double interval, double delay,
bool repeat, bool simtime)
{
+ // Clamp the delay value to 1 usec, so that user code can use
+ // "zero" as a synonym for "next frame".
+ if(delay <= 0) delay = 0.000001;
+
SGTimer* t = new SGTimer;
t->interval = interval;
t->callback = cb;
void SGEventMgr::update(double delta_time_sec)
{
- _rtQueue.update(delta_time_sec);
- if(!_freezeProp || _freezeProp->getBoolValue() == false)
- _simQueue.update(delta_time_sec);
+ _simQueue.update(delta_time_sec);
+
+ double rt = _rtProp ? _rtProp->getDoubleValue() : 0;
+ _rtQueue.update(rt);
}
////////////////////////////////////////////////////////////////////////
SGTimerQueue::~SGTimerQueue()
{
+ for(int i=0; i<_numEntries; i++) {
+ delete _table[i].timer;
+ _table[i].timer = 0;
+ }
+ _numEntries = 0;
delete[] _table;
+ _table = 0;
+ _tableSize = 0;
}
void SGTimerQueue::update(double deltaSecs)
void SGTimerQueue::insert(SGTimer* timer, double time)
{
- if(time < 0) *(int*)0=0;
-
if(_numEntries >= _tableSize)
growArray();
void SGTimerQueue::siftDown(int n)
{
- // While we have a child bigger than us:
- while(((lchild(n) < (_numEntries-1))
- && (_table[n].pri < _table[lchild(n)].pri))
- ||
- ((rchild(n) < (_numEntries-1))
- && (_table[n].pri < _table[rchild(n)].pri)))
- {
- // Swap us with the biggest child
- if(_table[lchild(n)].pri > _table[rchild(n)].pri) {
- swap(n, lchild(n));
- n = lchild(n);
- } else {
- swap(n, rchild(n));
- n = rchild(n);
- }
+ // While we have children bigger than us, swap us with the biggest
+ // child.
+ while(lchild(n) < _numEntries) {
+ int bigc = lchild(n);
+ if(rchild(n) < _numEntries && pri(rchild(n)) > pri(bigc))
+ bigc = rchild(n);
+ if(pri(bigc) <= pri(n))
+ break;
+ swap(n, bigc);
+ n = bigc;
}
}