/* * Darwin event queue and event handling */ /* Copyright (c) 2002 Torrey T. Lyons. All Rights Reserved. This file is based on mieq.c by Keith Packard, which contains the following copyright: Copyright 1990, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* $XFree86$ */ #define NEED_EVENTS #include "X.h" #include "Xmd.h" #include "Xproto.h" #include "misc.h" #include "windowstr.h" #include "pixmapstr.h" #include "inputstr.h" #include "mi.h" #include "scrnintstr.h" #include "mipointer.h" #include "darwin.h" #include #include #include #include /* Fake button press/release for scroll wheel move. */ #define SCROLLWHEELUPFAKE 4 #define SCROLLWHEELDOWNFAKE 5 #define QUEUE_SIZE 256 typedef struct _Event { xEvent event; ScreenPtr pScreen; } EventRec, *EventPtr; typedef struct _EventQueue { HWEventQueueType head, tail; /* long for SetInputCheck */ CARD32 lastEventTime; /* to avoid time running backwards */ Bool lastMotion; EventRec events[QUEUE_SIZE]; /* static allocation for signals */ DevicePtr pKbd, pPtr; /* device pointer, to get funcs */ ScreenPtr pEnqueueScreen; /* screen events are being delivered to */ ScreenPtr pDequeueScreen; /* screen events are being dispatched to */ } EventQueueRec, *EventQueuePtr; static EventQueueRec darwinEventQueue; /* * DarwinPressModifierMask * Press or release the given modifier key, specified by its mask. */ static void DarwinPressModifierMask( xEvent *xe, // must already have type, time and mouse location int mask) // one of NX_*MASK constants { int key = DarwinModifierNXMaskToNXKey(mask); if (key != -1) { int keycode = DarwinModifierNXKeyToNXKeycode(key, 0); if (keycode != 0) { xe->u.u.detail = keycode + MIN_KEYCODE; (*darwinEventQueue.pKbd->processInputProc)(xe, (DeviceIntPtr)darwinEventQueue.pKbd, 1); } } } /* * DarwinUpdateModifiers * Send events to update the modifier state. */ static void DarwinUpdateModifiers( xEvent *xe, // event template with time and mouse position set int pressed, // KeyPress or KeyRelease int flags ) // modifier flags that have changed { xe->u.u.type = pressed; if (flags & NX_ALPHASHIFTMASK) { DarwinPressModifierMask(xe, NX_ALPHASHIFTMASK); } if (flags & NX_COMMANDMASK) { DarwinPressModifierMask(xe, NX_COMMANDMASK); } if (flags & NX_CONTROLMASK) { DarwinPressModifierMask(xe, NX_CONTROLMASK); } if (flags & NX_ALTERNATEMASK) { DarwinPressModifierMask(xe, NX_ALTERNATEMASK); } if (flags & NX_SHIFTMASK) { DarwinPressModifierMask(xe, NX_SHIFTMASK); } if (flags & NX_SECONDARYFNMASK) { DarwinPressModifierMask(xe, NX_SECONDARYFNMASK); } } /* * DarwinSimulateMouseClick * Send a mouse click to X when multiple mouse buttons are simulated * with modifier-clicks, such as command-click for button 2. The dix * layer is told that the previously pressed modifier key(s) are * released, the simulated click event is sent. After the mouse button * is released, the modifier keys are reverted to their actual state, * which may or may not be pressed at that point. This is usually * closest to what the user wants. Ie. the user typically wants to * simulate a button 2 press instead of Command-button 2. */ static void DarwinSimulateMouseClick( xEvent *xe, // event template with time and // mouse position filled in int whichButton, // mouse button to be pressed int modifierMask) // modifiers used for the fake click { // first fool X into forgetting about the keys DarwinUpdateModifiers(xe, KeyRelease, modifierMask); // push the mouse button xe->u.u.type = ButtonPress; xe->u.u.detail = whichButton; (*darwinEventQueue.pPtr->processInputProc) (xe, (DeviceIntPtr)darwinEventQueue.pPtr, 1); } Bool DarwinEQInit( DevicePtr pKbd, DevicePtr pPtr) { darwinEventQueue.head = darwinEventQueue.tail = 0; darwinEventQueue.lastEventTime = GetTimeInMillis (); darwinEventQueue.pKbd = pKbd; darwinEventQueue.pPtr = pPtr; darwinEventQueue.pEnqueueScreen = screenInfo.screens[0]; darwinEventQueue.pDequeueScreen = darwinEventQueue.pEnqueueScreen; SetInputCheck (&darwinEventQueue.head, &darwinEventQueue.tail); return TRUE; } /* * DarwinEQEnqueue * Must be thread safe with ProcessInputEvents. * DarwinEQEnqueue - called from event gathering thread * ProcessInputEvents - called from X server thread * DarwinEQEnqueue should never be called from more than one thread. */ void DarwinEQEnqueue( const xEvent *e) { HWEventQueueType oldtail, newtail; char byte = 0; oldtail = darwinEventQueue.tail; // mieqEnqueue() collapses successive motion events into one event. // This is difficult to do in a thread-safe way and rarely useful. newtail = oldtail + 1; if (newtail == QUEUE_SIZE) newtail = 0; /* Toss events which come in late */ if (newtail == darwinEventQueue.head) return; darwinEventQueue.events[oldtail].event = *e; /* * Make sure that event times don't go backwards - this * is "unnecessary", but very useful */ if (e->u.keyButtonPointer.time < darwinEventQueue.lastEventTime && darwinEventQueue.lastEventTime - e->u.keyButtonPointer.time < 10000) { darwinEventQueue.events[oldtail].event.u.keyButtonPointer.time = darwinEventQueue.lastEventTime; } darwinEventQueue.events[oldtail].pScreen = darwinEventQueue.pEnqueueScreen; // Update the tail after the event is prepared darwinEventQueue.tail = newtail; // Signal there is an event ready to handle write(darwinEventWriteFD, &byte, 1); } /* * DarwinEQPointerPost * Post a pointer event. Used by the mipointer.c routines. */ void DarwinEQPointerPost( xEvent *e) { (*darwinEventQueue.pPtr->processInputProc) (e, (DeviceIntPtr)darwinEventQueue.pPtr, 1); } void DarwinEQSwitchScreen( ScreenPtr pScreen, Bool fromDIX) { darwinEventQueue.pEnqueueScreen = pScreen; if (fromDIX) darwinEventQueue.pDequeueScreen = pScreen; } /* * ProcessInputEvents * Read and process events from the event queue until it is empty. */ void ProcessInputEvents(void) { EventRec *e; int x, y; xEvent xe; static int old_flags = 0; // last known modifier state // button number and modifier mask of currently pressed fake button static int darwinFakeMouseButtonDown = 0; static int darwinFakeMouseButtonMask = 0; // Empty the signaling pipe x = sizeof(xe); while (x == sizeof(xe)) { x = read(darwinEventReadFD, &xe, sizeof(xe)); } while (darwinEventQueue.head != darwinEventQueue.tail) { if (screenIsSaved == SCREEN_SAVER_ON) SaveScreens (SCREEN_SAVER_OFF, ScreenSaverReset); e = &darwinEventQueue.events[darwinEventQueue.head]; xe = e->event; // Shift from global screen coordinates to coordinates relative to // the origin of the current screen. xe.u.keyButtonPointer.rootX -= darwinMainScreenX + dixScreenOrigins[miPointerCurrentScreen()->myNum].x; xe.u.keyButtonPointer.rootY -= darwinMainScreenY + dixScreenOrigins[miPointerCurrentScreen()->myNum].y; /* * Assumption - screen switching can only occur on motion events */ if (e->pScreen != darwinEventQueue.pDequeueScreen) { darwinEventQueue.pDequeueScreen = e->pScreen; x = xe.u.keyButtonPointer.rootX; y = xe.u.keyButtonPointer.rootY; if (darwinEventQueue.head == QUEUE_SIZE - 1) darwinEventQueue.head = 0; else ++darwinEventQueue.head; NewCurrentScreen (darwinEventQueue.pDequeueScreen, x, y); } else { if (darwinEventQueue.head == QUEUE_SIZE - 1) darwinEventQueue.head = 0; else ++darwinEventQueue.head; switch (xe.u.u.type) { case KeyPress: case KeyRelease: xe.u.u.detail += MIN_KEYCODE; (*darwinEventQueue.pKbd->processInputProc) (&xe, (DeviceIntPtr)darwinEventQueue.pKbd, 1); break; case ButtonPress: miPointerAbsoluteCursor(xe.u.keyButtonPointer.rootX, xe.u.keyButtonPointer.rootY, xe.u.keyButtonPointer.time); if (darwinFakeButtons && xe.u.u.detail == 1) { // Mimic multi-button mouse with modifier-clicks // If both sets of modifiers are pressed, // button 2 is clicked. if ((old_flags & darwinFakeMouse2Mask) == darwinFakeMouse2Mask) { DarwinSimulateMouseClick(&xe, 2, darwinFakeMouse2Mask); darwinFakeMouseButtonDown = 2; darwinFakeMouseButtonMask = darwinFakeMouse2Mask; break; } else if ((old_flags & darwinFakeMouse3Mask) == darwinFakeMouse3Mask) { DarwinSimulateMouseClick(&xe, 3, darwinFakeMouse3Mask); darwinFakeMouseButtonDown = 3; darwinFakeMouseButtonMask = darwinFakeMouse3Mask; break; } } (*darwinEventQueue.pPtr->processInputProc) (&xe, (DeviceIntPtr)darwinEventQueue.pPtr, 1); break; case ButtonRelease: miPointerAbsoluteCursor(xe.u.keyButtonPointer.rootX, xe.u.keyButtonPointer.rootY, xe.u.keyButtonPointer.time); if (darwinFakeButtons && xe.u.u.detail == 1 && darwinFakeMouseButtonDown) { // If last mousedown was a fake click, don't check for // mouse modifiers here. The user may have released the // modifiers before the mouse button. xe.u.u.detail = darwinFakeMouseButtonDown; darwinFakeMouseButtonDown = 0; (*darwinEventQueue.pPtr->processInputProc) (&xe, (DeviceIntPtr)darwinEventQueue.pPtr, 1); // Bring modifiers back up to date DarwinUpdateModifiers(&xe, KeyPress, darwinFakeMouseButtonMask & old_flags); darwinFakeMouseButtonMask = 0; } else { (*darwinEventQueue.pPtr->processInputProc) (&xe, (DeviceIntPtr)darwinEventQueue.pPtr, 1); } break; case MotionNotify: miPointerAbsoluteCursor(xe.u.keyButtonPointer.rootX, xe.u.keyButtonPointer.rootY, xe.u.keyButtonPointer.time); break; case kXDarwinUpdateModifiers: { // Update modifier state. // Any amount of modifiers may have changed. int flags = xe.u.clientMessage.u.l.longs0; DarwinUpdateModifiers(&xe, KeyRelease, old_flags & ~flags); DarwinUpdateModifiers(&xe, KeyPress, ~old_flags & flags); old_flags = flags; break; } case kXDarwinUpdateButtons: { long hwDelta = xe.u.clientMessage.u.l.longs0; long hwButtons = xe.u.clientMessage.u.l.longs1; int i; for (i = 1; i < 5; i++) { if (hwDelta & (1 << i)) { // IOKit and X have different numbering for the // middle and right mouse buttons. if (i == 1) { xe.u.u.detail = 3; } else if (i == 2) { xe.u.u.detail = 2; } else { xe.u.u.detail = i + 1; } if (hwButtons & (1 << i)) { xe.u.u.type = ButtonPress; } else { xe.u.u.type = ButtonRelease; } (*darwinEventQueue.pPtr->processInputProc) (&xe, (DeviceIntPtr)darwinEventQueue.pPtr, 1); } } break; } case kXDarwinScrollWheel: { short count = xe.u.clientMessage.u.s.shorts0; if (count > 0) { xe.u.u.detail = SCROLLWHEELUPFAKE; } else { xe.u.u.detail = SCROLLWHEELDOWNFAKE; count = -count; } for (; count; --count) { xe.u.u.type = ButtonPress; (*darwinEventQueue.pPtr->processInputProc) (&xe, (DeviceIntPtr)darwinEventQueue.pPtr, 1); xe.u.u.type = ButtonRelease; (*darwinEventQueue.pPtr->processInputProc) (&xe, (DeviceIntPtr)darwinEventQueue.pPtr, 1); } break; } default: // Check for mode specific event DarwinModeProcessEvent(&xe); } } } miPointerUpdate(); }