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();
};
//const std::string T::doc{ "a simple class sample" };
//const int T::max_cnt = 999;
//int T::cnt = 0;
// 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;
}
task1.cpp:
#include "t.h"
#include <iostream>
using std::cout;
using std::endl;
void test();
int main() {
test();
cout << "\nmain: \n";
cout << "T objects'current count: " << T::get_cnt() << endl;
}
void test() {
cout << "test class T: \n";
cout << "T info: " << T::doc << endl;
cout << "T objects'max count: " << T::max_cnt << endl;
cout << "T objects'current count: " << T::get_cnt() << endl << endl;
T t1;
cout << "t1 = "; t1.display(); cout << endl;
T t2(3, 4);
cout << "t2 = "; t2.display(); cout << endl;
T t3(t2);
t3.adjust(2);
cout << "t3 = "; t3.display(); cout << endl;
T t4(std::move(t2));
cout << "t3 = "; t4.display(); cout << endl;
cout << "T objects'current count: " << T::get_cnt() << endl;
func();
}
运行截图:
问题一:
原因:头文件中未声明func()函数,导致task1引用头文件时未能找到func()函数。
问题二:
1.普通构造函数
功能:
用于初始化新创建的对象。
可以有零个或多个参数,用于给对象的成员变量赋初值。
调用时机:
当使用 new 关键字创建对象时。
当对象被声明并初始化时,例如 Example obj; 或 Example obj(参数); 。
2.复制构造函数
功能:
用于创建一个新对象,该对象是另一个已存在对象的副本。
它通过复制传入对象的资源来初始化新对象。
调用时机:
当一个对象以值传递的方式被传递给函数时。
当一个对象被分配给另一个对象时。
当一个对象被返回时(如果函数返回局部对象)。
当使用标准库容器时,容器可能会在内部复制对象。
当使用 std::copy 等算法时。
当使用 std::vector 等容器的 emplace_back 方法时。
3.移动构造函数
功能:
用于创建一个新对象,该对象接管另一个对象的资源。
它通过“移动”传入对象的资源来初始化新对象,而不是复制这些资源。
调用时机:
当一个对象以右值引用的方式被传递给函数时。
当一个对象被分配给另一个对象,且源对象是一个临时对象或右值时。
当一个对象被返回时,且返回的是一个局部对象或右值时。
当使用标准库容器时,容器可能会在内部移动对象。
当使用 std::move 将一个对象转换为右值时。
4.析构函数
功能:
用于在对象生命周期结束时进行清理工作。
负责释放对象所占用的资源,如动态分配的内存、文件句柄、网络连接等。
调用时机:
当一个对象离开其作用域时(例如局部对象)。
当一个动态分配的对象(使用 new 创建的对象)被删除时(使用 delete )。
当一个对象被销毁,例如当一个包含对象的容器被销毁时。
5.总结
普通构造函数负责对象的初始化。
复制构造函数负责创建一个对象的副本。
移动构造函数负责创建一个对象,并从另一个对象中转移资源。
析构函数负责在对象生命周期结束时进行资源清理。
问题三:
2.实验任务二:
Complex.h:
#include <iostream>
#pragma once
class Complex
{
public:
Complex(double x=0, double y=0);
Complex(const Complex& p);
~Complex();
void add(const Complex& p);
double get_real() const;
double get_imag() const;
friend Complex add(const Complex& p1, const Complex& p2);
friend bool is_equal(const Complex& p1, const Complex& p2);
friend bool is_not_equal(const Complex& p1, const Complex& p2);
friend void output(const Complex& p);
friend double abs(const Complex& p);
static const std::string doc;
private:
double real, imag;
};
Complex.cpp:
#include "Complex.h"
#include <cmath>
double Complex::get_real() const
{
return real;
}
double Complex::get_imag() const
{
return imag;
}
void Complex::add(const Complex& p)
{
real = real + p.real;
imag = imag + p.imag;
}
Complex::Complex(double x, double y):real{x},imag{y}{}
Complex::Complex(const Complex& p):real{ p.real },imag{ p.imag }{}
Complex::~Complex(){}
Complex add(const Complex& p1, const Complex& p2)
{
return Complex(p1.real + p2.real, p1.imag + p2.imag);
}
bool is_equal(const Complex& p1, const Complex& p2)
{
if (p1.real == p2.real && p1.imag == p2.imag)
{
return 1;
}
else
{
return 0;
}
}
bool is_not_equal(const Complex& p1, const Complex& p2)
{
if (p1.real == p2.real && p1.imag == p2.imag)
{
return 0;
}
else
{
return 1;
}
}
void output(const Complex& p)
{
if (p.imag >= 0)
{
std::cout << p.real << " + " << p.imag << "i";
}
else
{
std::cout << p.real << " - " <<(-1.0)*p.imag << "i";
}
}
double abs(const Complex& p)
{
return sqrt(p.real * p.real + p.imag * p.imag);
}
const std::string Complex::doc{ "a simplfified Complex class" };
task2.cpp:
// 待补足(多文件组织代码时,需要包含的头文件)
#include <iostream>
#include "Complex.h"
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();
}
运行截图:
3.实验任务三:
#include <iostream>
#include <complex>
using std::cout;
using std::endl;
using std::boolalpha;
using std::complex;
void test() {
cout << "标准库模板类comple测试: " << endl;
complex<double> c1;
complex<double> c2(3, -4);
const complex<double> c3(3.5);
complex<double> c4(c3);
cout << "c1 = " << c1 << endl;
cout << "c2 = " << c2 << endl;
cout << "c3 = " << c3 << endl;
cout << "c4 = " << c4 << endl;
cout << "c4.real = " << c4.real() << ", c4.imag = " << c4.imag() << endl;
cout << endl;
cout << "复数运算测试: " << endl;
cout << "abs(c2) = " << abs(c2) << endl;
c1 += c2;
cout << "c1 += c2, c1 = " << c1 << endl;
cout << boolalpha;
cout << "c1 == c2 : " << (c1 == c2) << endl;
cout << "c1 != c3 : " << (c1 != c3) << endl;
c4 = c2 + c3;
cout << "c4 = c2 + c3, c4 = " << c4 << endl;
}
int main() {
test();
}
运行截图:
启发:
1.实验三中的代码直接引用了c++中自带的complex库,自带一些关于复数的操作。
2.有的时候可以适当引用一些库,以减少代码量。
4.实验任务四:
Fraction.h:
#pragma once
#include <iostream>
class Fraction
{
private:
int up, down;
/* int gcb(int a, int b)
{
return b == 0 ? a : gcb(b, a % b);
}*/
public:
Fraction(int x = 0, int y = 1);
Fraction(const Fraction& p);
~Fraction();
friend void output(const Fraction &p);
friend Fraction add( Fraction p1, Fraction p2);
friend Fraction sub( Fraction p1, Fraction p2);
friend Fraction mul(const Fraction &p1, const Fraction &p2);
friend Fraction div(const Fraction &p1, const Fraction &p2);
int get_up();
int get_down();
Fraction negative();
static std::string doc;
}
Fraction.cpp:
#include "Fraction.h"
#include <iostream>
#include <algorithm>
using namespace std;
int ogcd(int a, int b)
{
if (a < b)
{
int c = b;
b = a;
a = c;
}
int r = a % b;
while (r != 0)
{
a = b;
b = r;
r = a % b;
}
return b;
}
int igcd(int a, int b)
{
int sum1 = ogcd(a, b);
return (a / sum1) * (b / sum1) * sum1;
}
std::string Fraction::doc = "Fraction类测试:\nFraction类 v 0.01版.\n目前仅支持分数对象的构造、输出、加/减/乘/除运算.";
Fraction::Fraction(int x, int y) {
/*if (x < 0)
{
int a = -x;
int b = ogcd(a, y);
x = x / b;
y = y / b;
}
else if (y < 0)
{
int a = -y;
int b = ogcd(x, a);
y = y / b;
x = x / b;
}
else
{
int a = y;
y = y / ogcd(x, a);
x = x / ogcd(x, a);
}*/
up = x;///ogcd(abs(up), abs(down));
down = y;///ogcd(abs(up), abs(down));
}
Fraction::Fraction(const Fraction& p) :up{ p.up }, down{ p.down } {}
Fraction::~Fraction() {}
void output(const Fraction& p)
{
if (p.down == 0)
{
cout << "分母不能为0";
return;
}
if (p.up == 0)
{
cout << "0";
return;
}
if (p.down == 1)
{
cout << p.up;
return;
}
int sum;
if (p.up < 0)
{
sum = ogcd(-p.up, p.down);
cout << "-" << -p.up / sum << "/" << p.down / sum;
return;
}
else if (p.down < 0)
{
sum = ogcd(p.up, -p.down);
cout << "-" << p.up / sum << "/" << -p.down / sum;
return;
}
else
{
sum = ogcd(p.up, p.down);
cout << p.up / sum << "/" << p.down / sum;
return;
}
}
Fraction add(Fraction p1, Fraction p2)
{
if (p1.down < 0)
{
p1.up = -p1.up;
p1.down = -p1.down;
}
if (p2.down < 0)
{
p2.up = -p2.up;
p2.down = -p2.down;
}
int sum2 = igcd(p1.down, p2.down);
return Fraction(p1.up * (sum2 / p1.down) + p2.up * (sum2 / p2.down), sum2);
}
Fraction sub( Fraction p1, Fraction p2)
{
if (p1.down < 0)
{
p1.up = -p1.up;
p1.down = -p1.down;
}
if (p2.down < 0)
{
p2.up = -p2.up;
p2.down = -p2.down;
}
int sum2 = igcd(p1.down, p2.down);
return Fraction(p1.up * (sum2 / p1.down) - p2.up * (sum2 / p2.down), sum2);
}
Fraction mul(const Fraction& p1, const Fraction& p2)
{
return Fraction(p1.up * p2.up, p1.down * p2.down);
}
Fraction div(const Fraction& p1, const Fraction& p2)
{
return Fraction(p1.up * p2.down, p1.down * p2.up);
}
int Fraction::get_up()
{
return up/ogcd(abs(up),abs(down));
}
int Fraction::get_down()
{
return down/ ogcd(abs(up), abs(down));
}
Fraction Fraction::negative()
{
return Fraction(-up,down);
}
task4.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();
}
运行截图:
5.实验任务五:
account.h:
#ifndef __ACCOUNT_H__
#define __ACCOUNT_H__
class SavingAccount
{
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:
SavingAccount(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 date, double amount);
void withdraw(int date, double amount);
void settle(int date);
void show() const;
};
#endif
account.cpp:
#include "account.h"
#include <cmath>
#include <iostream>
using namespace std;
double SavingAccount::total = 0;
SavingAccount::SavingAccount(int date, int id, double rate) :id(id), balance(0), rate(rate), lastDate(date), accumulation(0)
{
cout << date << "\t#" << id << "is created" << endl;
}
void SavingAccount::record(int date, double amount)
{
accumulation = accumulate(date);
lastDate = date;
amount = floor(amount * 100 + 0.5) / 100; //保留小数点后两位
balance += amount;
total += amount;
cout << date << "\t#" << id << "\t"<<amount<<"\t"<<balance << endl;
}
void SavingAccount::deposit(int date, double amount)
{
record(date, amount);
}
void SavingAccount::withdraw(int date, double amount)
{
if (amount > getBalance())
{
cout << "Error: not enough money" << endl;
}
else
{
record(date, -amount);
}
}
void SavingAccount::settle(int date)
{
double interest = accumulate(date) * rate / 365;
if (interest != 0)
{
record(date, interest);
}
accumulation = 0;
}
void SavingAccount::show() const
{
cout << "#" << id << "\tBalance: " << balance;
}
5_11.cpp:
#include "account.h"
#include <iostream>
using namespace std;
int main()
{
SavingAccount sa0(1, 21325302, 0.015);
SavingAccount 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 << "Tatal: " << SavingAccount::getTotal() << endl;
return 0;
}
运行截图:
启发:
1.可以在类的私有属性中设置函数,但是只能是类中public属性的函数才可以进行访问。
2.可以在.h 文件中定义某些简单的函数。
3.如果要在public中的调用一些函数进行操作,建议函数还是写在类中,以免报错。
4.保留小数点后两位,四舍五入操作:mount = floor(amount * 100 + 0.5) / 100;
标签:std,const,对象,编程,int,Complex,实验,Fraction From: https://www.cnblogs.com/wxdyyds/p/18508608