axmol/cocos/base/CCScheduler.cpp

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/****************************************************************************
Copyright (c) 2008-2010 Ricardo Quesada
Copyright (c) 2010-2012 cocos2d-x.org
Copyright (c) 2011 Zynga Inc.
Copyright (c) 2013-2016 Chukong Technologies Inc.
Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd.
http://www.cocos2d-x.org
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
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
AUTHORS OR COPYRIGHT HOLDERS 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.
****************************************************************************/
#include "base/CCScheduler.h"
#include "base/ccMacros.h"
#include "base/CCDirector.h"
#include "base/utlist.h"
#include "base/ccCArray.h"
#include "base/CCScriptSupport.h"
NS_CC_BEGIN
// data structures
// A list double-linked list used for "updates with priority"
typedef struct _listEntry
{
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struct _listEntry *prev, *next;
ccSchedulerFunc callback;
void* target;
int priority;
bool paused;
bool markedForDeletion; // selector will no longer be called and entry will be removed at end of the next tick
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} tListEntry;
typedef struct _hashUpdateEntry
{
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tListEntry** list; // Which list does it belong to ?
tListEntry* entry; // entry in the list
void* target;
ccSchedulerFunc callback;
UT_hash_handle hh;
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} tHashUpdateEntry;
// Hash Element used for "selectors with interval"
typedef struct _hashSelectorEntry
{
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ccArray* timers;
void* target;
int timerIndex;
Timer* currentTimer;
bool paused;
UT_hash_handle hh;
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} tHashTimerEntry;
// implementation Timer
Timer::Timer()
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: _scheduler(nullptr)
, _elapsed(-1)
, _runForever(false)
, _useDelay(false)
, _timesExecuted(0)
, _repeat(0)
, _delay(0.0f)
, _interval(0.0f)
, _aborted(false)
{}
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void Timer::setupTimerWithInterval(float seconds, unsigned int repeat, float delay)
{
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_elapsed = -1;
_interval = seconds;
_delay = delay;
_useDelay = (_delay > 0.0f) ? true : false;
_repeat = repeat;
_runForever = (_repeat == CC_REPEAT_FOREVER) ? true : false;
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_timesExecuted = 0;
}
void Timer::update(float dt)
{
if (_elapsed == -1)
{
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_elapsed = 0;
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_timesExecuted = 0;
return;
}
// accumulate elapsed time
_elapsed += dt;
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// deal with delay
if (_useDelay)
{
if (_elapsed < _delay)
{
return;
}
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_timesExecuted += 1; // important to increment before call trigger
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trigger(_delay);
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_elapsed = _elapsed - _delay;
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_useDelay = false;
// after delay, the rest time should compare with interval
if (isExhausted())
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{ // unschedule timer
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cancel();
return;
}
}
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// if _interval == 0, should trigger once every frame
float interval = (_interval > 0) ? _interval : _elapsed;
while ((_elapsed >= interval) && !_aborted)
{
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_timesExecuted += 1; // important to increment before call trigger
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trigger(interval);
_elapsed -= interval;
if (isExhausted())
{
cancel();
break;
}
if (_elapsed <= 0.f)
{
break;
}
}
}
bool Timer::isExhausted() const
{
return !_runForever && _timesExecuted > _repeat;
}
// TimerTargetSelector
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TimerTargetSelector::TimerTargetSelector() : _target(nullptr), _selector(nullptr) {}
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bool TimerTargetSelector::initWithSelector(Scheduler* scheduler,
SEL_SCHEDULE selector,
Ref* target,
float seconds,
unsigned int repeat,
float delay)
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{
_scheduler = scheduler;
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_target = target;
_selector = selector;
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setupTimerWithInterval(seconds, repeat, delay);
return true;
}
void TimerTargetSelector::trigger(float dt)
{
if (_target && _selector)
{
(_target->*_selector)(dt);
}
}
void TimerTargetSelector::cancel()
{
_scheduler->unschedule(_selector, _target);
}
// TimerTargetCallback
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TimerTargetCallback::TimerTargetCallback() : _target(nullptr), _callback(nullptr) {}
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bool TimerTargetCallback::initWithCallback(Scheduler* scheduler,
const ccSchedulerFunc& callback,
void* target,
const std::string& key,
float seconds,
unsigned int repeat,
float delay)
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{
_scheduler = scheduler;
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_target = target;
_callback = callback;
_key = key;
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setupTimerWithInterval(seconds, repeat, delay);
return true;
}
void TimerTargetCallback::trigger(float dt)
{
if (_callback)
{
_callback(dt);
}
}
void TimerTargetCallback::cancel()
{
_scheduler->unschedule(_key, _target);
}
#if CC_ENABLE_SCRIPT_BINDING
// TimerScriptHandler
bool TimerScriptHandler::initWithScriptHandler(int handler, float seconds)
{
_scriptHandler = handler;
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_elapsed = -1;
_interval = seconds;
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return true;
}
void TimerScriptHandler::trigger(float dt)
{
if (0 != _scriptHandler)
{
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SchedulerScriptData data(_scriptHandler, dt);
ScriptEvent event(kScheduleEvent, &data);
ScriptEngineManager::sendEventToLua(event);
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}
}
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void TimerScriptHandler::cancel() {}
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#endif
// implementation of Scheduler
// Priority level reserved for system services.
const int Scheduler::PRIORITY_SYSTEM = INT_MIN;
// Minimum priority level for user scheduling.
const int Scheduler::PRIORITY_NON_SYSTEM_MIN = PRIORITY_SYSTEM + 1;
Scheduler::Scheduler()
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: _timeScale(1.0f)
, _updatesNegList(nullptr)
, _updates0List(nullptr)
, _updatesPosList(nullptr)
, _hashForUpdates(nullptr)
, _hashForTimers(nullptr)
, _currentTarget(nullptr)
, _currentTargetSalvaged(false)
, _updateHashLocked(false)
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#if CC_ENABLE_SCRIPT_BINDING
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, _scriptHandlerEntries(20)
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#endif
{
// I don't expect to have more than 30 functions to all per frame
_functionsToPerform.reserve(30);
}
Scheduler::~Scheduler()
{
unscheduleAll();
}
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void Scheduler::removeHashElement(_hashSelectorEntry* element)
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{
ccArrayFree(element->timers);
HASH_DEL(_hashForTimers, element);
free(element);
}
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void Scheduler::schedule(const ccSchedulerFunc& callback,
void* target,
float interval,
bool paused,
const std::string& key)
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{
this->schedule(callback, target, interval, CC_REPEAT_FOREVER, 0.0f, paused, key);
}
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void Scheduler::schedule(const ccSchedulerFunc& callback,
void* target,
float interval,
unsigned int repeat,
float delay,
bool paused,
const std::string& key)
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{
CCASSERT(target, "Argument target must be non-nullptr");
CCASSERT(!key.empty(), "key should not be empty!");
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tHashTimerEntry* element = nullptr;
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HASH_FIND_PTR(_hashForTimers, &target, element);
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if (!element)
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{
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element = (tHashTimerEntry*)calloc(sizeof(*element), 1);
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element->target = target;
HASH_ADD_PTR(_hashForTimers, target, element);
// Is this the 1st element ? Then set the pause level to all the selectors of this target
element->paused = paused;
}
else
{
CCASSERT(element->paused == paused, "element's paused should be paused!");
}
if (element->timers == nullptr)
{
element->timers = ccArrayNew(10);
}
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else
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{
for (int i = 0; i < element->timers->num; ++i)
{
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TimerTargetCallback* timer = dynamic_cast<TimerTargetCallback*>(element->timers->arr[i]);
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if (timer && !timer->isExhausted() && key == timer->getKey())
{
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CCLOG("CCScheduler#schedule. Reiniting timer with interval %.4f, repeat %u, delay %.4f", interval,
repeat, delay);
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timer->setupTimerWithInterval(interval, repeat, delay);
return;
}
}
ccArrayEnsureExtraCapacity(element->timers, 1);
}
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TimerTargetCallback* timer = new TimerTargetCallback();
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timer->initWithCallback(this, callback, target, key, interval, repeat, delay);
ccArrayAppendObject(element->timers, timer);
timer->release();
}
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void Scheduler::unschedule(const std::string& key, void* target)
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{
// explicit handle nil arguments when removing an object
if (target == nullptr || key.empty())
{
return;
}
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// CCASSERT(target);
// CCASSERT(selector);
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tHashTimerEntry* element = nullptr;
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HASH_FIND_PTR(_hashForTimers, &target, element);
if (element)
{
for (int i = 0; i < element->timers->num; ++i)
{
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TimerTargetCallback* timer = dynamic_cast<TimerTargetCallback*>(element->timers->arr[i]);
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if (timer && key == timer->getKey())
{
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if (timer == element->currentTimer && (!timer->isAborted()))
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{
timer->retain();
timer->setAborted();
}
ccArrayRemoveObjectAtIndex(element->timers, i, true);
// update timerIndex in case we are in tick:, looping over the actions
if (element->timerIndex >= i)
{
element->timerIndex--;
}
if (element->timers->num == 0)
{
if (_currentTarget == element)
{
_currentTargetSalvaged = true;
}
else
{
removeHashElement(element);
}
}
return;
}
}
}
}
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void Scheduler::priorityIn(tListEntry** list, const ccSchedulerFunc& callback, void* target, int priority, bool paused)
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{
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tListEntry* listElement = new tListEntry();
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listElement->callback = callback;
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listElement->target = target;
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listElement->priority = priority;
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listElement->paused = paused;
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listElement->next = listElement->prev = nullptr;
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listElement->markedForDeletion = false;
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// empty list ?
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if (!*list)
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{
DL_APPEND(*list, listElement);
}
else
{
bool added = false;
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for (tListEntry* element = *list; element; element = element->next)
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{
if (priority < element->priority)
{
if (element == *list)
{
DL_PREPEND(*list, listElement);
}
else
{
listElement->next = element;
listElement->prev = element->prev;
element->prev->next = listElement;
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element->prev = listElement;
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}
added = true;
break;
}
}
// Not added? priority has the higher value. Append it.
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if (!added)
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{
DL_APPEND(*list, listElement);
}
}
// update hash entry for quick access
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tHashUpdateEntry* hashElement = (tHashUpdateEntry*)calloc(sizeof(*hashElement), 1);
hashElement->target = target;
hashElement->list = list;
hashElement->entry = listElement;
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memset(&hashElement->hh, 0, sizeof(hashElement->hh));
HASH_ADD_PTR(_hashForUpdates, target, hashElement);
}
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void Scheduler::appendIn(_listEntry** list, const ccSchedulerFunc& callback, void* target, bool paused)
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{
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tListEntry* listElement = new tListEntry();
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listElement->callback = callback;
listElement->target = target;
listElement->paused = paused;
listElement->priority = 0;
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listElement->markedForDeletion = false;
DL_APPEND(*list, listElement);
// update hash entry for quicker access
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tHashUpdateEntry* hashElement = (tHashUpdateEntry*)calloc(sizeof(*hashElement), 1);
hashElement->target = target;
hashElement->list = list;
hashElement->entry = listElement;
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memset(&hashElement->hh, 0, sizeof(hashElement->hh));
HASH_ADD_PTR(_hashForUpdates, target, hashElement);
}
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void Scheduler::schedulePerFrame(const ccSchedulerFunc& callback, void* target, int priority, bool paused)
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{
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tHashUpdateEntry* hashElement = nullptr;
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HASH_FIND_PTR(_hashForUpdates, &target, hashElement);
if (hashElement)
{
// change priority: should unschedule it first
if (hashElement->entry->priority != priority)
{
unscheduleUpdate(target);
}
else
{
// don't add it again
CCLOG("warning: don't update it again");
return;
}
}
// most of the updates are going to be 0, that's way there
// is an special list for updates with priority 0
if (priority == 0)
{
appendIn(&_updates0List, callback, target, paused);
}
else if (priority < 0)
{
priorityIn(&_updatesNegList, callback, target, priority, paused);
}
else
{
// priority > 0
priorityIn(&_updatesPosList, callback, target, priority, paused);
}
}
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bool Scheduler::isScheduled(const std::string& key, const void* target) const
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{
CCASSERT(!key.empty(), "Argument key must not be empty");
CCASSERT(target, "Argument target must be non-nullptr");
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tHashTimerEntry* element = nullptr;
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HASH_FIND_PTR(_hashForTimers, &target, element);
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if (!element)
{
return false;
}
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if (element->timers == nullptr)
{
return false;
}
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for (int i = 0; i < element->timers->num; ++i)
{
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TimerTargetCallback* timer = dynamic_cast<TimerTargetCallback*>(element->timers->arr[i]);
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if (timer && !timer->isExhausted() && key == timer->getKey())
{
return true;
}
}
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return false;
}
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void Scheduler::removeUpdateFromHash(struct _listEntry* entry)
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{
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tHashUpdateEntry* element = nullptr;
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HASH_FIND_PTR(_hashForUpdates, &entry->target, element);
if (element)
{
// list entry
DL_DELETE(*element->list, element->entry);
if (!_updateHashLocked)
CC_SAFE_DELETE(element->entry);
else
{
element->entry->markedForDeletion = true;
_updateDeleteVector.push_back(element->entry);
}
// hash entry
HASH_DEL(_hashForUpdates, element);
free(element);
}
}
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void Scheduler::unscheduleUpdate(void* target)
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{
if (target == nullptr)
{
return;
}
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tHashUpdateEntry* element = nullptr;
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HASH_FIND_PTR(_hashForUpdates, &target, element);
if (element)
this->removeUpdateFromHash(element->entry);
}
void Scheduler::unscheduleAll()
{
unscheduleAllWithMinPriority(PRIORITY_SYSTEM);
}
void Scheduler::unscheduleAllWithMinPriority(int minPriority)
{
// Custom Selectors
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tHashTimerEntry* element = nullptr;
tHashTimerEntry* nextElement = nullptr;
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for (element = _hashForTimers; element != nullptr;)
{
// element may be removed in unscheduleAllSelectorsForTarget
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nextElement = (tHashTimerEntry*)element->hh.next;
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unscheduleAllForTarget(element->target);
element = nextElement;
}
// Updates selectors
tListEntry *entry, *tmp;
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if (minPriority < 0)
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{
DL_FOREACH_SAFE(_updatesNegList, entry, tmp)
{
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if (entry->priority >= minPriority)
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{
unscheduleUpdate(entry->target);
}
}
}
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if (minPriority <= 0)
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{
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DL_FOREACH_SAFE(_updates0List, entry, tmp) { unscheduleUpdate(entry->target); }
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}
DL_FOREACH_SAFE(_updatesPosList, entry, tmp)
{
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if (entry->priority >= minPriority)
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{
unscheduleUpdate(entry->target);
}
}
#if CC_ENABLE_SCRIPT_BINDING
_scriptHandlerEntries.clear();
#endif
}
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void Scheduler::unscheduleAllForTarget(void* target)
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{
// explicit nullptr handling
if (target == nullptr)
{
return;
}
// Custom Selectors
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tHashTimerEntry* element = nullptr;
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HASH_FIND_PTR(_hashForTimers, &target, element);
if (element)
{
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if (ccArrayContainsObject(element->timers, element->currentTimer) && (!element->currentTimer->isAborted()))
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{
element->currentTimer->retain();
element->currentTimer->setAborted();
}
ccArrayRemoveAllObjects(element->timers);
if (_currentTarget == element)
{
_currentTargetSalvaged = true;
}
else
{
removeHashElement(element);
}
}
// update selector
unscheduleUpdate(target);
}
#if CC_ENABLE_SCRIPT_BINDING
unsigned int Scheduler::scheduleScriptFunc(unsigned int handler, float interval, bool paused)
{
SchedulerScriptHandlerEntry* entry = SchedulerScriptHandlerEntry::create(handler, interval, paused);
_scriptHandlerEntries.pushBack(entry);
return entry->getEntryId();
}
void Scheduler::unscheduleScriptEntry(unsigned int scheduleScriptEntryID)
{
for (ssize_t i = _scriptHandlerEntries.size() - 1; i >= 0; i--)
{
SchedulerScriptHandlerEntry* entry = _scriptHandlerEntries.at(i);
if (entry->getEntryId() == (int)scheduleScriptEntryID)
{
entry->markedForDeletion();
break;
}
}
}
#endif
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void Scheduler::resumeTarget(void* target)
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{
CCASSERT(target != nullptr, "target can't be nullptr!");
// custom selectors
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tHashTimerEntry* element = nullptr;
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HASH_FIND_PTR(_hashForTimers, &target, element);
if (element)
{
element->paused = false;
}
// update selector
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tHashUpdateEntry* elementUpdate = nullptr;
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HASH_FIND_PTR(_hashForUpdates, &target, elementUpdate);
if (elementUpdate)
{
CCASSERT(elementUpdate->entry != nullptr, "elementUpdate's entry can't be nullptr!");
elementUpdate->entry->paused = false;
}
}
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void Scheduler::pauseTarget(void* target)
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{
CCASSERT(target != nullptr, "target can't be nullptr!");
// custom selectors
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tHashTimerEntry* element = nullptr;
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HASH_FIND_PTR(_hashForTimers, &target, element);
if (element)
{
element->paused = true;
}
// update selector
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tHashUpdateEntry* elementUpdate = nullptr;
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HASH_FIND_PTR(_hashForUpdates, &target, elementUpdate);
if (elementUpdate)
{
CCASSERT(elementUpdate->entry != nullptr, "elementUpdate's entry can't be nullptr!");
elementUpdate->entry->paused = true;
}
}
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bool Scheduler::isTargetPaused(void* target)
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{
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CCASSERT(target != nullptr, "target must be non nil");
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// Custom selectors
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tHashTimerEntry* element = nullptr;
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HASH_FIND_PTR(_hashForTimers, &target, element);
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if (element)
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{
return element->paused;
}
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// We should check update selectors if target does not have custom selectors
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tHashUpdateEntry* elementUpdate = nullptr;
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HASH_FIND_PTR(_hashForUpdates, &target, elementUpdate);
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if (elementUpdate)
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{
return elementUpdate->entry->paused;
}
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return false; // should never get here
}
std::set<void*> Scheduler::pauseAllTargets()
{
return pauseAllTargetsWithMinPriority(PRIORITY_SYSTEM);
}
std::set<void*> Scheduler::pauseAllTargetsWithMinPriority(int minPriority)
{
std::set<void*> idsWithSelectors;
// Custom Selectors
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for (tHashTimerEntry* element = _hashForTimers; element != nullptr; element = (tHashTimerEntry*)element->hh.next)
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{
element->paused = true;
idsWithSelectors.insert(element->target);
}
// Updates selectors
tListEntry *entry, *tmp;
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if (minPriority < 0)
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{
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DL_FOREACH_SAFE(_updatesNegList, entry, tmp)
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{
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if (entry->priority >= minPriority)
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{
entry->paused = true;
idsWithSelectors.insert(entry->target);
}
}
}
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if (minPriority <= 0)
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{
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DL_FOREACH_SAFE(_updates0List, entry, tmp)
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{
entry->paused = true;
idsWithSelectors.insert(entry->target);
}
}
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DL_FOREACH_SAFE(_updatesPosList, entry, tmp)
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{
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if (entry->priority >= minPriority)
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{
entry->paused = true;
idsWithSelectors.insert(entry->target);
}
}
return idsWithSelectors;
}
void Scheduler::resumeTargets(const std::set<void*>& targetsToResume)
{
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for (const auto& obj : targetsToResume)
{
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this->resumeTarget(obj);
}
}
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void Scheduler::performFunctionInCocosThread(std::function<void()> function)
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{
std::lock_guard<std::mutex> lock(_performMutex);
_functionsToPerform.push_back(std::move(function));
}
void Scheduler::removeAllFunctionsToBePerformedInCocosThread()
{
std::unique_lock<std::mutex> lock(_performMutex);
_functionsToPerform.clear();
}
// main loop
void Scheduler::update(float dt)
{
_updateHashLocked = true;
if (_timeScale != 1.0f)
{
dt *= _timeScale;
}
//
// Selector callbacks
//
// Iterate over all the Updates' selectors
tListEntry *entry, *tmp;
// updates with priority < 0
DL_FOREACH_SAFE(_updatesNegList, entry, tmp)
{
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if ((!entry->paused) && (!entry->markedForDeletion))
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{
entry->callback(dt);
}
}
// updates with priority == 0
DL_FOREACH_SAFE(_updates0List, entry, tmp)
{
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if ((!entry->paused) && (!entry->markedForDeletion))
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{
entry->callback(dt);
}
}
// updates with priority > 0
DL_FOREACH_SAFE(_updatesPosList, entry, tmp)
{
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if ((!entry->paused) && (!entry->markedForDeletion))
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{
entry->callback(dt);
}
}
// Iterate over all the custom selectors
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for (tHashTimerEntry* elt = _hashForTimers; elt != nullptr;)
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{
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_currentTarget = elt;
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_currentTargetSalvaged = false;
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if (!_currentTarget->paused)
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{
// The 'timers' array may change while inside this loop
for (elt->timerIndex = 0; elt->timerIndex < elt->timers->num; ++(elt->timerIndex))
{
elt->currentTimer = (Timer*)(elt->timers->arr[elt->timerIndex]);
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CCASSERT(!elt->currentTimer->isAborted(), "An aborted timer should not be updated");
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elt->currentTimer->update(dt);
if (elt->currentTimer->isAborted())
{
// The currentTimer told the remove itself. To prevent the timer from
// accidentally deallocating itself before finishing its step, we retained
// it. Now that step is done, it's safe to release it.
elt->currentTimer->release();
}
elt->currentTimer = nullptr;
}
}
// elt, at this moment, is still valid
// so it is safe to ask this here (issue #490)
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elt = (tHashTimerEntry*)elt->hh.next;
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// only delete currentTarget if no actions were scheduled during the cycle (issue #481)
if (_currentTargetSalvaged && _currentTarget->timers->num == 0)
{
removeHashElement(_currentTarget);
}
}
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// delete all updates that are removed in update
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for (auto& e : _updateDeleteVector)
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delete e;
_updateDeleteVector.clear();
_updateHashLocked = false;
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_currentTarget = nullptr;
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#if CC_ENABLE_SCRIPT_BINDING
//
// Script callbacks
//
// Iterate over all the script callbacks
if (!_scriptHandlerEntries.empty())
{
for (auto i = _scriptHandlerEntries.size() - 1; i >= 0; i--)
{
SchedulerScriptHandlerEntry* eachEntry = _scriptHandlerEntries.at(i);
if (eachEntry->isMarkedForDeletion())
{
_scriptHandlerEntries.erase(i);
}
else if (!eachEntry->isPaused())
{
eachEntry->getTimer()->update(dt);
}
}
}
#endif
//
// Functions allocated from another thread
//
// Testing size is faster than locking / unlocking.
// And almost never there will be functions scheduled to be called.
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if (!_functionsToPerform.empty())
{
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_performMutex.lock();
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// fixed #4123: Save the callback functions, they must be invoked after '_performMutex.unlock()', otherwise if
// new functions are added in callback, it will cause thread deadlock.
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auto temp = std::move(_functionsToPerform);
_performMutex.unlock();
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for (const auto& function : temp)
{
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function();
}
}
}
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void Scheduler::schedule(SEL_SCHEDULE selector,
Ref* target,
float interval,
unsigned int repeat,
float delay,
bool paused)
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{
CCASSERT(target, "Argument target must be non-nullptr");
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tHashTimerEntry* element = nullptr;
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HASH_FIND_PTR(_hashForTimers, &target, element);
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if (!element)
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{
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element = (tHashTimerEntry*)calloc(sizeof(*element), 1);
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element->target = target;
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HASH_ADD_PTR(_hashForTimers, target, element);
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// Is this the 1st element ? Then set the pause level to all the selectors of this target
element->paused = paused;
}
else
{
CCASSERT(element->paused == paused, "element's paused should be paused.");
}
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if (element->timers == nullptr)
{
element->timers = ccArrayNew(10);
}
else
{
for (int i = 0; i < element->timers->num; ++i)
{
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TimerTargetSelector* timer = dynamic_cast<TimerTargetSelector*>(element->timers->arr[i]);
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if (timer && !timer->isExhausted() && selector == timer->getSelector())
{
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CCLOG("CCScheduler#schedule. Reiniting timer with interval %.4f, repeat %u, delay %.4f", interval,
repeat, delay);
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timer->setupTimerWithInterval(interval, repeat, delay);
return;
}
}
ccArrayEnsureExtraCapacity(element->timers, 1);
}
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TimerTargetSelector* timer = new TimerTargetSelector();
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timer->initWithSelector(this, selector, target, interval, repeat, delay);
ccArrayAppendObject(element->timers, timer);
timer->release();
}
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void Scheduler::schedule(SEL_SCHEDULE selector, Ref* target, float interval, bool paused)
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{
this->schedule(selector, target, interval, CC_REPEAT_FOREVER, 0.0f, paused);
}
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bool Scheduler::isScheduled(SEL_SCHEDULE selector, const Ref* target) const
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{
CCASSERT(selector, "Argument selector must be non-nullptr");
CCASSERT(target, "Argument target must be non-nullptr");
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tHashTimerEntry* element = nullptr;
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HASH_FIND_PTR(_hashForTimers, &target, element);
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if (!element)
{
return false;
}
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if (element->timers == nullptr)
{
return false;
}
for (int i = 0; i < element->timers->num; ++i)
{
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TimerTargetSelector* timer = dynamic_cast<TimerTargetSelector*>(element->timers->arr[i]);
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if (timer && !timer->isExhausted() && selector == timer->getSelector())
{
return true;
}
}
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return false;
}
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void Scheduler::unschedule(SEL_SCHEDULE selector, Ref* target)
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{
// explicit handle nil arguments when removing an object
if (target == nullptr || selector == nullptr)
{
return;
}
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tHashTimerEntry* element = nullptr;
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HASH_FIND_PTR(_hashForTimers, &target, element);
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if (element)
{
for (int i = 0; i < element->timers->num; ++i)
{
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TimerTargetSelector* timer = dynamic_cast<TimerTargetSelector*>(element->timers->arr[i]);
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if (timer && selector == timer->getSelector())
{
if (timer == element->currentTimer && !timer->isAborted())
{
timer->retain();
timer->setAborted();
}
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ccArrayRemoveObjectAtIndex(element->timers, i, true);
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// update timerIndex in case we are in tick:, looping over the actions
if (element->timerIndex >= i)
{
element->timerIndex--;
}
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if (element->timers->num == 0)
{
if (_currentTarget == element)
{
_currentTargetSalvaged = true;
}
else
{
removeHashElement(element);
}
}
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return;
}
}
}
}
NS_CC_END