实验四
任务一:
代码:
#include <iostream>
#include <string>
using std::cout;
using std::endl;
using std::string;
// 定义类模板
template<typename T>
class X{
public:
X(T x0, T y0);
void display();
private:
T x, y;
};
template<typename T>
X<T>::X(T x0, T y0): x{x0}, y{y0} {
}
template<typename T>
void X<T>::display() {
cout << x << ", " << y << endl;
}
void test() {
cout << "测试1: 类模板X中的抽象类型T用int实例化" << endl;
X<int> x1(3, 4);
x1.display();
cout << endl;
cout << "测试2: 类模板X中的抽象类型T用double实例化" << endl;
X<double> x2(3.2, 5.6);
x2.display();
cout << endl;
cout << "测试3: 类模板X中的抽象类型T用string实例化" << endl;
X<string> x3("hello", "oop");
x3.display();
}
int main() {
test();
}
运行结果:
总结:
通过这个实验主要学会了模板类如何定义:
基本流程如下:
template <typename T>
class X{
public:
X(T x0,T y0);
xxxx
private:
T x;
T y;
};
template<typename T>
X<T>::X(T x0,Ty0):x(x0),y(y0){}
xxxx
任务二: 代码:
GradeCalc.hpp
#include <iostream>
#include <vector>
#include <string>
#include <algorithm>
#include <numeric>
#include <iomanip>
using std::vector;
using std::string;
using std::cin;
using std::cout;
using std::endl;
class GradeCalc: public vector<int> {
public:
GradeCalc(const string &cname, int size);
void input(); // 录入成绩
void output() const; // 输出成绩
void sort(bool ascending = false); // 排序 (默认降序)
int min() const; // 返回最低分
int max() const; // 返回最高分
float average() const; // 返回平均分
void info(); // 输出课程成绩信息
private:
void compute(); // 成绩统计
private:
string course_name; // 课程名
int n; // 课程人数
vector<int> counts = vector<int>(5, 0); // 保存各分数段人数([0, 60), [60, 70), [70, 80), [80, 90), [90, 100]
vector<double> rates = vector<double>(5, 0); // 保存各分数段比例
};
GradeCalc::GradeCalc(const string &cname, int size): course_name{cname}, n{size} {}
void GradeCalc::input() {
int grade;
for(int i = 0; i < n; ++i) {
cin >> grade;
this->push_back(grade);
}
}
void GradeCalc::output() const {
for(auto ptr = this->begin(); ptr != this->end(); ++ptr)
cout << *ptr << " ";
cout << endl;
}
void GradeCalc::sort(bool ascending) {
if(ascending)
std::sort(this->begin(), this->end());
else
std::sort(this->begin(), this->end(), std::greater<int>());
}
int GradeCalc::min() const {
return *std::min_element(this->begin(), this->end());
}
int GradeCalc::max() const {
return *std::max_element(this->begin(), this->end());
}
float GradeCalc::average() const {
return std::accumulate(this->begin(), this->end(), 0) * 1.0 / n;
}
void GradeCalc::compute() {
for(int grade: *this) {
if(grade < 60)
counts.at(0)++;
else if(grade >= 60 && grade < 70)
counts.at(1)++;
else if(grade >= 70 && grade < 80)
counts.at(2)++;
else if(grade >= 80 && grade < 90)
counts.at(3)++;
else if(grade >= 90)
counts.at(4)++;
}
for(int i = 0; i < rates.size(); ++i)
rates.at(i) = counts.at(i) * 1.0 / n;
}
void GradeCalc::info() {
cout << "课程名称:\t" << course_name << endl;
cout << "排序后成绩: \t";
sort(); output();
cout << "最高分:\t" << max() << endl;
cout << "最低分:\t" << min() << endl;
cout << "平均分:\t" << std::fixed << std::setprecision(2) << average() << endl;
compute(); // 统计各分数段人数、比例
vector<string> tmp{"[0, 60) ", "[60, 70)", "[70, 80)","[80, 90)", "[90, 100]"};
for(int i = tmp.size()-1; i >= 0; --i)
cout << tmp[i] << "\t: " << counts[i] << "人\t"
<< std::fixed << std::setprecision(2) << rates[i]*100 << "%" << endl;
}
#include "GradeCalc.hpp"
#include <iomanip>
void test() {
int n;
cout << "输入班级人数: ";
cin >> n;
GradeCalc c1("OOP", n);
cout << "录入成绩: " << endl;;
c1.input();
cout << "输出成绩: " << endl;
c1.output();
cout << string(20, '*') + "课程成绩信息" + string(20, '*') << endl;
c1.info();
}
int main() {
test();
}
结果:
解答:
-
问题1:派生类GradeCalc定义中,成绩存储在哪里?派生类方法sort, min, max, average,
output都要访问成绩,是通过什么接口访问到每个成绩的?input方法是通过什么接口实现数
据存入对象的?
成绩存储在基类之中,因为是通过public继承,所以通过基类的接口查询 - 问题2:代码line68分母的功能是?去掉乘以1.0代码,重新编译、运行,结果有影响吗?为什
么要乘以1.0?
因为average函数实际返回float型数据,*1.0的作用是为了作隐式类型转化,将结果转化成float型
任务三:
demo3.cpp
#include "GradeCalc.hpp"
#include <iomanip>
void test() {
int n;
cout << "输入班级人数: ";
cin >> n;
GradeCalc c1("OOP", n);
cout << "录入成绩: " << endl;;
c1.input();
cout << "输出成绩: " << endl;
c1.output();
cout << string(20, '*') + "课程成绩信息" + string(20, '*') << endl;
c1.info();
}
int main() {
test();
}
GradeCalc.hpp
#include <iostream>
#include <vector>
#include <string>
#include <algorithm>
#include <numeric>
#include <iomanip>
using std::vector;
using std::string;
using std::cin;
using std::cout;
using std::endl;
class GradeCalc {
public:
GradeCalc(const string &cname, int size);
void input(); // 录入成绩
void output() const; // 输出成绩
void sort(bool ascending = false); // 排序 (默认降序)
int min() const; // 返回最低分
int max() const; // 返回最高分
float average() const; // 返回平均分
void info(); // 输出课程成绩信息
private:
void compute(); // 成绩统计
private:
string course_name; // 课程名
int n; // 课程人数
vector<int> grades; // 课程成绩
vector<int> counts = vector<int>(5, 0); // 保存各分数段人数([0, 60), [60, 70), [70, 80), [80, 90), [90, 100]
vector<double> rates = vector<double>(5, 0); // 保存各分数段比例
};
GradeCalc::GradeCalc(const string &cname, int size): course_name{cname}, n{size} {}
void GradeCalc::input() {
int grade;
for(int i = 0; i < n; ++i) {
cin >> grade;
grades.push_back(grade);
}
}
void GradeCalc::output() const {
for(int grade: grades)
cout << grade << " ";
cout << endl;
}
void GradeCalc::sort(bool ascending) {
if(ascending)
std::sort(grades.begin(), grades.end());
else
std::sort(grades.begin(), grades.end(), std::greater<int>());
}
int GradeCalc::min() const {
return *std::min_element(grades.begin(), grades.end());
}
int GradeCalc::max() const {
return *std::max_element(grades.begin(), grades.end());
}
float GradeCalc::average() const {
return std::accumulate(grades.begin(), grades.end(), 0) * 1.0 / n;
}
void GradeCalc::compute() {
for(int grade: grades) {
if(grade < 60)
counts.at(0)++;
else if(grade >= 60 && grade < 70)
counts.at(1)++;
else if(grade >= 70 && grade < 80)
counts.at(2)++;
else if(grade >= 80 && grade < 90)
counts.at(3)++;
else if(grade >= 90)
counts.at(4)++;
}
for(int i = 0; i < rates.size(); ++i)
rates.at(i) = counts.at(i) *1.0 / n;
}
void GradeCalc::info() {
cout << "课程名称:\t" << course_name << endl;
cout << "排序后成绩: \t";
sort(); output();
cout << "最高分:\t" << max() << endl;
cout << "最低分:\t" << min() << endl;
cout << "平均分:\t" << std::fixed << std::setprecision(2) << average() << endl;
compute(); // 统计各分数段人数、比例
vector<string> tmp{"[0, 60) ", "[60, 70)", "[70, 80)","[80, 90)", "[90, 100]"};
for(int i = tmp.size()-1; i >= 0; --i)
cout << tmp[i] << "\t: " << counts[i] << "人\t"
<< std::fixed << std::setprecision(2) << rates[i]*100 << "%" << endl;
}
结果:
任务四:
task4_1.cpp
#include <iostream>
#include <string>
#include <limits>
using namespace std;
void test1() {
string s1, s2;
cin >> s1 >> s2; // cin: 从输入流读取字符串, 碰到空白符(空格/回车/Tab)即结束
cout << "s1: " << s1 << endl;
cout << "s2: " << s2 << endl;
}
void test2() {
string s1, s2;
getline(cin, s1); // getline(): 从输入流中提取字符串,直到遇到换行符
getline(cin, s2);
cout << "s1: " << s1 << endl;
cout << "s2: " << s2 << endl;
}
void test3() {
string s1, s2;
getline(cin, s1, ' '); //从输入流中提取字符串,直到遇到指定分隔符
getline(cin, s2);
cout << "s1: " << s1 << endl;
cout << "s2: " << s2 << endl;
}
int main() {
cout << "测试1: 使用标准输入流对象cin输入字符串" << endl;
test1();
cout << endl;
cin.ignore(numeric_limits<streamsize>::max(), '\n');
cout << "测试2: 使用函数getline()输入字符串" << endl;
test2();
cout << endl;
cout << "测试3: 使用函数getline()输入字符串, 指定字符串分隔符" << endl;
test3();
}
task4_2.cpp
#include <iostream>
#include <string>
#include <vector>
#include <limits>
using namespace std;
void output(const vector<string> &v) {
for(auto &s: v)
cout << s << endl;
}
void test() {
int n;
while(cout << "Enter n: ", cin >> n) {
vector<string> v1;
for(int i = 0; i < n; ++i) {
string s;
cin >> s;
v1.push_back(s);
}
cout << "output v1: " << endl;
output(v1);
cout << endl;
}
}
int main() {
cout << "测试: 使用cin多组输入字符串" << endl;
test();
}
task4_3.cpp
#include <iostream>
#include <string>
#include <vector>
#include <limits>
using namespace std;
void output(const vector<string> &v) {
for(auto &s: v)
cout << s << endl;
}
void test() {
int n;
while(cout << "Enter n: ", cin >> n) {
cin.ignore(numeric_limits<streamsize>::max(), '\n');
vector<string> v2;
for(int i = 0; i < n; ++i) {
string s;
getline(cin, s);
v2.push_back(s);
}
cout << "output v2: " << endl;
output(v2);
cout << endl;
}
}
int main() {
cout << "测试: 使用函数getline()多组输入字符串" << endl;
test();
}
结果:
解答: 在C++标准库中,numeric_limits是一个模板类,用于查询各种算术类型的属性,如类型的最大值、最小值、是否有符号等。这个类模板通过特化为所有算术类型提供了这些信息,例如,int类型的最大可能值可以通过std::numeric_limits
任务五:
task5.cpp
#include "grm.hpp"
#include <iostream>
using std::cout;
using std::endl;
void test1() {
GameResourceManager<float> HP_manager(99.99);
cout << "当前生命值: " << HP_manager.get() << endl;
HP_manager.update(9.99);
cout << "增加9.99生命值后, 当前生命值: " << HP_manager.get() << endl;
HP_manager.update(-999.99);
cout <<"减少999.99生命值后, 当前生命值: " << HP_manager.get() << endl;
}
void test2() {
GameResourceManager<int> Gold_manager(100);
cout << "当前金币数量: " << Gold_manager.get() << endl;
Gold_manager.update(50);
cout << "增加50个金币后, 当前金币数量: " << Gold_manager.get() << endl;
Gold_manager.update(-99);
cout <<"减少99个金币后, 当前金币数量: " << Gold_manager.get() << endl;
}
int main() {
cout << "测试1: 用float类型对类模板GameResourceManager实例化" << endl;
test1();
cout << endl;
cout << "测试2: 用int类型对类模板GameResourceManager实例化" << endl;
test2();
}
grm.hpp
#ifndef GRM_HPP
#define GRM_HPP
template <typename T>
class GameResourceManager{
private:
T resource;
public:
GameResourceManager(T res);
T get() const;
void update(T res);
};
template <typename T>
GameResourceManager<T>::GameResourceManager(T res):resource(res){}
template <typename T>
T GameResourceManager<T>::get()const{
return resource;
}
template <typename T>
void GameResourceManager<T>::update(T res){
resource+=res;
if(resource<0) resource = 0;
}
#endif
结果:
任务6:
task6.cpp
#include "info.hpp"
#include <iostream>
#include <vector>
#include <string>
using std::cin;
using std::cout;
using std::endl;
using std::string;
using std::vector;
int main() {
const int capacity = 100; // livehouse最大容量
vector<Info> audience_lst; // 存储听众预约信息
int total = 0; // 当前总预约人数
cout << "请输入听众预约信息:" << endl;
while (true) {
string nickname, contact, city;
int n;
cout << "昵称: ";
cin >> nickname;
cout << "联系方式: ";
cin >> contact;
cout << "所在城市: ";
cin >> city;
cout << "预定参加人数: ";
cin >> n;
// 检查剩余容量
if (total + n > capacity) {
cout << "对不起,场地仅剩 " << (capacity - total) << " 个位置。" << endl;
cout << "1. 输入 u,更新(update)预定信息" << endl;
cout << "2. 输入 q,退出预定" << endl;
char choice;
cin >> choice;
if (choice == 'q') {
continue; // 放弃当前用户
} else if (choice == 'u') {
cout << "请重新输入预定信息:" << endl;
cout << "预定参加人数: ";
cin >> n;
if (n + total > capacity) {
cout << "仍超过剩余容量,预约失败。" << endl;
continue;
}
}
}
// 添加听众信息
audience_lst.emplace_back(nickname, contact, city, n);
total += n;
// 检查是否达到容量上限
if (total >= capacity) {
cout << "预约已满,无法继续预约。" << endl;
break;
}
// 停止录入(Ctrl+Z 或手动条件设计)
cout << "是否继续录入?(Ctrl+Z停止)" << endl;
if (cin.eof()) break;
}
// 输出听众预约信息
cout << "截至目前,共有 " << total << " 位听众预约。预约听众信息如下:" << endl;
cout << "--------------------" << endl;
for (const auto& audience : audience_lst) {
audience.display();
}
return 0;
}
info.hpp
#ifndef INFO_HPP
#define INFO_HPP
#include <iostream>
#include <string>
using std::string;
using std::cout;
using std::endl;
class Info {
private:
string nickname; // 昵称
string contact; // 联系方式(邮箱/手机号)
string city; // 所在城市
int n; // 预定参加人数
public:
// 构造函数
Info(const string& nickname, const string& contact, const string& city, int n)
: nickname(nickname), contact(contact), city(city), n(n) {}
// 获取预定人数
int getN() const {
return n;
}
// 更新预定人数
void setN(int new_n) {
n = new_n;
}
// 显示用户信息
void display() const {
cout << "昵称: " << nickname << endl;
cout << "联系方式: " << contact << endl;
cout << "所在城市: " << city << endl;
cout << "预定人数: " << n << endl;
cout << "--------------------" << endl;
}
};
#endif // INFO_HPP
结果:
任务7:
account.h
#pragma once
#ifndef ACCOUNT_H
#define ACCOUNT_H
#include "date.h"
#include "accumulator.h"
#include <string>
class Account {
private:
std::string id;
double balance;
static double total;
protected:
Account(const Date& date, const std::string& id);
void record(const Date& date, double amount, const std::string& desc);
void error(const std::string& msg) const;
public:
const std::string& getId() const { return id; }
double getBalance() const { return balance; }
static double getTotal() { return total; }
void show() const;
};
class SavingsAccount : public Account {
private:
Accumulator acc;
double rate;
public:
SavingsAccount(const Date& date, const std::string& id, double rate);
double getRate() const { return rate; }
void deposit(const Date& date, double amount, const std::string& desc);
void withdraw(const Date& date, double amount, const std::string& desc);
void settle(const Date& date);
};
class CreditAccount : public Account {
private:
Accumulator acc;
double credit;
double rate;
double fee;
double getDebt() const {
double balance = getBalance();
return (balance < 0 ? balance : 0);
}
public:
CreditAccount(const Date& date, const std::string& id, double credit, double rate, double fee);
double getCredit() const { return credit; }
double getRate() const { return rate; }
double getAvailableCredit() const {
if (getBalance() < 0)
return credit + getBalance();
else
return credit;
}
void deposit(const Date& date, double amount, const std::string& desc);
void withdraw(const Date& date, double amount, const std::string& desc);
void settle(const Date& date);
void show() const;
};
#endif // ACCOUNT_H
account.cpp
#include "account.h"
#include <cmath>
#include <iostream>
using namespace std;
double Account::total = 0;
Account::Account(const Date& date, const string& id) : id{id}, balance{0} {
date.show();
cout << "\t#" << id << " created" << endl;
}
void Account::record(const Date& date, double amount, const string& desc) {
amount = floor(amount * 100 + 0.5) / 100;
balance += amount;
total += amount;
date.show();
cout << "\t#" << id << "\t" << amount << "\t" << balance << "\t" << desc << endl;
}
void Account::show() const {
cout << id << "\tBalance: " << balance;
}
void Account::error(const string& msg) const {
cout << "Error(#" << id << "): " << msg << endl;
}
SavingsAccount::SavingsAccount(const Date& date, const string& id, double rate)
: Account(date, id), rate(rate), acc(date, 0) {}
void SavingsAccount::deposit(const Date& date, double amount, const string& desc) {
record(date, amount, desc);
acc.change(date, getBalance());
}
void SavingsAccount::withdraw(const Date& date, double amount, const string& desc) {
if (amount > getBalance()) {
error("not enough money");
} else {
record(date, -amount, desc);
acc.change(date, getBalance());
}
}
void SavingsAccount::settle(const Date& date) {
double interest = acc.getSum(date) * rate / date.distance(Date(date.getYear() - 1, 1, 1));
if (interest != 0) record(date, interest, "interest");
acc.reset(date, getBalance());
}
CreditAccount::CreditAccount(const Date& date, const string& id, double credit, double rate, double fee)
: Account(date, id), credit(credit), rate(rate), fee(fee), acc(date, 0) {}
void CreditAccount::deposit(const Date& date, double amount, const string& desc) {
record(date, amount, desc);
acc.change(date, getDebt());
}
void CreditAccount::withdraw(const Date& date, double amount, const string& desc) {
if (amount - getBalance() > credit) {
error("not enough credit");
} else {
record(date, -amount, desc);
acc.change(date, getDebt());
}
}
void CreditAccount::settle(const Date& date) {
double interest = acc.getSum(date) * rate;
if (interest != 0) record(date, interest, "interest");
if (date.getMonth() == 1) record(date, -fee, "annual fee");
acc.reset(date, getDebt());
}
void CreditAccount::show() const {
Account::show();
cout << "\tAvailable credit: " << getAvailableCredit();
}
date.h
#ifndef __DATE_H__
#define __DATE_H__
class Date {
private:
int year;
int month;
int day;
int totalDays;
public:
Date(int year, int month, int day);
int getYear() const { return year; }
int getMonth() const { return month; }
int getDay() const { return day; }
int getMaxDay() const;
bool isLeapYear() const {
return year % 4 == 0 && year % 100 != 0 || year % 400 == 0;
}
void show() const;
int distance(const Date& date) const {
return totalDays - date.totalDays;
}
};
#endif // __DATE_H__
date.cpp
#include "date.h"
#include <iostream>
#include <cstdlib>
using namespace std;
namespace {
const int DAYS_BEFORE_MONTH[] = { 0,31,59,90,120,151,181,212,243,273,304,334,365 };
}
Date::Date(int year, int month, int day) : year(year), month(month), day(day) {
if (day <= 0 || day > getMaxDay()) {
cout << "Invalid date:";
show();
cout << endl;
exit(1);
}
int years = year - 1;
totalDays = years * 365 + years / 4 - years / 100 + years / 400 + DAYS_BEFORE_MONTH[month - 1] + day;
if (isLeapYear() && month > 2) totalDays++;
}
int Date::getMaxDay() const {
if (isLeapYear() && month == 2)
return 29;
else
return DAYS_BEFORE_MONTH[month] - DAYS_BEFORE_MONTH[month - 1];
}
void Date::show() const {
cout << getYear() << "-" << getMonth() << "-" << getDay();
}
accumulator.h
#pragma once
#ifndef ACCUMULATOR_H
#define ACCUMULATOR_H
#include "date.h"
class Accumulator {
private:
Date lastDate;
double value;
double sum;
public:
Accumulator(const Date& date, double value) : lastDate(date), value(value), sum{0} {}
double getSum(const Date& date) const {
return sum + value * date.distance(lastDate);
}
void change(const Date& date, double value) {
sum = getSum(date);
lastDate = date;
this->value = value;
}
void reset(const Date& date, double value) {
lastDate = date;
this->value = value;
sum = 0;
}
};
#endif // ACCUMULATOR_H
task7.cpp
#include "account.h"
#include <iostream>
using namespace std;
int main() {
Date date(2008, 11, 1);
SavingsAccount sa1(date, "S3755217", 0.015);
SavingsAccount sa2(date, "02342342", 0.015);
CreditAccount ca(date, "C5392394", 10000, 0.0005, 50);
sa1.deposit(Date(2008, 11, 5), 5000, "salary");
ca.withdraw(Date(2008, 11, 15), 2000, "buy a cell");
sa2.deposit(Date(2008, 11, 25), 10000, "sell stock 0323");
ca.settle(Date(2008, 12, 1));
ca.deposit(Date(2008, 12, 1), 2016, "repay the credit");
sa1.deposit(Date(2008, 12, 5), 5500, "salary");
sa1.settle(Date(2009, 1, 1));
sa2.settle(Date(2009, 1, 1));
ca.settle(Date(2009, 1, 1));
cout << endl;
sa1.show();
cout << endl;
sa2.show();
cout << endl;
ca.show();
cout << endl;
cout << "Total:" << Account::getTotal() << endl;
return 0;
}
结果:
