Exemplo n.º 1
0
__iterator__
_Rb_tree<_Key,_Compare,_Value,_KeyOfValue,_Traits,_Alloc> ::_M_insert(_Rb_tree_node_base * __parent,
                                                                      const _Value& __val,
                                                                      _Rb_tree_node_base * __on_left,
                                                                      _Rb_tree_node_base * __on_right) {
  // We do not create the node here as, depending on tests, we might call
  // _M_key_compare that can throw an exception.
  _Base_ptr __new_node;

  if ( __parent == &this->_M_header._M_data ) {
    __new_node = _M_create_node(__val);
    _S_left(__parent) = __new_node;   // also makes _M_leftmost() = __new_node
    _M_root() = __new_node;
    _M_rightmost() = __new_node;
  }
  else if ( __on_right == 0 &&     // If __on_right != 0, the remainder fails to false
           ( __on_left != 0 ||     // If __on_left != 0, the remainder succeeds to true
             _M_key_compare( _KeyOfValue()(__val), _S_key(__parent) ) ) ) {
    __new_node = _M_create_node(__val);
    _S_left(__parent) = __new_node;
    if (__parent == _M_leftmost())
      _M_leftmost() = __new_node;   // maintain _M_leftmost() pointing to min node
  }
  else {
    __new_node = _M_create_node(__val);
    _S_right(__parent) = __new_node;
    if (__parent == _M_rightmost())
      _M_rightmost() = __new_node;  // maintain _M_rightmost() pointing to max node
  }
  _S_parent(__new_node) = __parent;
  _Rb_global_inst::_Rebalance(__new_node, this->_M_header._M_data._M_parent);
  ++_M_node_count;
  return iterator(__new_node);
}
Exemplo n.º 2
0
Arquivo: _tree.c Projeto: Arkshine/NS
          class _Compare, class _Alloc> __iterator__ 
_Rb_tree<_Key,_Value,_KeyOfValue,_Compare,_Alloc> ::_M_insert(_Rb_tree_node_base* __x_, _Rb_tree_node_base* __y_, const _Value& __v,
  _Rb_tree_node_base* __w_)
{
  _Link_type __w = (_Link_type) __w_;
  _Link_type __x = (_Link_type) __x_;
  _Link_type __y = (_Link_type) __y_;
  _Link_type __z;

  if ( __y == this->_M_header._M_data ||
       ( __w == 0 && // If w != 0, the remainder fails to false
         ( __x != 0 ||     // If x != 0, the remainder succeeds to true
           _M_key_compare( _KeyOfValue()(__v), _S_key(__y) ) )
	 )
       ) {
    
    __z = _M_create_node(__v);
    _S_left(__y) = __z;               // also makes _M_leftmost() = __z 
                                      //    when __y == _M_header
    if (__y == this->_M_header._M_data) {
      _M_root() = __z;
      _M_rightmost() = __z;
    }
    else if (__y == _M_leftmost())
      _M_leftmost() = __z;   // maintain _M_leftmost() pointing to min node
  }
  else {
    __z = _M_create_node(__v);
    _S_right(__y) = __z;
    if (__y == _M_rightmost())
      _M_rightmost() = __z;  // maintain _M_rightmost() pointing to max node
  }
  _S_parent(__z) = __y;
  _S_left(__z) = 0;
  _S_right(__z) = 0;
  _Rb_global_inst::_Rebalance(__z, this->_M_header._M_data->_M_parent);
  ++_M_node_count;
  return iterator(__z);
}