算法导论练习6.5-8 k路合并
2013-09-05 16:30 youxin 阅读(713) 评论(1) 编辑 收藏 举报题目:
请给出一个时间为O(nlgk)、用来将k个已排序链表合并为一个排序链表的算法。此处n为所有输入链表中元素的总数。(提示:用一个最小堆来做k路合并。
看到题目第个想到的是归并排序过程中的归并操作子过程,从头开始两两比较,找出最小的,然后接着往后比较,常用的是2路归并。而题目给的是k个已排好序的链表(k>=2)。如果没有提示,我半天不知道如何去实现,幸好提示说用最小堆来做k路合并,于是我想到可以这样做:创建一个大小为k的数组,将k个链表中的第一个元素依次存放到数组中,然后将数组调整为最小堆,这样保证数组的第一个元素是最小的,假设为min,将min从最小堆取出并存放到最终结果的链表中,此时将min所在链表的下一个元素到插入的最小堆中,继续上面的操作,直到堆中没有元素为止。举个例子如下图所示(只给出不部分操作):
最终结果如下图所示:
现在采用C++语言,借助STL实现此过程,链表采用list,最小堆中存放的是list的迭代器,表示list中元素的位置。完整程序如下:
#include <iostream> #include <vector> #include <list> #include <iterator> #include <cstdlib> using namespace std; template<class T> class MinHeap { public: MinHeap(); MinHeap(const size_t size); ~MinHeap(); T get_min() const; void delete_min(); void insert_element(const T& e); void adjust_min_heap(const size_t i); size_t get_heap_size() const; int compare(const T& t1,const T& t2); private: T *heap; size_t heap_size; }; template<class T> MinHeap<T>::MinHeap():heap(NULL),heap_size(0){} template<class T> MinHeap<T>::MinHeap(const size_t size) { if(!heap) delete [] heap; heap = new T[size+1]; heap_size = 0; } template<class T> MinHeap<T>::~MinHeap() { if(!heap) delete [] heap; heap_size = 0; } template<class T> T MinHeap<T>::get_min() const { if(heap_size > 0) return heap[1]; else return T(); } template<class T> void MinHeap<T>::delete_min() { if(heap_size > 0) { heap[1] = heap[heap_size]; heap_size = heap_size - 1; adjust_min_heap(1); } else { cout<<"Error: the min heap is empty"<<endl; } } template<class T> void MinHeap<T>::insert_element(const T& e) { size_t i,parent; T temp; heap_size = heap_size + 1; heap[heap_size] = e; i = heap_size; parent = i/2; while(i>1 && compare(heap[parent],heap[i]) > 0) { temp = heap[parent]; heap[parent] = heap[i]; heap[i] = temp; i = parent; parent = i/2; } } template<class T> void MinHeap<T>::adjust_min_heap(const size_t i) { size_t left,right,least; T temp; left = i*2; right = i*2+1; if(left <= heap_size && compare(heap[left],heap[i]) < 0) least = left; else least = i; if(right <= heap_size && compare(heap[right],heap[least]) < 0) least = right; if(least != i) { temp = heap[least]; heap[least] = heap[i]; heap[i] = temp; adjust_min_heap(least); } } template<class T> size_t MinHeap<T>::get_heap_size() const { return heap_size; } template<class T> int MinHeap<T>::compare(const T& t1,const T& t2) { return (*t1-*t2); } const static int k = 3; int main() { list<int> lists[k]; list<int>::iterator iters[k]; list<int> retlist; list<int>::iterator retiter; list<int>::iterator iter; MinHeap<list<int>::iterator> minheap(k); //first list <12,24,52> lists[0].push_back(12); lists[0].push_back(24); lists[0].push_back(52); cout<<"First list: "; for(iter=lists[0].begin();iter != lists[0].end();++iter) cout<<*iter<<"->"; cout<<"NULL"<<endl; //second list <9,32> lists[1].push_back(9); lists[1].push_back(32); cout<<"Second list: "; for(iter=lists[1].begin();iter != lists[1].end();++iter) cout<<*iter<<"->"; cout<<"NULL"<<endl; //third list <34,42,78> lists[2].push_back(34); lists[2].push_back(42); lists[2].push_back(78); cout<<"Third list: "; for(iter=lists[2].begin();iter != lists[2].end();++iter) cout<<*iter<<"->"; cout<<"NULL"<<endl; iters[0] = lists[0].begin(); iters[1] = lists[1].begin(); iters[2] = lists[2].begin(); minheap.insert_element(iters[0]); minheap.insert_element(iters[1]); minheap.insert_element(iters[2]); while(minheap.get_heap_size()) { iter = minheap.get_min() ; retlist.push_back(*iter); minheap.delete_min(); ++iter; if(iter != lists[0].end() && iter != lists[1].end() &&iter != lists[2].end()) minheap.insert_element(iter); } cout<<"Merge the there list is: "<<endl; for(retiter = retlist.begin();retiter!= retlist.end();retiter++) cout<<*retiter<<"->"; cout<<"NULL"<<endl; exit(0); }
测试结果:
转自:http://www.cnblogs.com/Anker/archive/2013/01/24/2874569.html
我按照上面的写了代码,总是遇到错误说:在画红线的地方
if(it!=lists[0].end() && it!=lists[1].end() && it!=lists[2].end()):
总是报错:list iterator incompatible:
#include<iostream> #include<string> #include<list> #include<algorithm> using namespace std; int left(int i) { return 2*i;} int right(int i){ return 2*i+1;} int parent(int i) { return i/2;} template<class T> class MinHeap { private: T *heap; int heapSize; public: MinHeap(const int size); ~MinHeap(); void adjustMinHeap(int i); void insert(const T& e); T extractMin(); T getMin(); void deleteMin(); void print(); int getHeapSize(){ return heapSize;} int comp(const T& a,const T& b) { return (*a)-(*b);} }; template<class T> MinHeap<T>::MinHeap(const int size) { heap=new T[size+1]; heapSize=0; } template<class T> MinHeap<T>::~MinHeap() { delete[] heap; heapSize=0; } template<class T> void MinHeap<T>::insert(const T& e) { heapSize++; heap[heapSize]=e;//从这可以看出第0个不存 int i=heapSize; int parentNode=parent(i); while(i>1 && comp(heap[parentNode],heap[i])>0) //注意,T里面的类型为Iter迭代器类型,不能是这么来比较heap[parentNode]>heap[i]. { swap(heap[parentNode],heap[i]); i=parentNode; parentNode=parent(i); } } template<class T> void MinHeap<T>::adjustMinHeap(int i) { int l=left(i); int r=right(i); int smallest; if(l<=heapSize && comp(heap[l],heap[i])<0 )//l<=heapSize必须在前面,为什么,因为如果在后面,heap[l]将访问冲突 smallest=l; else smallest=i; if(r<=heapSize && comp(heap[r],heap[smallest])<0) smallest=r; if(smallest!=i) { swap(heap[i],heap[smallest]); adjustMinHeap(smallest); } } template<class T> T MinHeap<T>::extractMin() { T min=heap[1]; heap[1]=heap[heapSize]; heapSize--; adjustMinHeap(1); return min; } template<class T> T MinHeap<T>::getMin() { if(heapSize>0) return heap[1]; else return T(); } template<class T> void MinHeap<T>::deleteMin() { heap[1]=heap[heapSize]; heapSize--; adjustMinHeap(1); } template<class T> void MinHeap<T>::print() { for(int i=1;i<=heapSize;i++) cout<<*heap[i]<<ends; cout<<endl; } //#define k 3 const int k=3; int main() { //验证MinHeap正确性 /* MinHeap<int> heap(4); heap.insert(4); heap.insert(3); heap.insert(1); heap.insert(2); heap.print(); //1 2 3 4 cout<<"min:"<<heap.extractMin()<<endl; //1 heap.print(); //2 4 3 */ list<int> lists[k]; typedef list<int>::iterator Iter; Iter iters[k]; MinHeap<Iter> minHeap(k); //first list<12,24,52> lists[0].push_back(12); lists[0].push_back(24); lists[0].push_back(52); cout<<"First list: "; Iter it; for(it=lists[0].begin();it!=lists[0].end();it++) cout<<*it<<"->"; cout<<"NULL"<<endl; //second list <9,32> lists[1].push_back(9); lists[1].push_back(32); cout<<"Second list: "; for(it=lists[1].begin();it != lists[1].end();++it) cout<<*it<<"->"; cout<<"NULL"<<endl; //third list <34,42,78> lists[2].push_back(34); lists[2].push_back(42); lists[2].push_back(78); cout<<"Third list: "; for(it=lists[2].begin();it != lists[2].end();++it) cout<<*it<<"->"; cout<<"NULL"<<endl; iters[0]=lists[0].begin(); iters[1]=lists[1].begin(); iters[2]=lists[2].begin(); minHeap.insert(iters[0]); minHeap.insert(iters[1]); minHeap.insert(iters[2]); minHeap.print(); list<int> retlist; while(minHeap.getHeapSize()!=0)//这个条件最开始没想到 { it=minHeap.getMin(); retlist.push_back(*it); minHeap.deleteMin(); ++it; if(it!=lists[0].end() && it!=lists[1].end() && it!=lists[2].end()) { minHeap.insert(it); } } cout<<"Merge list:"<<endl; for(it=retlist.begin();it!=retlist.end();it++) cout<<*it<<"->"; cout<<"NULL"<<endl; }
搞了2-3个小时没有找到原因,暂时放一放。
