// Copyright (c) 2012 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 "base/memory/scoped_ptr.h" #include "testing/gtest/include/gtest/gtest.h" #include "ui/events/event.h" #include "ui/events/event_utils.h" #include "ui/events/keycodes/dom/dom_code.h" #include "ui/events/keycodes/dom/keycode_converter.h" #include "ui/events/test/events_test_utils.h" #if defined(USE_X11) #include #include "ui/events/test/events_test_utils_x11.h" #include "ui/gfx/x/x11_types.h" #endif namespace ui { TEST(EventTest, NoNativeEvent) { KeyEvent keyev(ET_KEY_PRESSED, VKEY_SPACE, EF_NONE); EXPECT_FALSE(keyev.HasNativeEvent()); } TEST(EventTest, NativeEvent) { #if defined(OS_WIN) MSG native_event = { NULL, WM_KEYUP, VKEY_A, 0 }; KeyEvent keyev(native_event); EXPECT_TRUE(keyev.HasNativeEvent()); #elif defined(USE_X11) ScopedXI2Event event; event.InitKeyEvent(ET_KEY_RELEASED, VKEY_A, EF_NONE); KeyEvent keyev(event); EXPECT_TRUE(keyev.HasNativeEvent()); #endif } TEST(EventTest, GetCharacter) { // Check if Control+Enter returns 10. KeyEvent keyev1(ET_KEY_PRESSED, VKEY_RETURN, EF_CONTROL_DOWN); EXPECT_EQ(10, keyev1.GetCharacter()); // Check if Enter returns 13. KeyEvent keyev2(ET_KEY_PRESSED, VKEY_RETURN, EF_NONE); EXPECT_EQ(13, keyev2.GetCharacter()); #if defined(USE_X11) // For X11, test the functions with native_event() as well. crbug.com/107837 ScopedXI2Event event; event.InitKeyEvent(ET_KEY_PRESSED, VKEY_RETURN, EF_CONTROL_DOWN); KeyEvent keyev3(event); EXPECT_EQ(10, keyev3.GetCharacter()); event.InitKeyEvent(ET_KEY_PRESSED, VKEY_RETURN, EF_NONE); KeyEvent keyev4(event); EXPECT_EQ(13, keyev4.GetCharacter()); #endif } TEST(EventTest, ClickCount) { const gfx::Point origin(0, 0); MouseEvent mouseev(ET_MOUSE_PRESSED, origin, origin, EventTimeForNow(), 0, 0); for (int i = 1; i <=3 ; ++i) { mouseev.SetClickCount(i); EXPECT_EQ(i, mouseev.GetClickCount()); } } TEST(EventTest, RepeatedClick) { const gfx::Point origin(0, 0); MouseEvent mouse_ev1(ET_MOUSE_PRESSED, origin, origin, EventTimeForNow(), 0, 0); MouseEvent mouse_ev2(ET_MOUSE_PRESSED, origin, origin, EventTimeForNow(), 0, 0); LocatedEventTestApi test_ev1(&mouse_ev1); LocatedEventTestApi test_ev2(&mouse_ev2); base::TimeDelta start = base::TimeDelta::FromMilliseconds(0); base::TimeDelta soon = start + base::TimeDelta::FromMilliseconds(1); base::TimeDelta later = start + base::TimeDelta::FromMilliseconds(1000); // Same event. test_ev1.set_location(gfx::Point(0, 0)); test_ev2.set_location(gfx::Point(1, 0)); test_ev1.set_time_stamp(start); test_ev2.set_time_stamp(start); EXPECT_FALSE(MouseEvent::IsRepeatedClickEvent(mouse_ev1, mouse_ev2)); MouseEvent mouse_ev3(mouse_ev1); EXPECT_FALSE(MouseEvent::IsRepeatedClickEvent(mouse_ev1, mouse_ev3)); // Close point. test_ev1.set_location(gfx::Point(0, 0)); test_ev2.set_location(gfx::Point(1, 0)); test_ev1.set_time_stamp(start); test_ev2.set_time_stamp(soon); EXPECT_TRUE(MouseEvent::IsRepeatedClickEvent(mouse_ev1, mouse_ev2)); // Too far. test_ev1.set_location(gfx::Point(0, 0)); test_ev2.set_location(gfx::Point(10, 0)); test_ev1.set_time_stamp(start); test_ev2.set_time_stamp(soon); EXPECT_FALSE(MouseEvent::IsRepeatedClickEvent(mouse_ev1, mouse_ev2)); // Too long a time between clicks. test_ev1.set_location(gfx::Point(0, 0)); test_ev2.set_location(gfx::Point(0, 0)); test_ev1.set_time_stamp(start); test_ev2.set_time_stamp(later); EXPECT_FALSE(MouseEvent::IsRepeatedClickEvent(mouse_ev1, mouse_ev2)); } // Tests that an event only increases the click count and gets marked as a // double click if a release event was seen for the previous click. This // prevents the same PRESSED event from being processed twice: // http://crbug.com/389162 TEST(EventTest, DoubleClickRequiresRelease) { const gfx::Point origin1(0, 0); const gfx::Point origin2(100, 0); scoped_ptr ev; base::TimeDelta start = base::TimeDelta::FromMilliseconds(0); base::TimeDelta soon = start + base::TimeDelta::FromMilliseconds(1); ev.reset(new MouseEvent(ET_MOUSE_PRESSED, origin1, origin1, EventTimeForNow(), 0, 0)); ev->set_time_stamp(start); EXPECT_EQ(1, MouseEvent::GetRepeatCount(*ev)); ev.reset(new MouseEvent(ET_MOUSE_PRESSED, origin1, origin1, EventTimeForNow(), 0, 0)); ev->set_time_stamp(start); EXPECT_EQ(1, MouseEvent::GetRepeatCount(*ev)); ev.reset(new MouseEvent(ET_MOUSE_PRESSED, origin2, origin2, EventTimeForNow(), 0, 0)); ev->set_time_stamp(start); EXPECT_EQ(1, MouseEvent::GetRepeatCount(*ev)); ev.reset(new MouseEvent(ET_MOUSE_RELEASED, origin2, origin2, EventTimeForNow(), 0, 0)); ev->set_time_stamp(start); EXPECT_EQ(1, MouseEvent::GetRepeatCount(*ev)); ev.reset(new MouseEvent(ET_MOUSE_PRESSED, origin2, origin2, EventTimeForNow(), 0, 0)); ev->set_time_stamp(soon); EXPECT_EQ(2, MouseEvent::GetRepeatCount(*ev)); ev.reset(new MouseEvent(ET_MOUSE_RELEASED, origin2, origin2, EventTimeForNow(), 0, 0)); ev->set_time_stamp(soon); EXPECT_EQ(2, MouseEvent::GetRepeatCount(*ev)); MouseEvent::ResetLastClickForTest(); } // Tests that clicking right and then left clicking does not generate a double // click. TEST(EventTest, SingleClickRightLeft) { const gfx::Point origin(0, 0); scoped_ptr ev; base::TimeDelta start = base::TimeDelta::FromMilliseconds(0); base::TimeDelta soon = start + base::TimeDelta::FromMilliseconds(1); ev.reset(new MouseEvent(ET_MOUSE_PRESSED, origin, origin, EventTimeForNow(), ui::EF_RIGHT_MOUSE_BUTTON, ui::EF_RIGHT_MOUSE_BUTTON)); ev->set_time_stamp(start); EXPECT_EQ(1, MouseEvent::GetRepeatCount(*ev)); ev.reset(new MouseEvent(ET_MOUSE_PRESSED, origin, origin, EventTimeForNow(), ui::EF_LEFT_MOUSE_BUTTON, ui::EF_LEFT_MOUSE_BUTTON)); ev->set_time_stamp(start); EXPECT_EQ(1, MouseEvent::GetRepeatCount(*ev)); ev.reset(new MouseEvent(ET_MOUSE_RELEASED, origin, origin, EventTimeForNow(), ui::EF_LEFT_MOUSE_BUTTON, ui::EF_LEFT_MOUSE_BUTTON)); ev->set_time_stamp(start); EXPECT_EQ(1, MouseEvent::GetRepeatCount(*ev)); ev.reset(new MouseEvent(ET_MOUSE_PRESSED, origin, origin, EventTimeForNow(), ui::EF_LEFT_MOUSE_BUTTON, ui::EF_LEFT_MOUSE_BUTTON)); ev->set_time_stamp(soon); EXPECT_EQ(2, MouseEvent::GetRepeatCount(*ev)); MouseEvent::ResetLastClickForTest(); } TEST(EventTest, KeyEvent) { static const struct { KeyboardCode key_code; int flags; uint16 character; } kTestData[] = { { VKEY_A, 0, 'a' }, { VKEY_A, EF_SHIFT_DOWN, 'A' }, { VKEY_A, EF_CAPS_LOCK_DOWN, 'A' }, { VKEY_A, EF_SHIFT_DOWN | EF_CAPS_LOCK_DOWN, 'a' }, { VKEY_A, EF_CONTROL_DOWN, 0x01 }, { VKEY_A, EF_SHIFT_DOWN | EF_CONTROL_DOWN, '\x01' }, { VKEY_Z, 0, 'z' }, { VKEY_Z, EF_SHIFT_DOWN, 'Z' }, { VKEY_Z, EF_CAPS_LOCK_DOWN, 'Z' }, { VKEY_Z, EF_SHIFT_DOWN | EF_CAPS_LOCK_DOWN, 'z' }, { VKEY_Z, EF_CONTROL_DOWN, '\x1A' }, { VKEY_Z, EF_SHIFT_DOWN | EF_CONTROL_DOWN, '\x1A' }, { VKEY_2, EF_CONTROL_DOWN, '\0' }, { VKEY_2, EF_SHIFT_DOWN | EF_CONTROL_DOWN, '\0' }, { VKEY_6, EF_CONTROL_DOWN, '\0' }, { VKEY_6, EF_SHIFT_DOWN | EF_CONTROL_DOWN, '\x1E' }, { VKEY_OEM_MINUS, EF_CONTROL_DOWN, '\0' }, { VKEY_OEM_MINUS, EF_SHIFT_DOWN | EF_CONTROL_DOWN, '\x1F' }, { VKEY_OEM_4, EF_CONTROL_DOWN, '\x1B' }, { VKEY_OEM_4, EF_SHIFT_DOWN | EF_CONTROL_DOWN, '\0' }, { VKEY_OEM_5, EF_CONTROL_DOWN, '\x1C' }, { VKEY_OEM_5, EF_SHIFT_DOWN | EF_CONTROL_DOWN, '\0' }, { VKEY_OEM_6, EF_CONTROL_DOWN, '\x1D' }, { VKEY_OEM_6, EF_SHIFT_DOWN | EF_CONTROL_DOWN, '\0' }, { VKEY_RETURN, EF_CONTROL_DOWN, '\x0A' }, { VKEY_0, 0, '0' }, { VKEY_0, EF_SHIFT_DOWN, ')' }, { VKEY_0, EF_SHIFT_DOWN | EF_CAPS_LOCK_DOWN, ')' }, { VKEY_0, EF_SHIFT_DOWN | EF_CONTROL_DOWN, '\0' }, { VKEY_9, 0, '9' }, { VKEY_9, EF_SHIFT_DOWN, '(' }, { VKEY_9, EF_SHIFT_DOWN | EF_CAPS_LOCK_DOWN, '(' }, { VKEY_9, EF_SHIFT_DOWN | EF_CONTROL_DOWN, '\0' }, { VKEY_NUMPAD0, EF_CONTROL_DOWN, '\0' }, { VKEY_NUMPAD0, EF_SHIFT_DOWN, '0' }, { VKEY_NUMPAD9, EF_CONTROL_DOWN, '\0' }, { VKEY_NUMPAD9, EF_SHIFT_DOWN, '9' }, { VKEY_TAB, EF_NONE, '\t' }, { VKEY_TAB, EF_CONTROL_DOWN, '\t' }, { VKEY_TAB, EF_SHIFT_DOWN, '\t' }, { VKEY_MULTIPLY, EF_CONTROL_DOWN, '\0' }, { VKEY_MULTIPLY, EF_SHIFT_DOWN, '*' }, { VKEY_ADD, EF_CONTROL_DOWN, '\0' }, { VKEY_ADD, EF_SHIFT_DOWN, '+' }, { VKEY_SUBTRACT, EF_CONTROL_DOWN, '\0' }, { VKEY_SUBTRACT, EF_SHIFT_DOWN, '-' }, { VKEY_DECIMAL, EF_CONTROL_DOWN, '\0' }, { VKEY_DECIMAL, EF_SHIFT_DOWN, '.' }, { VKEY_DIVIDE, EF_CONTROL_DOWN, '\0' }, { VKEY_DIVIDE, EF_SHIFT_DOWN, '/' }, { VKEY_OEM_1, EF_CONTROL_DOWN, '\0' }, { VKEY_OEM_1, EF_SHIFT_DOWN, ':' }, { VKEY_OEM_PLUS, EF_CONTROL_DOWN, '\0' }, { VKEY_OEM_PLUS, EF_SHIFT_DOWN, '+' }, { VKEY_OEM_COMMA, EF_CONTROL_DOWN, '\0' }, { VKEY_OEM_COMMA, EF_SHIFT_DOWN, '<' }, { VKEY_OEM_PERIOD, EF_CONTROL_DOWN, '\0' }, { VKEY_OEM_PERIOD, EF_SHIFT_DOWN, '>' }, { VKEY_OEM_3, EF_CONTROL_DOWN, '\0' }, { VKEY_OEM_3, EF_SHIFT_DOWN, '~' }, }; for (size_t i = 0; i < arraysize(kTestData); ++i) { KeyEvent key(ET_KEY_PRESSED, kTestData[i].key_code, kTestData[i].flags); EXPECT_EQ(kTestData[i].character, key.GetCharacter()) << " Index:" << i << " key_code:" << kTestData[i].key_code; } } TEST(EventTest, KeyEventDirectUnicode) { KeyEvent key(0x1234U, ui::VKEY_UNKNOWN, ui::EF_NONE); EXPECT_EQ(0x1234U, key.GetCharacter()); EXPECT_EQ(ET_KEY_PRESSED, key.type()); EXPECT_TRUE(key.is_char()); } TEST(EventTest, NormalizeKeyEventFlags) { #if defined(USE_X11) // Normalize flags when KeyEvent is created from XEvent. ScopedXI2Event event; { event.InitKeyEvent(ET_KEY_PRESSED, VKEY_SHIFT, EF_SHIFT_DOWN); KeyEvent keyev(event); EXPECT_EQ(EF_SHIFT_DOWN, keyev.flags()); } { event.InitKeyEvent(ET_KEY_RELEASED, VKEY_SHIFT, EF_SHIFT_DOWN); KeyEvent keyev(event); EXPECT_EQ(EF_NONE, keyev.flags()); } { event.InitKeyEvent(ET_KEY_PRESSED, VKEY_CONTROL, EF_CONTROL_DOWN); KeyEvent keyev(event); EXPECT_EQ(EF_CONTROL_DOWN, keyev.flags()); } { event.InitKeyEvent(ET_KEY_RELEASED, VKEY_CONTROL, EF_CONTROL_DOWN); KeyEvent keyev(event); EXPECT_EQ(EF_NONE, keyev.flags()); } { event.InitKeyEvent(ET_KEY_PRESSED, VKEY_MENU, EF_ALT_DOWN); KeyEvent keyev(event); EXPECT_EQ(EF_ALT_DOWN, keyev.flags()); } { event.InitKeyEvent(ET_KEY_RELEASED, VKEY_MENU, EF_ALT_DOWN); KeyEvent keyev(event); EXPECT_EQ(EF_NONE, keyev.flags()); } #endif // Do not normalize flags for synthesized events without // KeyEvent::NormalizeFlags called explicitly. { KeyEvent keyev(ET_KEY_PRESSED, VKEY_SHIFT, EF_SHIFT_DOWN); EXPECT_EQ(EF_SHIFT_DOWN, keyev.flags()); } { KeyEvent keyev(ET_KEY_RELEASED, VKEY_SHIFT, EF_SHIFT_DOWN); EXPECT_EQ(EF_SHIFT_DOWN, keyev.flags()); keyev.NormalizeFlags(); EXPECT_EQ(EF_NONE, keyev.flags()); } { KeyEvent keyev(ET_KEY_PRESSED, VKEY_CONTROL, EF_CONTROL_DOWN); EXPECT_EQ(EF_CONTROL_DOWN, keyev.flags()); } { KeyEvent keyev(ET_KEY_RELEASED, VKEY_CONTROL, EF_CONTROL_DOWN); EXPECT_EQ(EF_CONTROL_DOWN, keyev.flags()); keyev.NormalizeFlags(); EXPECT_EQ(EF_NONE, keyev.flags()); } { KeyEvent keyev(ET_KEY_PRESSED, VKEY_MENU, EF_ALT_DOWN); EXPECT_EQ(EF_ALT_DOWN, keyev.flags()); } { KeyEvent keyev(ET_KEY_RELEASED, VKEY_MENU, EF_ALT_DOWN); EXPECT_EQ(EF_ALT_DOWN, keyev.flags()); keyev.NormalizeFlags(); EXPECT_EQ(EF_NONE, keyev.flags()); } } TEST(EventTest, KeyEventCopy) { KeyEvent key(ET_KEY_PRESSED, VKEY_A, EF_NONE); scoped_ptr copied_key(new KeyEvent(key)); EXPECT_EQ(copied_key->type(), key.type()); EXPECT_EQ(copied_key->key_code(), key.key_code()); } TEST(EventTest, KeyEventCode) { const DomCode kDomCodeForSpace = DomCode::SPACE; const char kCodeForSpace[] = "Space"; ASSERT_EQ(kDomCodeForSpace, ui::KeycodeConverter::CodeStringToDomCode(kCodeForSpace)); const uint16 kNativeCodeSpace = ui::KeycodeConverter::DomCodeToNativeKeycode(kDomCodeForSpace); ASSERT_NE(ui::KeycodeConverter::InvalidNativeKeycode(), kNativeCodeSpace); ASSERT_EQ(kNativeCodeSpace, ui::KeycodeConverter::DomCodeToNativeKeycode(kDomCodeForSpace)); { KeyEvent key(ET_KEY_PRESSED, VKEY_SPACE, kDomCodeForSpace, EF_NONE); EXPECT_EQ(kCodeForSpace, key.GetCodeString()); } { // Regardless the KeyEvent.key_code (VKEY_RETURN), code should be // the specified value. KeyEvent key(ET_KEY_PRESSED, VKEY_RETURN, kDomCodeForSpace, EF_NONE); EXPECT_EQ(kCodeForSpace, key.GetCodeString()); } { // If the synthetic event is initialized without code, the code is // determined from the KeyboardCode assuming a US keyboard layout. KeyEvent key(ET_KEY_PRESSED, VKEY_SPACE, EF_NONE); EXPECT_EQ(kCodeForSpace, key.GetCodeString()); } #if defined(USE_X11) { // KeyEvent converts from the native keycode (XKB) to the code. ScopedXI2Event xevent; xevent.InitKeyEvent(ET_KEY_PRESSED, VKEY_SPACE, kNativeCodeSpace); KeyEvent key(xevent); EXPECT_EQ(kCodeForSpace, key.GetCodeString()); } #endif // USE_X11 #if defined(OS_WIN) { // Test a non extended key. ASSERT_EQ((kNativeCodeSpace & 0xFF), kNativeCodeSpace); const LPARAM lParam = GetLParamFromScanCode(kNativeCodeSpace); MSG native_event = { NULL, WM_KEYUP, VKEY_SPACE, lParam }; KeyEvent key(native_event); // KeyEvent converts from the native keycode (scan code) to the code. EXPECT_EQ(kCodeForSpace, key.GetCodeString()); } { const char kCodeForHome[] = "Home"; const uint16 kNativeCodeHome = 0xe047; // 'Home' is an extended key with 0xe000 bits. ASSERT_NE((kNativeCodeHome & 0xFF), kNativeCodeHome); const LPARAM lParam = GetLParamFromScanCode(kNativeCodeHome); MSG native_event = { NULL, WM_KEYUP, VKEY_HOME, lParam }; KeyEvent key(native_event); // KeyEvent converts from the native keycode (scan code) to the code. EXPECT_EQ(kCodeForHome, key.GetCodeString()); } #endif // OS_WIN } namespace { #if defined(USE_X11) void SetKeyEventTimestamp(XEvent* event, long time) { event->xkey.time = time; } void AdvanceKeyEventTimestamp(XEvent* event) { event->xkey.time++; } #elif defined(OS_WIN) void SetKeyEventTimestamp(MSG& msg, long time) { msg.time = time; } void AdvanceKeyEventTimestamp(MSG& msg) { msg.time++; } #endif } // namespace #if defined(USE_X11) || defined(OS_WIN) TEST(EventTest, AutoRepeat) { const uint16 kNativeCodeA = ui::KeycodeConverter::DomCodeToNativeKeycode(DomCode::KEY_A); const uint16 kNativeCodeB = ui::KeycodeConverter::DomCodeToNativeKeycode(DomCode::KEY_B); #if defined(USE_X11) ScopedXI2Event native_event_a_pressed; native_event_a_pressed.InitKeyEvent(ET_KEY_PRESSED, VKEY_A, kNativeCodeA); ScopedXI2Event native_event_a_pressed_1500; native_event_a_pressed_1500.InitKeyEvent( ET_KEY_PRESSED, VKEY_A, kNativeCodeA); ScopedXI2Event native_event_a_pressed_3000; native_event_a_pressed_3000.InitKeyEvent( ET_KEY_PRESSED, VKEY_A, kNativeCodeA); ScopedXI2Event native_event_a_released; native_event_a_released.InitKeyEvent(ET_KEY_RELEASED, VKEY_A, kNativeCodeA); ScopedXI2Event native_event_b_pressed; native_event_b_pressed.InitKeyEvent(ET_KEY_PRESSED, VKEY_B, kNativeCodeB); ScopedXI2Event native_event_a_pressed_nonstandard_state; native_event_a_pressed_nonstandard_state.InitKeyEvent( ET_KEY_PRESSED, VKEY_A, kNativeCodeA); // IBUS-GTK uses the mask (1 << 25) to detect reposted event. static_cast(native_event_a_pressed_nonstandard_state)->xkey.state |= 1 << 25; #elif defined(OS_WIN) const LPARAM lParam_a = GetLParamFromScanCode(kNativeCodeA); const LPARAM lParam_b = GetLParamFromScanCode(kNativeCodeB); MSG native_event_a_pressed = { NULL, WM_KEYDOWN, VKEY_A, lParam_a }; MSG native_event_a_pressed_1500 = { NULL, WM_KEYDOWN, VKEY_A, lParam_a }; MSG native_event_a_pressed_3000 = { NULL, WM_KEYDOWN, VKEY_A, lParam_a }; MSG native_event_a_released = { NULL, WM_KEYUP, VKEY_A, lParam_a }; MSG native_event_b_pressed = { NULL, WM_KEYUP, VKEY_B, lParam_b }; #endif SetKeyEventTimestamp(native_event_a_pressed_1500, 1500); SetKeyEventTimestamp(native_event_a_pressed_3000, 3000); { KeyEvent key_a1(native_event_a_pressed); EXPECT_FALSE(key_a1.IsRepeat()); KeyEvent key_a1_with_same_event(native_event_a_pressed); EXPECT_FALSE(key_a1_with_same_event.IsRepeat()); KeyEvent key_a1_released(native_event_a_released); EXPECT_FALSE(key_a1_released.IsRepeat()); KeyEvent key_a2(native_event_a_pressed); EXPECT_FALSE(key_a2.IsRepeat()); AdvanceKeyEventTimestamp(native_event_a_pressed); KeyEvent key_a2_repeated(native_event_a_pressed); EXPECT_TRUE(key_a2_repeated.IsRepeat()); KeyEvent key_a2_released(native_event_a_released); EXPECT_FALSE(key_a2_released.IsRepeat()); } // Interleaved with different key press. { KeyEvent key_a3(native_event_a_pressed); EXPECT_FALSE(key_a3.IsRepeat()); KeyEvent key_b(native_event_b_pressed); EXPECT_FALSE(key_b.IsRepeat()); AdvanceKeyEventTimestamp(native_event_a_pressed); KeyEvent key_a3_again(native_event_a_pressed); EXPECT_FALSE(key_a3_again.IsRepeat()); AdvanceKeyEventTimestamp(native_event_a_pressed); KeyEvent key_a3_repeated(native_event_a_pressed); EXPECT_TRUE(key_a3_repeated.IsRepeat()); AdvanceKeyEventTimestamp(native_event_a_pressed); KeyEvent key_a3_repeated2(native_event_a_pressed); EXPECT_TRUE(key_a3_repeated2.IsRepeat()); KeyEvent key_a3_released(native_event_a_released); EXPECT_FALSE(key_a3_released.IsRepeat()); } // Hold the key longer than max auto repeat timeout. { KeyEvent key_a4_0(native_event_a_pressed); EXPECT_FALSE(key_a4_0.IsRepeat()); KeyEvent key_a4_1500(native_event_a_pressed_1500); EXPECT_TRUE(key_a4_1500.IsRepeat()); KeyEvent key_a4_3000(native_event_a_pressed_3000); EXPECT_TRUE(key_a4_3000.IsRepeat()); KeyEvent key_a4_released(native_event_a_released); EXPECT_FALSE(key_a4_released.IsRepeat()); } #if defined(USE_X11) { KeyEvent key_a4_pressed(native_event_a_pressed); EXPECT_FALSE(key_a4_pressed.IsRepeat()); KeyEvent key_a4_pressed_nonstandard_state( native_event_a_pressed_nonstandard_state); EXPECT_FALSE(key_a4_pressed_nonstandard_state.IsRepeat()); } #endif } #endif // USE_X11 || OS_WIN TEST(EventTest, TouchEventRadiusDefaultsToOtherAxis) { const base::TimeDelta time = base::TimeDelta::FromMilliseconds(0); const float non_zero_length1 = 30; const float non_zero_length2 = 46; TouchEvent event1(ui::ET_TOUCH_PRESSED, gfx::Point(0, 0), 0, 0, time, non_zero_length1, 0, 0, 0); EXPECT_EQ(non_zero_length1, event1.pointer_details().radius_x()); EXPECT_EQ(non_zero_length1, event1.pointer_details().radius_y()); TouchEvent event2(ui::ET_TOUCH_PRESSED, gfx::Point(0, 0), 0, 0, time, 0, non_zero_length2, 0, 0); EXPECT_EQ(non_zero_length2, event2.pointer_details().radius_x()); EXPECT_EQ(non_zero_length2, event2.pointer_details().radius_y()); } TEST(EventTest, TouchEventRotationAngleFixing) { const base::TimeDelta time = base::TimeDelta::FromMilliseconds(0); const float radius_x = 20; const float radius_y = 10; { const float angle_in_range = 0; TouchEvent event(ui::ET_TOUCH_PRESSED, gfx::Point(0, 0), 0, 0, time, radius_x, radius_y, angle_in_range, 0); EXPECT_FLOAT_EQ(angle_in_range, event.rotation_angle()); } { const float angle_in_range = 179.9f; TouchEvent event(ui::ET_TOUCH_PRESSED, gfx::Point(0, 0), 0, 0, time, radius_x, radius_y, angle_in_range, 0); EXPECT_FLOAT_EQ(angle_in_range, event.rotation_angle()); } { const float angle_negative = -0.1f; TouchEvent event(ui::ET_TOUCH_PRESSED, gfx::Point(0, 0), 0, 0, time, radius_x, radius_y, angle_negative, 0); EXPECT_FLOAT_EQ(180 - 0.1f, event.rotation_angle()); } { const float angle_negative = -200; TouchEvent event(ui::ET_TOUCH_PRESSED, gfx::Point(0, 0), 0, 0, time, radius_x, radius_y, angle_negative, 0); EXPECT_FLOAT_EQ(360 - 200, event.rotation_angle()); } { const float angle_too_big = 180; TouchEvent event(ui::ET_TOUCH_PRESSED, gfx::Point(0, 0), 0, 0, time, radius_x, radius_y, angle_too_big, 0); EXPECT_FLOAT_EQ(0, event.rotation_angle()); } { const float angle_too_big = 400; TouchEvent event(ui::ET_TOUCH_PRESSED, gfx::Point(0, 0), 0, 0, time, radius_x, radius_y, angle_too_big, 0); EXPECT_FLOAT_EQ(400 - 360, event.rotation_angle()); } } TEST(EventTest, PointerEventDetailsTouch) { ui::TouchEvent touch_event_plain(ET_TOUCH_PRESSED, gfx::Point(0, 0), 0, ui::EventTimeForNow()); EXPECT_EQ(EventPointerType::POINTER_TYPE_TOUCH, touch_event_plain.pointer_details().pointer_type()); EXPECT_EQ(0.0f, touch_event_plain.pointer_details().radius_x()); EXPECT_EQ(0.0f, touch_event_plain.pointer_details().radius_y()); EXPECT_EQ(0.0f, touch_event_plain.pointer_details().force()); EXPECT_EQ(0.0f, touch_event_plain.pointer_details().tilt_x()); EXPECT_EQ(0.0f, touch_event_plain.pointer_details().tilt_y()); ui::TouchEvent touch_event_with_details(ET_TOUCH_PRESSED, gfx::Point(0, 0), 0, 0, ui::EventTimeForNow(), 10.0f, 5.0f, 0.0f, 15.0f); EXPECT_EQ(EventPointerType::POINTER_TYPE_TOUCH, touch_event_with_details.pointer_details().pointer_type()); EXPECT_EQ(10.0f, touch_event_with_details.pointer_details().radius_x()); EXPECT_EQ(5.0f, touch_event_with_details.pointer_details().radius_y()); EXPECT_EQ(15.0f, touch_event_with_details.pointer_details().force()); EXPECT_EQ(0.0f, touch_event_with_details.pointer_details().tilt_x()); EXPECT_EQ(0.0f, touch_event_with_details.pointer_details().tilt_y()); ui::TouchEvent touch_event_copy(touch_event_with_details); EXPECT_EQ(EventPointerType::POINTER_TYPE_TOUCH, touch_event_copy.pointer_details().pointer_type()); EXPECT_EQ(10.0f, touch_event_copy.pointer_details().radius_x()); EXPECT_EQ(5.0f, touch_event_copy.pointer_details().radius_y()); EXPECT_EQ(15.0f, touch_event_copy.pointer_details().force()); EXPECT_EQ(0.0f, touch_event_copy.pointer_details().tilt_x()); EXPECT_EQ(0.0f, touch_event_copy.pointer_details().tilt_y()); } TEST(EventTest, PointerEventDetailsMouse) { ui::MouseEvent mouse_event(ET_MOUSE_PRESSED, gfx::Point(0, 0), gfx::Point(0, 0), ui::EventTimeForNow(), 0, 0); EXPECT_EQ(EventPointerType::POINTER_TYPE_MOUSE, mouse_event.pointer_details().pointer_type()); EXPECT_EQ(0.0f, mouse_event.pointer_details().radius_x()); EXPECT_EQ(0.0f, mouse_event.pointer_details().radius_y()); EXPECT_EQ(0.0f, mouse_event.pointer_details().force()); EXPECT_EQ(0.0f, mouse_event.pointer_details().tilt_x()); EXPECT_EQ(0.0f, mouse_event.pointer_details().tilt_y()); ui::MouseEvent mouse_event_copy(mouse_event); EXPECT_EQ(EventPointerType::POINTER_TYPE_MOUSE, mouse_event_copy.pointer_details().pointer_type()); EXPECT_EQ(0.0f, mouse_event_copy.pointer_details().radius_x()); EXPECT_EQ(0.0f, mouse_event_copy.pointer_details().radius_y()); EXPECT_EQ(0.0f, mouse_event_copy.pointer_details().force()); EXPECT_EQ(0.0f, mouse_event_copy.pointer_details().tilt_x()); EXPECT_EQ(0.0f, mouse_event_copy.pointer_details().tilt_y()); } TEST(EventTest, PointerEventDetailsStylus) { ui::MouseEvent stylus_event(ET_MOUSE_PRESSED, gfx::Point(0, 0), gfx::Point(0, 0), ui::EventTimeForNow(), 0, 0); ui::PointerDetails pointer_details(EventPointerType::POINTER_TYPE_PEN, /* radius_x */ 0.0f, /* radius_y */ 0.0f, /* force */ 21.0f, /* tilt_x */ 45.0f, /* tilt_y */ -45.0f); stylus_event.set_pointer_details(pointer_details); EXPECT_EQ(EventPointerType::POINTER_TYPE_PEN, stylus_event.pointer_details().pointer_type()); EXPECT_EQ(21.0f, stylus_event.pointer_details().force()); EXPECT_EQ(45.0f, stylus_event.pointer_details().tilt_x()); EXPECT_EQ(-45.0f, stylus_event.pointer_details().tilt_y()); EXPECT_EQ(0.0f, stylus_event.pointer_details().radius_x()); EXPECT_EQ(0.0f, stylus_event.pointer_details().radius_y()); ui::MouseEvent stylus_event_copy(stylus_event); EXPECT_EQ(EventPointerType::POINTER_TYPE_PEN, stylus_event_copy.pointer_details().pointer_type()); EXPECT_EQ(21.0f, stylus_event_copy.pointer_details().force()); EXPECT_EQ(45.0f, stylus_event_copy.pointer_details().tilt_x()); EXPECT_EQ(-45.0f, stylus_event_copy.pointer_details().tilt_y()); EXPECT_EQ(0.0f, stylus_event_copy.pointer_details().radius_x()); EXPECT_EQ(0.0f, stylus_event_copy.pointer_details().radius_y()); } } // namespace ui