have mutated the target,
200 // phase, or location of |event|.
201 EXPECT_EQ(expected_target_
, event
->target());
202 EXPECT_EQ(EP_TARGET
, event
->phase());
203 EXPECT_EQ(location
, event
->location());
207 EventProcessor
* processor_
;
208 EventTarget
* expected_target_
;
210 DISALLOW_COPY_AND_ASSIGN(ReDispatchEventHandler
);
213 // Verifies that the phase and target information of an event is not mutated
214 // as a result of sending the event to an event processor while it is still
215 // being processed by another event processor.
216 TEST_F(EventProcessorTest
, NestedEventProcessing
) {
217 // Add one child to the default event processor used in this test suite.
218 scoped_ptr
<TestEventTarget
> child(new TestEventTarget());
219 root()->AddChild(child
.Pass());
221 // Define a second root target and child.
222 scoped_ptr
<EventTarget
> second_root_scoped(new TestEventTarget());
223 TestEventTarget
* second_root
=
224 static_cast<TestEventTarget
*>(second_root_scoped
.get());
225 second_root
->SetEventTargeter(make_scoped_ptr(new EventTargeter()));
226 scoped_ptr
<TestEventTarget
> second_child(new TestEventTarget());
227 second_root
->AddChild(second_child
.Pass());
229 // Define a second event processor which owns the second root.
230 scoped_ptr
<TestEventProcessor
> second_processor(new TestEventProcessor());
231 second_processor
->SetRoot(second_root_scoped
.Pass());
233 // Indicate that an event which is dispatched to the child target owned by the
234 // first event processor should be handled by |target_handler| instead.
235 scoped_ptr
<TestEventHandler
> target_handler(
236 new ReDispatchEventHandler(second_processor
.get(), root()->child_at(0)));
237 root()->child_at(0)->set_target_handler(target_handler
.get());
239 // Dispatch a mouse event to the tree of event targets owned by the first
240 // event processor, checking in ReDispatchEventHandler that the phase and
241 // target information of the event is correct.
242 MouseEvent
mouse(ET_MOUSE_MOVED
, gfx::Point(10, 10), gfx::Point(10, 10),
243 EventTimeForNow(), EF_NONE
, EF_NONE
);
244 DispatchEvent(&mouse
);
246 // Verify also that |mouse| was seen by the child nodes contained in both
247 // event processors and that the event was not handled.
248 EXPECT_TRUE(root()->child_at(0)->DidReceiveEvent(ET_MOUSE_MOVED
));
249 EXPECT_TRUE(second_root
->child_at(0)->DidReceiveEvent(ET_MOUSE_MOVED
));
250 EXPECT_FALSE(mouse
.handled());
251 second_root
->child_at(0)->ResetReceivedEvents();
252 root()->child_at(0)->ResetReceivedEvents();
254 // Indicate that the child of the second root should handle events, and
255 // dispatch another mouse event to verify that it is marked as handled.
256 second_root
->child_at(0)->set_mark_events_as_handled(true);
257 MouseEvent
mouse2(ET_MOUSE_MOVED
, gfx::Point(10, 10), gfx::Point(10, 10),
258 EventTimeForNow(), EF_NONE
, EF_NONE
);
259 DispatchEvent(&mouse2
);
260 EXPECT_TRUE(root()->child_at(0)->DidReceiveEvent(ET_MOUSE_MOVED
));
261 EXPECT_TRUE(second_root
->child_at(0)->DidReceiveEvent(ET_MOUSE_MOVED
));
262 EXPECT_TRUE(mouse2
.handled());
265 // Verifies that OnEventProcessingFinished() is called when an event
267 TEST_F(EventProcessorTest
, OnEventProcessingFinished
) {
268 scoped_ptr
<TestEventTarget
> child(new TestEventTarget());
269 child
->set_mark_events_as_handled(true);
270 root()->AddChild(child
.Pass());
272 // Dispatch a mouse event. We expect the event to be seen by the target,
273 // handled, and we expect OnEventProcessingFinished() to be invoked once.
274 MouseEvent
mouse(ET_MOUSE_MOVED
, gfx::Point(10, 10), gfx::Point(10, 10),
275 EventTimeForNow(), EF_NONE
, EF_NONE
);
276 DispatchEvent(&mouse
);
277 EXPECT_TRUE(root()->child_at(0)->DidReceiveEvent(ET_MOUSE_MOVED
));
278 EXPECT_FALSE(root()->DidReceiveEvent(ET_MOUSE_MOVED
));
279 EXPECT_TRUE(mouse
.handled());
280 EXPECT_EQ(1, processor()->num_times_processing_finished());
283 // Verifies that OnEventProcessingStarted() has been called when starting to
284 // process an event, and that processing does not take place if
285 // OnEventProcessingStarted() marks the event as handled. Also verifies that
286 // OnEventProcessingFinished() is also called in either case.
287 TEST_F(EventProcessorTest
, OnEventProcessingStarted
) {
288 scoped_ptr
<TestEventTarget
> child(new TestEventTarget());
289 root()->AddChild(child
.Pass());
291 // Dispatch a mouse event. We expect the event to be seen by the target,
292 // OnEventProcessingStarted() should be called once, and
293 // OnEventProcessingFinished() should be called once. The event should
295 MouseEvent
mouse(ET_MOUSE_MOVED
, gfx::Point(10, 10), gfx::Point(10, 10),
296 EventTimeForNow(), EF_NONE
, EF_NONE
);
297 DispatchEvent(&mouse
);
298 EXPECT_TRUE(root()->child_at(0)->DidReceiveEvent(ET_MOUSE_MOVED
));
299 EXPECT_FALSE(root()->DidReceiveEvent(ET_MOUSE_MOVED
));
300 EXPECT_FALSE(mouse
.handled());
301 EXPECT_EQ(1, processor()->num_times_processing_started());
302 EXPECT_EQ(1, processor()->num_times_processing_finished());
303 processor()->Reset();
304 root()->ResetReceivedEvents();
305 root()->child_at(0)->ResetReceivedEvents();
307 // Dispatch another mouse event, but with OnEventProcessingStarted() marking
308 // the event as handled to prevent processing. We expect the event to not be
309 // seen by the target this time, but OnEventProcessingStarted() and
310 // OnEventProcessingFinished() should both still be called once.
311 processor()->set_should_processing_occur(false);
312 MouseEvent
mouse2(ET_MOUSE_MOVED
, gfx::Point(10, 10), gfx::Point(10, 10),
313 EventTimeForNow(), EF_NONE
, EF_NONE
);
314 DispatchEvent(&mouse2
);
315 EXPECT_FALSE(root()->child_at(0)->DidReceiveEvent(ET_MOUSE_MOVED
));
316 EXPECT_FALSE(root()->DidReceiveEvent(ET_MOUSE_MOVED
));
317 EXPECT_TRUE(mouse2
.handled());
318 EXPECT_EQ(1, processor()->num_times_processing_started());
319 EXPECT_EQ(1, processor()->num_times_processing_finished());
322 class IgnoreEventTargeter
: public EventTargeter
{
324 IgnoreEventTargeter() {}
325 ~IgnoreEventTargeter() override
{}
329 bool SubtreeShouldBeExploredForEvent(EventTarget
* target
,
330 const LocatedEvent
& event
) override
{
335 // Verifies that the EventTargeter installed on an EventTarget can dictate
336 // whether the target itself can process an event.
337 TEST_F(EventProcessorTest
, TargeterChecksOwningEventTarget
) {
338 scoped_ptr
<TestEventTarget
> child(new TestEventTarget());
339 root()->AddChild(child
.Pass());
341 MouseEvent
mouse(ET_MOUSE_MOVED
, gfx::Point(10, 10), gfx::Point(10, 10),
342 EventTimeForNow(), EF_NONE
, EF_NONE
);
343 DispatchEvent(&mouse
);
344 EXPECT_TRUE(root()->child_at(0)->DidReceiveEvent(ET_MOUSE_MOVED
));
345 EXPECT_FALSE(root()->DidReceiveEvent(ET_MOUSE_MOVED
));
346 root()->child_at(0)->ResetReceivedEvents();
348 // Install an event handler on |child| which always prevents the target from
350 root()->child_at(0)->SetEventTargeter(
351 scoped_ptr
<EventTargeter
>(new IgnoreEventTargeter()));
352 MouseEvent
mouse2(ET_MOUSE_MOVED
, gfx::Point(10, 10), gfx::Point(10, 10),
353 EventTimeForNow(), EF_NONE
, EF_NONE
);
354 DispatchEvent(&mouse2
);
355 EXPECT_FALSE(root()->child_at(0)->DidReceiveEvent(ET_MOUSE_MOVED
));
356 EXPECT_TRUE(root()->DidReceiveEvent(ET_MOUSE_MOVED
));
359 // An EventTargeter which is used to allow a bubbling behaviour in event
360 // dispatch: if an event is not handled after being dispatched to its
361 // initial target, the event is dispatched to the next-best target as
362 // specified by FindNextBestTarget().
363 class BubblingEventTargeter
: public EventTargeter
{
365 explicit BubblingEventTargeter(TestEventTarget
* initial_target
)
366 : initial_target_(initial_target
) {}
367 ~BubblingEventTargeter() override
{}
371 EventTarget
* FindTargetForEvent(EventTarget
* root
, Event
* event
) override
{
372 return initial_target_
;
375 EventTarget
* FindNextBestTarget(EventTarget
* previous_target
,
376 Event
* event
) override
{
377 return previous_target
->GetParentTarget();
380 TestEventTarget
* initial_target_
;
382 DISALLOW_COPY_AND_ASSIGN(BubblingEventTargeter
);
385 // Tests that unhandled events are correctly dispatched to the next-best
386 // target as decided by the BubblingEventTargeter.
387 TEST_F(EventProcessorTest
, DispatchToNextBestTarget
) {
388 scoped_ptr
<TestEventTarget
> child(new TestEventTarget());
389 scoped_ptr
<TestEventTarget
> grandchild(new TestEventTarget());
391 root()->SetEventTargeter(
392 scoped_ptr
<EventTargeter
>(new BubblingEventTargeter(grandchild
.get())));
393 child
->AddChild(grandchild
.Pass());
394 root()->AddChild(child
.Pass());
396 ASSERT_EQ(1u, root()->child_count());
397 ASSERT_EQ(1u, root()->child_at(0)->child_count());
398 ASSERT_EQ(0u, root()->child_at(0)->child_at(0)->child_count());
400 TestEventTarget
* child_r
= root()->child_at(0);
401 TestEventTarget
* grandchild_r
= child_r
->child_at(0);
403 // When the root has a BubblingEventTargeter installed, events targeted
404 // at the grandchild target should be dispatched to all three targets.
405 KeyEvent
key_event(ET_KEY_PRESSED
, VKEY_ESCAPE
, EF_NONE
);
406 DispatchEvent(&key_event
);
407 EXPECT_TRUE(root()->DidReceiveEvent(ET_KEY_PRESSED
));
408 EXPECT_TRUE(child_r
->DidReceiveEvent(ET_KEY_PRESSED
));
409 EXPECT_TRUE(grandchild_r
->DidReceiveEvent(ET_KEY_PRESSED
));
410 root()->ResetReceivedEvents();
411 child_r
->ResetReceivedEvents();
412 grandchild_r
->ResetReceivedEvents();
414 // Add a pre-target handler on the child of the root that will mark the event
415 // as handled. No targets in the hierarchy should receive the event.
416 TestEventHandler handler
;
417 child_r
->AddPreTargetHandler(&handler
);
418 key_event
= KeyEvent(ET_KEY_PRESSED
, VKEY_ESCAPE
, EF_NONE
);
419 DispatchEvent(&key_event
);
420 EXPECT_FALSE(root()->DidReceiveEvent(ET_KEY_PRESSED
));
421 EXPECT_FALSE(child_r
->DidReceiveEvent(ET_KEY_PRESSED
));
422 EXPECT_FALSE(grandchild_r
->DidReceiveEvent(ET_KEY_PRESSED
));
423 EXPECT_EQ(1, handler
.num_key_events());
426 // Add a post-target handler on the child of the root that will mark the event
427 // as handled. Only the grandchild (the initial target) should receive the
429 child_r
->RemovePreTargetHandler(&handler
);
430 child_r
->AddPostTargetHandler(&handler
);
431 key_event
= KeyEvent(ET_KEY_PRESSED
, VKEY_ESCAPE
, EF_NONE
);
432 DispatchEvent(&key_event
);
433 EXPECT_FALSE(root()->DidReceiveEvent(ET_KEY_PRESSED
));
434 EXPECT_FALSE(child_r
->DidReceiveEvent(ET_KEY_PRESSED
));
435 EXPECT_TRUE(grandchild_r
->DidReceiveEvent(ET_KEY_PRESSED
));
436 EXPECT_EQ(1, handler
.num_key_events());
438 grandchild_r
->ResetReceivedEvents();
439 child_r
->RemovePostTargetHandler(&handler
);
441 // Mark the event as handled when it reaches the EP_TARGET phase of
442 // dispatch at the child of the root. The child and grandchild
443 // targets should both receive the event, but the root should not.
444 child_r
->set_mark_events_as_handled(true);
445 key_event
= KeyEvent(ET_KEY_PRESSED
, VKEY_ESCAPE
, EF_NONE
);
446 DispatchEvent(&key_event
);
447 EXPECT_FALSE(root()->DidReceiveEvent(ET_KEY_PRESSED
));
448 EXPECT_TRUE(child_r
->DidReceiveEvent(ET_KEY_PRESSED
));
449 EXPECT_TRUE(grandchild_r
->DidReceiveEvent(ET_KEY_PRESSED
));
450 root()->ResetReceivedEvents();
451 child_r
->ResetReceivedEvents();
452 grandchild_r
->ResetReceivedEvents();
453 child_r
->set_mark_events_as_handled(false);
456 // Tests that unhandled events are seen by the correct sequence of
457 // targets, pre-target handlers, and post-target handlers when
458 // a BubblingEventTargeter is installed on the root target.
459 TEST_F(EventProcessorTest
, HandlerSequence
) {
460 scoped_ptr
<TestEventTarget
> child(new TestEventTarget());
461 scoped_ptr
<TestEventTarget
> grandchild(new TestEventTarget());
463 root()->SetEventTargeter(
464 scoped_ptr
<EventTargeter
>(new BubblingEventTargeter(grandchild
.get())));
465 child
->AddChild(grandchild
.Pass());
466 root()->AddChild(child
.Pass());
468 ASSERT_EQ(1u, root()->child_count());
469 ASSERT_EQ(1u, root()->child_at(0)->child_count());
470 ASSERT_EQ(0u, root()->child_at(0)->child_at(0)->child_count());
472 TestEventTarget
* child_r
= root()->child_at(0);
473 TestEventTarget
* grandchild_r
= child_r
->child_at(0);
475 HandlerSequenceRecorder recorder
;
476 root()->set_target_name("R");
477 root()->set_recorder(&recorder
);
478 child_r
->set_target_name("C");
479 child_r
->set_recorder(&recorder
);
480 grandchild_r
->set_target_name("G");
481 grandchild_r
->set_recorder(&recorder
);
483 TestEventHandler pre_root
;
484 pre_root
.set_handler_name("PreR");
485 pre_root
.set_recorder(&recorder
);
486 root()->AddPreTargetHandler(&pre_root
);
488 TestEventHandler pre_child
;
489 pre_child
.set_handler_name("PreC");
490 pre_child
.set_recorder(&recorder
);
491 child_r
->AddPreTargetHandler(&pre_child
);
493 TestEventHandler pre_grandchild
;
494 pre_grandchild
.set_handler_name("PreG");
495 pre_grandchild
.set_recorder(&recorder
);
496 grandchild_r
->AddPreTargetHandler(&pre_grandchild
);
498 TestEventHandler post_root
;
499 post_root
.set_handler_name("PostR");
500 post_root
.set_recorder(&recorder
);
501 root()->AddPostTargetHandler(&post_root
);
503 TestEventHandler post_child
;
504 post_child
.set_handler_name("PostC");
505 post_child
.set_recorder(&recorder
);
506 child_r
->AddPostTargetHandler(&post_child
);
508 TestEventHandler post_grandchild
;
509 post_grandchild
.set_handler_name("PostG");
510 post_grandchild
.set_recorder(&recorder
);
511 grandchild_r
->AddPostTargetHandler(&post_grandchild
);
513 MouseEvent
mouse(ET_MOUSE_MOVED
, gfx::Point(10, 10), gfx::Point(10, 10),
514 EventTimeForNow(), EF_NONE
, EF_NONE
);
515 DispatchEvent(&mouse
);
517 std::string expected
[] = { "PreR", "PreC", "PreG", "G", "PostG", "PostC",
518 "PostR", "PreR", "PreC", "C", "PostC", "PostR", "PreR", "R", "PostR" };
519 EXPECT_EQ(std::vector
<std::string
>(
520 expected
, expected
+ arraysize(expected
)), recorder
);