• STL 源代码剖析 算法 stl_algo.h -- inplace_merge


    本文为senlie原创。转载请保留此地址:http://blog.csdn.net/zhengsenlie


    inplace_merge(应用于有序区间)
    --------------------------------------------------------------------


    描写叙述:假设两个连接在一起的序列[first, middle)和 [middle, last]都已排序,
    那么 inplace_merge 可将它们结合成单一一个序列,并仍有序。


    源代码:

    template <class BidirectionalIterator>
    inline void inplace_merge(BidirectionalIterator first,
                              BidirectionalIterator middle,
                              BidirectionalIterator last) {
      if (first == middle || middle == last) return; //仅仅要有不论什么一个序列为空,就什么都不必做
      __inplace_merge_aux(first, middle, last, value_type(first),
                          distance_type(first));
    }
    
    
    //辅助函数
    template <class BidirectionalIterator, class T, class Distance>
    inline void __inplace_merge_aux(BidirectionalIterator first,
                                    BidirectionalIterator middle,
                                    BidirectionalIterator last, T*, Distance*) {
      Distance len1 = 0;
      distance(first, middle, len1);
      Distance len2 = 0;
      distance(middle, last, len2);
      //使用了额外的内存空间(临时缓冲区)	
      temporary_buffer<BidirectionalIterator, T> buf(first, last);
      if (buf.begin() == 0) // 内存分配失败
        __merge_without_buffer(first, middle, last, len1, len2);
      else // 在有临时缓冲区的情况下进行
        __merge_adaptive(first, middle, last, len1, len2,
                         buf.begin(), Distance(buf.size()));
    }
    
    
    //辅助函数。有缓冲区的情况下
    template <class BidirectionalIterator, class Distance, class Pointer>
    void __merge_adaptive(BidirectionalIterator first, 
                          BidirectionalIterator middle, 
                          BidirectionalIterator last, Distance len1, Distance len2,
                          Pointer buffer, Distance buffer_size) {
      if (len1 <= len2 && len1 <= buffer_size) {
        Pointer end_buffer = copy(first, middle, buffer);
        merge(buffer, end_buffer, middle, last, first);
      }
      else if (len2 <= buffer_size) {
        Pointer end_buffer = copy(middle, last, buffer);
        __merge_backward(first, middle, buffer, end_buffer, last);
      }
      else {
        BidirectionalIterator first_cut = first;
        BidirectionalIterator second_cut = middle;
        Distance len11 = 0;
        Distance len22 = 0;
        if (len1 > len2) {
          len11 = len1 / 2;
          advance(first_cut, len11);
          second_cut = lower_bound(middle, last, *first_cut);
          distance(middle, second_cut, len22);   
        }
        else {
          len22 = len2 / 2;
          advance(second_cut, len22);
          first_cut = upper_bound(first, middle, *second_cut);
          distance(first, first_cut, len11);
        }
        BidirectionalIterator new_middle =
          __rotate_adaptive(first_cut, middle, second_cut, len1 - len11,
                            len22, buffer, buffer_size);
        __merge_adaptive(first, first_cut, new_middle, len11, len22, buffer,
                         buffer_size);
        __merge_adaptive(new_middle, second_cut, last, len1 - len11,
                         len2 - len22, buffer, buffer_size);
      }
    }
    



    演示样例:
    int main()
    {
      int A[] = { 1, 3, 5, 7, 2, 4, 6, 8 };
    
    
      inplace_merge(A, A + 4, A + 8);
      copy(A, A + 8, ostream_iterator<int>(cout, " "));  
      // The output is "1 2 3 4 5 6 7 8".
    }


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  • 原文地址:https://www.cnblogs.com/yutingliuyl/p/6853930.html
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