STL之五:set/multiset用法详解
集合
Set、multiset都是集合类,差别在与set中不允许有重复元素,multiset中允许有重复元素。
sets和multiset内部以平衡二叉树实现
1. 常用函数
1)构造函数和析构函数
set c:创建空集合,不包含任何元素
set c(op):以op为排序准则,产生一个空的set
set c1(c2):复制c2中的元素到c1中
set c(const value_type *first, const value_type* last):复制[first, last)之间元素构成新集合
set c(const value_type *first, const value_type* last,op):以op为排序准则,复制[first, last)之间元素构成新集合。
c.~set()销毁所有元素,释放内存
multiset mc:创建空集合,不包含任何元素
multiset mc(op):以op为排序准则,产生一个空的set
multiset c1(c2):复制c2中的元素到c1中
multiset c(const value_type *first, const value_type* last):复制[first, last)之间元素构成新集合
multiset c(const value_type *first, const value_type* last,op):以op为排序准则,复制[first, last)之间元素构成新集合。
c.~set()销毁所有元素,释放内存
// constructing sets #include <iostream> #include <set> bool fncomp (int lhs, int rhs) {return lhs<rhs;} struct classcomp { bool operator() (const int& lhs, const int& rhs) const {return lhs<rhs;} }; int main () { std::set<int> first; // empty set of ints int myints[]= {10,20,30,40,50}; std::set<int> second (myints,myints+5); // range std::set<int> third (second); // a copy of second std::set<int> fourth (second.begin(), second.end()); // iterator ctor. std::set<int,classcomp> fifth; // class as Compare bool(*fn_pt)(int,int) = fncomp; std::set<int,bool(*)(int,int)> sixth (fn_pt); // function pointer as Compare return 0; }
2) 大小、判断空函数
int size() const:返回容器元素个数
bool empty() const:判断容器是否为空,若返回true,表明容器已空
3) 增加、删除函数
pair<iterator,bool> insert( x):插入元素x
iterator insert(iterator it,x):在迭代器it处插入元素x
void insert(const value_type *first,const value_type *last):插入[first, last)之间元素
iterator erase(iterator it):删除迭代器指针it处元素
iterator erase(iterator first,iterator last):删除[first, last)之间元素
size_type erase(const Key& key):删除元素值等于key的元素
#include <iostream> #include <set> int main () { std::set<int> myset; std::set<int>::iterator it; std::pair<std::set<int>::iterator,bool> ret; // set some initial values: for (int i=1; i<=5; ++i) myset.insert(i*10); // set: 10 20 30 40 50 ret = myset.insert(20); // no new element inserted if (ret.second==false) it=ret.first; // "it" now points to element 20 myset.insert (it,25); // max efficiency inserting myset.insert (it,24); // max efficiency inserting myset.insert (it,26); // no max efficiency inserting int myints[]= {5,10,15}; // 10 already in set, not inserted myset.insert (myints,myints+3); std::cout << "myset contains:"; for (it=myset.begin(); it!=myset.end(); ++it) std::cout << ' ' << *it; std::cout << '\n'; return 0; }
#include <iostream> #include <set> int main () { std::set<int> myset; std::set<int>::iterator it; // insert some values: for (int i=1; i<10; i++) myset.insert(i*10); // 10 20 30 40 50 60 70 80 90 it = myset.begin(); ++it; // "it" points now to 20 myset.erase (it); myset.erase (40); it = myset.find (60); myset.erase (it, myset.end()); std::cout << "myset contains:"; for (it=myset.begin(); it!=myset.end(); ++it) std::cout << ' ' << *it; std::cout << '\n'; return 0; }
4) 遍历函数
iterator begin():返回首元素的迭代器指针
iterator end():返回尾元素的迭代器指针
reverse_iterator rbegin():返回尾元素的逆向迭代器指针
reverse_iterator rend():返回首元素前一个位置的迭代器指针
#include <iostream> #include <set> int main () { int myints[] = {75,23,65,42,13}; std::set<int> myset (myints,myints+5); std::cout << "myset contains:"; for (std::set<int>::iterator it=myset.begin(); it!=myset.end(); ++it) std::cout << ' ' << *it; std::cout << '\n'; return 0; }
5) 操作函数
const_iterator lower_bound(const Key& key):返回容器中大于等于key的迭代器指针
const_iterator upper_bound(const Key& key):返回容器中大于key的迭代器指针
int count(const Key& key) const:返回容器中元素等于key的元素的个数
pair<const_iterator,const_iterator> equal_range(const Key& key) const:返回容器中元素值等于key的迭代指针[first, last)
const_iterator find(const Key& key) const:查找功能,返回元素值等于key的迭代器指针
void swap(set& s):交换集合元素
void swap(multiset& s):交换多集合元素
#include <iostream> #include <set> int main () { std::set<int> myset; std::set<int>::iterator itlow,itup; for (int i=1; i<10; i++) myset.insert(i*10); // 10 20 30 40 50 60 70 80 90 itlow=myset.lower_bound (30); // ^ itup=myset.upper_bound (60); // ^ myset.erase(itlow,itup); // 10 20 70 80 90 std::cout << "myset contains:"; for (std::set<int>::iterator it=myset.begin(); it!=myset.end(); ++it) std::cout << ' ' << *it; std::cout << '\n'; return 0; }
#include "stdafx.h" #include <iostream> #include <set> using namespace std; int main () { set<int> myset; for (int i=1; i<=5; i++) myset.insert(i*10); // myset: 10 20 30 40 50 pair<set<int>::const_iterator,set<int>::const_iterator> ret; ret = myset.equal_range(30); cout << "the lower bound points to: " << *ret.first << '\n'; cout << "the upper bound points to: " << *ret.second << '\n'; return 0; }
#include "stdafx.h" #include <iostream> #include <set> using namespace std; int main () { int myints[]={12,75,10,32,20,25}; set<int> first (myints,myints+3); // 10,12,75 set<int> second (myints+3,myints+6); // 20,25,32 first.swap(second); cout << "first contains:"; for (set<int>::iterator it=first.begin(); it!=first.end(); ++it) cout << ' ' << *it; cout << '\n'; cout << "second contains:"; for (set<int>::iterator it=second.begin(); it!=second.end(); ++it) cout << ' ' << *it; cout << '\n'; return 0; }