I am trying to make a linked list based queue for fast operations, now that's what i have:

```
template< typename T,
template< typename > class Allocator = default_allocator
>
class fast_queue
{
public:
typedef T element_type;
typedef T* element_ptr;
private:
typedef struct e_node
{
element_type val;
e_node * next;
}node_type;
typedef node_type * node_ptr;
node_ptr parent;
node_ptr child;
int m_size;
typedef Allocator< node_type > allocator_type;
public:
fast_queue()
: parent( 0 )
, child( 0 )
, m_size( 0 )
{
}
~fast_queue() {
this->clear();
}
void push(element_type& i)
{
node_ptr n = allocator_type::alloc();
n->val = i;
n->next = (node_ptr)0;
if(child) {
child->next = n;
} else {
parent = n;
}
child = n;
m_size++;
}
element_type pop()
{
element_type ret = parent->val;
node_ptr p = parent;
parent = parent->next;
m_size--;
allocator_type::dealloc(p);
return ret;
}
inline int size() const
{
return m_size;
}
inline bool empty() const
{
return (m_size == 0);
}
void clear()
{
while(!empty()) {
pop();
}
child = 0;
}
};
```

Pretty straightforward, now what i'm having a problem with is the clear() function. It seems to be taking way too much time deallocating all the nodes in the queue(7 seconds). So the question is, what might be a better algorithm? I tried to understand MSVC's implementation of std::deque but the code is so bulky for me to understand.

EDIT: The queue should be generic, allowing arbitrary types of data to be queued. Here is my testing code (Windows)

```
DWORD time1 = timeGetTime();
fast_queue<int> queue;
for(int i = 0; i < 100000; i++) {
queue.push(i);
}
queue.clear();
cout << "Test time: " << (int)(timeGetTime() - time1) << " milliseconds" << endl;
```