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| 1 // Copyright (c) 2012 The Chromium Authors. All rights reserved. | 1 // Copyright (c) 2012 The Chromium Authors. All rights reserved. |
| 2 // Use of this source code is governed by a BSD-style license that can be | 2 // Use of this source code is governed by a BSD-style license that can be |
| 3 // found in the LICENSE file. | 3 // found in the LICENSE file. |
| 4 | 4 |
| 5 #include "ui/events/event_constants.h" | 5 #include "ui/events/event_constants.h" |
| 6 | 6 |
| 7 #include <cmath> | 7 #include <cmath> |
| 8 #include <string.h> | 8 #include <string.h> |
| 9 #include <X11/extensions/XInput.h> | 9 #include <X11/extensions/XInput.h> |
| 10 #include <X11/extensions/XInput2.h> | 10 #include <X11/extensions/XInput2.h> |
| 11 #include <X11/Xlib.h> | 11 #include <X11/Xlib.h> |
| 12 #include <X11/Xutil.h> | 12 #include <X11/Xutil.h> |
| 13 #include <X11/XKBlib.h> |
| 13 | 14 |
| 14 #include "base/logging.h" | 15 #include "base/logging.h" |
| 15 #include "base/memory/singleton.h" | 16 #include "base/memory/singleton.h" |
| 16 #include "ui/events/event_utils.h" | 17 #include "ui/events/event_utils.h" |
| 17 #include "ui/events/keycodes/keyboard_code_conversion_x.h" | 18 #include "ui/events/keycodes/keyboard_code_conversion_x.h" |
| 18 #include "ui/events/x/device_data_manager_x11.h" | 19 #include "ui/events/x/device_data_manager_x11.h" |
| 19 #include "ui/events/x/device_list_cache_x.h" | 20 #include "ui/events/x/device_list_cache_x.h" |
| 20 #include "ui/events/x/touch_factory_x11.h" | 21 #include "ui/events/x/touch_factory_x11.h" |
| 21 #include "ui/gfx/display.h" | 22 #include "ui/gfx/display.h" |
| 22 #include "ui/gfx/point.h" | 23 #include "ui/gfx/point.h" |
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| 35 | 36 |
| 36 // A class to track current modifier state on master device. Only track ctrl, | 37 // A class to track current modifier state on master device. Only track ctrl, |
| 37 // alt, shift and caps lock keys currently. The tracked state can then be used | 38 // alt, shift and caps lock keys currently. The tracked state can then be used |
| 38 // by floating device. | 39 // by floating device. |
| 39 class XModifierStateWatcher{ | 40 class XModifierStateWatcher{ |
| 40 public: | 41 public: |
| 41 static XModifierStateWatcher* GetInstance() { | 42 static XModifierStateWatcher* GetInstance() { |
| 42 return Singleton<XModifierStateWatcher>::get(); | 43 return Singleton<XModifierStateWatcher>::get(); |
| 43 } | 44 } |
| 44 | 45 |
| 45 void UpdateStateFromEvent(const base::NativeEvent& native_event) { | 46 int StateFromKeyboardCode(ui::KeyboardCode keyboard_code) { |
| 47 switch (keyboard_code) { |
| 48 case ui::VKEY_CONTROL: |
| 49 return ControlMask; |
| 50 case ui::VKEY_SHIFT: |
| 51 return ShiftMask; |
| 52 case ui::VKEY_MENU: |
| 53 return Mod1Mask; |
| 54 case ui::VKEY_CAPITAL: |
| 55 return LockMask; |
| 56 default: |
| 57 return 0; |
| 58 } |
| 59 } |
| 60 |
| 61 void UpdateStateFromXKeyEvent(const base::NativeEvent& native_event) { |
| 62 DCHECK((native_event->type == KeyPress) || |
| 63 (native_event->type == KeyRelease)); |
| 46 // Floating device can't access the modifer state from master device. | 64 // Floating device can't access the modifer state from master device. |
| 47 // We need to track the states of modifier keys in a singleton for | 65 // We need to track the states of modifier keys in a singleton for |
| 48 // floating devices such as touch screen. Issue 106426 is one example | 66 // floating devices such as touch screen. Issue 106426 is one example |
| 49 // of why we need the modifier states for floating device. | 67 // of why we need the modifier states for floating device. |
| 50 state_ = native_event->xkey.state; | 68 state_ = native_event->xkey.state; |
| 51 // master_state is the state before key press. We need to track the | 69 // master_state is the state before key press. We need to track the |
| 52 // state after key press for floating device. Currently only ctrl, | 70 // state after key press for floating device. Currently only ctrl, |
| 53 // shift, alt and caps lock keys are tracked. | 71 // shift, alt and caps lock keys are tracked. |
| 54 ui::KeyboardCode keyboard_code = ui::KeyboardCodeFromNative(native_event); | 72 ui::KeyboardCode keyboard_code = ui::KeyboardCodeFromNative(native_event); |
| 55 unsigned int mask = 0; | 73 unsigned int mask = StateFromKeyboardCode(keyboard_code); |
| 74 if (native_event->type == KeyPress) |
| 75 state_ |= mask; |
| 76 else |
| 77 state_ &= ~mask; |
| 78 } |
| 56 | 79 |
| 57 switch (keyboard_code) { | 80 void UpdateStateFromXGenericEvent(const base::NativeEvent& native_event) { |
| 58 case ui::VKEY_CONTROL: { | 81 DCHECK(native_event->type == GenericEvent); |
| 59 mask = ControlMask; | 82 XIDeviceEvent* xievent = |
| 60 break; | 83 static_cast<XIDeviceEvent*>(native_event->xcookie.data); |
| 61 } | 84 DCHECK((xievent->evtype == XI_KeyPress) || |
| 62 case ui::VKEY_SHIFT: { | 85 (xievent->evtype == XI_KeyRelease)); |
| 63 mask = ShiftMask; | 86 // Floating device can't access the modifer state from master device. |
| 64 break; | 87 // We need to track the states of modifier keys in a singleton for |
| 65 } | 88 // floating devices such as touch screen. Issue 106426 is one example |
| 66 case ui::VKEY_MENU: { | 89 // of why we need the modifier states for floating device. |
| 67 mask = Mod1Mask; | 90 state_ = xievent->mods.effective; |
| 68 break; | 91 // master_state is the state before key press. We need to track the |
| 69 } | 92 // state after key press for floating device. Currently only ctrl, |
| 70 case ui::VKEY_CAPITAL: { | 93 // shift, alt and caps lock keys are tracked. |
| 71 mask = LockMask; | 94 ui::KeyboardCode keyboard_code = ui::KeyboardCodeFromNative(native_event); |
| 72 break; | 95 unsigned int mask = StateFromKeyboardCode(keyboard_code); |
| 73 } | 96 if (native_event->type == XI_KeyPress) |
| 74 default: | |
| 75 break; | |
| 76 } | |
| 77 | |
| 78 if (native_event->type == KeyPress) | |
| 79 state_ |= mask; | 97 state_ |= mask; |
| 80 else | 98 else |
| 81 state_ &= ~mask; | 99 state_ &= ~mask; |
| 82 } | 100 } |
| 83 | 101 |
| 84 // Returns the current modifer state in master device. It only contains the | 102 // Returns the current modifer state in master device. It only contains the |
| 85 // state of ctrl, shift, alt and caps lock keys. | 103 // state of ctrl, shift, alt and caps lock keys. |
| 86 unsigned int state() { return state_; } | 104 unsigned int state() { return state_; } |
| 87 | 105 |
| 88 private: | 106 private: |
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| 175 fabricated_by_xim ? ui::EF_IME_FABRICATED_KEY : 0; | 193 fabricated_by_xim ? ui::EF_IME_FABRICATED_KEY : 0; |
| 176 #endif | 194 #endif |
| 177 | 195 |
| 178 return GetEventFlagsFromXState(xevent->xkey.state) | | 196 return GetEventFlagsFromXState(xevent->xkey.state) | |
| 179 (IsKeypadKey(XLookupKeysym(&xevent->xkey, 0)) ? ui::EF_NUMPAD_KEY : 0) | | 197 (IsKeypadKey(XLookupKeysym(&xevent->xkey, 0)) ? ui::EF_NUMPAD_KEY : 0) | |
| 180 (IsFunctionKey(XLookupKeysym(&xevent->xkey, 0)) ? | 198 (IsFunctionKey(XLookupKeysym(&xevent->xkey, 0)) ? |
| 181 ui::EF_FUNCTION_KEY : 0) | | 199 ui::EF_FUNCTION_KEY : 0) | |
| 182 ime_fabricated_flag; | 200 ime_fabricated_flag; |
| 183 } | 201 } |
| 184 | 202 |
| 203 int GetEventFlagsFromXGenericEvent(XEvent* xevent) { |
| 204 DCHECK(xevent->type == GenericEvent); |
| 205 XIDeviceEvent* xievent = static_cast<XIDeviceEvent*>(xevent->xcookie.data); |
| 206 DCHECK((xievent->evtype == XI_KeyPress) || |
| 207 (xievent->evtype == XI_KeyRelease)); |
| 208 return GetEventFlagsFromXState(xievent->mods.effective) | |
| 209 (IsKeypadKey( |
| 210 XkbKeycodeToKeysym(xievent->display, xievent->detail, 0, 0)) |
| 211 ? ui::EF_NUMPAD_KEY |
| 212 : 0); |
| 213 } |
| 214 |
| 185 // Get the event flag for the button in XButtonEvent. During a ButtonPress | 215 // Get the event flag for the button in XButtonEvent. During a ButtonPress |
| 186 // event, |state| in XButtonEvent does not include the button that has just been | 216 // event, |state| in XButtonEvent does not include the button that has just been |
| 187 // pressed. Instead |state| contains flags for the buttons (if any) that had | 217 // pressed. Instead |state| contains flags for the buttons (if any) that had |
| 188 // already been pressed before the current button, and |button| stores the most | 218 // already been pressed before the current button, and |button| stores the most |
| 189 // current pressed button. So, if you press down left mouse button, and while | 219 // current pressed button. So, if you press down left mouse button, and while |
| 190 // pressing it down, press down the right mouse button, then for the latter | 220 // pressing it down, press down the right mouse button, then for the latter |
| 191 // event, |state| would have Button1Mask set but not Button3Mask, and |button| | 221 // event, |state| would have Button1Mask set but not Button3Mask, and |button| |
| 192 // would be 3. | 222 // would be 3. |
| 193 int GetEventFlagsForButton(int button) { | 223 int GetEventFlagsForButton(int button) { |
| 194 switch (button) { | 224 switch (button) { |
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| 342 return IsTouchpadEvent(native_event) ? ET_SCROLL : ET_MOUSEWHEEL; | 372 return IsTouchpadEvent(native_event) ? ET_SCROLL : ET_MOUSEWHEEL; |
| 343 } else if (DeviceDataManagerX11::GetInstance()->IsCMTMetricsEvent( | 373 } else if (DeviceDataManagerX11::GetInstance()->IsCMTMetricsEvent( |
| 344 native_event)) { | 374 native_event)) { |
| 345 return ET_UMA_DATA; | 375 return ET_UMA_DATA; |
| 346 } else if (GetButtonMaskForX2Event(xievent)) { | 376 } else if (GetButtonMaskForX2Event(xievent)) { |
| 347 return ET_MOUSE_DRAGGED; | 377 return ET_MOUSE_DRAGGED; |
| 348 } else { | 378 } else { |
| 349 return ET_MOUSE_MOVED; | 379 return ET_MOUSE_MOVED; |
| 350 } | 380 } |
| 351 } | 381 } |
| 382 case XI_KeyPress: |
| 383 return ET_KEY_PRESSED; |
| 384 case XI_KeyRelease: |
| 385 return ET_KEY_RELEASED; |
| 352 } | 386 } |
| 353 } | 387 } |
| 354 default: | 388 default: |
| 355 break; | 389 break; |
| 356 } | 390 } |
| 357 return ET_UNKNOWN; | 391 return ET_UNKNOWN; |
| 358 } | 392 } |
| 359 | 393 |
| 360 int EventFlagsFromNative(const base::NativeEvent& native_event) { | 394 int EventFlagsFromNative(const base::NativeEvent& native_event) { |
| 361 switch (native_event->type) { | 395 switch (native_event->type) { |
| 362 case KeyPress: | 396 case KeyPress: |
| 363 case KeyRelease: { | 397 case KeyRelease: { |
| 364 XModifierStateWatcher::GetInstance()->UpdateStateFromEvent(native_event); | 398 XModifierStateWatcher::GetInstance()->UpdateStateFromXKeyEvent( |
| 399 native_event); |
| 365 return GetEventFlagsFromXKeyEvent(native_event); | 400 return GetEventFlagsFromXKeyEvent(native_event); |
| 366 } | 401 } |
| 367 case ButtonPress: | 402 case ButtonPress: |
| 368 case ButtonRelease: { | 403 case ButtonRelease: { |
| 369 int flags = GetEventFlagsFromXState(native_event->xbutton.state); | 404 int flags = GetEventFlagsFromXState(native_event->xbutton.state); |
| 370 const EventType type = EventTypeFromNative(native_event); | 405 const EventType type = EventTypeFromNative(native_event); |
| 371 if (type == ET_MOUSE_PRESSED || type == ET_MOUSE_RELEASED) | 406 if (type == ET_MOUSE_PRESSED || type == ET_MOUSE_RELEASED) |
| 372 flags |= GetEventFlagsForButton(native_event->xbutton.button); | 407 flags |= GetEventFlagsForButton(native_event->xbutton.button); |
| 373 return flags; | 408 return flags; |
| 374 } | 409 } |
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| 390 GetEventFlagsFromXState(xievent->mods.effective) | | 425 GetEventFlagsFromXState(xievent->mods.effective) | |
| 391 GetEventFlagsFromXState( | 426 GetEventFlagsFromXState( |
| 392 XModifierStateWatcher::GetInstance()->state()); | 427 XModifierStateWatcher::GetInstance()->state()); |
| 393 break; | 428 break; |
| 394 #endif | 429 #endif |
| 395 case XI_ButtonPress: | 430 case XI_ButtonPress: |
| 396 case XI_ButtonRelease: { | 431 case XI_ButtonRelease: { |
| 397 const bool touch = | 432 const bool touch = |
| 398 TouchFactory::GetInstance()->IsTouchDevice(xievent->sourceid); | 433 TouchFactory::GetInstance()->IsTouchDevice(xievent->sourceid); |
| 399 int flags = GetButtonMaskForX2Event(xievent) | | 434 int flags = GetButtonMaskForX2Event(xievent) | |
| 400 GetEventFlagsFromXState(xievent->mods.effective); | 435 GetEventFlagsFromXState(xievent->mods.effective); |
| 401 if (touch) { | 436 if (touch) { |
| 402 flags |= GetEventFlagsFromXState( | 437 flags |= GetEventFlagsFromXState( |
| 403 XModifierStateWatcher::GetInstance()->state()); | 438 XModifierStateWatcher::GetInstance()->state()); |
| 404 } | 439 } |
| 405 | 440 |
| 406 const EventType type = EventTypeFromNative(native_event); | 441 const EventType type = EventTypeFromNative(native_event); |
| 407 int button = EventButtonFromNative(native_event); | 442 int button = EventButtonFromNative(native_event); |
| 408 if ((type == ET_MOUSE_PRESSED || type == ET_MOUSE_RELEASED) && !touch) | 443 if ((type == ET_MOUSE_PRESSED || type == ET_MOUSE_RELEASED) && !touch) |
| 409 flags |= GetEventFlagsForButton(button); | 444 flags |= GetEventFlagsForButton(button); |
| 410 return flags; | 445 return flags; |
| 411 } | 446 } |
| 412 case XI_Motion: | 447 case XI_Motion: |
| 413 return GetButtonMaskForX2Event(xievent) | | 448 return GetButtonMaskForX2Event(xievent) | |
| 414 GetEventFlagsFromXState(xievent->mods.effective); | 449 GetEventFlagsFromXState(xievent->mods.effective); |
| 450 case XI_KeyPress: |
| 451 case XI_KeyRelease: { |
| 452 XModifierStateWatcher::GetInstance()->UpdateStateFromXGenericEvent( |
| 453 native_event); |
| 454 return GetEventFlagsFromXGenericEvent(native_event); |
| 455 } |
| 415 } | 456 } |
| 416 } | 457 } |
| 417 } | 458 } |
| 418 return 0; | 459 return 0; |
| 419 } | 460 } |
| 420 | 461 |
| 421 base::TimeDelta EventTimeFromNative(const base::NativeEvent& native_event) { | 462 base::TimeDelta EventTimeFromNative(const base::NativeEvent& native_event) { |
| 422 switch(native_event->type) { | 463 switch(native_event->type) { |
| 423 case KeyPress: | 464 case KeyPress: |
| 424 case KeyRelease: | 465 case KeyRelease: |
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| 583 case 6: | 624 case 6: |
| 584 return gfx::Vector2d(kWheelScrollAmount, 0); | 625 return gfx::Vector2d(kWheelScrollAmount, 0); |
| 585 case 7: | 626 case 7: |
| 586 return gfx::Vector2d(-kWheelScrollAmount, 0); | 627 return gfx::Vector2d(-kWheelScrollAmount, 0); |
| 587 default: | 628 default: |
| 588 return gfx::Vector2d(); | 629 return gfx::Vector2d(); |
| 589 } | 630 } |
| 590 } | 631 } |
| 591 | 632 |
| 592 base::NativeEvent CopyNativeEvent(const base::NativeEvent& event) { | 633 base::NativeEvent CopyNativeEvent(const base::NativeEvent& event) { |
| 593 if (!event || event->type == GenericEvent) | 634 if (!event) |
| 594 return NULL; | 635 return NULL; |
| 595 XEvent* copy = new XEvent; | 636 XEvent* copy = new XEvent; |
| 596 *copy = *event; | 637 *copy = *event; |
| 638 if (event->type == GenericEvent) { |
| 639 XIDeviceEvent* xievent_copy = new XIDeviceEvent; |
| 640 *xievent_copy = *static_cast<XIDeviceEvent*>(event->xcookie.data); |
| 641 copy->xcookie.data = xievent_copy; |
| 642 } |
| 597 return copy; | 643 return copy; |
| 598 } | 644 } |
| 599 | 645 |
| 600 void ReleaseCopiedNativeEvent(const base::NativeEvent& event) { | 646 void ReleaseCopiedNativeEvent(const base::NativeEvent& event) { |
| 647 if (event && event->type == GenericEvent) |
| 648 delete static_cast<XIDeviceEvent*>(event->xcookie.data); |
| 601 delete event; | 649 delete event; |
| 602 } | 650 } |
| 603 | 651 |
| 604 void ClearTouchIdIfReleased(const base::NativeEvent& xev) { | 652 void ClearTouchIdIfReleased(const base::NativeEvent& xev) { |
| 605 ui::EventType type = ui::EventTypeFromNative(xev); | 653 ui::EventType type = ui::EventTypeFromNative(xev); |
| 606 if (type == ui::ET_TOUCH_CANCELLED || | 654 if (type == ui::ET_TOUCH_CANCELLED || |
| 607 type == ui::ET_TOUCH_RELEASED) { | 655 type == ui::ET_TOUCH_RELEASED) { |
| 608 ui::TouchFactory* factory = ui::TouchFactory::GetInstance(); | 656 ui::TouchFactory* factory = ui::TouchFactory::GetInstance(); |
| 609 ui::DeviceDataManagerX11* manager = ui::DeviceDataManagerX11::GetInstance(); | 657 ui::DeviceDataManagerX11* manager = ui::DeviceDataManagerX11::GetInstance(); |
| 610 double tracking_id; | 658 double tracking_id; |
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| 732 DeviceDataManagerX11::GetInstance()->GetGestureTimes( | 780 DeviceDataManagerX11::GetInstance()->GetGestureTimes( |
| 733 native_event, start_time, end_time); | 781 native_event, start_time, end_time); |
| 734 return true; | 782 return true; |
| 735 } | 783 } |
| 736 | 784 |
| 737 bool IsTouchpadEvent(const base::NativeEvent& event) { | 785 bool IsTouchpadEvent(const base::NativeEvent& event) { |
| 738 return DeviceDataManagerX11::GetInstance()->IsTouchpadXInputEvent(event); | 786 return DeviceDataManagerX11::GetInstance()->IsTouchpadXInputEvent(event); |
| 739 } | 787 } |
| 740 | 788 |
| 741 } // namespace ui | 789 } // namespace ui |
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Chromium Code Reviews
Issue 336403005:
Use XInput2 events for keyboard events. (Closed)
Base URL: https://chromium.googlesource.com/chromium/src.git@master