I created this linked list class to use it in my work but I have this exception 'First-chance exception at 0x003216D2 in game.exe: 0xC0000005: Access violation writing location 0x00000004.' and it is coming from erase function can someone show me how can fix it and explain what it the problem
#ifndef LINKEDLIST_HPP
#define LINKEDLIST_HPP
#include <vector>
#include <cassert>
template<typename T>
class Linkedlist
{
private:
// The basic doubly linked Linkedlist node.
// Nested inside of Linkedlist, can be public
// because the Node is itself private
struct Node
{
T _data;
Node *_prev;
Node *_next;
Node( const T & d = T(), Node * p = NULL, Node * n = NULL )
: _data( d ), _prev( p ), _next( n ) { }
// Rvalue
Node(Node && n)
{
_data = std::move(n._data);
_prev = std::move(n._prev);
_next = std::move(n._next);
}
// = operator
Node& operator =(Node && n)
{
_data = std::move(n._data);
_prev = std::move(n._prev);
_next = std::move(n._next);
return *this;
}
};
public:
class LinkedListIter : public std::iterator<std::forward_iterator_tag , T , int>
{
Node* _node;
public:
LinkedListIter(Node* p=nullptr) : _node(p){}
~LinkedListIter(){}
Node* getNode(){return _node;}
T operator * () { return _node->_data; }
LinkedListIter & operator ++()
{
_node = _node->_next;
return *this;
}
LinkedListIter operator ++(int)
{
LinkedListIter retVal = *this;
++this;
return retVal;
}
bool operator < (LinkedListIter const& rhs) const
{
return _Node < rhs._Node;
}
bool operator != (LinkedListIter const& rhs) const
{
return _Node != rhs._pNode;
}
bool operator == (LinkedListIter const& rhs) const
{
return _Node == rhs._Node;
}
};
Linkedlist( )
{ init(); }
~Linkedlist()
{
clear();
delete _head;
delete _tail;
}
Linkedlist(const Linkedlist & rhs)
{
init( );
*this = rhs;
}
const Linkedlist & operator= (const Linkedlist & rhs)
{
if( this == &rhs )
return *this;
clear( );
for(const_iterator itr = rhs.begin(); itr != rhs.end( ); ++itr)
push_back(*itr);
return *this;
}
// Return iterator representing beginning of Linkedlist.
// Mutator version is first, then accessor version.
LinkedListIter begin()
{ return LinkedListIter(_head->_next);}
// Return iterator representing endmarker of Linkedlist.
// Mutator version is first, then accessor version.
LinkedListIter end()
{ return LinkedListIter(_tail); }
// Return number of elements currently in the Linkedlist.
int size() const
{ return _size; }
// Return true if the Linkedlist is empty, false otherwise.
bool empty() const
{ return size() == 0; }
void clear()
{
while( !empty() )
pop_front();
}
// front, back, push_front, push_back, pop_front, and pop_back
// are the basic double-ended queue operations.
T & front()
//{ return *begin( ); }
{return _head->_next.data}
const T & front() const
{ return *begin(); }
T & back( )
{ return *--end(); }
const T & back() const
{ return *--end(); }
void push_front(const T & x)
{ insert( begin(), x ); }
void push_back(const T & x)
{ insert( end(), x ); }
void pop_front()
{ erase(begin()); }
void pop_back()
{ erase(--end()); }
// Insert x before itr.
LinkedListIter insert(LinkedListIter& itr, const T & x)
{
Node *p = new Node(x,itr.getNode()->_prev,itr.getNode());
_size++;
return LinkedListIter(p->_prev = p->_prev->_next = new Node(x, p->_prev, p));
}
// Erase item at itr.
LinkedListIter erase(LinkedListIter itr)
{
Node *p = itr.getNode();
LinkedListIter retVal(p->_next);
p->_prev->_next = p->_next;
p->_next->_prev = p->_prev;
delete p;
_size--;
return retVal;
}
LinkedListIter erase(LinkedListIter start, LinkedListIter end)
{
for(iterator itr = start; itr != end;)
itr = erase(itr);
return end;
}
private:
int _size;
Node *_head;
Node *_tail;
void init()
{
_size = 0;
_head = new Node;
_tail = new Node;
_head->_next = _tail;
_tail->_prev = _head;
}
};
#endif
size()
returns zero when first constructed,size()
returns one after pushing one item, after pushing one item,front()
returns that item properly, etc. It is far easier to investigate an issue in a tiny test case that does a few things than it is to dig through some big complex crash when using it for real tasks. As more and more tests pass, add new tests that are more and more brutal.p->_next->_prev
the subexpressionp->_next
is null. You have a pretty good hint of what is wrong, the_next
pointer of a node is null. Now check how that node was created and inserted and whether null is a valid value for that pointer.