Windows2003-3790/enduser/netmeeting/av/rrcm/rtp/queue.h

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2001-01-01 00:00:00 +01:00
// generic queue class
// usage:
// QueueOf<char *> charq;
#ifndef _QUEUE_H_
#define _QUEUE_H_
template <class T>
class QueueOf
{
public:
QueueOf(): m_maxItems(8),m_iFirst(0),m_iLast(0)
{
// m_maxItems is always a power of 2
m_List = new T [m_maxItems];
}
// returns TRUE if the queue is empty and FALSE otherwise
BOOL IsEmpty(void) { return (m_iLast == m_iFirst);}
// add an element to the tail of the queue
// makes a copy of the element
BOOL Put(const T &itemT)
{
int inext;
inext = (m_iLast+1)&(m_maxItems-1);
if (inext == m_iFirst)
{
// too many items
if (!Grow())
{
return FALSE;
}
inext = (m_iLast+1)&(m_maxItems-1);
}
m_List[m_iLast] = itemT;
m_iLast = inext;
return TRUE;
}
// get the first element in the queue
BOOL Get(T *pT)
{
if (IsEmpty())
return FALSE; // nothing in queue
else
{
if (pT)
*pT = m_List[m_iFirst];
m_iFirst = (m_iFirst+1)&(m_maxItems-1);
return TRUE;
}
}
// get the ith element in the queue without removing it
BOOL Peek(T *pT, UINT pos=0)
{
if (pos >= GetCount())
return FALSE;
else
{
*pT = m_List[(m_iFirst+pos)&(m_maxItems-1)];
return TRUE;
}
}
// delete the ith element in the queue (this is not an efficient function!)
BOOL Remove(UINT pos)
{
if (pos >= GetCount())
return FALSE;
else
{
int i1 = (m_iFirst+(int)pos)&(m_maxItems-1);
int i2 = (i1+1)&(m_maxItems-1);
// shift left to fill the gap
for (; i2 != m_iLast; i1=i2,i2=(i2+1)&(m_maxItems-1))
{
m_List[i1] = m_List[i2];
}
m_iLast = i1; // i1 = m_iLast-1
return TRUE;
}
}
// return the number of elements in the queue
UINT GetCount(void)
{
return (m_iLast >= m_iFirst ? m_iLast-m_iFirst : m_iLast+m_maxItems-m_iFirst);
}
~QueueOf()
{
delete []m_List;
}
private:
BOOL Grow(void)
{
int i,j;
// double the size of the queue array
T* pNewList = new T [m_maxItems*2];
if (!pNewList)
return FALSE;
for (i=0, j=m_iFirst; j != m_iLast; i++, j = ((++j)&(m_maxItems-1)))
{
pNewList[i] = m_List[j];
}
m_iFirst = 0;
m_iLast = i;
m_maxItems = m_maxItems*2;
delete [] m_List;
m_List = pNewList;
return TRUE;
}
int m_maxItems;
int m_iFirst;
int m_iLast;
T *m_List;
};
;
#endif