【C++】模拟实现string
目录
🌞专栏导读
🌛定义string类
🌛构造函数
🌛拷贝构造函数
🌛赋值函数
🌛析构函数
🌛[]操作符重载
🌛c_str、size、capacity函数
🌛比较运算符重载
🌛resize与reserve函数
🌛push_back、append函数
🌛insert函数
🌛erase函数
🌛find函数
🌛swap函数
🌛clean函数
🌛迭代器
🌛>> 与 << 重载
🌞专栏导读
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本章我们将模拟实现string类,但不一定非要与库中完全相同。我们将其中重要的、常用的接口进行模拟实现,旨在加深string类的学习与记忆。
🌛定义string类
为了区别于标准库中的string,这里使用自己的命名空间,在自己的命名空间模拟实现string
string类包含这三个基本成员:
char* _str字符数组;size_t _size有效字符大小;size_t _capacity容量;
此外还需声明一个static成员npos,npos为将来实现的某些成员函数的缺省值,值位-1;
namespace yxb
{class string{public:private:char* _str;size_t _capacity;size_t _size;//类中声明static const size_t npos;};//类外定义const size_t string::npos = -1;
}🌛构造函数
//构造函数string(const char* str = "") //使用缺省值:_size(strlen(str)){_capacity = _size == 0 ? 3 : _size; //_capacity初始值不能为0_str = new char[_capacity + 1]; //为'\0'预留位置strcpy(_str, str);}
注意
_capacity的值不能初始化为0,因为扩容时可能出现0*n=0的情况。
🌛拷贝构造函数
拷贝构造虽然编译器会自动实现,但是自动实现的拷贝构造为浅拷贝,对于string类中,成员变量会申请资源的情况,浅拷贝是行不通的,所以需要我们自己实现。
//拷贝构造s3(s2)string(const string& s):_size(s._size),_capacity(s._capacity){_str = new char[s._capacity + 1];strcpy(_str, s._str);}🌛赋值函数
//s1 = s3 s1 = s1string& operator=(const string& s){if (this != &s){char* tmp = new char[s._capacity + 1];strcpy(tmp,s._str);delete[] _str;_str = tmp;_size = s._size;_capacity = s._capacity;}return *this;}🌛析构函数
~string(){delete[] _str;_str = nullptr;_capacity = _size = 0; }🌛[]操作符重载
注意应对const对象与非const对象须实现不同的重载函数。
char& operator[](size_t pos){assert(pos < _size);return _str[pos];}const char& operator[](size_t pos)const{assert(pos < _size);return _str[pos];}🌛c_str、size、capacity函数
c_str:返回C风格的字符串。size:返回_size;capacity:返回_capacity;
const char* c_str(){return _str;}size_t size() const{return _size;}size_t capacity() const{return _capacity;}
🌛比较运算符重载
//比较运算符重载bool operator>(const string& s) const{return strcmp(_str, s._str) > 0;}bool operator==(const string& s) const{return strcmp(_str, s._str) == 0;}bool operator>=(const string& s) const{return *this > s && *this == s;}bool operator<(const string& s) const{return !(*this >= s);}bool operator<=(const string& s) const{return !(*this > s);}bool operator!=(const string& s) const{return !(*this == s);}
🌛resize与reserve函数
resize:扩容并初始化;reserve:只扩容;
//扩容void reverse(size_t n){if (n > _capacity){char* tmp = new char[n + 1];strcpy(tmp, _str);delete[] _str;_str = tmp;_capacity = n;}}//扩容+初始化void resize(size_t n, char ch = '\0'){if (n <= _size){//删除数据,保留前n个_size = n;_str[_size] = '\0';}else{if (n > _capacity){reverse(n);}size_t i = _size;while (i < n){_str[i++] = ch;}_size = n;_str[_size] = '\0';}}🌛push_back、append函数
push_back:尾插一个字符;append:尾插一个字符串;+=:尾插一个字符或字符串;
void push_back(char ch){if (_size + 1 > _capacity){reverse(_capacity * 2);}_str[_size] = ch;_size++;_str[_size] = '\0';}void append(const char* str){size_t len = strlen(str);if (_size + len > _capacity){reverse(_size + len);}strcpy(_str + _size, str);_size += len;}string& operator+=(char ch){push_back(ch);return *this;}string& operator+=(const char* str){append(str);return *this;}🌛insert函数
insert:在pos位置插入一个字符或字符串;
void insert(size_t pos, char ch){assert(pos <= _size);if (_size + 1 > _capacity){reverse(2 * _capacity);}size_t end = _size + 1;while (pos < end){_str[end] = _str[end - 1];end--;}_str[pos] = ch;_size++;}void insert(size_t pos, const char* str){assert(pos <= _size);size_t len = strlen(str);if (_size + len > _capacity){reverse(_size + len);}//挪动数据size_t end = _size + len;while ( end > pos +len-1 ){_str[end] = _str[end-len];end--;}//拷贝插入 strncpy(_str + pos, str, len);_size += len;}
🌛erase函数
erase:删除pos位置向后的n个字符;
void erase(size_t pos, size_t len = npos){if (len == npos || pos + len >= _size){_str[pos] = '\0';_size = pos;}//0123456789else{strcpy(_str + pos, _str + pos + len);_size -= pos;}}🌛find函数
find:从pos位置开始向后查找指定字符或字符串,并返回起始位置的下标。
size_t find(char ch, size_t pos = npos){assert(pos < _size);for (size_t i = pos; i < _size; ++i){if (_str[i] == ch){return i;}}return npos;}size_t find(const char* str, size_t pos = npos){assert(pos < _size);char* p = strstr(_str, str);if (p == nullptr){return npos;}else{return p - str;}}
🌛swap函数
void swap(string& s){std::swap(_str, s._str);std::swap(_size, s._size);std::swap(_capacity, s._capacity);}
🌛clean函数
clean:清理数据;
void clean(){_str[0] = '\0';_size = 0;}
🌛迭代器
//迭代器typedef char* iterator;typedef const char* const_iterator;iterator begin(){return _str;}iterator end(){return _str + _size;}const_iterator begin() const{return _str;}const_iterator end()const{return _str + _size;}
🌛>> 与 << 重载
注意这两个函数须定义在类外。
ostream& operator<<(ostream& out, const string& str){for (auto ch : str){out << ch;}return out;}istream& operator>>(istream& in, string& str){str.clean();char ch = in.get();char buff[128]; //避免因频繁扩容导致效率过低size_t i = 0;while (ch != ' ' && ch != '\n'){buff[i++] = ch;if (i == 127){buff[127] = '\0';str += buff;i = 0;}ch = in.get();}if (i != 0){buff[i] = '\0';str += buff;}return in;}
🌛完整代码
#pragma once
#include<assert.h>namespace yxb
{class string{public:typedef char* iterator;typedef const char* const_iterator;iterator begin(){return _str;}iterator end(){return _str + _size;}const_iterator begin()const{return _str;}const_iterator end()const{return _str + _size;}/*string():_str(new char[1]), _size(0),_capacity(0){_str[0] = '\0';}*/string(const char* str = ""):_size(strlen(str)){_capacity = _size == 0 ? 3 : _size;_str = new char[_capacity + 1];strcpy(_str, str);}//拷贝构造s3(s2)string(const string& s):_size(s._size),_capacity(s._capacity){_str = new char[s._capacity + 1];strcpy(_str, s._str);}//s1 = s3 s1 = s1string& operator=(const string& s){if (this != &s){char* tmp = new char[s._capacity + 1];strcpy(tmp,s._str);delete[] _str;_str = tmp;_size = s._size;_capacity = s._capacity;}return *this;}~string(){delete[] _str;_str = nullptr;_capacity = _size = 0; }const char* c_str(){return _str;}char& operator[](size_t pos){assert(pos < _size);return _str[pos];}const char& operator[](size_t pos)const{assert(pos < _size);return _str[pos];}size_t size()const{return _size;}size_t capacity()const{return _capacity;}bool operator>(const string& s)const{return strcmp(_str, s._str) > 0;}bool operator==(const string& s)const{return strcmp(_str, s._str) == 0;}bool operator>=(const string& s)const{return (*this == s || *this > s);}bool operator<(const string& s)const{return !(*this >= s);}bool operator<=(const string& s)const{return !(*this > s);}bool operator!=(const string& s)const{return !(*this == s);}//扩容void reverse(size_t n){if (n > _capacity){char* tmp = new char[n + 1];strcpy(tmp, _str);delete[] _str;_str = tmp;_capacity = n;}}//扩容+初始化void resize(size_t n, char ch = '\0'){if (n <= _size){//删除数据,保留前n个_size = n;_str[_size] = '\0';}else{if (n > _capacity){reverse(n);}size_t i = _size;while (i < n){_str[i++] = ch;}_size = n;_str[_size] = '\0';}}void push_back(char ch){if (_size + 1 > _capacity){reverse(_capacity * 2);}_str[_size] = ch;_size++;_str[_size] = '\0';}void append(const char* str){size_t len = strlen(str);if (_size + len > _capacity){reverse(_size + len);}strcpy(_str + _size, str);_size += len;}string& operator+=(char ch){push_back(ch);return *this;}string& operator+=(const char* str){append(str);return *this;}void insert(size_t pos, char ch){assert(pos <= _size);if (_size + 1 > _capacity){reverse(2 * _capacity);}size_t end = _size + 1;while (pos < end){_str[end] = _str[end - 1];end--;}_str[pos] = ch;_size++;}void insert(size_t pos, const char* str){assert(pos <= _size);size_t len = strlen(str);if (_size + len > _capacity){reverse(_size + len);}//挪动数据size_t end = _size + len;while ( end > pos +len-1 ){_str[end] = _str[end-len];end--;}//拷贝插入 strncpy(_str + pos, str, len);_size += len;}void erase(size_t pos, size_t len = npos){if (len == npos || pos + len >= _size){_str[pos] = '\0';_size = pos;}//0123456789else{strcpy(_str + pos, _str + pos + len);_size -= pos;}}size_t find(char ch, size_t pos = npos){assert(pos < _size);for (size_t i = pos; i < _size; ++i){if (_str[i] == ch){return i;}}return npos;}size_t find(const char* str, size_t pos = npos){assert(pos < _size);char* p = strstr(_str, str);if (p == nullptr){return npos;}else{return p - str;}}void swap(string& s){std::swap(_str, s._str);std::swap(_size, s._size);std::swap(_capacity, s._capacity);}void clean(){_str[0] = '\0';_size = 0;}private:char* _str;size_t _capacity;size_t _size;static const size_t npos;};const size_t string::npos = -1;ostream& operator<<(ostream& out, const string& str){for (auto ch : str){out << ch;}return out;}istream& operator>>(istream& in, string& str){str.clean();char ch = in.get();char buff[128]; //避免因频繁扩容导致效率过低size_t i = 0;while (ch != ' ' && ch != '\n'){buff[i++] = ch;if (i == 127){buff[127] = '\0';str += buff;i = 0;}ch = in.get();}if (i != 0){buff[i] = '\0';str += buff;}return in;}void test_string1(){ string s1;string s2("hello world");cout << s1.c_str() << endl;cout << s2.c_str() << endl;s2[0]++;cout << s2.c_str() << endl;}void test_string2(){string s1;string s2("hello world");cout << s1.c_str() << endl;cout << s2.c_str() << endl;s1 = s2;cout << s1.c_str() << endl;cout << s2.c_str() << endl;}void test_string3(){string s1;string s2("hello world");cout << s1.c_str() << endl;cout << s2.c_str() << endl;string::iterator it = s2.begin();while (it != s2.end()){cout << *it << endl;++it;}}void test_string4(){string s1;string s2("hello world");string s3("hello");cout << s1.c_str() << endl;cout << s2.c_str() << endl;cout << (s3 >= s2) << endl;}void test_string5(){string s1;string s2("hello world");s2.append("yyyyyy");cout << s2.c_str() << endl;}void test_string6(){string s1("hhh ");cout << s1.c_str() << endl;s1.resize(10, 'x');cout << s1.c_str() << endl;s1.resize(100, 'y');cout << s1.c_str() << endl;}void test_string7(){string s1("123456789");cout << s1.c_str() << endl;s1.insert(2, "wwww");cout << s1.c_str() << endl;s1.insert(0, "ss");cout << s1.c_str() << endl;}void test_string8(){string s1("123456789");cout << s1.c_str() << endl;s1.erase(4, 2);cout << s1.c_str() << endl;}void test_string9(){string s1;cin >> s1;cout << s1 << endl;}
}