QUIC - cleanup changes to sync chromium tree with internal source.
[chromium-blink-merge.git] / ppapi / api / ppb_input_event.idl
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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
3 * found in the LICENSE file.
4 */
6 /**
7 * This file defines the Input Event interfaces.
8 */
10 label Chrome {
11 M13 = 1.0,
12 M14 = 1.1,
13 M34 = 1.2
16 /**
17 * This enumeration contains the types of input events.
19 [assert_size(4)]
20 enum PP_InputEvent_Type {
21 PP_INPUTEVENT_TYPE_UNDEFINED = -1,
23 /**
24 * Notification that a mouse button was pressed.
26 * Register for this event using the PP_INPUTEVENT_CLASS_MOUSE class.
28 PP_INPUTEVENT_TYPE_MOUSEDOWN = 0,
30 /**
31 * Notification that a mouse button was released.
33 * Register for this event using the PP_INPUTEVENT_CLASS_MOUSE class.
35 PP_INPUTEVENT_TYPE_MOUSEUP = 1,
37 /**
38 * Notification that a mouse button was moved when it is over the instance
39 * or dragged out of it.
41 * Register for this event using the PP_INPUTEVENT_CLASS_MOUSE class.
43 PP_INPUTEVENT_TYPE_MOUSEMOVE = 2,
45 /**
46 * Notification that the mouse entered the instance's bounds.
48 * Register for this event using the PP_INPUTEVENT_CLASS_MOUSE class.
50 PP_INPUTEVENT_TYPE_MOUSEENTER = 3,
52 /**
53 * Notification that a mouse left the instance's bounds.
55 * Register for this event using the PP_INPUTEVENT_CLASS_MOUSE class.
57 PP_INPUTEVENT_TYPE_MOUSELEAVE = 4,
59 /**
60 * Notification that the scroll wheel was used.
62 * Register for this event using the PP_INPUTEVENT_CLASS_WHEEL class.
64 PP_INPUTEVENT_TYPE_WHEEL = 5,
66 /**
67 * Notification that a key transitioned from "up" to "down".
69 * Register for this event using the PP_INPUTEVENT_CLASS_KEYBOARD class.
73 * TODO(brettw) differentiate from KEYDOWN.
75 PP_INPUTEVENT_TYPE_RAWKEYDOWN = 6,
77 /**
78 * Notification that a key was pressed. This does not necessarily correspond
79 * to a character depending on the key and language. Use the
80 * PP_INPUTEVENT_TYPE_CHAR for character input.
82 * Register for this event using the PP_INPUTEVENT_CLASS_KEYBOARD class.
84 PP_INPUTEVENT_TYPE_KEYDOWN = 7,
86 /**
87 * Notification that a key was released.
89 * Register for this event using the PP_INPUTEVENT_CLASS_KEYBOARD class.
91 PP_INPUTEVENT_TYPE_KEYUP = 8,
93 /**
94 * Notification that a character was typed. Use this for text input. Key
95 * down events may generate 0, 1, or more than one character event depending
96 * on the key, locale, and operating system.
98 * Register for this event using the PP_INPUTEVENT_CLASS_KEYBOARD class.
100 PP_INPUTEVENT_TYPE_CHAR = 9,
103 * Notification that a context menu should be shown.
105 * This message will be sent when the user right-clicks or performs another
106 * OS-specific mouse command that should open a context menu. When this event
107 * is delivered depends on the system, on some systems (Mac) it will
108 * delivered after the mouse down event, and on others (Windows) it will be
109 * delivered after the mouse up event.
111 * You will always get the normal mouse events. For example, you may see
112 * MOUSEDOWN,CONTEXTMENU,MOUSEUP or MOUSEDOWN,MOUSEUP,CONTEXTMENU.
114 * The return value from the event handler determines if the context menu
115 * event will be passed to the page when you are using filtered input events
116 * (via RequestFilteringInputEvents()). In non-filtering mode the event will
117 * never be propagated and no context menu will be displayed. If you are
118 * handling mouse events in filtering mode, you may want to return true from
119 * this event even if you do not support a context menu to suppress the
120 * default one.
122 * Register for this event using the PP_INPUTEVENT_CLASS_MOUSE class.
124 PP_INPUTEVENT_TYPE_CONTEXTMENU = 10,
127 * Notification that an input method composition process has just started.
129 * Register for this event using the PP_INPUTEVENT_CLASS_IME class.
131 PP_INPUTEVENT_TYPE_IME_COMPOSITION_START = 11,
134 * Notification that the input method composition string is updated.
136 * Register for this event using the PP_INPUTEVENT_CLASS_IME class.
138 PP_INPUTEVENT_TYPE_IME_COMPOSITION_UPDATE = 12,
141 * Notification that an input method composition process has completed.
143 * Register for this event using the PP_INPUTEVENT_CLASS_IME class.
145 PP_INPUTEVENT_TYPE_IME_COMPOSITION_END = 13,
148 * Notification that an input method committed a string.
150 * Register for this event using the PP_INPUTEVENT_CLASS_IME class.
152 PP_INPUTEVENT_TYPE_IME_TEXT = 14,
155 * Notification that a finger was placed on a touch-enabled device.
157 * Register for this event using the PP_INPUTEVENT_CLASS_TOUCH class.
159 PP_INPUTEVENT_TYPE_TOUCHSTART = 15,
162 * Notification that a finger was moved on a touch-enabled device.
164 * Register for this event using the PP_INPUTEVENT_CLASS_TOUCH class.
166 PP_INPUTEVENT_TYPE_TOUCHMOVE = 16,
169 * Notification that a finger was released on a touch-enabled device.
171 * Register for this event using the PP_INPUTEVENT_CLASS_TOUCH class.
173 PP_INPUTEVENT_TYPE_TOUCHEND = 17,
176 * Notification that a touch event was canceled.
178 * Register for this event using the PP_INPUTEVENT_CLASS_TOUCH class.
180 PP_INPUTEVENT_TYPE_TOUCHCANCEL = 18
184 * This enumeration contains event modifier constants. Each modifier is one
185 * bit. Retrieve the modifiers from an input event using the GetEventModifiers
186 * function on PPB_InputEvent.
188 [assert_size(4)]
189 enum PP_InputEvent_Modifier {
190 PP_INPUTEVENT_MODIFIER_SHIFTKEY = 1 << 0,
191 PP_INPUTEVENT_MODIFIER_CONTROLKEY = 1 << 1,
192 PP_INPUTEVENT_MODIFIER_ALTKEY = 1 << 2,
193 PP_INPUTEVENT_MODIFIER_METAKEY = 1 << 3,
194 PP_INPUTEVENT_MODIFIER_ISKEYPAD = 1 << 4,
195 PP_INPUTEVENT_MODIFIER_ISAUTOREPEAT = 1 << 5,
196 PP_INPUTEVENT_MODIFIER_LEFTBUTTONDOWN = 1 << 6,
197 PP_INPUTEVENT_MODIFIER_MIDDLEBUTTONDOWN = 1 << 7,
198 PP_INPUTEVENT_MODIFIER_RIGHTBUTTONDOWN = 1 << 8,
199 PP_INPUTEVENT_MODIFIER_CAPSLOCKKEY = 1 << 9,
200 PP_INPUTEVENT_MODIFIER_NUMLOCKKEY = 1 << 10,
201 PP_INPUTEVENT_MODIFIER_ISLEFT = 1 << 11,
202 PP_INPUTEVENT_MODIFIER_ISRIGHT = 1 << 12
206 * This enumeration contains constants representing each mouse button. To get
207 * the mouse button for a mouse down or up event, use GetMouseButton on
208 * PPB_InputEvent.
210 [assert_size(4)]
211 enum PP_InputEvent_MouseButton {
212 PP_INPUTEVENT_MOUSEBUTTON_NONE = -1,
213 PP_INPUTEVENT_MOUSEBUTTON_LEFT = 0,
214 PP_INPUTEVENT_MOUSEBUTTON_MIDDLE = 1,
215 PP_INPUTEVENT_MOUSEBUTTON_RIGHT = 2
218 [assert_size(4)]
219 enum PP_InputEvent_Class {
221 * Request mouse input events.
223 * Normally you will request mouse events by calling RequestInputEvents().
224 * The only use case for filtered events (via RequestFilteringInputEvents())
225 * is for instances that have irregular outlines and you want to perform hit
226 * testing, which is very uncommon. Requesting non-filtered mouse events will
227 * lead to higher performance.
229 PP_INPUTEVENT_CLASS_MOUSE = 1 << 0,
232 * Requests keyboard events. Often you will want to request filtered mode
233 * (via RequestFilteringInputEvents) for keyboard events so you can pass on
234 * events (by returning false) that you don't handle. For example, if you
235 * don't request filtered mode and the user pressed "Page Down" when your
236 * instance has focus, the page won't scroll which will be a poor experience.
238 * A small number of tab and window management commands like Alt-F4 are never
239 * sent to the page. You can not request these keyboard commands since it
240 * would allow pages to trap users on a page.
242 PP_INPUTEVENT_CLASS_KEYBOARD = 1 << 1,
245 * Identifies scroll wheel input event. Wheel events must be requested in
246 * filtering mode via RequestFilteringInputEvents(). This is because many
247 * wheel commands should be forwarded to the page.
249 * Most instances will not need this event. Consuming wheel events by
250 * returning true from your filtered event handler will prevent the user from
251 * scrolling the page when the mouse is over the instance which can be very
252 * annoying.
254 * If you handle wheel events (for example, you have a document viewer which
255 * the user can scroll), the recommended behavior is to return false only if
256 * the wheel event actually causes your document to scroll. When the user
257 * reaches the end of the document, return false to indicating that the event
258 * was not handled. This will then forward the event to the containing page
259 * for scrolling, producing the nested scrolling behavior users expect from
260 * frames in a page.
262 PP_INPUTEVENT_CLASS_WHEEL = 1 << 2,
265 * Identifies touch input events.
267 * Request touch events only if you intend to handle them. If the browser
268 * knows you do not need to handle touch events, it can handle them at a
269 * higher level and achieve higher performance. If the plugin does not
270 * register for touch-events, then it will receive synthetic mouse events that
271 * are generated from the touch events (e.g. mouse-down for touch-start,
272 * mouse-move for touch-move (with left-button down), and mouse-up for
273 * touch-end. If the plugin does register for touch events, then the synthetic
274 * mouse events are not created.
276 PP_INPUTEVENT_CLASS_TOUCH = 1 << 3,
279 * Identifies IME composition input events.
281 * Request this input event class if you allow on-the-spot IME input.
283 PP_INPUTEVENT_CLASS_IME = 1 << 4
287 * The <code>PPB_InputEvent</code> interface contains pointers to several
288 * functions related to generic input events on the browser.
290 [version=1.0, macro="PPB_INPUT_EVENT_INTERFACE"]
291 interface PPB_InputEvent {
293 * RequestInputEvent() requests that input events corresponding to the given
294 * input events are delivered to the instance.
296 * It's recommended that you use RequestFilteringInputEvents() for keyboard
297 * events instead of this function so that you don't interfere with normal
298 * browser accelerators.
300 * By default, no input events are delivered. Call this function with the
301 * classes of events you are interested in to have them be delivered to
302 * the instance. Calling this function will override any previous setting for
303 * each specified class of input events (for example, if you previously
304 * called RequestFilteringInputEvents(), this function will set those events
305 * to non-filtering mode).
307 * Input events may have high overhead, so you should only request input
308 * events that your plugin will actually handle. For example, the browser may
309 * do optimizations for scroll or touch events that can be processed
310 * substantially faster if it knows there are no non-default receivers for
311 * that message. Requesting that such messages be delivered, even if they are
312 * processed very quickly, may have a noticeable effect on the performance of
313 * the page.
315 * Note that synthetic mouse events will be generated from touch events if
316 * (and only if) you do not request touch events.
318 * When requesting input events through this function, the events will be
319 * delivered and <i>not</i> bubbled to the default handlers.
321 * <strong>Example:</strong>
322 * @code
323 * RequestInputEvents(instance, PP_INPUTEVENT_CLASS_MOUSE);
324 * RequestFilteringInputEvents(instance,
325 * PP_INPUTEVENT_CLASS_WHEEL | PP_INPUTEVENT_CLASS_KEYBOARD);
326 * @endcode
328 * @param instance The <code>PP_Instance</code> of the instance requesting
329 * the given events.
331 * @param event_classes A combination of flags from
332 * <code>PP_InputEvent_Class</code> that identifies the classes of events the
333 * instance is requesting. The flags are combined by logically ORing their
334 * values.
336 * @return <code>PP_OK</code> if the operation succeeded,
337 * <code>PP_ERROR_BADARGUMENT</code> if instance is invalid, or
338 * <code>PP_ERROR_NOTSUPPORTED</code> if one of the event class bits were
339 * illegal. In the case of an invalid bit, all valid bits will be applied
340 * and only the illegal bits will be ignored. The most common cause of a
341 * <code>PP_ERROR_NOTSUPPORTED</code> return value is requesting keyboard
342 * events, these must use RequestFilteringInputEvents().
344 int32_t RequestInputEvents([in] PP_Instance instance,
345 [in] uint32_t event_classes);
348 * RequestFilteringInputEvents() requests that input events corresponding to
349 * the given input events are delivered to the instance for filtering.
351 * By default, no input events are delivered. In most cases you would
352 * register to receive events by calling RequestInputEvents(). In some cases,
353 * however, you may wish to filter events such that they can be bubbled up
354 * to the default handlers. In this case, register for those classes of
355 * events using this function instead of RequestInputEvents().
357 * Filtering input events requires significantly more overhead than just
358 * delivering them to the instance. As such, you should only request
359 * filtering in those cases where it's absolutely necessary. The reason is
360 * that it requires the browser to stop and block for the instance to handle
361 * the input event, rather than sending the input event asynchronously. This
362 * can have significant overhead.
364 * <strong>Example:</strong>
365 * @code
366 * RequestInputEvents(instance, PP_INPUTEVENT_CLASS_MOUSE);
367 * RequestFilteringInputEvents(instance,
368 * PP_INPUTEVENT_CLASS_WHEEL | PP_INPUTEVENT_CLASS_KEYBOARD);
369 * @endcode
371 * @return <code>PP_OK</code> if the operation succeeded,
372 * <code>PP_ERROR_BADARGUMENT</code> if instance is invalid, or
373 * <code>PP_ERROR_NOTSUPPORTED</code> if one of the event class bits were
374 * illegal. In the case of an invalid bit, all valid bits will be applied
375 * and only the illegal bits will be ignored.
377 int32_t RequestFilteringInputEvents([in] PP_Instance instance,
378 [in] uint32_t event_classes);
381 * ClearInputEventRequest() requests that input events corresponding to the
382 * given input classes no longer be delivered to the instance.
384 * By default, no input events are delivered. If you have previously
385 * requested input events via RequestInputEvents() or
386 * RequestFilteringInputEvents(), this function will unregister handling
387 * for the given instance. This will allow greater browser performance for
388 * those events.
390 * Note that you may still get some input events after clearing the flag if
391 * they were dispatched before the request was cleared. For example, if
392 * there are 3 mouse move events waiting to be delivered, and you clear the
393 * mouse event class during the processing of the first one, you'll still
394 * receive the next two. You just won't get more events generated.
396 * @param instance The <code>PP_Instance</code> of the instance requesting
397 * to no longer receive the given events.
399 * @param event_classes A combination of flags from
400 * <code>PP_InputEvent_Class</code> that identify the classes of events the
401 * instance is no longer interested in.
403 void ClearInputEventRequest([in] PP_Instance instance,
404 [in] uint32_t event_classes);
407 * IsInputEvent() returns true if the given resource is a valid input event
408 * resource.
410 * @param[in] resource A <code>PP_Resource</code> corresponding to a generic
411 * resource.
413 * @return <code>PP_TRUE</code> if the given resource is a valid input event
414 * resource.
416 PP_Bool IsInputEvent([in] PP_Resource resource);
419 * GetType() returns the type of input event for the given input event
420 * resource.
422 * @param[in] resource A <code>PP_Resource</code> corresponding to an input
423 * event.
425 * @return A <code>PP_InputEvent_Type</code> if its a valid input event or
426 * <code>PP_INPUTEVENT_TYPE_UNDEFINED</code> if the resource is invalid.
428 PP_InputEvent_Type GetType([in] PP_Resource event);
431 * GetTimeStamp() Returns the time that the event was generated. This will be
432 * before the current time since processing and dispatching the event has
433 * some overhead. Use this value to compare the times the user generated two
434 * events without being sensitive to variable processing time.
436 * @param[in] resource A <code>PP_Resource</code> corresponding to the event.
438 * @return The return value is in time ticks, which is a monotonically
439 * increasing clock not related to the wall clock time. It will not change
440 * if the user changes their clock or daylight savings time starts, so can
441 * be reliably used to compare events. This means, however, that you can't
442 * correlate event times to a particular time of day on the system clock.
444 PP_TimeTicks GetTimeStamp([in] PP_Resource event);
447 * GetModifiers() returns a bitfield indicating which modifiers were down
448 * at the time of the event. This is a combination of the flags in the
449 * <code>PP_InputEvent_Modifier</code> enum.
451 * @param[in] resource A <code>PP_Resource</code> corresponding to an input
452 * event.
454 * @return The modifiers associated with the event, or 0 if the given
455 * resource is not a valid event resource.
457 uint32_t GetModifiers([in] PP_Resource event);
461 * The <code>PPB_MouseInputEvent</code> interface contains pointers to several
462 * functions related to mouse input events.
464 [macro="PPB_MOUSE_INPUT_EVENT_INTERFACE"]
465 interface PPB_MouseInputEvent {
467 * Create() creates a mouse input event with the given parameters. Normally
468 * you will get a mouse event passed through the
469 * <code>HandleInputEvent</code> and will not need to create them, but some
470 * applications may want to create their own for internal use. The type must
471 * be one of the mouse event types.
473 * @param[in] instance The instance for which this event occurred.
475 * @param[in] type A <code>PP_InputEvent_Type</code> identifying the type of
476 * input event.
478 * @param[in] time_stamp A <code>PP_TimeTicks</code> indicating the time
479 * when the event occurred.
481 * @param[in] modifiers A bit field combination of the
482 * <code>PP_InputEvent_Modifier</code> flags.
484 * @param[in] mouse_button The button that changed for mouse down or up
485 * events. This value will be <code>PP_EVENT_MOUSEBUTTON_NONE</code> for
486 * mouse move, enter, and leave events.
488 * @param[in] mouse_position A <code>Point</code> containing the x and y
489 * position of the mouse when the event occurred.
491 * @return A <code>PP_Resource</code> containing the new mouse input event.
493 PP_Resource Create([in] PP_Instance instance,
494 [in] PP_InputEvent_Type type,
495 [in] PP_TimeTicks time_stamp,
496 [in] uint32_t modifiers,
497 [in] PP_InputEvent_MouseButton mouse_button,
498 [in] PP_Point mouse_position,
499 [in] int32_t click_count);
502 * Create() creates a mouse input event with the given parameters. Normally
503 * you will get a mouse event passed through the
504 * <code>HandleInputEvent</code> and will not need to create them, but some
505 * applications may want to create their own for internal use. The type must
506 * be one of the mouse event types.
508 * @param[in] instance The instance for which this event occurred.
510 * @param[in] type A <code>PP_InputEvent_Type</code> identifying the type of
511 * input event.
513 * @param[in] time_stamp A <code>PP_TimeTicks</code> indicating the time
514 * when the event occurred.
516 * @param[in] modifiers A bit field combination of the
517 * <code>PP_InputEvent_Modifier</code> flags.
519 * @param[in] mouse_button The button that changed for mouse down or up
520 * events. This value will be <code>PP_EVENT_MOUSEBUTTON_NONE</code> for
521 * mouse move, enter, and leave events.
523 * @param[in] mouse_position A <code>Point</code> containing the x and y
524 * position of the mouse when the event occurred.
526 * @param[in] mouse_movement The change in position of the mouse.
528 * @return A <code>PP_Resource</code> containing the new mouse input event.
530 [version=1.1]
531 PP_Resource Create([in] PP_Instance instance,
532 [in] PP_InputEvent_Type type,
533 [in] PP_TimeTicks time_stamp,
534 [in] uint32_t modifiers,
535 [in] PP_InputEvent_MouseButton mouse_button,
536 [in] PP_Point mouse_position,
537 [in] int32_t click_count,
538 [in] PP_Point mouse_movement);
540 * IsMouseInputEvent() determines if a resource is a mouse event.
542 * @param[in] resource A <code>PP_Resource</code> corresponding to an event.
544 * @return <code>PP_TRUE</code> if the given resource is a valid mouse input
545 * event, otherwise <code>PP_FALSE</code>.
547 PP_Bool IsMouseInputEvent([in] PP_Resource resource);
550 * GetButton() returns the mouse button that generated a mouse down or up
551 * event.
553 * @param[in] mouse_event A <code>PP_Resource</code> corresponding to a
554 * mouse event.
556 * @return The mouse button associated with mouse down and up events. This
557 * value will be <code>PP_EVENT_MOUSEBUTTON_NONE</code> for mouse move,
558 * enter, and leave events, and for all non-mouse events.
560 PP_InputEvent_MouseButton GetButton([in] PP_Resource mouse_event);
563 * GetPosition() returns the pixel location of a mouse input event. When
564 * the mouse is locked, it returns the last known mouse position just as
565 * mouse lock was entered.
567 * @param[in] mouse_event A <code>PP_Resource</code> corresponding to a
568 * mouse event.
570 * @return The point associated with the mouse event, relative to the upper-
571 * left of the instance receiving the event. These values can be negative for
572 * mouse drags. The return value will be (0, 0) for non-mouse events.
574 [returnByValue] PP_Point GetPosition([in] PP_Resource mouse_event);
577 * TODO(brettw) figure out exactly what this means.
579 int32_t GetClickCount([in] PP_Resource mouse_event);
582 * Returns the change in position of the mouse. When the mouse is locked,
583 * although the mouse position doesn't actually change, this function
584 * still provides movement information, which indicates what the change in
585 * position would be had the mouse not been locked.
587 * @param[in] mouse_event A <code>PP_Resource</code> corresponding to a
588 * mouse event.
590 * @return The change in position of the mouse, relative to the previous
591 * position.
593 [version=1.1]
594 PP_Point GetMovement([in] PP_Resource mouse_event);
599 * The <code>PPB_WheelIputEvent</code> interface contains pointers to several
600 * functions related to wheel input events.
602 [version=1.0, macro="PPB_WHEEL_INPUT_EVENT_INTERFACE"]
603 interface PPB_WheelInputEvent {
605 * Create() creates a wheel input event with the given parameters. Normally
606 * you will get a wheel event passed through the
607 * <code>HandleInputEvent</code> and will not need to create them, but some
608 * applications may want to create their own for internal use.
610 * @param[in] instance The instance for which this event occurred.
612 * @param[in] time_stamp A <code>PP_TimeTicks</code> indicating the time
613 * when the event occurred.
615 * @param[in] modifiers A bit field combination of the
616 * <code>PP_InputEvent_Modifier</code> flags.
618 * @param[in] wheel_delta The scroll wheel's horizontal and vertical scroll
619 * amounts.
621 * @param[in] wheel_ticks The number of "clicks" of the scroll wheel that
622 * have produced the event.
624 * @param[in] scroll_by_page When true, the user is requesting to scroll
625 * by pages. When false, the user is requesting to scroll by lines.
627 * @return A <code>PP_Resource</code> containing the new wheel input event.
629 PP_Resource Create([in] PP_Instance instance,
630 [in] PP_TimeTicks time_stamp,
631 [in] uint32_t modifiers,
632 [in] PP_FloatPoint wheel_delta,
633 [in] PP_FloatPoint wheel_ticks,
634 [in] PP_Bool scroll_by_page);
637 * IsWheelInputEvent() determines if a resource is a wheel event.
639 * @param[in] wheel_event A <code>PP_Resource</code> corresponding to an
640 * event.
642 * @return <code>PP_TRUE</code> if the given resource is a valid wheel input
643 * event.
645 PP_Bool IsWheelInputEvent([in] PP_Resource resource);
648 * GetDelta() returns the amount vertically and horizontally the user has
649 * requested to scroll by with their mouse wheel. A scroll down or to the
650 * right (where the content moves up or left) is represented as positive
651 * values, and a scroll up or to the left (where the content moves down or
652 * right) is represented as negative values.
654 * This amount is system dependent and will take into account the user's
655 * preferred scroll sensitivity and potentially also nonlinear acceleration
656 * based on the speed of the scrolling.
658 * Devices will be of varying resolution. Some mice with large detents will
659 * only generate integer scroll amounts. But fractional values are also
660 * possible, for example, on some trackpads and newer mice that don't have
661 * "clicks".
663 * @param[in] wheel_event A <code>PP_Resource</code> corresponding to a wheel
664 * event.
666 * @return The vertical and horizontal scroll values. The units are either in
667 * pixels (when scroll_by_page is false) or pages (when scroll_by_page is
668 * true). For example, y = -3 means scroll up 3 pixels when scroll_by_page
669 * is false, and scroll up 3 pages when scroll_by_page is true.
671 PP_FloatPoint GetDelta([in] PP_Resource wheel_event);
674 * GetTicks() returns the number of "clicks" of the scroll wheel
675 * that have produced the event. The value may have system-specific
676 * acceleration applied to it, depending on the device. The positive and
677 * negative meanings are the same as for GetDelta().
679 * If you are scrolling, you probably want to use the delta values. These
680 * tick events can be useful if you aren't doing actual scrolling and don't
681 * want or pixel values. An example may be cycling between different items in
682 * a game.
684 * @param[in] wheel_event A <code>PP_Resource</code> corresponding to a wheel
685 * event.
687 * @return The number of "clicks" of the scroll wheel. You may receive
688 * fractional values for the wheel ticks if the mouse wheel is high
689 * resolution or doesn't have "clicks". If your program wants discrete
690 * events (as in the "picking items" example) you should accumulate
691 * fractional click values from multiple messages until the total value
692 * reaches positive or negative one. This should represent a similar amount
693 * of scrolling as for a mouse that has a discrete mouse wheel.
695 PP_FloatPoint GetTicks([in] PP_Resource wheel_event);
698 * GetScrollByPage() indicates if the scroll delta x/y indicates pages or
699 * lines to scroll by.
701 * @param[in] wheel_event A <code>PP_Resource</code> corresponding to a wheel
702 * event.
704 * @return <code>PP_TRUE</code> if the event is a wheel event and the user is
705 * scrolling by pages. <code>PP_FALSE</code> if not or if the resource is not
706 * a wheel event.
708 PP_Bool GetScrollByPage([in] PP_Resource wheel_event);
712 * The <code>PPB_KeyboardInputEvent</code> interface contains pointers to
713 * several functions related to keyboard input events.
715 [version=1.0, macro="PPB_KEYBOARD_INPUT_EVENT_INTERFACE"]
716 interface PPB_KeyboardInputEvent {
718 * Creates a keyboard input event with the given parameters. Normally you
719 * will get a keyboard event passed through the HandleInputEvent and will not
720 * need to create them, but some applications may want to create their own
721 * for internal use. The type must be one of the keyboard event types.
723 * @param[in] instance The instance for which this event occurred.
725 * @param[in] type A <code>PP_InputEvent_Type</code> identifying the type of
726 * input event.
728 * @param[in] time_stamp A <code>PP_TimeTicks</code> indicating the time
729 * when the event occurred.
731 * @param[in] modifiers A bit field combination of the
732 * <code>PP_InputEvent_Modifier</code> flags.
734 * @param[in] key_code This value reflects the DOM KeyboardEvent
735 * <code>keyCode</code> field, which is the Windows-style Virtual Key
736 * code of the key.
738 * @param[in] character_text This value represents the typed character as a
739 * UTF-8 string.
741 * @return A <code>PP_Resource</code> containing the new keyboard input
742 * event.
744 [deprecate=1.2]
745 PP_Resource Create([in] PP_Instance instance,
746 [in] PP_InputEvent_Type type,
747 [in] PP_TimeTicks time_stamp,
748 [in] uint32_t modifiers,
749 [in] uint32_t key_code,
750 [in] PP_Var character_text);
753 * Creates a keyboard input event with the given parameters. Normally you
754 * will get a keyboard event passed through the HandleInputEvent and will not
755 * need to create them, but some applications may want to create their own
756 * for internal use. The type must be one of the keyboard event types.
758 * @param[in] instance The instance for which this event occurred.
760 * @param[in] type A <code>PP_InputEvent_Type</code> identifying the type of
761 * input event.
763 * @param[in] time_stamp A <code>PP_TimeTicks</code> indicating the time
764 * when the event occurred.
766 * @param[in] modifiers A bit field combination of the
767 * <code>PP_InputEvent_Modifier</code> flags.
769 * @param[in] key_code This value reflects the DOM KeyboardEvent
770 * <code>keyCode</code> field, which is the Windows-style Virtual Key
771 * code of the key.
773 * @param[in] character_text This value represents the typed character as a
774 * UTF-8 string.
776 * @param[in] code This value represents the DOM3 |code| string that
777 * corresponds to the physical key being pressed.
779 * @return A <code>PP_Resource</code> containing the new keyboard input
780 * event.
782 [version=1.2]
783 PP_Resource Create([in] PP_Instance instance,
784 [in] PP_InputEvent_Type type,
785 [in] PP_TimeTicks time_stamp,
786 [in] uint32_t modifiers,
787 [in] uint32_t key_code,
788 [in] PP_Var character_text,
789 [in] PP_Var code);
792 * IsKeyboardInputEvent() determines if a resource is a keyboard event.
794 * @param[in] resource A <code>PP_Resource</code> corresponding to an event.
796 * @return <code>PP_TRUE</code> if the given resource is a valid input event.
798 PP_Bool IsKeyboardInputEvent([in] PP_Resource resource);
801 * GetKeyCode() returns the DOM keyCode field for the keyboard event.
802 * Chrome populates this with the Windows-style Virtual Key code of the key.
804 * @param[in] key_event A <code>PP_Resource</code> corresponding to a
805 * keyboard event.
807 * @return The DOM keyCode field for the keyboard event.
809 uint32_t GetKeyCode([in] PP_Resource key_event);
812 * GetCharacterText() returns the typed character as a UTF-8 string for the
813 * given character event.
815 * @param[in] character_event A <code>PP_Resource</code> corresponding to a
816 * keyboard event.
818 * @return A string var representing a single typed character for character
819 * input events. For non-character input events the return value will be an
820 * undefined var.
822 PP_Var GetCharacterText([in] PP_Resource character_event);
825 * GetCode() returns the DOM |code| field for this keyboard event, as
826 * defined in the DOM3 Events spec:
827 * http://www.w3.org/TR/DOM-Level-3-Events/
829 * @param[in] key_event The key event for which to return the key code.
831 * @return The string that contains the DOM |code| for the keyboard event.
833 [version=1.2]
834 PP_Var GetCode([in] PP_Resource key_event);
837 [assert_size(4)]
838 enum PP_TouchListType {
840 * The list of all TouchPoints which are currently down.
842 PP_TOUCHLIST_TYPE_TOUCHES = 0,
845 * The list of all TouchPoints whose state has changed since the last
846 * TouchInputEvent.
848 PP_TOUCHLIST_TYPE_CHANGEDTOUCHES = 1,
851 * The list of all TouchPoints which are targeting this plugin. This is a
852 * subset of Touches.
854 PP_TOUCHLIST_TYPE_TARGETTOUCHES = 2
858 * The <code>PPB_TouchInputEvent</code> interface contains pointers to several
859 * functions related to touch events.
861 [version=1.0, macro="PPB_TOUCH_INPUT_EVENT_INTERFACE"]
862 interface PPB_TouchInputEvent {
864 * Creates a touch input event with the given parameters. Normally you
865 * will get a touch event passed through the HandleInputEvent and will not
866 * need to create them, but some applications may want to create their own
867 * for internal use. The type must be one of the touch event types.
868 * This newly created touch input event does not have any touch point in any
869 * of the touch-point lists. <code>AddTouchPoint</code> should be called to
870 * add the touch-points.
872 * @param[in] instance The instance for which this event occurred.
874 * @param[in] type A <code>PP_InputEvent_Type</code> identifying the type of
875 * input event.
877 * @param[in] time_stamp A <code>PP_TimeTicks</code> indicating the time
878 * when the event occurred.
880 * @param[in] modifiers A bit field combination of the
881 * <code>PP_InputEvent_Modifier</code> flags.
883 * @return A <code>PP_Resource</code> containing the new touch input event.
885 PP_Resource Create([in] PP_Instance instance,
886 [in] PP_InputEvent_Type type,
887 [in] PP_TimeTicks time_stamp,
888 [in] uint32_t modifiers);
891 * Adds a touch point to the touch event in the specified touch-list.
893 * @param[in] touch_event A <code>PP_Resource</code> corresponding to a touch
894 * event.
896 * @param[in] list The list to add the touch point to.
898 * @param[in] point The point to add to the list.
900 void AddTouchPoint([in] PP_Resource touch_event,
901 [in] PP_TouchListType list,
902 [in] PP_TouchPoint point);
905 * IsTouchInputEvent() determines if a resource is a touch event.
907 * @param[in] resource A <code>PP_Resource</code> corresponding to an event.
909 * @return <code>PP_TRUE</code> if the given resource is a valid touch input
910 * event, otherwise <code>PP_FALSE</code>.
912 PP_Bool IsTouchInputEvent([in] PP_Resource resource);
915 * Returns the number of touch-points in the specified list.
917 * @param[in] resource A <code>PP_Resource</code> corresponding to a touch
918 * event.
920 * @param[in] list The list.
922 * @return The number of touch-points in the specified list.
924 uint32_t GetTouchCount([in] PP_Resource resource,
925 [in] PP_TouchListType list);
928 * Returns the touch-point at the specified index from the specified list.
930 * @param[in] resource A <code>PP_Resource</code> corresponding to a touch
931 * event.
933 * @param[in] list The list.
935 * @param[in] index The index.
937 * @return A <code>PP_TouchPoint</code> representing the touch-point.
939 PP_TouchPoint GetTouchByIndex([in] PP_Resource resource,
940 [in] PP_TouchListType list,
941 [in] uint32_t index);
944 * Returns the touch-point with the specified touch-id in the specified list.
946 * @param[in] resource A <code>PP_Resource</code> corresponding to a touch
947 * event.
949 * @param[in] list The list.
951 * @param[in] touch_id The id of the touch-point.
953 * @return A <code>PP_TouchPoint</code> representing the touch-point.
955 PP_TouchPoint GetTouchById([in] PP_Resource resource,
956 [in] PP_TouchListType list,
957 [in] uint32_t touch_id);
960 [macro="PPB_IME_INPUT_EVENT_INTERFACE"]
961 interface PPB_IMEInputEvent {
963 * Create() creates an IME input event with the given parameters. Normally
964 * you will get an IME event passed through the <code>HandleInputEvent</code>
965 * and will not need to create them, but some applications may want to create
966 * their own for internal use.
968 * @param[in] instance The instance for which this event occurred.
970 * @param[in] type A <code>PP_InputEvent_Type</code> identifying the type of
971 * input event. The type must be one of the IME event types.
973 * @param[in] time_stamp A <code>PP_TimeTicks</code> indicating the time
974 * when the event occurred.
976 * @param[in] text The string returned by <code>GetText</code>.
978 * @param[in] segment_number The number returned by
979 * <code>GetSegmentNumber</code>.
981 * @param[in] segment_offsets The array of numbers returned by
982 * <code>GetSegmentOffset</code>. If <code>segment_number</code> is zero,
983 * the number of elements of the array should be zero. If
984 * <code>segment_number</code> is non-zero, the length of the array must be
985 * <code>segment_number</code> + 1.
987 * @param[in] target_segment The number returned by
988 * <code>GetTargetSegment</code>.
990 * @param[in] selection_start The start index returned by
991 * <code>GetSelection</code>.
993 * @param[in] selection_end The end index returned by
994 * <code>GetSelection</code>.
996 * @return A <code>PP_Resource</code> containing the new IME input event.
998 PP_Resource Create([in] PP_Instance instance,
999 [in] PP_InputEvent_Type type,
1000 [in] PP_TimeTicks time_stamp,
1001 [in] PP_Var text,
1002 [in] uint32_t segment_number,
1003 [in] uint32_t[] segment_offsets,
1004 [in] int32_t target_segment,
1005 [in] uint32_t selection_start,
1006 [in] uint32_t selection_end);
1009 * IsIMEInputEvent() determines if a resource is an IME event.
1011 * @param[in] resource A <code>PP_Resource</code> corresponding to an event.
1013 * @return <code>PP_TRUE</code> if the given resource is a valid input event.
1015 PP_Bool IsIMEInputEvent([in] PP_Resource resource);
1018 * GetText() returns the composition text as a UTF-8 string for the given IME
1019 * event.
1021 * @param[in] ime_event A <code>PP_Resource</code> corresponding to an IME
1022 * event.
1024 * @return A string var representing the composition text. For non-IME input
1025 * events the return value will be an undefined var.
1027 PP_Var GetText([in] PP_Resource ime_event);
1030 * GetSegmentNumber() returns the number of segments in the composition text.
1032 * @param[in] ime_event A <code>PP_Resource</code> corresponding to an IME
1033 * event.
1035 * @return The number of segments. For events other than COMPOSITION_UPDATE,
1036 * returns 0.
1038 uint32_t GetSegmentNumber([in] PP_Resource ime_event);
1041 * GetSegmentOffset() returns the position of the index-th segmentation point
1042 * in the composition text. The position is given by a byte-offset (not a
1043 * character-offset) of the string returned by GetText(). It always satisfies
1044 * 0=GetSegmentOffset(0) < ... < GetSegmentOffset(i) < GetSegmentOffset(i+1)
1045 * < ... < GetSegmentOffset(GetSegmentNumber())=(byte-length of GetText()).
1046 * Note that [GetSegmentOffset(i), GetSegmentOffset(i+1)) represents the range
1047 * of the i-th segment, and hence GetSegmentNumber() can be a valid argument
1048 * to this function instead of an off-by-1 error.
1050 * @param[in] ime_event A <code>PP_Resource</code> corresponding to an IME
1051 * event.
1053 * @param[in] index An integer indicating a segment.
1055 * @return The byte-offset of the segmentation point. If the event is not
1056 * COMPOSITION_UPDATE or index is out of range, returns 0.
1058 uint32_t GetSegmentOffset([in] PP_Resource ime_event,
1059 [in] uint32_t index);
1062 * GetTargetSegment() returns the index of the current target segment of
1063 * composition.
1065 * @param[in] ime_event A <code>PP_Resource</code> corresponding to an IME
1066 * event.
1068 * @return An integer indicating the index of the target segment. When there
1069 * is no active target segment, or the event is not COMPOSITION_UPDATE,
1070 * returns -1.
1072 int32_t GetTargetSegment([in] PP_Resource ime_event);
1075 * GetSelection() returns the range selected by caret in the composition text.
1077 * @param[in] ime_event A <code>PP_Resource</code> corresponding to an IME
1078 * event.
1080 * @param[out] start The start position of the current selection.
1082 * @param[out] end The end position of the current selection.
1084 void GetSelection([in] PP_Resource ime_event,
1085 [out] uint32_t start,
1086 [out] uint32_t end);