实验1
task1.cpp
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;
}
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();
}
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实验2
task2.cpp
Complex.h:
#pragma once
#include<iostream>
using namespace std;
class Complex {
public:
Complex();
Complex(double a);
Complex(double a,double b);
Complex(const Complex &c);
static string doc;
const double get_real();
const double get_imag();
const void add(const Complex &c);
friend Complex add(const Complex &a,const Complex &b);
friend bool is_equal(const Complex &a, const Complex &b);
friend bool is_not_equal(const Complex &a, const Complex &b);
friend void output(const Complex &c);
friend double abs(const Complex &c);
private:
double real, imag;
};
Complex.cpp:
#include<iostream>
#include"Complex.h"
#include<cmath>
using namespace std;
string Complex::doc = "a simplified Complex class";
Complex::Complex(double a = 0, double b = 0) {
real = a;
imag = b;
}
Complex::Complex() {
real = 0;
imag = 0;
}
Complex::Complex(double a = 0) {
real = a;
imag = 0;
}
const double Complex::get_real() {
return Complex::real;
}
const double Complex::get_imag(){
return Complex::imag;
}
Complex::Complex(const Complex &c) {
real = c.real;
imag = c.imag;
}
double abs(const Complex& c) {
double t =pow((c.real * c.real + c.imag * c.imag),0.5);
return t;
}
void output(const Complex &c) {
if (c.imag < 0) {
cout << c.real<< c.imag << "i" << endl;
}
else {
cout << c.real << "+" << c.imag << "i" << endl;
}
}
bool is_equal(const Complex& a, const Complex& b) {
if (a.real == b.real && a.imag == b.imag) {
return true;
}
else {
return false;
}
}
bool is_not_equal(const Complex & a, const Complex & b) {
if (a.real == b.real && a.imag == b.imag) {
return false;
}
else {
return true;
}
}
Complex add(const Complex& a, const Complex& b) {
return Complex::Complex(a.real + b.real,a.imag + b.imag);
}
const void Complex::add(const Complex& c) {
Complex::real += c.real;
Complex::imag += c.imag;
}
main:
#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();
}
View Code
实验3
task3.cpp
#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();
}
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实验4
task4.cpp
Fraction.h:
#pragma once
#include<iostream>
#include<cmath>
using namespace std;
class Fraction {
public:
static string doc;
Fraction(int a);
Fraction(int a, int b);
Fraction(const Fraction& f);
const int get_up();
const int get_down();
const Fraction negative();
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, down;
};
Fraction.cpp:
#include<iostream>
#include"Fraction.h"
#include<cmath>
using namespace std;
string Fraction::doc = "Fraction 类V0.01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 a) {
up=a;
down=1;
}
Fraction::Fraction(int a,int b){
int i;
int min;
if (abs(a) >= abs(b)) {
min = b;
}
else {
min = b;
}
for (i = 1; i <= min; i++) {
if (a % i == 0 && b % i == 0) {
a /= i;
b /= i;
}
}
up = a;
down = b;
}
const int Fraction::get_up(){
return up;
}
const int Fraction::get_down(){
return down;
}
Fraction::Fraction(const Fraction &f){
up=f.up;
down=f.down;
}
void output(const Fraction &f){
if(f.up==0&&f.down!=0){
cout<<0<<endl;
}
else if(f.down==0){
cout<<"分母不能为0"<<endl;
}
else if((f.down<0&&f.up>0)||(f.up<0&&f.down>0)){
cout<<"-"<<abs(f.up)<<"/"<<abs(f.down)<<endl;
}
else if (f.up != 0 && f.down == 1) {
cout << abs(f.up)<<endl;
}
else if (f.up == f.down) {
cout << 1 << endl;
}
else{
cout<<abs(f.up)<<"/"<<abs(f.down)<<endl;
}
}
const Fraction Fraction::negative() {
return Fraction(-up, down);
}
Fraction add(const Fraction& f1, const Fraction& f2) {
int a, b;
a = f1.up * f2.down + f1.down * f2.up;
b = f1.down * f2.down;
return Fraction(a, b);
}
Fraction sub(const Fraction& f1, const Fraction& f2) {
int a, b;
a = f1.up * f2.down-f1.down * f2.up;
b = f1.down * f2.down;
return Fraction(a, b);
}
Fraction mul(const Fraction& f1, const Fraction& f2) {
int a, b;
a = f1.up * f2.up;
b = f1.down * f2.down;
return Fraction(a, b);
}
Fraction div(const Fraction& f1, const Fraction& f2) {
int a, b;
a = f1.up * f2.down;
b = f1.down * f2.up;
return Fraction(a, b);
}
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();
}
View Code
实验5
task5.cpp
account.h:
#pragma once
class SavingAccount {
private:
int id;
double balance;
double rate;
int lastDate;
double accumulation;
static double total;
void record(int date, double amout);
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;
};
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;
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 << "Total:" << SavingAccount::getTotal() << endl;
return 0;
}
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标签:std,const,对象,double,编程,int,Complex,实验,Fraction From: https://www.cnblogs.com/Altairsss/p/18494305