C++ (Cpp) _M_insertの例

コード例 #1

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ファイルを表示

ファイル: _hashtable.c プロジェクト: RaymondLiao/elektronika

__reference__ 
hashtable<_Val,_Key,_HF,_ExK,_EqK,_All>::find_or_insert(const value_type& __obj)
{

  _Node* __first = _M_find(_M_get_key(__obj));
  if (__first)
    return __first->_M_val;
  else
    return _M_insert(__obj);
}

コード例 #2

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ファイルを表示

ファイル: _tree.c プロジェクト: Arkshine/NS

          class _Compare, class _Alloc> pair< _Rb_tree_iterator<_Value, _Nonconst_traits<_Value> >, bool> _Rb_tree<_Key,_Value,_KeyOfValue,_Compare,_Alloc> ::insert_unique(const _Value& __v)
{
  _Link_type __y = this->_M_header._M_data;
  _Link_type __x = _M_root();
  bool __comp = true;
  while (__x != 0) {
    __y = __x;
    __comp = _M_key_compare(_KeyOfValue()(__v), _S_key(__x));
    __x = __comp ? _S_left(__x) : _S_right(__x);
  }
  iterator __j = iterator(__y);   
  if (__comp)
    if (__j == begin())     
      return pair<iterator,bool>(_M_insert(/* __x*/ __y, __y, __v), true);
    else
      --__j;
  if (_M_key_compare(_S_key(__j._M_node), _KeyOfValue()(__v)))
    return pair<iterator,bool>(_M_insert(__x, __y, __v), true);
  return pair<iterator,bool>(__j, false);
}

コード例 #3

0

ファイルを表示

ファイル: _tree.c プロジェクト: Arkshine/NS

          class _Compare, class _Alloc> __iterator__
_Rb_tree<_Key,_Value,_KeyOfValue,_Compare,_Alloc> ::insert_equal(const _Value& __v)
{
  _Link_type __y = this->_M_header._M_data;
  _Link_type __x = _M_root();
  while (__x != 0) {
    __y = __x;
    __x = _M_key_compare(_KeyOfValue()(__v), _S_key(__x)) ? 
            _S_left(__x) : _S_right(__x);
  }
  return _M_insert(__x, __y, __v);
}

コード例 #4

0

ファイルを表示

ファイル: _tree.c プロジェクト: Frankie-666/tomita-parser

pair<__iterator__, bool>
_Rb_tree<_Key,_Compare,_Value,_KeyOfValue,_Traits,_Alloc> ::insert_unique(const _Value& __val) {
  _Base_ptr __y = &this->_M_header._M_data;
  _Base_ptr __x = _M_root();
  bool __comp = true;
  while (__x != 0) {
    __y = __x;
    __comp = _M_key_compare(_KeyOfValue()(__val), _S_key(__x));
    __x = __comp ? _S_left(__x) : _S_right(__x);
  }
  iterator __j = iterator(__y);
  if (__comp) {
    if (__j == begin())
      return pair<iterator,bool>(_M_insert(__y, __val, /* __x*/ __y), true);
    else
      --__j;
  }
  if (_M_key_compare(_S_key(__j._M_node), _KeyOfValue()(__val))) {
    return pair<iterator,bool>(_M_insert(__y, __val, __x), true);
  }
  return pair<iterator,bool>(__j, false);
}

コード例 #5

0

ファイルを表示

ファイル: _tree.c プロジェクト: Frankie-666/tomita-parser

__iterator__
_Rb_tree<_Key,_Compare,_Value,_KeyOfValue,_Traits,_Alloc> ::insert_equal(const _Value& __val) {
  _Base_ptr __y = &this->_M_header._M_data;
  _Base_ptr __x = _M_root();
  while (__x != 0) {
    __y = __x;
    if (_M_key_compare(_KeyOfValue()(__val), _S_key(__x))) {
      __x = _S_left(__x);
    }
    else
      __x = _S_right(__x);
  }
  return _M_insert(__y, __val, __x);
}

コード例 #6

0

ファイルを表示

ファイル: _tree.c プロジェクト: Frankie-666/tomita-parser

__iterator__
_Rb_tree<_Key,_Compare,_Value,_KeyOfValue,_Traits,_Alloc> ::insert_equal(iterator __position,
                                                                         const _Value& __val) {
  if (__position._M_node == this->_M_header._M_data._M_left) { // begin()

    // Check for zero members
    if (size() <= 0)
        return insert_equal(__val);

    if (!_M_key_compare(_S_key(__position._M_node), _KeyOfValue()(__val)))
      return _M_insert(__position._M_node, __val, __position._M_node);
    else {
      // Check for only one member
      if (__position._M_node->_M_left == __position._M_node)
        // Unlike insert_unique, can't avoid doing a comparison here.
        return _M_insert(__position._M_node, __val);

      // All other cases:
      // Standard-conformance - does the insertion point fall immediately AFTER
      // the hint?
      iterator __after = __position;
      ++__after;

      // Already know that compare(pos, v) must be true!
      // Therefore, we want to know if compare(after, v) is false.
      // (i.e., we now pos < v, now we want to know if v <= after)
      // If not, invalid hint.
      if ( __after._M_node == &this->_M_header._M_data ||
           !_M_key_compare( _S_key(__after._M_node), _KeyOfValue()(__val) ) ) {
        if (_S_right(__position._M_node) == 0)
          return _M_insert(__position._M_node, __val, 0, __position._M_node);
        else
          return _M_insert(__after._M_node, __val, __after._M_node);
      }
      else { // Invalid hint
        return insert_equal(__val);
      }
    }
  }
  else if (__position._M_node == &this->_M_header._M_data) { // end()
    if (!_M_key_compare(_KeyOfValue()(__val), _S_key(_M_rightmost())))
      return _M_insert(_M_rightmost(), __val, 0, __position._M_node); // Last argument only needs to be non-null
    else {
      return insert_equal(__val);
    }
  }
  else {
    iterator __before = __position;
    --__before;
    // store the result of the comparison between pos and v so
    // that we don't have to do it again later.  Note that this reverses the shortcut
    // on the if, possibly harming efficiency in comparisons; I think the harm will
    // be negligible, and to do what I want to do (save the result of a comparison so
    // that it can be re-used) there is no alternative.  Test here is for before <= v <= pos.
    bool __comp_pos_v = _M_key_compare(_S_key(__position._M_node), _KeyOfValue()(__val));
    if (!__comp_pos_v &&
        !_M_key_compare(_KeyOfValue()(__val), _S_key(__before._M_node))) {
      if (_S_right(__before._M_node) == 0)
        return _M_insert(__before._M_node, __val, 0, __before._M_node); // Last argument only needs to be non-null
      else
        return _M_insert(__position._M_node, __val, __position._M_node);
    }
    else {
      // Does the insertion point fall immediately AFTER the hint?
      // Test for pos < v <= after
      iterator __after = __position;
      ++__after;

      if (__comp_pos_v &&
          ( __after._M_node == &this->_M_header._M_data ||
            !_M_key_compare( _S_key(__after._M_node), _KeyOfValue()(__val) ) ) ) {
        if (_S_right(__position._M_node) == 0)
          return _M_insert(__position._M_node, __val, 0, __position._M_node);
        else
          return _M_insert(__after._M_node, __val, __after._M_node);
      }
      else { // Invalid hint
        return insert_equal(__val);
      }
    }
  }
}

コード例 #7

0

ファイルを表示

ファイル: _tree.c プロジェクト: Frankie-666/tomita-parser

__iterator__
_Rb_tree<_Key,_Compare,_Value,_KeyOfValue,_Traits,_Alloc> ::insert_unique(iterator __position,
                                                                          const _Value& __val) {
  if (__position._M_node == this->_M_header._M_data._M_left) { // begin()

    // if the container is empty, fall back on insert_unique.
    if (empty())
      return insert_unique(__val).first;

    if (_M_key_compare(_KeyOfValue()(__val), _S_key(__position._M_node))) {
      return _M_insert(__position._M_node, __val, __position._M_node);
    }
    // first argument just needs to be non-null
    else {
      bool __comp_pos_v = _M_key_compare( _S_key(__position._M_node), _KeyOfValue()(__val) );

      if (__comp_pos_v == false)  // compare > and compare < both false so compare equal
        return __position;
      //Below __comp_pos_v == true

      // Standard-conformance - does the insertion point fall immediately AFTER
      // the hint?
      iterator __after = __position;
      ++__after;

      // Check for only one member -- in that case, __position points to itself,
      // and attempting to increment will cause an infinite loop.
      if (__after._M_node == &this->_M_header._M_data)
        // Check guarantees exactly one member, so comparison was already
        // performed and we know the result; skip repeating it in _M_insert
        // by specifying a non-zero fourth argument.
        return _M_insert(__position._M_node, __val, 0, __position._M_node);

      // All other cases:

      // Optimization to catch insert-equivalent -- save comparison results,
      // and we get this for free.
      if (_M_key_compare( _KeyOfValue()(__val), _S_key(__after._M_node) )) {
        if (_S_right(__position._M_node) == 0)
          return _M_insert(__position._M_node, __val, 0, __position._M_node);
        else
          return _M_insert(__after._M_node, __val, __after._M_node);
      }
      else {
        return insert_unique(__val).first;
      }
    }
  }
  else if (__position._M_node == &this->_M_header._M_data) { // end()
    if (_M_key_compare(_S_key(_M_rightmost()), _KeyOfValue()(__val))) {
        // pass along to _M_insert that it can skip comparing
        // v, Key ; since compare Key, v was true, compare v, Key must be false.
        return _M_insert(_M_rightmost(), __val, 0, __position._M_node); // Last argument only needs to be non-null
    }
    else
      return insert_unique(__val).first;
  }
  else {
    iterator __before = __position;
    --__before;

    bool __comp_v_pos = _M_key_compare(_KeyOfValue()(__val), _S_key(__position._M_node));

    if (__comp_v_pos
        && _M_key_compare( _S_key(__before._M_node), _KeyOfValue()(__val) )) {

      if (_S_right(__before._M_node) == 0)
        return _M_insert(__before._M_node, __val, 0, __before._M_node); // Last argument only needs to be non-null
      else
        return _M_insert(__position._M_node, __val, __position._M_node);
      // first argument just needs to be non-null
    }
    else {
      // Does the insertion point fall immediately AFTER the hint?
      iterator __after = __position;
      ++__after;
      // Optimization to catch equivalent cases and avoid unnecessary comparisons
      bool __comp_pos_v = !__comp_v_pos;  // Stored this result earlier
      // If the earlier comparison was true, this comparison doesn't need to be
      // performed because it must be false.  However, if the earlier comparison
      // was false, we need to perform this one because in the equal case, both will
      // be false.
      if (!__comp_v_pos) {
        __comp_pos_v = _M_key_compare(_S_key(__position._M_node), _KeyOfValue()(__val));
      }

      if ( (!__comp_v_pos) // comp_v_pos true implies comp_v_pos false
          && __comp_pos_v
          && (__after._M_node == &this->_M_header._M_data ||
              _M_key_compare( _KeyOfValue()(__val), _S_key(__after._M_node) ))) {
        if (_S_right(__position._M_node) == 0)
          return _M_insert(__position._M_node, __val, 0, __position._M_node);
        else
          return _M_insert(__after._M_node, __val, __after._M_node);
      } else {
        // Test for equivalent case
        if (__comp_v_pos == __comp_pos_v)
          return __position;
        else
          return insert_unique(__val).first;
      }
    }
  }
}