STL容器:list双向链表学习
list是一个双向列表容器,完成了标准C++数据结构中链表的所有功能;
list与vector和deque类似,只不过其中的对象提供了对元素的随机访问。
STL以双向链表的方式实现list,访问需要从链表的某个端点开始;
list对象插入和删除一个元素所需时间与该元素在链表中的位置无关。
list不提供随机存取(No!),其优势是任何位置插入和删除都非常迅速;
在list中移动一段元素比在vector和deque中要快得多,在需要时可改变自身大小。
C++ Code
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/* stllist.cpp
list是一个双向列表容器,完成了标准C++数据结构中链表的所有功能; list与vector和deque类似,只不过其中的对象提供了对元素的随机访问。 STL以双向链表的方式实现list,访问需要从链表的某个端点开始; list对象插入和删除一个元素所需时间与该元素在链表中的位置无关。 list不提供随机存取(No!),其优势是任何位置插入和删除都非常迅速; 在list中移动一段元素比在vector和deque中要快得多,在需要时可改变自身大小。 */ #include <iostream> #include <list> #include <string> using namespace std; typedef list<string> LISTSTRING; typedef list<string>::iterator LISTSTRING_ITER; typedef list<int>::iterator LISTINT_ITER; template<class T> class is_odd { public: bool operator()(T &val) { return (val % 2) == 1; } }; int main(void) { //list赋值 //push_front(); //push_back(); //pop_front(); //pop_back(); list<int> myList; myList.push_back(10); myList.push_front(8); //list大小度量函数 list<int> c1; list<int>::size_type i; c1.push_back(23); i = c1.size(); cout << "The c1 size is " << i << endl; c1.push_back(24); i = c1.size(); cout << "The c1 size is " << i << endl; c1.push_back(25); c1.push_back(26); c1.resize(5, 50); i = c1.size(); cout << "The c1 size is " << i << endl; i = c1.max_size(); cout << "The c1 max size is " << i << endl; //list返回函数 //begin front rbegin 下同 //end back rend int nTmpFront = myList.front(); int nTmpBack = myList.back(); cout << nTmpFront << endl; cout << nTmpBack << endl; //... //判断是否为空 if (myList.empty()) { cout << "list is empty!" << endl; } //list元素访问 //无at 也无operator[] LISTSTRING strList; strList.push_back("AA"); strList.push_back("BB"); strList.push_back("CC"); strList.push_back("DD"); LISTSTRING_ITER pListIter; for (pListIter = strList.begin(); pListIter != strList.end(); pListIter++) { cout << *pListIter << endl; } //list重置技术 LISTSTRING strList1; strList1.push_back("AAaa"); strList1.push_back("BBbb"); strList1.push_back("CCcc"); strList1.push_back("DDdd"); strList.assign(strList1.begin(), strList1.end()); for (pListIter = strList.begin(); pListIter != strList.end(); pListIter++) { cout << *pListIter << endl; } //list容器内容交换 LISTSTRING strListPre; strListPre.push_back("AA"); strListPre.push_back("BB"); strListPre.push_back("CC"); strListPre.push_back("DD"); cout << "strListPre :" << endl; for (pListIter = strListPre.begin(); pListIter != strListPre.end(); pListIter++) { cout << *pListIter << endl; } LISTSTRING strListPost; strListPost.push_back("aa"); strListPost.push_back("bb"); strListPost.push_back("cc"); strListPost.push_back("dd"); cout << "strListPost :" << endl; for (pListIter = strListPost.begin(); pListIter != strListPost.end(); pListIter++) { cout << *pListIter << endl; } strListPre.swap(strListPost); cout << "strListPre :" << endl; for (pListIter = strListPre.begin(); pListIter != strListPre.end(); pListIter++) { cout << *pListIter << endl; } cout << "strListPost :" << endl; for (pListIter = strListPost.begin(); pListIter != strListPost.end(); pListIter++) { cout << *pListIter << endl; } //list插入和删除技术 LISTSTRING listString; listString.push_back("Michael Jordan"); listString.push_back("Kobe Bryant"); listString.push_back("Lebron James"); listString.push_back("James Harden"); for (pListIter = listString.begin(); pListIter != listString.end(); pListIter++) { cout << *pListIter << endl; } pListIter = listString.begin(); listString.insert(pListIter, "Jerry West"); pListIter++; pListIter++; listString.insert(pListIter, "Tim Duncan"); pListIter = listString.end(); listString.insert(pListIter, "Stephen Curry"); for (pListIter = listString.begin(); pListIter != listString.end(); pListIter++) { cout << *pListIter << endl; } //erase操作 pListIter = listString.begin(); listString.erase(pListIter); cout << "after erase :" << endl; for (pListIter = listString.begin(); pListIter != listString.end(); pListIter++) { cout << *pListIter << endl; } //clear操作 //erase(list::begin(), list::end()) list<int> listInt; listInt.push_back(97); listInt.push_back(98); listInt.push_back(99); cout << "size of listInt is " << listInt.size() << endl; listInt.clear(); cout << "size of listInt is " << listInt.size() << endl; //list模板类函数 // == > >= < <=等等 操作省略 //list特殊函数 //与vector和deque相比,除了具有以上相同的函数外,还具有一些特殊函数 //merge remove remove_if sort splice list<int> listMerge; listMerge.push_back(2); listMerge.push_back(4); list<int> listMerge1; listMerge1.push_back(5); listMerge1.push_back(3); listMerge.merge(listMerge1); listMerge.sort(); for (LISTINT_ITER pListIntIter = listMerge.begin(); pListIntIter != listMerge.end(); pListIntIter++) { cout << *pListIntIter << endl; } listInt.push_back(52); listInt.push_back(53); listInt.push_back(54); listInt.remove(53); for (LISTINT_ITER pListIntIter = listInt.begin(); pListIntIter != listInt.end(); pListIntIter++) { cout << *pListIntIter << endl; } cout << endl; list<int> cl1; LISTINT_ITER pInt1, pInt2; cl1.push_back(1); cl1.push_back(2); cl1.push_back(3); cl1.push_back(4); cl1.push_back(5); cl1.push_back(6); for (LISTINT_ITER pListIntIter = cl1.begin(); pListIntIter != cl1.end(); pListIntIter++) { cout << *pListIntIter << endl; } cout << endl; list<int> cl2 = cl1; cl2.remove_if(is_odd<int>()); for (LISTINT_ITER pListIntIter = cl2.begin(); pListIntIter != cl2.end(); pListIntIter++) { cout << *pListIntIter << endl; } cout << endl; //比merge更好用的splice cl1.splice(cl1.end(), cl2); for (LISTINT_ITER pListIntIter = cl1.begin(); pListIntIter != cl1.end(); pListIntIter++) { cout << *pListIntIter << endl; } cout << endl; //保证任意连个连续存储值不同 list<int> listUnique; listUnique.push_back(2); listUnique.push_back(2); listUnique.push_back(3); listUnique.push_back(3); listUnique.push_back(5); list<int> listUniqueTmp = listUnique; for (LISTINT_ITER pListIntIter = listUnique.begin(); pListIntIter != listUnique.end(); pListIntIter++) { cout << *pListIntIter << endl; } cout << endl; //任意两个具有相同值的连续对象的后者删除 listUnique.unique(); for (LISTINT_ITER pListIntIter = listUnique.begin(); pListIntIter != listUnique.end(); pListIntIter++) { cout << *pListIntIter << endl; } cout << endl; //把和第一个元素不同的值删除 not_equal_to<int> mypred; listUniqueTmp.unique(mypred); for (LISTINT_ITER pListIntIter = listUniqueTmp.begin(); pListIntIter != listUniqueTmp.end(); pListIntIter++) { cout << *pListIntIter << endl; } cout << endl; cin.get(); return 0; } |
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