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source: vbox/trunk/src/VBox/Additions/x11/x11include/xorg-server-1.16.0/inputstr.h@ 99743

Last change on this file since 99743 was 52145, checked in by vboxsync, 10 years ago

Additions/x11/x11include: add header files for X.Org Server 1.16.

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1/************************************************************
2
3Copyright 1987, 1998 The Open Group
4
5Permission to use, copy, modify, distribute, and sell this software and its
6documentation for any purpose is hereby granted without fee, provided that
7the above copyright notice appear in all copies and that both that
8copyright notice and this permission notice appear in supporting
9documentation.
10
11The above copyright notice and this permission notice shall be included in
12all copies or substantial portions of the Software.
13
14THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
15IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
16FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
17OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
18AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
19CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
20
21Except as contained in this notice, the name of The Open Group shall not be
22used in advertising or otherwise to promote the sale, use or other dealings
23in this Software without prior written authorization from The Open Group.
24
25Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts.
26
27 All Rights Reserved
28
29Permission to use, copy, modify, and distribute this software and its
30documentation for any purpose and without fee is hereby granted,
31provided that the above copyright notice appear in all copies and that
32both that copyright notice and this permission notice appear in
33supporting documentation, and that the name of Digital not be
34used in advertising or publicity pertaining to distribution of the
35software without specific, written prior permission.
36
37DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
38ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
39DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
40ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
41WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
42ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
43SOFTWARE.
44
45********************************************************/
46
47#ifndef INPUTSTRUCT_H
48#define INPUTSTRUCT_H
49
50#include <X11/extensions/XI2proto.h>
51
52#include <pixman.h>
53#include "input.h"
54#include "window.h"
55#include "dixstruct.h"
56#include "cursorstr.h"
57#include "geext.h"
58#include "privates.h"
59
60#define BitIsOn(ptr, bit) (!!(((const BYTE *) (ptr))[(bit)>>3] & (1 << ((bit) & 7))))
61#define SetBit(ptr, bit) (((BYTE *) (ptr))[(bit)>>3] |= (1 << ((bit) & 7)))
62#define ClearBit(ptr, bit) (((BYTE *)(ptr))[(bit)>>3] &= ~(1 << ((bit) & 7)))
63extern _X_EXPORT int CountBits(const uint8_t * mask, int len);
64
65#define SameClient(obj,client) \
66 (CLIENT_BITS((obj)->resource) == (client)->clientAsMask)
67
68#define EMASKSIZE (MAXDEVICES + 2)
69
70/* This is the last XI2 event supported by the server. If you add
71 * events to the protocol, the server will not support these events until
72 * this number here is bumped.
73 */
74#define XI2LASTEVENT XI_BarrierLeave
75#define XI2MASKSIZE ((XI2LASTEVENT >> 3) + 1) /* no of bytes for masks */
76
77/**
78 * Scroll types for ::SetScrollValuator and the scroll type in the
79 * ::ScrollInfoPtr.
80 */
81enum ScrollType {
82 SCROLL_TYPE_NONE = 0, /**< Not a scrolling valuator */
83 SCROLL_TYPE_VERTICAL = 8,
84 SCROLL_TYPE_HORIZONTAL = 9,
85};
86
87/**
88 * This struct stores the core event mask for each client except the client
89 * that created the window.
90 *
91 * Each window that has events selected from other clients has at least one of
92 * these masks. If multiple clients selected for events on the same window,
93 * these masks are in a linked list.
94 *
95 * The event mask for the client that created the window is stored in
96 * win->eventMask instead.
97 *
98 * The resource id is simply a fake client ID to associate this mask with a
99 * client.
100 *
101 * Kludge: OtherClients and InputClients must be compatible, see code.
102 */
103typedef struct _OtherClients {
104 OtherClientsPtr next; /**< Pointer to the next mask */
105 XID resource; /**< id for putting into resource manager */
106 Mask mask; /**< Core event mask */
107} OtherClients;
108
109/**
110 * This struct stores the XI event mask for each client.
111 *
112 * Each window that has events selected has at least one of these masks. If
113 * multiple client selected for events on the same window, these masks are in
114 * a linked list.
115 */
116typedef struct _InputClients {
117 InputClientsPtr next; /**< Pointer to the next mask */
118 XID resource; /**< id for putting into resource manager */
119 Mask mask[EMASKSIZE]; /**< Actual XI event mask, deviceid is index */
120 /** XI2 event masks. One per device, each bit is a mask of (1 << type) */
121 struct _XI2Mask *xi2mask;
122} InputClients;
123
124/**
125 * Combined XI event masks from all devices.
126 *
127 * This is the XI equivalent of the deliverableEvents, eventMask and
128 * dontPropagate mask of the WindowRec (or WindowOptRec).
129 *
130 * A window that has an XI client selecting for events has exactly one
131 * OtherInputMasks struct and exactly one InputClients struct hanging off
132 * inputClients. Each further client appends to the inputClients list.
133 * Each Mask field is per-device, with the device id as the index.
134 * Exception: for non-device events (Presence events), the MAXDEVICES
135 * deviceid is used.
136 */
137typedef struct _OtherInputMasks {
138 /**
139 * Bitwise OR of all masks by all clients and the window's parent's masks.
140 */
141 Mask deliverableEvents[EMASKSIZE];
142 /**
143 * Bitwise OR of all masks by all clients on this window.
144 */
145 Mask inputEvents[EMASKSIZE];
146 /** The do-not-propagate masks for each device. */
147 Mask dontPropagateMask[EMASKSIZE];
148 /** The clients that selected for events */
149 InputClientsPtr inputClients;
150 /* XI2 event masks. One per device, each bit is a mask of (1 << type) */
151 struct _XI2Mask *xi2mask;
152} OtherInputMasks;
153
154/*
155 * The following structure gets used for both active and passive grabs. For
156 * active grabs some of the fields (e.g. modifiers) are not used. However,
157 * that is not much waste since there aren't many active grabs (one per
158 * keyboard/pointer device) going at once in the server.
159 */
160
161#define MasksPerDetailMask 8 /* 256 keycodes and 256 possible
162 modifier combinations, but only
163 3 buttons. */
164
165typedef struct _DetailRec { /* Grab details may be bit masks */
166 unsigned int exact;
167 Mask *pMask;
168} DetailRec;
169
170union _GrabMask {
171 Mask core;
172 Mask xi;
173 struct _XI2Mask *xi2mask;
174};
175
176/**
177 * Central struct for device grabs.
178 * The same struct is used for both core grabs and device grabs, with
179 * different fields being set.
180 * If the grab is a core grab (GrabPointer/GrabKeyboard), then the eventMask
181 * is a combination of standard event masks (i.e. PointerMotionMask |
182 * ButtonPressMask).
183 * If the grab is a device grab (GrabDevice), then the eventMask is a
184 * combination of event masks for a given XI event type (see SetEventInfo).
185 *
186 * If the grab is a result of a ButtonPress, then eventMask is the core mask
187 * and deviceMask is set to the XI event mask for the grab.
188 */
189typedef struct _GrabRec {
190 GrabPtr next; /* for chain of passive grabs */
191 XID resource;
192 DeviceIntPtr device;
193 WindowPtr window;
194 unsigned ownerEvents:1;
195 unsigned keyboardMode:1;
196 unsigned pointerMode:1;
197 enum InputLevel grabtype;
198 CARD8 type; /* event type for passive grabs, 0 for active grabs */
199 DetailRec modifiersDetail;
200 DeviceIntPtr modifierDevice;
201 DetailRec detail; /* key or button */
202 WindowPtr confineTo; /* always NULL for keyboards */
203 CursorPtr cursor; /* always NULL for keyboards */
204 Mask eventMask;
205 Mask deviceMask;
206 /* XI2 event masks. One per device, each bit is a mask of (1 << type) */
207 struct _XI2Mask *xi2mask;
208} GrabRec;
209
210/**
211 * Sprite information for a device.
212 */
213typedef struct _SpriteRec {
214 CursorPtr current;
215 BoxRec hotLimits; /* logical constraints of hot spot */
216 Bool confined; /* confined to screen */
217 RegionPtr hotShape; /* additional logical shape constraint */
218 BoxRec physLimits; /* physical constraints of hot spot */
219 WindowPtr win; /* window of logical position */
220 HotSpot hot; /* logical pointer position */
221 HotSpot hotPhys; /* physical pointer position */
222#ifdef PANORAMIX
223 ScreenPtr screen; /* all others are in Screen 0 coordinates */
224 RegionRec Reg1; /* Region 1 for confining motion */
225 RegionRec Reg2; /* Region 2 for confining virtual motion */
226 WindowPtr windows[MAXSCREENS];
227 WindowPtr confineWin; /* confine window */
228#endif
229 /* The window trace information is used at dix/events.c to avoid having
230 * to compute all the windows between the root and the current pointer
231 * window each time a button or key goes down. The grabs on each of those
232 * windows must be checked.
233 * spriteTraces should only be used at dix/events.c! */
234 WindowPtr *spriteTrace;
235 int spriteTraceSize;
236 int spriteTraceGood;
237
238 /* Due to delays between event generation and event processing, it is
239 * possible that the pointer has crossed screen boundaries between the
240 * time in which it begins generating events and the time when
241 * those events are processed.
242 *
243 * pEnqueueScreen: screen the pointer was on when the event was generated
244 * pDequeueScreen: screen the pointer was on when the event is processed
245 */
246 ScreenPtr pEnqueueScreen;
247 ScreenPtr pDequeueScreen;
248
249} SpriteRec;
250
251typedef struct _KeyClassRec {
252 int sourceid;
253 CARD8 down[DOWN_LENGTH];
254 CARD8 postdown[DOWN_LENGTH];
255 int modifierKeyCount[8];
256 struct _XkbSrvInfo *xkbInfo;
257} KeyClassRec, *KeyClassPtr;
258
259typedef struct _ScrollInfo {
260 enum ScrollType type;
261 double increment;
262 int flags;
263} ScrollInfo, *ScrollInfoPtr;
264
265typedef struct _AxisInfo {
266 int resolution;
267 int min_resolution;
268 int max_resolution;
269 int min_value;
270 int max_value;
271 Atom label;
272 CARD8 mode;
273 ScrollInfo scroll;
274} AxisInfo, *AxisInfoPtr;
275
276typedef struct _ValuatorAccelerationRec {
277 int number;
278 PointerAccelSchemeProc AccelSchemeProc;
279 void *accelData; /* at disposal of AccelScheme */
280 PointerAccelSchemeInitProc AccelInitProc;
281 DeviceCallbackProc AccelCleanupProc;
282} ValuatorAccelerationRec, *ValuatorAccelerationPtr;
283
284typedef struct _ValuatorClassRec {
285 int sourceid;
286 int numMotionEvents;
287 int first_motion;
288 int last_motion;
289 void *motion; /* motion history buffer. Different layout
290 for MDs and SDs! */
291 WindowPtr motionHintWindow;
292
293 AxisInfoPtr axes;
294 unsigned short numAxes;
295 double *axisVal; /* always absolute, but device-coord system */
296 ValuatorAccelerationRec accelScheme;
297 int h_scroll_axis; /* horiz smooth-scrolling axis */
298 int v_scroll_axis; /* vert smooth-scrolling axis */
299} ValuatorClassRec;
300
301typedef struct _TouchListener {
302 XID listener; /* grabs/event selection IDs receiving
303 * events for this touch */
304 int resource_type; /* listener's resource type */
305 enum TouchListenerType type;
306 enum TouchListenerState state;
307 enum InputLevel level; /* matters only for emulating touches */
308 WindowPtr window;
309 GrabPtr grab;
310} TouchListener;
311
312typedef struct _TouchPointInfo {
313 uint32_t client_id; /* touch ID as seen in client events */
314 int sourceid; /* Source device's ID for this touchpoint */
315 Bool active; /* whether or not the touch is active */
316 Bool pending_finish; /* true if the touch is physically inactive
317 * but still owned by a grab */
318 SpriteRec sprite; /* window trace for delivery */
319 ValuatorMask *valuators; /* last recorded axis values */
320 TouchListener *listeners; /* set of listeners */
321 int num_listeners;
322 int num_grabs; /* number of open grabs on this touch
323 * which have not accepted or rejected */
324 Bool emulate_pointer;
325 DeviceEvent *history; /* History of events on this touchpoint */
326 size_t history_elements; /* Number of current elements in history */
327 size_t history_size; /* Size of history in elements */
328} TouchPointInfoRec;
329
330typedef struct _DDXTouchPointInfo {
331 uint32_t client_id; /* touch ID as seen in client events */
332 Bool active; /* whether or not the touch is active */
333 uint32_t ddx_id; /* touch ID given by the DDX */
334 Bool emulate_pointer;
335
336 ValuatorMask *valuators; /* last axis values as posted, pre-transform */
337} DDXTouchPointInfoRec;
338
339typedef struct _TouchClassRec {
340 int sourceid;
341 TouchPointInfoPtr touches;
342 unsigned short num_touches; /* number of allocated touches */
343 unsigned short max_touches; /* maximum number of touches, may be 0 */
344 CARD8 mode; /* ::XIDirectTouch, XIDependentTouch */
345 /* for pointer-emulation */
346 CARD8 buttonsDown; /* number of buttons down */
347 unsigned short state; /* logical button state */
348 Mask motionMask;
349} TouchClassRec;
350
351typedef struct _ButtonClassRec {
352 int sourceid;
353 CARD8 numButtons;
354 CARD8 buttonsDown; /* number of buttons currently down
355 This counts logical buttons, not
356 physical ones, i.e if some buttons
357 are mapped to 0, they're not counted
358 here */
359 unsigned short state;
360 Mask motionMask;
361 CARD8 down[DOWN_LENGTH];
362 CARD8 postdown[DOWN_LENGTH];
363 CARD8 map[MAP_LENGTH];
364 union _XkbAction *xkb_acts;
365 Atom labels[MAX_BUTTONS];
366} ButtonClassRec, *ButtonClassPtr;
367
368typedef struct _FocusClassRec {
369 int sourceid;
370 WindowPtr win; /* May be set to a int constant (e.g. PointerRootWin)! */
371 int revert;
372 TimeStamp time;
373 WindowPtr *trace;
374 int traceSize;
375 int traceGood;
376} FocusClassRec, *FocusClassPtr;
377
378typedef struct _ProximityClassRec {
379 int sourceid;
380 char in_proximity;
381} ProximityClassRec, *ProximityClassPtr;
382
383typedef struct _KbdFeedbackClassRec *KbdFeedbackPtr;
384typedef struct _PtrFeedbackClassRec *PtrFeedbackPtr;
385typedef struct _IntegerFeedbackClassRec *IntegerFeedbackPtr;
386typedef struct _StringFeedbackClassRec *StringFeedbackPtr;
387typedef struct _BellFeedbackClassRec *BellFeedbackPtr;
388typedef struct _LedFeedbackClassRec *LedFeedbackPtr;
389
390typedef struct _KbdFeedbackClassRec {
391 BellProcPtr BellProc;
392 KbdCtrlProcPtr CtrlProc;
393 KeybdCtrl ctrl;
394 KbdFeedbackPtr next;
395 struct _XkbSrvLedInfo *xkb_sli;
396} KbdFeedbackClassRec;
397
398typedef struct _PtrFeedbackClassRec {
399 PtrCtrlProcPtr CtrlProc;
400 PtrCtrl ctrl;
401 PtrFeedbackPtr next;
402} PtrFeedbackClassRec;
403
404typedef struct _IntegerFeedbackClassRec {
405 IntegerCtrlProcPtr CtrlProc;
406 IntegerCtrl ctrl;
407 IntegerFeedbackPtr next;
408} IntegerFeedbackClassRec;
409
410typedef struct _StringFeedbackClassRec {
411 StringCtrlProcPtr CtrlProc;
412 StringCtrl ctrl;
413 StringFeedbackPtr next;
414} StringFeedbackClassRec;
415
416typedef struct _BellFeedbackClassRec {
417 BellProcPtr BellProc;
418 BellCtrlProcPtr CtrlProc;
419 BellCtrl ctrl;
420 BellFeedbackPtr next;
421} BellFeedbackClassRec;
422
423typedef struct _LedFeedbackClassRec {
424 LedCtrlProcPtr CtrlProc;
425 LedCtrl ctrl;
426 LedFeedbackPtr next;
427 struct _XkbSrvLedInfo *xkb_sli;
428} LedFeedbackClassRec;
429
430typedef struct _ClassesRec {
431 KeyClassPtr key;
432 ValuatorClassPtr valuator;
433 TouchClassPtr touch;
434 ButtonClassPtr button;
435 FocusClassPtr focus;
436 ProximityClassPtr proximity;
437 KbdFeedbackPtr kbdfeed;
438 PtrFeedbackPtr ptrfeed;
439 IntegerFeedbackPtr intfeed;
440 StringFeedbackPtr stringfeed;
441 BellFeedbackPtr bell;
442 LedFeedbackPtr leds;
443} ClassesRec;
444
445/* Device properties */
446typedef struct _XIPropertyValue {
447 Atom type; /* ignored by server */
448 short format; /* format of data for swapping - 8,16,32 */
449 long size; /* size of data in (format/8) bytes */
450 void *data; /* private to client */
451} XIPropertyValueRec;
452
453typedef struct _XIProperty {
454 struct _XIProperty *next;
455 Atom propertyName;
456 BOOL deletable; /* clients can delete this prop? */
457 XIPropertyValueRec value;
458} XIPropertyRec;
459
460typedef XIPropertyRec *XIPropertyPtr;
461typedef XIPropertyValueRec *XIPropertyValuePtr;
462
463typedef struct _XIPropertyHandler {
464 struct _XIPropertyHandler *next;
465 long id;
466 int (*SetProperty) (DeviceIntPtr dev,
467 Atom property, XIPropertyValuePtr prop, BOOL checkonly);
468 int (*GetProperty) (DeviceIntPtr dev, Atom property);
469 int (*DeleteProperty) (DeviceIntPtr dev, Atom property);
470} XIPropertyHandler, *XIPropertyHandlerPtr;
471
472/* states for devices */
473
474#define NOT_GRABBED 0
475#define THAWED 1
476#define THAWED_BOTH 2 /* not a real state */
477#define FREEZE_NEXT_EVENT 3
478#define FREEZE_BOTH_NEXT_EVENT 4
479#define FROZEN 5 /* any state >= has device frozen */
480#define FROZEN_NO_EVENT 5
481#define FROZEN_WITH_EVENT 6
482#define THAW_OTHERS 7
483
484typedef struct _GrabInfoRec {
485 TimeStamp grabTime;
486 Bool fromPassiveGrab; /* true if from passive grab */
487 Bool implicitGrab; /* implicit from ButtonPress */
488 GrabPtr unused; /* Kept for ABI stability, remove soon */
489 GrabPtr grab;
490 CARD8 activatingKey;
491 void (*ActivateGrab) (DeviceIntPtr /*device */ ,
492 GrabPtr /*grab */ ,
493 TimeStamp /*time */ ,
494 Bool /*autoGrab */ );
495 void (*DeactivateGrab) (DeviceIntPtr /*device */ );
496 struct {
497 Bool frozen;
498 int state;
499 GrabPtr other; /* if other grab has this frozen */
500 DeviceEvent *event; /* saved to be replayed */
501 } sync;
502} GrabInfoRec, *GrabInfoPtr;
503
504typedef struct _SpriteInfoRec {
505 /* sprite must always point to a valid sprite. For devices sharing the
506 * sprite, let sprite point to a paired spriteOwner's sprite. */
507 SpritePtr sprite; /* sprite information */
508 Bool spriteOwner; /* True if device owns the sprite */
509 DeviceIntPtr paired; /* The paired device. Keyboard if
510 spriteOwner is TRUE, otherwise the
511 pointer that owns the sprite. */
512
513 /* keep states for animated cursor */
514 struct {
515 CursorPtr pCursor;
516 ScreenPtr pScreen;
517 int elt;
518 CARD32 time;
519 } anim;
520} SpriteInfoRec, *SpriteInfoPtr;
521
522/* device types */
523#define MASTER_POINTER 1
524#define MASTER_KEYBOARD 2
525#define SLAVE 3
526/* special types for GetMaster */
527#define MASTER_ATTACHED 4 /* Master for this device */
528#define KEYBOARD_OR_FLOAT 5 /* Keyboard master for this device or this device if floating */
529#define POINTER_OR_FLOAT 6 /* Pointer master for this device or this device if floating */
530
531typedef struct _DeviceIntRec {
532 DeviceRec public;
533 DeviceIntPtr next;
534 Bool startup; /* true if needs to be turned on at
535 server initialization time */
536 DeviceProc deviceProc; /* proc(DevicePtr, DEVICE_xx). It is
537 used to initialize, turn on, or
538 turn off the device */
539 Bool inited; /* TRUE if INIT returns Success */
540 Bool enabled; /* TRUE if ON returns Success */
541 Bool coreEvents; /* TRUE if device also sends core */
542 GrabInfoRec deviceGrab; /* grab on the device */
543 int type; /* MASTER_POINTER, MASTER_KEYBOARD, SLAVE */
544 Atom xinput_type;
545 char *name;
546 int id;
547 KeyClassPtr key;
548 ValuatorClassPtr valuator;
549 TouchClassPtr touch;
550 ButtonClassPtr button;
551 FocusClassPtr focus;
552 ProximityClassPtr proximity;
553 KbdFeedbackPtr kbdfeed;
554 PtrFeedbackPtr ptrfeed;
555 IntegerFeedbackPtr intfeed;
556 StringFeedbackPtr stringfeed;
557 BellFeedbackPtr bell;
558 LedFeedbackPtr leds;
559 struct _XkbInterest *xkb_interest;
560 char *config_info; /* used by the hotplug layer */
561 ClassesPtr unused_classes; /* for master devices */
562 int saved_master_id; /* for slaves while grabbed */
563 PrivateRec *devPrivates;
564 DeviceUnwrapProc unwrapProc;
565 SpriteInfoPtr spriteInfo;
566 DeviceIntPtr master; /* master device */
567 DeviceIntPtr lastSlave; /* last slave device used */
568
569 /* last valuator values recorded, not posted to client;
570 * for slave devices, valuators is in device coordinates, mapped to the
571 * desktop
572 * for master devices, valuators is in desktop coordinates.
573 * see dix/getevents.c
574 * remainder supports acceleration
575 */
576 struct {
577 double valuators[MAX_VALUATORS];
578 int numValuators;
579 DeviceIntPtr slave;
580 ValuatorMask *scroll;
581 int num_touches; /* size of the touches array */
582 DDXTouchPointInfoPtr touches;
583 } last;
584
585 /* Input device property handling. */
586 struct {
587 XIPropertyPtr properties;
588 XIPropertyHandlerPtr handlers; /* NULL-terminated */
589 } properties;
590
591 /* coordinate transformation matrix for relative movement. Matrix with
592 * the translation component dropped */
593 struct pixman_f_transform relative_transform;
594 /* scale matrix for absolute devices, this is the combined matrix of
595 [1/scale] . [transform] . [scale]. See DeviceSetTransform */
596 struct pixman_f_transform scale_and_transform;
597
598 /* XTest related master device id */
599 int xtest_master_id;
600
601 struct _SyncCounter *idle_counter;
602} DeviceIntRec;
603
604typedef struct {
605 int numDevices; /* total number of devices */
606 DeviceIntPtr devices; /* all devices turned on */
607 DeviceIntPtr off_devices; /* all devices turned off */
608 DeviceIntPtr keyboard; /* the main one for the server */
609 DeviceIntPtr pointer;
610 DeviceIntPtr all_devices;
611 DeviceIntPtr all_master_devices;
612} InputInfo;
613
614extern _X_EXPORT InputInfo inputInfo;
615
616/* for keeping the events for devices grabbed synchronously */
617typedef struct _QdEvent *QdEventPtr;
618typedef struct _QdEvent {
619 struct xorg_list next;
620 DeviceIntPtr device;
621 ScreenPtr pScreen; /* what screen the pointer was on */
622 unsigned long months; /* milliseconds is in the event */
623 InternalEvent *event;
624} QdEventRec;
625
626/**
627 * syncEvents is the global structure for queued events.
628 *
629 * Devices can be frozen through GrabModeSync pointer grabs. If this is the
630 * case, events from these devices are added to "pending" instead of being
631 * processed normally. When the device is unfrozen, events in "pending" are
632 * replayed and processed as if they would come from the device directly.
633 */
634typedef struct _EventSyncInfo {
635 struct xorg_list pending;
636
637 /** The device to replay events for. Only set in AllowEvents(), in which
638 * case it is set to the device specified in the request. */
639 DeviceIntPtr replayDev; /* kludgy rock to put flag for */
640
641 /**
642 * The window the events are supposed to be replayed on.
643 * This window may be set to the grab's window (but only when
644 * Replay{Pointer|Keyboard} is given in the XAllowEvents()
645 * request. */
646 WindowPtr replayWin; /* ComputeFreezes */
647 /**
648 * Flag to indicate whether we're in the process of
649 * replaying events. Only set in ComputeFreezes(). */
650 Bool playingEvents;
651 TimeStamp time;
652} EventSyncInfoRec, *EventSyncInfoPtr;
653
654extern EventSyncInfoRec syncEvents;
655
656/**
657 * Given a sprite, returns the window at the bottom of the trace (i.e. the
658 * furthest window from the root).
659 */
660static inline WindowPtr
661DeepestSpriteWin(SpritePtr sprite)
662{
663 assert(sprite->spriteTraceGood > 0);
664 return sprite->spriteTrace[sprite->spriteTraceGood - 1];
665}
666
667struct _XI2Mask {
668 unsigned char **masks; /* event mask in masks[deviceid][event type byte] */
669 size_t nmasks; /* number of masks */
670 size_t mask_size; /* size of each mask in bytes */
671};
672
673#endif /* INPUTSTRUCT_H */
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