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Improved timer implementation

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The new timer model is formalized as using a separate thread to handle timer callbacks.  This was the case on almost every platform before, but it's now a requirement, and simplifies the implementation and makes it perform consistently across platforms.

Goals:
 * Minimize timer thread blocking
 * Dispatch timers as accurately as possible
 * SDL_AddTimer() and SDL_RemoveTimer() are completely threadsafe
 * SDL_RemoveTimer() doesn't crash with a timer that's expired or removed
This commit is contained in:
Sam Lantinga 2011-01-27 14:45:06 -08:00
parent 2fd57ffe61
commit dd4f2c1339
13 changed files with 379 additions and 833 deletions
Download patch file Download diff file Expand all files Collapse all files

7
include/SDL_compat.h
View file

@ -344,6 +344,13 @@ typedef SDL_Window* SDL_WindowID;
#define SDL_RenderFill(X) (X) ? SDL_RenderFillRect(X) : SDL_RenderClear() #define SDL_RenderFill(X) (X) ? SDL_RenderFillRect(X) : SDL_RenderClear()
#define SDL_KillThread(X) #define SDL_KillThread(X)
/* The timeslice and timer resolution are no longer relevant */
#define SDL_TIMESLICE 10
#define TIMER_RESOLUTION 10
typedef Uint32 (SDLCALL * SDL_OldTimerCallback) (Uint32 interval);
extern DECLSPEC int SDLCALL SDL_SetTimer(Uint32 interval, SDL_OldTimerCallback callback);
extern DECLSPEC int SDLCALL SDL_putenv(const char *variable); extern DECLSPEC int SDLCALL SDL_putenv(const char *variable);
/*@}*//*Compatibility*/ /*@}*//*Compatibility*/

80
include/SDL_timer.h
View file

@ -41,104 +41,50 @@ extern "C" {
#endif #endif
/** /**
* This is the OS scheduler timeslice, in milliseconds. * \brief Get the number of milliseconds since the SDL library initialization.
*/
#define SDL_TIMESLICE 10
/**
* This is the maximum resolution of the SDL timer on all platforms.
*/
#define TIMER_RESOLUTION 10 /**< Experimentally determined */
/**
* Get the number of milliseconds since the SDL library initialization.
* *
* Note that this value wraps if the program runs for more than ~49 days. * \note This value wraps if the program runs for more than ~49 days.
*/ */
extern DECLSPEC Uint32 SDLCALL SDL_GetTicks(void); extern DECLSPEC Uint32 SDLCALL SDL_GetTicks(void);
/** /**
* Wait a specified number of milliseconds before returning. * \brief Wait a specified number of milliseconds before returning.
*/ */
extern DECLSPEC void SDLCALL SDL_Delay(Uint32 ms); extern DECLSPEC void SDLCALL SDL_Delay(Uint32 ms);
/** /**
* Function prototype for the timer callback function. * Function prototype for the timer callback function.
*/
typedef Uint32(SDLCALL * SDL_TimerCallback) (Uint32 interval);
/**
* Set a callback to run after the specified number of milliseconds has
* elapsed. The callback function is passed the current timer interval
* and returns the next timer interval. If the returned value is the
* same as the one passed in, the periodic alarm continues, otherwise a
* new alarm is scheduled. If the callback returns 0, the periodic alarm
* is cancelled.
*
* To cancel a currently running timer, call
* \code SDL_SetTimer(0, NULL); \endcode
*
* The timer callback function may run in a different thread than your
* main code, and so shouldn't call any functions from within itself.
*
* The maximum resolution of this timer is 10 ms, which means that if
* you request a 16 ms timer, your callback will run approximately 20 ms
* later on an unloaded system. If you wanted to set a flag signaling
* a frame update at 30 frames per second (every 33 ms), you might set a
* timer for 30 ms:
* \code
* SDL_SetTimer((33/10)*10, flag_update);
* \endcode
*
* If you use this function, you need to pass ::SDL_INIT_TIMER to SDL_Init().
*
* Under UNIX, you should not use raise or use SIGALRM and this function
* in the same program, as it is implemented using setitimer(). You also
* should not use this function in multi-threaded applications as signals
* to multi-threaded apps have undefined behavior in some implementations.
*
* \return 0 if successful, or -1 if there was an error.
*/
extern DECLSPEC int SDLCALL SDL_SetTimer(Uint32 interval,
SDL_TimerCallback callback);
/**
* \name Peter timers
* New timer API, supports multiple timers
* Written by Stephane Peter <megastep@lokigames.com>
*/
/*@{*/
/**
* Function prototype for the new timer callback function.
* *
* The callback function is passed the current timer interval and returns * The callback function is passed the current timer interval and returns
* the next timer interval. If the returned value is the same as the one * the next timer interval. If the returned value is the same as the one
* passed in, the periodic alarm continues, otherwise a new alarm is * passed in, the periodic alarm continues, otherwise a new alarm is
* scheduled. If the callback returns 0, the periodic alarm is cancelled. * scheduled. If the callback returns 0, the periodic alarm is cancelled.
*/ */
typedef Uint32(SDLCALL * SDL_NewTimerCallback) (Uint32 interval, void *param); typedef Uint32 (SDLCALL * SDL_TimerCallback) (Uint32 interval, void *param);
/** /**
* Definition of the timer ID type. * Definition of the timer ID type.
*/ */
typedef struct _SDL_TimerID *SDL_TimerID; typedef int SDL_TimerID;
/** /**
* Add a new timer to the pool of timers already running. * \brief Add a new timer to the pool of timers already running.
*
* \return A timer ID, or NULL when an error occurs. * \return A timer ID, or NULL when an error occurs.
*/ */
extern DECLSPEC SDL_TimerID SDLCALL SDL_AddTimer(Uint32 interval, extern DECLSPEC SDL_TimerID SDLCALL SDL_AddTimer(Uint32 interval,
SDL_NewTimerCallback SDL_TimerCallback callback,
callback, void *param); void *param);
/** /**
* Remove one of the multiple timers knowing its ID. * \brief Remove a timer knowing its ID.
*
* \return A boolean value indicating success or failure. * \return A boolean value indicating success or failure.
*
* \warning It is not safe to remove a timer multiple times.
*/ */
extern DECLSPEC SDL_bool SDLCALL SDL_RemoveTimer(SDL_TimerID t); extern DECLSPEC SDL_bool SDLCALL SDL_RemoveTimer(SDL_TimerID t);
/*@}*//*Peter timers*/
/* Ends C function definitions when using C++ */ /* Ends C function definitions when using C++ */
#ifdef __cplusplus #ifdef __cplusplus

25
src/SDL_compat.c
View file

@ -1760,6 +1760,31 @@ SDL_EnableUNICODE(int enable)
return previous; return previous;
} }
static Uint32
SDL_SetTimerCallback(Uint32 interval, void* param)
{
return ((SDL_OldTimerCallback)param)(interval);
}
int
SDL_SetTimer(Uint32 interval, SDL_OldTimerCallback callback)
{
static SDL_TimerID compat_timer;
if (compat_timer) {
SDL_RemoveTimer(compat_timer);
compat_timer = 0;
}
if (interval && callback) {
compat_timer = SDL_AddTimer(interval, SDL_SetTimerCallback, callback);
if (!compat_timer) {
return -1;
}
}
return 0;
}
int int
SDL_putenv(const char *_var) SDL_putenv(const char *_var)
{ {

6
src/events/SDL_events.c
View file

@ -123,9 +123,6 @@ SDL_GobbleEvents(void *unused)
/* Give up the CPU for the rest of our timeslice */ /* Give up the CPU for the rest of our timeslice */
SDL_EventLock.safe = 1; SDL_EventLock.safe = 1;
if (SDL_timer_running) {
SDL_ThreadedTimerCheck();
}
SDL_Delay(1); SDL_Delay(1);
/* Check for event locking. /* Check for event locking.
@ -140,7 +137,6 @@ SDL_GobbleEvents(void *unused)
SDL_EventLock.safe = 0; SDL_EventLock.safe = 0;
SDL_mutexV(SDL_EventLock.lock); SDL_mutexV(SDL_EventLock.lock);
} }
SDL_SetTimerThreaded(0);
event_thread = 0; event_thread = 0;
return (0); return (0);
} }
@ -168,8 +164,6 @@ SDL_StartEventThread(Uint32 flags)
} }
SDL_EventLock.safe = 0; SDL_EventLock.safe = 0;
/* The event thread will handle timers too */
SDL_SetTimerThreaded(2);
#if (defined(__WIN32__) && !defined(_WIN32_WCE)) && !defined(HAVE_LIBC) #if (defined(__WIN32__) && !defined(_WIN32_WCE)) && !defined(HAVE_LIBC)
#undef SDL_CreateThread #undef SDL_CreateThread
SDL_EventThread = SDL_EventThread =

42
src/timer/SDL_systimer.h
View file

@ -1,42 +0,0 @@
/*
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"
/* The system dependent timer handling functions */
#include "SDL_timer.h"
#include "SDL_timer_c.h"
/* Initialize the system dependent timer subsystem */
extern int SDL_SYS_TimerInit(void);
/* Quit the system dependent timer subsystem */
extern void SDL_SYS_TimerQuit(void);
/* Start a timer set up by SDL_SetTimer() */
extern int SDL_SYS_StartTimer(void);
/* Stop a previously started timer */
extern void SDL_SYS_StopTimer(void);
/* vi: set ts=4 sw=4 expandtab: */

527
src/timer/SDL_timer.c
View file

@ -23,289 +23,360 @@
#include "SDL_timer.h" #include "SDL_timer.h"
#include "SDL_timer_c.h" #include "SDL_timer_c.h"
#include "SDL_mutex.h" #include "SDL_atomic.h"
#include "SDL_systimer.h" #include "SDL_thread.h"
/* #define DEBUG_TIMERS */ /* #define DEBUG_TIMERS */
int SDL_timer_started = 0; typedef struct _SDL_Timer
int SDL_timer_running = 0;
/* Data to handle a single periodic alarm */
Uint32 SDL_alarm_interval = 0;
SDL_TimerCallback SDL_alarm_callback;
/* Data used for a thread-based timer */
static int SDL_timer_threaded = 0;
struct _SDL_TimerID
{ {
Uint32 interval; int timerID;
SDL_NewTimerCallback cb; SDL_TimerCallback callback;
void *param; void *param;
Uint32 last_alarm; Uint32 interval;
struct _SDL_TimerID *next; Uint32 scheduled;
}; volatile SDL_bool canceled;
struct _SDL_Timer *next;
} SDL_Timer;
static SDL_TimerID SDL_timers = NULL; typedef struct _SDL_TimerMap
static SDL_mutex *SDL_timer_mutex;
static volatile SDL_bool list_changed = SDL_FALSE;
/* Set whether or not the timer should use a thread.
This should not be called while the timer subsystem is running.
*/
int
SDL_SetTimerThreaded(int value)
{ {
int retval; int timerID;
SDL_Timer *timer;
struct _SDL_TimerMap *next;
} SDL_TimerMap;
if (SDL_timer_started) { /* A reasonable guess */
SDL_SetError("Timer already initialized"); #define CACHELINE_SIZE 128
retval = -1;
} else { /* The timers are kept in a sorted list */
retval = 0; typedef struct {
SDL_timer_threaded = value; /* Data used by the main thread */
SDL_Thread *thread;
SDL_atomic_t nextID;
SDL_TimerMap *timermap;
SDL_mutex *timermap_lock;
/* Padding to separate cache lines between threads */
char pad[CACHELINE_SIZE];
/* Data used to communicate with the timer thread */
SDL_SpinLock lock;
SDL_sem *sem;
SDL_Timer * volatile pending;
SDL_Timer * volatile freelist;
volatile SDL_bool active;
/* List of timers - this is only touched by the timer thread */
SDL_Timer *timers;
} SDL_TimerData;
static SDL_TimerData SDL_timer_data;
/* The idea here is that any thread might add a timer, but a single
* thread manages the active timer queue, sorted by scheduling time.
*
* Timers are removed by simply setting a canceled flag
*/
static void
SDL_AddTimerInternal(SDL_TimerData *data, SDL_Timer *timer)
{
SDL_Timer *prev, *curr;
prev = NULL;
for (curr = data->timers; curr; prev = curr, curr = curr->next) {
if ((Sint32)(timer->scheduled-curr->scheduled) < 0) {
break;
} }
return retval; }
/* Insert the timer here! */
if (prev) {
prev->next = timer;
} else {
data->timers = timer;
}
timer->next = curr;
}
static int
SDL_TimerThread(void *_data)
{
SDL_TimerData *data = (SDL_TimerData *)_data;
SDL_Timer *pending;
SDL_Timer *current;
SDL_Timer *freelist_head = NULL;
SDL_Timer *freelist_tail = NULL;
Uint32 tick, now, interval, delay;
/* Threaded timer loop:
* 1. Queue timers added by other threads
* 2. Handle any timers that should dispatch this cycle
* 3. Wait until next dispatch time or new timer arrives
*/
for ( ; ; ) {
/* Pending and freelist maintenance */
SDL_AtomicLock(&data->lock);
{
/* Get any timers ready to be queued */
pending = data->pending;
data->pending = NULL;
/* Make any unused timer structures available */
if (freelist_head) {
freelist_tail->next = data->freelist;
data->freelist = freelist_head;
}
}
SDL_AtomicUnlock(&data->lock);
/* Sort the pending timers into our list */
while (pending) {
current = pending;
pending = pending->next;
SDL_AddTimerInternal(data, current);
}
freelist_head = NULL;
freelist_tail = NULL;
/* Check to see if we're still running, after maintenance */
if (!data->active) {
break;
}
/* Initial delay if there are no timers */
delay = SDL_MUTEX_MAXWAIT;
tick = SDL_GetTicks();
/* Process all the pending timers for this tick */
while (data->timers) {
current = data->timers;
if ((Sint32)(tick-current->scheduled) < 0) {
/* Scheduled for the future, wait a bit */
delay = (current->scheduled - tick);
break;
}
/* We're going to do something with this timer */
data->timers = current->next;
if (current->canceled) {
interval = 0;
} else {
interval = current->callback(current->interval, current->param);
}
if (interval > 0) {
/* Reschedule this timer */
current->scheduled = tick + interval;
SDL_AddTimerInternal(data, current);
} else {
if (!freelist_head) {
freelist_head = current;
}
if (freelist_tail) {
freelist_tail->next = current;
}
freelist_tail = current;
current->canceled = SDL_TRUE;
}
}
/* Adjust the delay based on processing time */
now = SDL_GetTicks();
interval = (now - tick);
if (interval > delay) {
delay = 0;
} else {
delay -= interval;
}
/* Note that each time a timer is added, this will return
immediately, but we process the timers added all at once.
That's okay, it just means we run through the loop a few
extra times.
*/
SDL_SemWaitTimeout(data->sem, delay);
}
return 0;
} }
int int
SDL_TimerInit(void) SDL_TimerInit(void)
{ {
int retval; SDL_TimerData *data = &SDL_timer_data;
retval = 0; if (!data->active) {
if (SDL_timer_started) { data->timermap_lock = SDL_CreateMutex();
if (!data->timermap_lock) {
return -1;
}
data->sem = SDL_CreateSemaphore(0);
if (!data->sem) {
SDL_DestroyMutex(data->timermap_lock);
return -1;
}
data->active = SDL_TRUE;
data->thread = SDL_CreateThread(SDL_TimerThread, data);
if (!data->thread) {
SDL_TimerQuit(); SDL_TimerQuit();
return -1;
} }
if (!SDL_timer_threaded) {
retval = SDL_SYS_TimerInit(); SDL_AtomicSet(&data->nextID, 1);
} }
if (SDL_timer_threaded) { return 0;
SDL_timer_mutex = SDL_CreateMutex();
}
if (retval == 0) {
SDL_timer_started = 1;
}
return (retval);
} }
void void
SDL_TimerQuit(void) SDL_TimerQuit(void)
{ {
SDL_SetTimer(0, NULL); SDL_TimerData *data = &SDL_timer_data;
if (SDL_timer_threaded < 2) { SDL_Timer *timer;
SDL_SYS_TimerQuit(); SDL_TimerMap *entry;
}
if (SDL_timer_threaded) {
SDL_DestroyMutex(SDL_timer_mutex);
SDL_timer_mutex = NULL;
}
SDL_timer_started = 0;
SDL_timer_threaded = 0;
}
void if (data->active) {
SDL_ThreadedTimerCheck(void) data->active = SDL_FALSE;
{
Uint32 now, ms;
SDL_TimerID t, prev, next;
SDL_bool removed;
SDL_mutexP(SDL_timer_mutex); /* Shutdown the timer thread */
if (data->thread) {
SDL_SemPost(data->sem);
SDL_WaitThread(data->thread, NULL);
data->thread = NULL;
}
now = SDL_GetTicks(); SDL_DestroySemaphore(data->sem);
do { data->sem = NULL;
list_changed = SDL_FALSE;
for (prev = NULL, t = SDL_timers; t; t = next) {
removed = SDL_FALSE;
ms = t->interval - SDL_TIMESLICE;
next = t->next;
if ((int) (now - t->last_alarm) > (int) ms) {
struct _SDL_TimerID timer;
if ((now - t->last_alarm) < t->interval) { /* Clean up the timer entries */
t->last_alarm += t->interval; while (data->timers) {
} else { timer = data->timers;
t->last_alarm = now; data->timers = timer->next;
SDL_free(timer);
} }
#ifdef DEBUG_TIMERS while (data->freelist) {
printf("Executing timer %p (thread = %lu)\n", timer = data->freelist;
t, SDL_ThreadID()); data->freelist = timer->next;
#endif SDL_free(timer);
timer = *t;
SDL_mutexV(SDL_timer_mutex);
ms = timer.cb(timer.interval, timer.param);
SDL_mutexP(SDL_timer_mutex);
if (list_changed) {
next = t->next;
for (prev = SDL_timers; prev; prev = prev->next) {
if (prev->next == t)
break;
} }
while (data->timermap) {
entry = data->timermap;
data->timermap = entry->next;
SDL_free(entry);
} }
if (ms != t->interval) {
if (ms) {
t->interval = ROUND_RESOLUTION(ms);
} else {
/* Remove timer from the list */
#ifdef DEBUG_TIMERS
printf("SDL: Removing timer %p\n", t);
#endif
if (prev) {
prev->next = next;
} else {
SDL_timers = next;
}
SDL_free(t);
--SDL_timer_running;
removed = SDL_TRUE;
}
}
if (list_changed) {
/* Abort, list of timers modified */
break;
}
}
/* Don't update prev if the timer has disappeared */
if (!removed) {
prev = t;
}
}
} while (list_changed);
SDL_mutexV(SDL_timer_mutex); SDL_DestroyMutex(data->timermap_lock);
} data->timermap_lock = NULL;
static SDL_TimerID
SDL_AddTimerInternal(Uint32 interval, SDL_NewTimerCallback callback,
void *param)
{
SDL_TimerID t;
t = (SDL_TimerID) SDL_malloc(sizeof(struct _SDL_TimerID));
if (t) {
t->interval = ROUND_RESOLUTION(interval);
t->cb = callback;
t->param = param;
t->last_alarm = SDL_GetTicks();
t->next = SDL_timers;
SDL_timers = t;
++SDL_timer_running;
list_changed = SDL_TRUE;
} }
#ifdef DEBUG_TIMERS
printf("SDL_AddTimer(%d) = %08x num_timers = %d\n", interval, (Uint32) t,
SDL_timer_running);
#endif
return t;
} }
SDL_TimerID SDL_TimerID
SDL_AddTimer(Uint32 interval, SDL_NewTimerCallback callback, void *param) SDL_AddTimer(Uint32 interval, SDL_TimerCallback callback, void *param)
{ {
SDL_TimerID t; SDL_TimerData *data = &SDL_timer_data;
if (!SDL_timer_mutex) { SDL_Timer *timer;
if (SDL_timer_started) { SDL_TimerMap *entry;
SDL_SetError("This platform doesn't support multiple timers");
if (!data->active) {
int status = 0;
SDL_AtomicLock(&data->lock);
if (!data->active) {
status = SDL_TimerInit();
}
SDL_AtomicUnlock(&data->lock);
if (status < 0) {
return 0;
}
}
SDL_AtomicLock(&data->lock);
timer = data->freelist;
if (timer) {
data->freelist = timer->next;
}
SDL_AtomicUnlock(&data->lock);
if (timer) {
SDL_RemoveTimer(timer->timerID);
} else { } else {
SDL_SetError("You must call SDL_Init(SDL_INIT_TIMER) first"); timer = (SDL_Timer *)SDL_malloc(sizeof(*timer));
if (!timer) {
SDL_OutOfMemory();
return 0;
} }
return NULL;
} }
if (!SDL_timer_threaded) { timer->timerID = SDL_AtomicIncRef(&data->nextID);
SDL_SetError("Multiple timers require threaded events!"); timer->callback = callback;
return NULL; timer->param = param;
timer->interval = interval;
timer->scheduled = SDL_GetTicks() + interval;
timer->canceled = SDL_FALSE;
entry = (SDL_TimerMap *)SDL_malloc(sizeof(*entry));
if (!entry) {
SDL_free(timer);
SDL_OutOfMemory();
return 0;
} }
SDL_mutexP(SDL_timer_mutex); entry->timer = timer;
t = SDL_AddTimerInternal(interval, callback, param); entry->timerID = timer->timerID;
SDL_mutexV(SDL_timer_mutex);
return t; SDL_mutexP(data->timermap_lock);
entry->next = data->timermap;
data->timermap = entry;
SDL_mutexV(data->timermap_lock);
/* Add the timer to the pending list for the timer thread */
SDL_AtomicLock(&data->lock);
timer->next = data->pending;
data->pending = timer;
SDL_AtomicUnlock(&data->lock);
/* Wake up the timer thread if necessary */
SDL_SemPost(data->sem);
return entry->timerID;
} }
SDL_bool SDL_bool
SDL_RemoveTimer(SDL_TimerID id) SDL_RemoveTimer(SDL_TimerID id)
{ {
SDL_TimerID t, prev = NULL; SDL_TimerData *data = &SDL_timer_data;
SDL_bool removed; SDL_TimerMap *prev, *entry;
SDL_bool canceled = SDL_FALSE;
removed = SDL_FALSE; /* Find the timer */
SDL_mutexP(SDL_timer_mutex); SDL_mutexP(data->timermap_lock);
/* Look for id in the linked list of timers */ prev = NULL;
for (t = SDL_timers; t; prev = t, t = t->next) { for (entry = data->timermap; entry; prev = entry, entry = entry->next) {
if (t == id) { if (entry->timerID == id) {
if (prev) { if (prev) {
prev->next = t->next; prev->next = entry->next;
} else { } else {
SDL_timers = t->next; data->timermap = entry->next;
} }
SDL_free(t);
--SDL_timer_running;
removed = SDL_TRUE;
list_changed = SDL_TRUE;
break; break;
} }
} }
#ifdef DEBUG_TIMERS SDL_mutexV(data->timermap_lock);
printf("SDL_RemoveTimer(%08x) = %d num_timers = %d thread = %lu\n",
(Uint32) id, removed, SDL_timer_running, SDL_ThreadID());
#endif
SDL_mutexV(SDL_timer_mutex);
return removed;
}
/* Old style callback functions are wrapped through this */ if (entry) {
static Uint32 SDLCALL if (!entry->timer->canceled) {
callback_wrapper(Uint32 ms, void *param) entry->timer->canceled = SDL_TRUE;
{ canceled = SDL_TRUE;
SDL_TimerCallback func = (SDL_TimerCallback) param;
return (*func) (ms);
}
int
SDL_SetTimer(Uint32 ms, SDL_TimerCallback callback)
{
int retval;
#ifdef DEBUG_TIMERS
printf("SDL_SetTimer(%d)\n", ms);
#endif
retval = 0;
if (SDL_timer_threaded) {
SDL_mutexP(SDL_timer_mutex);
} }
if (SDL_timer_running) { /* Stop any currently running timer */ SDL_free(entry);
if (SDL_timer_threaded) {
while (SDL_timers) {
SDL_TimerID freeme = SDL_timers;
SDL_timers = SDL_timers->next;
SDL_free(freeme);
} }
SDL_timer_running = 0; return canceled;
list_changed = SDL_TRUE;
} else {
SDL_SYS_StopTimer();
SDL_timer_running = 0;
}
}
if (ms) {
if (SDL_timer_threaded) {
if (SDL_AddTimerInternal
(ms, callback_wrapper, (void *) callback) == NULL) {
retval = -1;
}
} else {
SDL_timer_running = 1;
SDL_alarm_interval = ms;
SDL_alarm_callback = callback;
retval = SDL_SYS_StartTimer();
}
}
if (SDL_timer_threaded) {
SDL_mutexV(SDL_timer_mutex);
}
return retval;
} }
/* vi: set ts=4 sw=4 expandtab: */ /* vi: set ts=4 sw=4 expandtab: */

14
src/timer/SDL_timer_c.h
View file

@ -27,21 +27,7 @@
#define ROUND_RESOLUTION(X) \ #define ROUND_RESOLUTION(X) \
(((X+TIMER_RESOLUTION-1)/TIMER_RESOLUTION)*TIMER_RESOLUTION) (((X+TIMER_RESOLUTION-1)/TIMER_RESOLUTION)*TIMER_RESOLUTION)
extern int SDL_timer_started;
extern int SDL_timer_running;
/* Data to handle a single periodic alarm */
extern Uint32 SDL_alarm_interval;
extern SDL_TimerCallback SDL_alarm_callback;
/* Set whether or not the timer should use a thread.
This should be called while the timer subsystem is running.
*/
extern int SDL_SetTimerThreaded(int value);
extern int SDL_TimerInit(void); extern int SDL_TimerInit(void);
extern void SDL_TimerQuit(void); extern void SDL_TimerQuit(void);
/* This function is called from the SDL event thread if it is available */
extern void SDL_ThreadedTimerCheck(void);
/* vi: set ts=4 sw=4 expandtab: */ /* vi: set ts=4 sw=4 expandtab: */

53
src/timer/beos/SDL_systimer.c
View file

@ -25,9 +25,7 @@
#include <be/kernel/OS.h> #include <be/kernel/OS.h>
#include "SDL_thread.h"
#include "SDL_timer.h" #include "SDL_timer.h"
#include "../SDL_timer_c.h"
static bigtime_t start; static bigtime_t start;
@ -50,55 +48,6 @@ SDL_Delay(Uint32 ms)
snooze(ms * 1000); snooze(ms * 1000);
} }
/* Data to handle a single periodic alarm */
static int timer_alive = 0;
static SDL_Thread *timer = NULL;
static int
RunTimer(void *unused)
{
while (timer_alive) {
if (SDL_timer_running) {
SDL_ThreadedTimerCheck();
}
SDL_Delay(10);
}
return (0);
}
/* This is only called if the event thread is not running */
int
SDL_SYS_TimerInit(void)
{
timer_alive = 1;
timer = SDL_CreateThread(RunTimer, NULL);
if (timer == NULL)
return (-1);
return (SDL_SetTimerThreaded(1));
}
void
SDL_SYS_TimerQuit(void)
{
timer_alive = 0;
if (timer) {
SDL_WaitThread(timer, NULL);
timer = NULL;
}
}
int
SDL_SYS_StartTimer(void)
{
SDL_SetError("Internal logic error: BeOS uses threaded timer");
return (-1);
}
void
SDL_SYS_StopTimer(void)
{
return;
}
#endif /* SDL_TIMER_BEOS */ #endif /* SDL_TIMER_BEOS */
/* vi: set ts=4 sw=4 expandtab: */ /* vi: set ts=4 sw=4 expandtab: */

54
src/timer/dummy/SDL_systimer.c
View file

@ -24,7 +24,6 @@
#if defined(SDL_TIMER_DUMMY) || defined(SDL_TIMERS_DISABLED) #if defined(SDL_TIMER_DUMMY) || defined(SDL_TIMERS_DISABLED)
#include "SDL_timer.h" #include "SDL_timer.h"
#include "../SDL_timer_c.h"
void void
SDL_StartTicks(void) SDL_StartTicks(void)
@ -44,57 +43,6 @@ SDL_Delay(Uint32 ms)
SDL_Unsupported(); SDL_Unsupported();
} }
#include "SDL_thread.h"
/* Data to handle a single periodic alarm */
static int timer_alive = 0;
static SDL_Thread *timer = NULL;
static int
RunTimer(void *unused)
{
while (timer_alive) {
if (SDL_timer_running) {
SDL_ThreadedTimerCheck();
}
SDL_Delay(1);
}
return (0);
}
/* This is only called if the event thread is not running */
int
SDL_SYS_TimerInit(void)
{
timer_alive = 1;
timer = SDL_CreateThread(RunTimer, NULL);
if (timer == NULL)
return (-1);
return (SDL_SetTimerThreaded(1));
}
void
SDL_SYS_TimerQuit(void)
{
timer_alive = 0;
if (timer) {
SDL_WaitThread(timer, NULL);
timer = NULL;
}
}
int
SDL_SYS_StartTimer(void)
{
SDL_SetError("Internal logic error: threaded timer in use");
return (-1);
}
void
SDL_SYS_StopTimer(void)
{
return;
}
#endif /* SDL_TIMER_DUMMY || SDL_TIMERS_DISABLED */ #endif /* SDL_TIMER_DUMMY || SDL_TIMERS_DISABLED */
/* vi: set ts=4 sw=4 expandtab: */ /* vi: set ts=4 sw=4 expandtab: */

79
src/timer/nds/SDL_systimer.c
View file

@ -27,22 +27,25 @@
#include <nds/timers.h> #include <nds/timers.h>
#include "SDL_timer.h" #include "SDL_timer.h"
#include "../SDL_timer_c.h"
#include "../SDL_systimer.h"
/* Data to handle a single periodic alarm */
static int timer_alive = 0; static volatile Uint32 timer_ticks;
static Uint32 timer_ticks;
static void
NDS_TimerInterrupt(void)
{
timer_ticks++;
}
void void
SDL_StartTicks(void) SDL_StartTicks(void)
{ {
if (!timer_alive) {
SDL_SYS_TimerInit();
SDL_SYS_StartTimer();
}
timer_ticks = 0; timer_ticks = 0;
TIMER_CR(3) = TIMER_DIV_1024 | TIMER_IRQ_REQ;
TIMER_DATA(3) = TIMER_FREQ_1024(1000);
irqSet(IRQ_TIMER3, NDS_TimerInterrupt);
irqEnable(IRQ_TIMER3);
} }
Uint32 Uint32
@ -61,60 +64,6 @@ SDL_Delay(Uint32 ms)
} }
} }
static int
RunTimer(void *unused)
{
while (timer_alive) {
if (SDL_timer_running) {
}
SDL_Delay(1);
}
return (0);
}
void
NDS_TimerInterrupt(void)
{
timer_ticks++;
}
/* This is only called if the event thread is not running */
int
SDL_SYS_TimerInit(void)
{
timer_alive = 1;
timer_ticks = 0;
TIMER_CR(3) = TIMER_DIV_1024 | TIMER_IRQ_REQ;
TIMER_DATA(3) = TIMER_FREQ_1024(1000);
irqSet(IRQ_TIMER3, NDS_TimerInterrupt);
irqEnable(IRQ_TIMER3);
return 0;
}
void
SDL_SYS_TimerQuit(void)
{
if (timer_alive) {
TIMER_CR(3) = 0;
}
timer_alive = 0;
irqDisable(IRQ_TIMER3);
}
int
SDL_SYS_StartTimer(void)
{
TIMER_CR(3) |= TIMER_ENABLE;
return 0;
}
void
SDL_SYS_StopTimer(void)
{
TIMER_CR(3) &= ~TIMER_ENABLE;
return;
}
#endif /* SDL_TIMER_NDS */ #endif /* SDL_TIMER_NDS */
/* vi: set ts=4 sw=4 expandtab: */ /* vi: set ts=4 sw=4 expandtab: */

122
src/timer/unix/SDL_systimer.c
View file

@ -25,14 +25,10 @@
#include <stdio.h> #include <stdio.h>
#include <sys/time.h> #include <sys/time.h>
#include <signal.h>
#include <unistd.h> #include <unistd.h>
#include <string.h>
#include <errno.h> #include <errno.h>
#include "SDL_timer.h" #include "SDL_timer.h"
#include "../SDL_systimer.h"
#include "../SDL_timer_c.h"
/* The clock_gettime provides monotonous time, so we should use it if /* The clock_gettime provides monotonous time, so we should use it if
it's available. The clock_gettime function is behind ifdef it's available. The clock_gettime function is behind ifdef
@ -43,10 +39,6 @@
#include <time.h> #include <time.h>
#endif #endif
#if SDL_THREADS_DISABLED
#define USE_ITIMER
#endif
/* The first ticks value of the application */ /* The first ticks value of the application */
#ifdef HAVE_CLOCK_GETTIME #ifdef HAVE_CLOCK_GETTIME
static struct timespec start; static struct timespec start;
@ -131,118 +123,6 @@ SDL_Delay(Uint32 ms)
} while (was_error && (errno == EINTR)); } while (was_error && (errno == EINTR));
} }
#ifdef USE_ITIMER
static void
HandleAlarm(int sig)
{
Uint32 ms;
if (SDL_alarm_callback) {
ms = (*SDL_alarm_callback) (SDL_alarm_interval);
if (ms != SDL_alarm_interval) {
SDL_SetTimer(ms, SDL_alarm_callback);
}
}
}
int
SDL_SYS_TimerInit(void)
{
struct sigaction action;
/* Set the alarm handler (Linux specific) */
SDL_memset(&action, 0, sizeof(action));
action.sa_handler = HandleAlarm;
action.sa_flags = SA_RESTART;
sigemptyset(&action.sa_mask);
sigaction(SIGALRM, &action, NULL);
return (0);
}
void
SDL_SYS_TimerQuit(void)
{
SDL_SetTimer(0, NULL);
}
int
SDL_SYS_StartTimer(void)
{
struct itimerval timer;
timer.it_value.tv_sec = (SDL_alarm_interval / 1000);
timer.it_value.tv_usec = (SDL_alarm_interval % 1000) * 1000;
timer.it_interval.tv_sec = (SDL_alarm_interval / 1000);
timer.it_interval.tv_usec = (SDL_alarm_interval % 1000) * 1000;
setitimer(ITIMER_REAL, &timer, NULL);
return (0);
}
void
SDL_SYS_StopTimer(void)
{
struct itimerval timer;
SDL_memset(&timer, 0, (sizeof timer));
setitimer(ITIMER_REAL, &timer, NULL);
}
#else /* USE_ITIMER */
#include "SDL_thread.h"
/* Data to handle a single periodic alarm */
static int timer_alive = 0;
static SDL_Thread *timer = NULL;
static int
RunTimer(void *unused)
{
while (timer_alive) {
if (SDL_timer_running) {
SDL_ThreadedTimerCheck();
}
SDL_Delay(1);
}
return (0);
}
/* This is only called if the event thread is not running */
int
SDL_SYS_TimerInit(void)
{
timer_alive = 1;
timer = SDL_CreateThread(RunTimer, NULL);
if (timer == NULL)
return (-1);
return (SDL_SetTimerThreaded(1));
}
void
SDL_SYS_TimerQuit(void)
{
timer_alive = 0;
if (timer) {
SDL_WaitThread(timer, NULL);
timer = NULL;
}
}
int
SDL_SYS_StartTimer(void)
{
SDL_SetError("Internal logic error: Linux uses threaded timer");
return (-1);
}
void
SDL_SYS_StopTimer(void)
{
return;
}
#endif /* USE_ITIMER */
#endif /* SDL_TIMER_UNIX */ #endif /* SDL_TIMER_UNIX */
/* vi: set ts=4 sw=4 expandtab: */ /* vi: set ts=4 sw=4 expandtab: */

129
src/timer/wince/SDL_systimer.c
View file

@ -24,11 +24,8 @@
#ifdef SDL_TIMER_WINCE #ifdef SDL_TIMER_WINCE
#include "../../core/windows/SDL_windows.h" #include "../../core/windows/SDL_windows.h"
#include <mmsystem.h>
#include "SDL_thread.h"
#include "SDL_timer.h" #include "SDL_timer.h"
#include "../SDL_timer_c.h"
static Uint64 start_date; static Uint64 start_date;
static Uint64 start_ticks; static Uint64 start_ticks;
@ -69,6 +66,14 @@ wce_rel_date(void)
return ((Sint32) (wce_date() - start_date)); return ((Sint32) (wce_date() - start_date));
} }
/* Recard start-time of application for reference */
void
SDL_StartTicks(void)
{
start_date = wce_date();
start_ticks = wce_ticks();
}
/* Return time in ms relative to when SDL was started */ /* Return time in ms relative to when SDL was started */
Uint32 Uint32
SDL_GetTicks() SDL_GetTicks()
@ -89,122 +94,6 @@ SDL_Delay(Uint32 ms)
Sleep(ms); Sleep(ms);
} }
/* Recard start-time of application for reference */
void
SDL_StartTicks(void)
{
start_date = wce_date();
start_ticks = wce_ticks();
}
static UINT WIN_timer;
#if ( _WIN32_WCE <= 420 )
static HANDLE timersThread = 0;
static HANDLE timersQuitEvent = 0;
DWORD
TimersThreadProc(void *data)
{
while (WaitForSingleObject(timersQuitEvent, 10) == WAIT_TIMEOUT) {
SDL_ThreadedTimerCheck();
}
return 0;
}
int
SDL_SYS_TimerInit(void)
{
// create a thread to process a threaded timers
// SetTimer does not suit the needs because
// TimerCallbackProc will be called only when WM_TIMER occured
timersQuitEvent = CreateEvent(0, TRUE, FALSE, 0);
if (!timersQuitEvent) {
SDL_SetError("Cannot create event for timers thread");
return -1;
}
timersThread = CreateThread(NULL, 0, TimersThreadProc, 0, 0, 0);
if (!timersThread) {
SDL_SetError
("Cannot create timers thread, check amount of RAM available");
return -1;
}
SetThreadPriority(timersThread, THREAD_PRIORITY_HIGHEST);
return (SDL_SetTimerThreaded(1));
}
void
SDL_SYS_TimerQuit(void)
{
SetEvent(timersQuitEvent);
if (WaitForSingleObject(timersThread, 2000) == WAIT_TIMEOUT)
TerminateThread(timersThread, 0);
CloseHandle(timersThread);
CloseHandle(timersQuitEvent);
return;
}
#else
#pragma comment(lib, "mmtimer.lib")
/* Data to handle a single periodic alarm */
static UINT timerID = 0;
static void CALLBACK
HandleAlarm(UINT uID, UINT uMsg, DWORD dwUser, DWORD dw1, DWORD dw2)
{
SDL_ThreadedTimerCheck();
}
int
SDL_SYS_TimerInit(void)
{
MMRESULT result;
/* Set timer resolution */
result = timeBeginPeriod(TIMER_RESOLUTION);
if (result != TIMERR_NOERROR) {
SDL_SetError("Warning: Can't set %d ms timer resolution",
TIMER_RESOLUTION);
}
/* Allow 10 ms of drift so we don't chew on CPU */
timerID =
timeSetEvent(TIMER_RESOLUTION, 1, HandleAlarm, 0, TIME_PERIODIC);
if (!timerID) {
SDL_SetError("timeSetEvent() failed");
return (-1);
}
return (SDL_SetTimerThreaded(1));
}
void
SDL_SYS_TimerQuit(void)
{
if (timerID) {
timeKillEvent(timerID);
}
timeEndPeriod(TIMER_RESOLUTION);
}
#endif
int
SDL_SYS_StartTimer(void)
{
SDL_SetError("Internal logic error: WinCE uses threaded timer");
return (-1);
}
void
SDL_SYS_StopTimer(void)
{
return;
}
#endif /* SDL_TIMER_WINCE */ #endif /* SDL_TIMER_WINCE */
/* vi: set ts=4 sw=4 expandtab: */ /* vi: set ts=4 sw=4 expandtab: */

56
src/timer/windows/SDL_systimer.c
View file

@ -24,10 +24,8 @@
#ifdef SDL_TIMER_WINDOWS #ifdef SDL_TIMER_WINDOWS
#include "../../core/windows/SDL_windows.h" #include "../../core/windows/SDL_windows.h"
#include <mmsystem.h>
#include "SDL_timer.h" #include "SDL_timer.h"
#include "../SDL_timer_c.h"
#ifdef _WIN32_WCE #ifdef _WIN32_WCE
#error This is WinCE. Please use src/timer/wince/SDL_systimer.c instead. #error This is WinCE. Please use src/timer/wince/SDL_systimer.c instead.
@ -106,60 +104,6 @@ SDL_Delay(Uint32 ms)
Sleep(ms); Sleep(ms);
} }
/* Data to handle a single periodic alarm */
static UINT timerID = 0;
static void CALLBACK
HandleAlarm(UINT uID, UINT uMsg, DWORD_PTR dwUser,
DWORD_PTR dw1, DWORD_PTR dw2)
{
SDL_ThreadedTimerCheck();
}
int
SDL_SYS_TimerInit(void)
{
MMRESULT result;
/* Set timer resolution */
result = timeBeginPeriod(TIMER_RESOLUTION);
if (result != TIMERR_NOERROR) {
SDL_SetError("Warning: Can't set %d ms timer resolution",
TIMER_RESOLUTION);
}
/* Allow 10 ms of drift so we don't chew on CPU */
timerID =
timeSetEvent(TIMER_RESOLUTION, 1, HandleAlarm, 0, TIME_PERIODIC);
if (!timerID) {
SDL_SetError("timeSetEvent() failed");
return (-1);
}
return (SDL_SetTimerThreaded(1));
}
void
SDL_SYS_TimerQuit(void)
{
if (timerID) {
timeKillEvent(timerID);
}
timeEndPeriod(TIMER_RESOLUTION);
}
int
SDL_SYS_StartTimer(void)
{
SDL_SetError("Internal logic error: Win32 uses threaded timer");
return (-1);
}
void
SDL_SYS_StopTimer(void)
{
return;
}
#endif /* SDL_TIMER_WINDOWS */ #endif /* SDL_TIMER_WINDOWS */
/* vi: set ts=4 sw=4 expandtab: */ /* vi: set ts=4 sw=4 expandtab: */