实验2
1.实验任务一
t.h
#pragma once
#include <string>
// 类T: 声明
class T {
// 对象属性、方法
public:
T(int x = 0, int y = 0); // 普通构造函数
T(const T &t); // 复制构造函数
T(T &&t); // 移动构造函数
~T(); // 析构函数
void adjust(int ratio); // 按系数成倍调整数据
void display() const; // 以(m1, m2)形式显示T类对象信息
private:
int m1, m2;
// 类属性、方法
public:
static int get_cnt(); // 显示当前T类对象总数
public:
static const std::string doc; // 类T的描述信息
static const int max_cnt; // 类T对象上限
private:
static int cnt; // 当前T类对象数目
// 类T友元函数声明
friend void func();
};
// 普通函数声明
void func();
t.cpp
// 类T: 实现
// 普通函数实现
#include "t.h"
#include <iostream>
#include <string>
using std::cout;
using std::endl;
using std::string;
// static成员数据类外初始化
const std::string T::doc{"a simple class sample"};
const int T::max_cnt = 999;
int T::cnt = 0;
// 对象方法
T::T(int x, int y): m1{x}, m2{y} {
++cnt;
cout << "T constructor called.\n";
}
T::T(const T &t): m1{t.m1}, m2{t.m2} {
++cnt;
cout << "T copy constructor called.\n";
}
T::T(T &&t): m1{t.m1}, m2{t.m2} {
++cnt;
cout << "T move constructor called.\n";
}
T::~T() {
--cnt;
cout << "T destructor called.\n";
}
void T::adjust(int ratio) {
m1 *= ratio;
m2 *= ratio;
}
void T::display() const {
cout << "(" << m1 << ", " << m2 << ")" ;
}
// 类方法
int T::get_cnt() {
return cnt;
}
// 友元
void func() {
T t5(42);
t5.m2 = 2049;
cout << "t5 = "; t5.display(); cout << endl;
}
问题一:
line36可以删除,程序正常运行。
问题二:构造函数用于初始化对象的成员变量。
复制构造函数用于创建一个新对象,该对象是现有对象副本
移动构造函数允许资源从一个对象转移到另一个对象,而不进行复制。
析构函数用于在对象生命周期结束时执行清理工作
调用时机:
构造函数:在创建对象时调用
复制构造函数:在需要创建一个对象的副本调用
移动构造函数:在需要将一个右值对象的资源转移到新对象
析构函数:在对象生命周期结束时调用
问题三:
t.cpp中,line13-15,调整到t.h,重新编译,程序能正确编译运行。
2.实验任务二
Complex.h
#pragma once
#include<string>
class Complex{
public:
Complex();
Complex(double re);
Complex(double re,double im);
Complex(const Complex &c );
double get_real() const;
double get_imag() const;
void add(const Complex &c);
friend Complex add(const Complex &c1,const Complex &c2);
friend bool is_equal(const Complex &c1,const Complex &c2);
friend bool is_not_equal(const Complex &c1,const Complex &c2);
friend void output(const Complex &c);
friend double abs(const Complex &c);
public:
static const std::string doc;
private:
double real,imag;
};
Complex add(const Complex &c1,const Complex &c2);
bool is_equal(const Complex &c1,const Complex &c2);
bool is_not_equal(const Complex &c1,const Complex &c2);
void output(const Complex &c);
double abs(const Complex &c);
Complex.cpp
#include <iostream>
#include "Complex.h"
#include<cmath>
using namespace std;
const string Complex::doc{"a simplified complex class"};
Complex::Complex() : real(0), imag(0) {}
Complex::Complex(double re) : real(re), imag(0) {}
Complex::Complex(double re, double im) : real(re), imag(im) {}
Complex::Complex(const Complex& other) : real(other.real), imag(other.imag) {}
double Complex::get_real() const { return real; }
double Complex::get_imag() const { return imag; }
void Complex::add(const Complex& other) {
real += other.real;
imag += other.imag;
}
Complex add(const Complex& c1, const Complex& c2) {
return Complex(c1.get_real() + c2.get_real(), c1.get_imag() + c2.get_imag());
}
bool is_equal(const Complex& c1, const Complex& c2) {
return (c1.get_real() == c2.get_real()) && (c1.get_imag() == c2.get_imag());
}
bool is_not_equal(const Complex& c1, const Complex& c2) {
return !is_equal(c1, c2);
}
void output(const Complex& c) {
std::cout << c.get_real() << " + " << c.get_imag() << "i" << std::endl;
}
double abs(const Complex& c) {
return std::sqrt(c.get_real() * c.get_real() + c.get_imag() * c.get_imag());
}
task2.cpp
#include "Complex.h"
#include <iostream>
using std::cout;
using std::endl;
using std::boolalpha;
void test() {
cout << "类成员测试: " << endl;
cout << Complex::doc << endl;
cout << endl;
cout << "Complex对象测试: " << endl;
Complex c1;
Complex c2(3, -4);
const Complex c3(3.5);
Complex c4(c3);
cout << "c1 = "; output(c1); cout << endl;
cout << "c2 = "; output(c2); cout << endl;
cout << "c3 = "; output(c3); cout << endl;
cout << "c4 = "; output(c4); cout << endl;
cout << "c4.real = " << c4.get_real() << ", c4.imag = " << c4.get_imag() << endl;
cout << endl;
cout << "复数运算测试: " << endl;
cout << "abs(c2) = " << abs(c2) << endl;
c1.add(c2);
cout << "c1 += c2, c1 = "; output(c1); cout << endl;
cout << boolalpha;
cout << "c1 == c2 : " << is_equal(c1, c2) << endl;
cout << "c1 != c3 : " << is_not_equal(c1, c3) << endl;
c4 = add(c2, c3);
cout << "c4 = c2 + c3, c4 = "; output(c4); cout << endl;
}
int main() {
test();
}
3.实验任务三
访问实部和虚部的接口:c4.real()和c4.imag()用于获取复数对象的实部和虚部
加法运算接口 自加运算接口 相等判断接口 取模运算接口
实验任务4
Fraction.h
#pragma once
#include <string>
class Fraction {
public:
// 类的描述信息
static const std::string doc;
// 构造函数
Fraction(int up = 0, int down = 1);
Fraction(const Fraction& f);
// 接口函数
int get_up() const;
int get_down() const;
Fraction negative() const;
// 友元函数声明
friend void output(const Fraction& f);
friend Fraction add(const Fraction& f1, const Fraction& f2);
friend Fraction sub(const Fraction& f1, const Fraction& f2);
friend Fraction mul(const Fraction& f1, const Fraction& f2);
friend Fraction div(const Fraction& f1, const Fraction& f2);
private:
int up;
int down;
};
Fraction.cpp
#include "Fraction.h"
#include <iostream>
using std::cout;
using std::endl;
void test1() {
cout << "Fraction类测试: " << endl;
cout << Fraction::doc << endl << endl;
Fraction f1(5);
Fraction f2(3, -4), f3(-18, 12);
Fraction f4(f3);
cout << "f1 = "; output(f1); cout << endl;
cout << "f2 = "; output(f2); cout << endl;
cout << "f3 = "; output(f3); cout << endl;
cout << "f4 = "; output(f4); cout << endl;
Fraction f5(f4.negative());
cout << "f5 = "; output(f5); cout << endl;
cout << "f5.get_up() = " << f5.get_up() << ", f5.get_down() = " <<
f5.get_down() << endl;
cout << "f1 + f2 = "; output(add(f1, f2)); cout << endl;
cout << "f1 - f2 = "; output(sub(f1, f2)); cout << endl;
cout << "f1 * f2 = "; output(mul(f1, f2)); cout << endl;
cout << "f1 / f2 = "; output(div(f1, f2)); cout << endl;
cout << "f4 + f5 = "; output(add(f4, f5)); cout << endl;
}
void test2() {
Fraction f6(42, 55), f7(0, 3);
cout << "f6 = "; output(f6); cout << endl;
cout << "f7 = "; output(f7); cout << endl;
cout << "f6 / f7 = "; output(div(f6, f7)); cout << endl;
}
int main() {
cout << "测试1: Fraction类基础功能测试\n";
test1();
cout << "\n测试2: 分母为0测试: \n";
test2();
return 0;
}
实验任务5
account.h
#include<iostream>
class SavingsAccount{
private:
int id;
double balance;
double rate;
int lastDate;
double accumulation;
static double total;
void record(int date,double amount);
double accumulate(int date) const{
return accumulation+balance*(date-lastDate);
}
public:
SavingsAccount(int date,int id,double rate);
int getId() const {return id;}
double getBalance() const{return balance;}
double getRate() const{return rate;}
static double getTotal(){return total;}
void deposit(int rate,double amount);
void withdraw(int rate,double amount);
void settle(int date);
void show() const;
};
account.cpp
#include "account.h"
#include<cmath>
#include<iostream>
using std::cout;
using std::endl;
double SavingsAccount::total=0;
SavingsAccount::SavingsAccount(int date,int id,double rate)
:id(id),balance{0},rate{rate},lastDate{date},accumulation{0}{
cout<<date<<"\t#"<<id<<"is created"<<endl;
}
void SavingsAccount::record(int date,double amount){
accumulation=accumulate(date);
lastDate=date;
amount=floor(amount*100+0.5)/100;
balance+=amount;
total+=amount;
cout<<date<<"\t#"<<id<<"\t"<<amount<<"\t"<<balance<<endl;
}
void SavingsAccount::deposit(int date,double amount){
record(date,amount);
}
void SavingsAccount::withdraw(int date,double amount){
if(amount>getBalance()){
cout<<"Erroe:not enough money"<<endl;
}
else{
record(date,-amount);
}
}
void SavingsAccount::settle(int date){
double interest=accumulate(date)*rate/365;
if(interest!=0){
record(date,interest);
}
accumulation=0;
}
void SavingsAccount::show() const{
cout<<"#"<<id<<"\tBalance:"<<balance;
}
5_11.cpp
#include "account.h"
#include<iostream>
using namespace std;
int main(){
SavingsAccount sa0(1,21325302,0.015);
SavingsAccount sa1(1,58320212,0.015);
sa0.deposit(5,5000);
sa1.deposit(25,10000);
sa0.deposit(45,5500);
sa1.withdraw(60,4000);
sa0.settle(90);
sa1.settle(90);
sa0.show();cout<<endl;
sa1.show();cout<<endl;
cout<<"Total:"<<SavingsAccount::getTotal()<<endl;
return 0;
}