Mercurial > sdl-ios-xcode
view src/events/SDL_events.c @ 5172:ededa1ccf91c
Switched the SDL 1.2 compatibility to use the window surface, so it's fast even when there's no hardware acceleration available.
This means that the YUV overlay now uses software, but that's okay since fast YUV code should be using the textures now anyway.
| author | Sam Lantinga <slouken@libsdl.org> |
|---|---|
| date | Thu, 03 Feb 2011 21:13:55 -0800 |
| parents | fb424691cfc7 |
| children | b530ef003506 |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2010 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Sam Lantinga slouken@libsdl.org */ #include "SDL_config.h" /* General event handling code for SDL */ #include "SDL.h" #include "SDL_events.h" #include "SDL_syswm.h" #include "SDL_thread.h" #include "SDL_events_c.h" #include "../timer/SDL_timer_c.h" #if !SDL_JOYSTICK_DISABLED #include "../joystick/SDL_joystick_c.h" #endif #include "../video/SDL_sysvideo.h" /* Public data -- the event filter */ SDL_EventFilter SDL_EventOK = NULL; void *SDL_EventOKParam; typedef struct SDL_EventWatcher { SDL_EventFilter callback; void *userdata; struct SDL_EventWatcher *next; } SDL_EventWatcher; static SDL_EventWatcher *SDL_event_watchers = NULL; typedef struct { Uint32 bits[8]; } SDL_DisabledEventBlock; static SDL_DisabledEventBlock *SDL_disabled_events[256]; static Uint32 SDL_userevents = SDL_USEREVENT; /* Private data -- event queue */ #define MAXEVENTS 128 static struct { SDL_mutex *lock; int active; int head; int tail; SDL_Event event[MAXEVENTS]; int wmmsg_next; struct SDL_SysWMmsg wmmsg[MAXEVENTS]; } SDL_EventQ; static __inline__ SDL_bool SDL_ShouldPollJoystick() { #if !SDL_JOYSTICK_DISABLED if (SDL_numjoysticks && (!SDL_disabled_events[SDL_JOYAXISMOTION >> 8] || SDL_JoystickEventState(SDL_QUERY))) { return SDL_TRUE; } #endif return SDL_FALSE; } /* Public functions */ void SDL_StopEventLoop(void) { int i; if (SDL_EventQ.lock) { SDL_DestroyMutex(SDL_EventQ.lock); SDL_EventQ.lock = NULL; } /* Clean out EventQ */ SDL_EventQ.head = 0; SDL_EventQ.tail = 0; SDL_EventQ.wmmsg_next = 0; /* Clear disabled event state */ for (i = 0; i < SDL_arraysize(SDL_disabled_events); ++i) { if (SDL_disabled_events[i]) { SDL_free(SDL_disabled_events[i]); SDL_disabled_events[i] = NULL; } } while (SDL_event_watchers) { SDL_EventWatcher *tmp = SDL_event_watchers; SDL_event_watchers = tmp->next; SDL_free(tmp); } } /* This function (and associated calls) may be called more than once */ int SDL_StartEventLoop(void) { /* Clean out the event queue */ SDL_EventQ.lock = NULL; SDL_StopEventLoop(); /* No filter to start with, process most event types */ SDL_EventOK = NULL; SDL_EventState(SDL_SYSWMEVENT, SDL_DISABLE); /* Create the lock and set ourselves active */ #if !SDL_THREADS_DISABLED SDL_EventQ.lock = SDL_CreateMutex(); if (SDL_EventQ.lock == NULL) { return (-1); } #endif /* !SDL_THREADS_DISABLED */ SDL_EventQ.active = 1; return (0); } /* Add an event to the event queue -- called with the queue locked */ static int SDL_AddEvent(SDL_Event * event) { int tail, added; tail = (SDL_EventQ.tail + 1) % MAXEVENTS; if (tail == SDL_EventQ.head) { /* Overflow, drop event */ added = 0; } else { SDL_EventQ.event[SDL_EventQ.tail] = *event; if (event->type == SDL_SYSWMEVENT) { /* Note that it's possible to lose an event */ int next = SDL_EventQ.wmmsg_next; SDL_EventQ.wmmsg[next] = *event->syswm.msg; SDL_EventQ.event[SDL_EventQ.tail].syswm.msg = &SDL_EventQ.wmmsg[next]; SDL_EventQ.wmmsg_next = (next + 1) % MAXEVENTS; } SDL_EventQ.tail = tail; added = 1; } return (added); } /* Cut an event, and return the next valid spot, or the tail */ /* -- called with the queue locked */ static int SDL_CutEvent(int spot) { if (spot == SDL_EventQ.head) { SDL_EventQ.head = (SDL_EventQ.head + 1) % MAXEVENTS; return (SDL_EventQ.head); } else if ((spot + 1) % MAXEVENTS == SDL_EventQ.tail) { SDL_EventQ.tail = spot; return (SDL_EventQ.tail); } else /* We cut the middle -- shift everything over */ { int here, next; /* This can probably be optimized with SDL_memcpy() -- careful! */ if (--SDL_EventQ.tail < 0) { SDL_EventQ.tail = MAXEVENTS - 1; } for (here = spot; here != SDL_EventQ.tail; here = next) { next = (here + 1) % MAXEVENTS; SDL_EventQ.event[here] = SDL_EventQ.event[next]; } return (spot); } /* NOTREACHED */ } /* Lock the event queue, take a peep at it, and unlock it */ int SDL_PeepEvents(SDL_Event * events, int numevents, SDL_eventaction action, Uint32 minType, Uint32 maxType) { int i, used; /* Don't look after we've quit */ if (!SDL_EventQ.active) { return (-1); } /* Lock the event queue */ used = 0; if (SDL_mutexP(SDL_EventQ.lock) == 0) { if (action == SDL_ADDEVENT) { for (i = 0; i < numevents; ++i) { used += SDL_AddEvent(&events[i]); } } else { SDL_Event tmpevent; int spot; /* If 'events' is NULL, just see if they exist */ if (events == NULL) { action = SDL_PEEKEVENT; numevents = 1; events = &tmpevent; } spot = SDL_EventQ.head; while ((used < numevents) && (spot != SDL_EventQ.tail)) { Uint32 type = SDL_EventQ.event[spot].type; if (minType <= type && type <= maxType) { events[used++] = SDL_EventQ.event[spot]; if (action == SDL_GETEVENT) { spot = SDL_CutEvent(spot); } else { spot = (spot + 1) % MAXEVENTS; } } else { spot = (spot + 1) % MAXEVENTS; } } } SDL_mutexV(SDL_EventQ.lock); } else { SDL_SetError("Couldn't lock event queue"); used = -1; } return (used); } SDL_bool SDL_HasEvent(Uint32 type) { return (SDL_PeepEvents(NULL, 0, SDL_PEEKEVENT, type, type) > 0); } SDL_bool SDL_HasEvents(Uint32 minType, Uint32 maxType) { return (SDL_PeepEvents(NULL, 0, SDL_PEEKEVENT, minType, maxType) > 0); } void SDL_FlushEvent(Uint32 type) { SDL_FlushEvents(type, type); } void SDL_FlushEvents(Uint32 minType, Uint32 maxType) { /* Don't look after we've quit */ if (!SDL_EventQ.active) { return; } /* Make sure the events are current */ SDL_PumpEvents(); /* Lock the event queue */ if (SDL_mutexP(SDL_EventQ.lock) == 0) { int spot = SDL_EventQ.head; while (spot != SDL_EventQ.tail) { Uint32 type = SDL_EventQ.event[spot].type; if (minType <= type && type <= maxType) { spot = SDL_CutEvent(spot); } else { spot = (spot + 1) % MAXEVENTS; } } SDL_mutexV(SDL_EventQ.lock); } } /* Run the system dependent event loops */ void SDL_PumpEvents(void) { SDL_VideoDevice *_this = SDL_GetVideoDevice(); /* Get events from the video subsystem */ if (_this) { _this->PumpEvents(_this); } #if !SDL_JOYSTICK_DISABLED /* Check for joystick state change */ if (SDL_ShouldPollJoystick()) { SDL_JoystickUpdate(); } #endif } /* Public functions */ int SDL_PollEvent(SDL_Event * event) { return SDL_WaitEventTimeout(event, 0); } int SDL_WaitEvent(SDL_Event * event) { return SDL_WaitEventTimeout(event, -1); } int SDL_WaitEventTimeout(SDL_Event * event, int timeout) { Uint32 expiration = 0; if (timeout > 0) expiration = SDL_GetTicks() + timeout; for (;;) { SDL_PumpEvents(); switch (SDL_PeepEvents(event, 1, SDL_GETEVENT, SDL_FIRSTEVENT, SDL_LASTEVENT)) { case -1: return 0; case 1: return 1; case 0: if (timeout == 0) { /* Polling and no events, just return */ return 0; } if (timeout > 0 && ((int) (SDL_GetTicks() - expiration) >= 0)) { /* Timeout expired and no events */ return 0; } SDL_Delay(10); break; } } } int SDL_PushEvent(SDL_Event * event) { SDL_EventWatcher *curr; if (SDL_EventOK && !SDL_EventOK(SDL_EventOKParam, event)) { return 0; } for (curr = SDL_event_watchers; curr; curr = curr->next) { curr->callback(curr->userdata, event); } if (SDL_PeepEvents(event, 1, SDL_ADDEVENT, 0, 0) <= 0) { return -1; } SDL_GestureProcessEvent(event); return 1; } void SDL_SetEventFilter(SDL_EventFilter filter, void *userdata) { SDL_Event bitbucket; /* Set filter and discard pending events */ SDL_EventOK = filter; SDL_EventOKParam = userdata; while (SDL_PollEvent(&bitbucket) > 0); } SDL_bool SDL_GetEventFilter(SDL_EventFilter * filter, void **userdata) { if (filter) { *filter = SDL_EventOK; } if (userdata) { *userdata = SDL_EventOKParam; } return SDL_EventOK ? SDL_TRUE : SDL_FALSE; } /* FIXME: This is not thread-safe yet */ void SDL_AddEventWatch(SDL_EventFilter filter, void *userdata) { SDL_EventWatcher *watcher; watcher = (SDL_EventWatcher *)SDL_malloc(sizeof(*watcher)); if (!watcher) { /* Uh oh... */ return; } watcher->callback = filter; watcher->userdata = userdata; watcher->next = SDL_event_watchers; SDL_event_watchers = watcher; } /* FIXME: This is not thread-safe yet */ void SDL_DelEventWatch(SDL_EventFilter filter, void *userdata) { SDL_EventWatcher *prev = NULL; SDL_EventWatcher *curr; for (curr = SDL_event_watchers; curr; prev = curr, curr = curr->next) { if (curr->callback == filter && curr->userdata == userdata) { if (prev) { prev->next = curr->next; } else { SDL_event_watchers = curr->next; } SDL_free(curr); break; } } } void SDL_FilterEvents(SDL_EventFilter filter, void *userdata) { if (SDL_mutexP(SDL_EventQ.lock) == 0) { int spot; spot = SDL_EventQ.head; while (spot != SDL_EventQ.tail) { if (filter(userdata, &SDL_EventQ.event[spot])) { spot = (spot + 1) % MAXEVENTS; } else { spot = SDL_CutEvent(spot); } } } SDL_mutexV(SDL_EventQ.lock); } Uint8 SDL_EventState(Uint32 type, int state) { Uint8 current_state; Uint8 hi = ((type >> 8) & 0xff); Uint8 lo = (type & 0xff); if (SDL_disabled_events[hi] && (SDL_disabled_events[hi]->bits[lo/32] & (1 << (lo&31)))) { current_state = SDL_DISABLE; } else { current_state = SDL_ENABLE; } if (state != current_state) { switch (state) { case SDL_DISABLE: /* Disable this event type and discard pending events */ if (!SDL_disabled_events[hi]) { SDL_disabled_events[hi] = (SDL_DisabledEventBlock*) SDL_calloc(1, sizeof(SDL_DisabledEventBlock)); if (!SDL_disabled_events[hi]) { /* Out of memory, nothing we can do... */ break; } } SDL_disabled_events[hi]->bits[lo/32] |= (1 << (lo&31)); SDL_FlushEvent(type); break; case SDL_ENABLE: SDL_disabled_events[hi]->bits[lo/32] &= ~(1 << (lo&31)); break; default: /* Querying state... */ break; } } return current_state; } Uint32 SDL_RegisterEvents(int numevents) { Uint32 event_base; if (SDL_userevents+numevents <= SDL_LASTEVENT) { event_base = SDL_userevents; SDL_userevents += numevents; } else { event_base = (Uint32)-1; } return event_base; } /* This is a generic event handler. */ int SDL_SendSysWMEvent(SDL_SysWMmsg * message) { int posted; posted = 0; if (SDL_GetEventState(SDL_SYSWMEVENT) == SDL_ENABLE) { SDL_Event event; SDL_memset(&event, 0, sizeof(event)); event.type = SDL_SYSWMEVENT; event.syswm.msg = message; posted = (SDL_PushEvent(&event) > 0); } /* Update internal event state */ return (posted); } /* vi: set ts=4 sw=4 expandtab: */