算法简介:
find//查找元素find_if//按条件查找元素adjacent_find//查找相邻重复元素binary_search//二分查找法count//统计元素个数count_if//按条件统计元素个数
1 find
功能描述:
- 查找指定元素,找到返回指定元素的迭代器,找不到返回结束迭代器end()
函数原型:
-
find(iterator beg, iterator end, value);// 按值查找元素,找到返回指定位置迭代器,找不到返回结束迭代器位置
// beg 开始迭代器
// end 结束迭代器
// value 查找的元素
示例:
#include <algorithm> #include <vector> #include <string> void test01() { vector<int> v; for (int i = 0; i < 10; i++) { v.push_back(i + 1); } //查找容器中是否有 5 这个元素 vector<int>::iterator it = find(v.begin(), v.end(), 5); if (it == v.end()) { cout << "没有找到!" << endl; } else { cout << "找到:" << *it << endl; } } class Person { public: Person(string name, int age) { this->m_Name = name; this->m_Age = age; } //重载== bool operator==(const Person& p) { if (this->m_Name == p.m_Name && this->m_Age == p.m_Age) { return true; } return false; } public: string m_Name; int m_Age; }; void test02() { vector<Person> v; //创建数据 Person p1("aaa", 10); Person p2("bbb", 20); Person p3("ccc", 30); Person p4("ddd", 40); v.push_back(p1); v.push_back(p2); v.push_back(p3); v.push_back(p4); vector<Person>::iterator it = find(v.begin(), v.end(), p2); if (it == v.end()) { cout << "没有找到!" << endl; } else { cout << "找到姓名:" << it->m_Name << " 年龄: " << it->m_Age << endl; } }
2 find_if
功能描述:
- 按条件查找元素
函数原型:
-
find_if(iterator beg, iterator end, _Pred);// 按值查找元素,找到返回指定位置迭代器,找不到返回结束迭代器位置
// beg 开始迭代器
// end 结束迭代器
// _Pred 函数或者谓词(返回bool类型的仿函数)
示例:
#include <algorithm> #include <vector> #include <string> //内置数据类型 class GreaterFive { public: bool operator()(int val) { return val > 5; } }; void test01() { vector<int> v; for (int i = 0; i < 10; i++) { v.push_back(i + 1); } vector<int>::iterator it = find_if(v.begin(), v.end(), GreaterFive()); if (it == v.end()) { cout << "没有找到!" << endl; } else { cout << "找到大于5的数字:" << *it << endl; } } //自定义数据类型 class Person { public: Person(string name, int age) { this->m_Name = name; this->m_Age = age; } public: string m_Name; int m_Age; }; class Greater20 { public: bool operator()(Person &p) { return p.m_Age > 20; } }; void test02() { vector<Person> v; //创建数据 Person p1("aaa", 10); Person p2("bbb", 20); Person p3("ccc", 30); Person p4("ddd", 40); v.push_back(p1); v.push_back(p2); v.push_back(p3); v.push_back(p4); vector<Person>::iterator it = find_if(v.begin(), v.end(), Greater20()); if (it == v.end()) { cout << "没有找到!" << endl; } else { cout << "找到姓名:" << it->m_Name << " 年龄: " << it->m_Age << endl; } } int main() { //test01(); test02(); system("pause"); return 0; }
总结:find_if按条件查找使查找更加灵活,提供的仿函数可以改变不同的策略
3 adjacent_find
功能描述:
- 查找相邻重复元素
函数原型:
-
adjacent_find(iterator beg, iterator end);// 查找相邻重复元素,返回相邻元素的第一个位置的迭代器
// beg 开始迭代器
// end 结束迭代器
示例:
#include <algorithm> #include <vector> void test01() { vector<int> v; v.push_back(1); v.push_back(2); v.push_back(5); v.push_back(2); v.push_back(4); v.push_back(4); v.push_back(3); //查找相邻重复元素 vector<int>::iterator it = adjacent_find(v.begin(), v.end()); if (it == v.end()) { cout << "找不到!" << endl; } else { cout << "找到相邻重复元素为:" << *it << endl; } }
总结:面试题中如果出现查找相邻重复元素,记得用STL中的adjacent_find算法
4 binary_search
功能描述:
- 查找指定元素是否存在
函数原型:
-
bool binary_search(iterator beg, iterator end, value);// 查找指定的元素,查到 返回true 否则false
// 注意: 在无序序列中不可用
// beg 开始迭代器
// end 结束迭代器
// value 查找的元素
示例:
#include <algorithm> #include <vector> void test01() { vector<int>v; for (int i = 0; i < 10; i++) { v.push_back(i); } //二分查找 bool ret = binary_search(v.begin(), v.end(),2); if (ret) { cout << "找到了" << endl; } else { cout << "未找到" << endl; } } int main() { test01(); system("pause"); return 0; }
**总结:**二分查找法查找效率很高,值得注意的是查找的容器中元素必须的有序序列
5 count
功能描述:
- 统计元素个数
函数原型:
-
count(iterator beg, iterator end, value);// 统计元素出现次数
// beg 开始迭代器
// end 结束迭代器
// value 统计的元素
示例:
#include <algorithm> #include <vector> //内置数据类型 void test01() { vector<int> v; v.push_back(1); v.push_back(2); v.push_back(4); v.push_back(5); v.push_back(3); v.push_back(4); v.push_back(4); int num = count(v.begin(), v.end(), 4); cout << "4的个数为: " << num << endl; } //自定义数据类型 class Person { public: Person(string name, int age) { this->m_Name = name; this->m_Age = age; } bool operator==(const Person & p) { if (this->m_Age == p.m_Age) { return true; } else { return false; } } string m_Name; int m_Age; }; void test02() { vector<Person> v; Person p1("刘备", 35); Person p2("关羽", 35); Person p3("张飞", 35); Person p4("赵云", 30); Person p5("曹操", 25); v.push_back(p1); v.push_back(p2); v.push_back(p3); v.push_back(p4); v.push_back(p5); Person p("诸葛亮",35); int num = count(v.begin(), v.end(), p); cout << "num = " << num << endl; } int main() { //test01(); test02(); system("pause"); return 0; }
总结: 统计自定义数据类型时候,需要配合重载 operator==
6 count_if
功能描述:
- 按条件统计元素个数
函数原型:
-
count_if(iterator beg, iterator end, _Pred);// 按条件统计元素出现次数
// beg 开始迭代器
// end 结束迭代器
// _Pred 谓词
示例:
#include <algorithm> #include <vector> class Greater4 { public: bool operator()(int val) { return val >= 4; } }; //内置数据类型 void test01() { vector<int> v; v.push_back(1); v.push_back(2); v.push_back(4); v.push_back(5); v.push_back(3); v.push_back(4); v.push_back(4); int num = count_if(v.begin(), v.end(), Greater4()); cout << "大于4的个数为: " << num << endl; } //自定义数据类型 class Person { public: Person(string name, int age) { this->m_Name = name; this->m_Age = age; } string m_Name; int m_Age; }; class AgeLess35 { public: bool operator()(const Person &p) { return p.m_Age < 35; } }; void test02() { vector<Person> v; Person p1("刘备", 35); Person p2("关羽", 35); Person p3("张飞", 35); Person p4("赵云", 30); Person p5("曹操", 25); v.push_back(p1); v.push_back(p2); v.push_back(p3); v.push_back(p4); v.push_back(p5); int num = count_if(v.begin(), v.end(), AgeLess35()); cout << "小于35岁的个数:" << num << endl; } int main() { //test01(); test02(); system("pause"); return 0; }
**总结:**按值统计用count,按条件统计用count_if