实验四
实验任务一
代码
GradeCalc.hpp
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#pragma once
#include <vector>
#include <array>
#include <string>
class GradeCalc {
public:
GradeCalc(const std::string &cname);
void input(int n); // 录入n个成绩
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(如成绩未录入,返回-1)
int max() const; // 返回最高分 (如成绩未录入,返回-1)
double average() const; // 返回平均分 (如成绩未录入,返回0.0)
void info(); // 输出课程成绩信息
private:
void compute(); // 成绩统计
private:
std::string course_name; // 课程名
std::vector<int> grades; // 课程成绩
std::array<int, 5> counts; // 保存各分数段人数([0, 60), [60, 70), [70, 80), [80, 90), [90, 100]
std::array<double, 5> rates; // 保存各分数段人数占比
bool is_dirty; // 脏标记,记录是否成绩信息有变更
};
GradeCalc.cpp
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#include <algorithm>
#include <array>
#include <cstdlib>
#include <iomanip>
#include <iostream>
#include <numeric>
#include <string>
#include <vector>
#include "GradeCalc.hpp"
GradeCalc::GradeCalc(const std::string &cname):course_name{cname},is_dirty{true} {
counts.fill(0);
rates.fill(0);
}
void GradeCalc::input(int n) {
if(n < 0) {
std::cerr << "无效输入! 人数不能为负数\n";
std::exit(1);
}
grades.reserve(n);
int grade;
for(int i = 0; i < n;) {
std::cin >> grade;
if(grade < 0 || grade > 100) {
std::cerr << "无效输入! 分数须在[0,100]\n";
continue;
}
grades.push_back(grade);
++i;
}
is_dirty = true; // 设置脏标记:成绩信息有变更
}
void GradeCalc::output() const {
for(auto grade: grades)
std::cout << grade << ' ';
std::cout << std::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 {
if(grades.empty())
return -1;
auto it = std::min_element(grades.begin(), grades.end());
return *it;
}
int GradeCalc::max() const {
if(grades.empty())
return -1;
auto it = std::max_element(grades.begin(), grades.end());
return *it;
}
double GradeCalc::average() const {
if(grades.empty())
return 0.0;
double avg = std::accumulate(grades.begin(), grades.end(), 0.0)/grades.size();
return avg;
}
void GradeCalc::info() {
if(is_dirty)
compute();
std::cout << "课程名称:\t" << course_name << std::endl;
std::cout << "平均分:\t" << std::fixed << std::setprecision(2) << average() << std::endl;
std::cout << "最高分:\t" << max() << std::endl;
std::cout << "最低分:\t" << min() << std::endl;
const std::array<std::string, 5> grade_range{"[0, 60) ",
"[60, 70)",
"[70, 80)",
"[80, 90)",
"[90, 100]"};
for(int i = static_cast<int>(grade_range.size())-1; i >= 0; --i)
std::cout << grade_range[i] << "\t: " << counts[i] << "人\t"
<< std::fixed << std::setprecision(2) << rates[i]*100 << "%\n";
}
void GradeCalc::compute() {
if(grades.empty())
return;
counts.fill(0);
rates.fill(0.0);
// 统计各分数段人数
for(auto grade:grades) {
if(grade < 60)
++counts[0]; // [0, 60)
else if (grade < 70)
++counts[1]; // [60, 70)
else if (grade < 80)
++counts[2]; // [70, 80)
else if (grade < 90)
++counts[3]; // [80, 90)
else
++counts[4]; // [90, 100]
}
// 统计各分数段比例
for(size_t i = 0; i < rates.size(); ++i)
rates[i] = counts[i] * 1.0 / grades.size();
is_dirty = false; // 更新脏标记
}
task1.cpp
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#include <iostream>
#include <string>
#include "GradeCalc.hpp"
void test() {
GradeCalc c1("OOP");
std::cout << "录入成绩:\n";
c1.input(5);
std::cout << "输出成绩:\n";
c1.output();
std::cout << "排序后成绩:\n";
c1.sort(); c1.output();
std::cout << "*************成绩统计信息*************\n";
c1.info();
}
int main() {
test();
}
结果
问题1:std::string course_name:存储课程名;
std::vector
std::array<int, 5> counts:创建5个代表各分数段的int型数组来存储各分数段人数;
std::array<double, 5> rates:创建5个double型数组来存储5个分数段的人数百分比;
bool is_dirty:记录是否成绩信息有变更。
问题2:不合法,首先input打错了。其次,grade是是私有成员,并且Gradecal没有提供push_back的公共接口,无法访问私有成员。
问题3:(1)1次,避免重复计算,只有数据变更时才重新计算统计信息.
(2)不需要,因为update_grade只需设置is_dirty = true,统计信息在下次info()调用时自动重新计算。
问题4:
问题5:不能。多次调用compute时会产生统计错误。
问题6:(1)没
(2)有,reserve(n)预分配容量可以避免内存多次重新分配。
实验任务二
代码
GradeCalc.hpp
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#pragma once
#include <array>
#include <string>
#include <vector>
class GradeCalc: private std::vector<int> {
public:
GradeCalc(const std::string &cname);
void input(int n); // 录入n个成绩
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
double average() const; // 返回平均分
void info(); // 输出成绩统计信息
private:
void compute(); // 计算成绩统计信息
private:
std::string course_name; // 课程名
std::array<int, 5> counts; // 保存各分数段人数([0, 60), [60, 70), [70, 80), [80, 90), [90, 100]
std::array<double, 5> rates; // 保存各分数段占比
bool is_dirty; // 脏标记,记录是否成绩信息有变更
};
GradeCalc.cpp
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#include <algorithm>
#include <array>
#include <cstdlib>
#include <iomanip>
#include <iostream>
#include <numeric>
#include <string>
#include <vector>
#include "GradeCalc.hpp"
GradeCalc::GradeCalc(const std::string &cname): course_name{cname}, is_dirty{true}{
counts.fill(0);
rates.fill(0);
}
void GradeCalc::input(int n) {
if(n < 0) {
std::cerr << "无效输入! 人数不能为负数\n";
return;
}
this->reserve(n);
int grade;
for(int i = 0; i < n;) {
std::cin >> grade;
if(grade < 0 || grade > 100) {
std::cerr << "无效输入! 分数须在[0,100]\n";
continue;
}
this->push_back(grade);
++i;
}
is_dirty = true;
}
void GradeCalc::output() const {
for(auto grade: *this)
std::cout << grade << ' ';
std::cout << std::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 {
if(this->empty())
return -1;
return *std::min_element(this->begin(), this->end());
}
int GradeCalc::max() const {
if(this->empty())
return -1;
return *std::max_element(this->begin(), this->end());
}
double GradeCalc::average() const {
if(this->empty())
return 0.0;
double avg = std::accumulate(this->begin(), this->end(), 0.0) / this->size();
return avg;
}
void GradeCalc::info() {
if(is_dirty)
compute();
std::cout << "课程名称:\t" << course_name << std::endl;
std::cout << "平均分:\t" << std::fixed << std::setprecision(2) << average() << std::endl;
std::cout << "最高分:\t" << max() << std::endl;
std::cout << "最低分:\t" << min() << std::endl;
const std::array<std::string, 5> grade_range{"[0, 60) ",
"[60, 70)",
"[70, 80)",
"[80, 90)",
"[90, 100]"};
for(int i = static_cast<int>(grade_range.size())-1; i >= 0; --i)
std::cout << grade_range[i] << "\t: " << counts[i] << "人\t"
<< std::fixed << std::setprecision(2) << rates[i]*100 << "%\n";
}
void GradeCalc::compute() {
if(this->empty())
return;
counts.fill(0);
rates.fill(0);
// 统计各分数段人数
for(int grade: *this) {
if(grade < 60)
++counts[0]; // [0, 60)
else if (grade < 70)
++counts[1]; // [60, 70)
else if (grade < 80)
++counts[2]; // [70, 80)
else if (grade < 90)
++counts[3]; // [80, 90)
else
++counts[4]; // [90, 100]
}
// 统计各分数段比例
for(size_t i = 0; i < rates.size(); ++i)
rates[i] = counts[i] * 1.0 / this->size();
is_dirty = false;
}
task2.cpp
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#include <iostream>
#include <string>
#include "GradeCalc.hpp"
void test() {
GradeCalc c1("OOP");
std::cout << "录入成绩:\n";
c1.input(5);
std::cout << "输出成绩:\n";
c1.output();
std::cout << "排序后成绩:\n";
c1.sort(); c1.output();
std::cout << "*************成绩统计信息*************\n";
c1.info();
}
int main() {
test();
}
结果
问题1:class GradeCalc: private std::vector
问题2:不会。不能,因为push_back在类中是私有成员,无法在外部直接访问。
问题3:组合方式把容器封装为私有成员,外部通过公有接口访问;继承方式会把 vector 的接口引入,这会导致更少的封装。
问题4:组合,因为组合方式封装性更好,安全系数更高,内部数据更不易被修改。
实验任务三
代码
Graph.hpp
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#pragma once
#include <string>
#include <vector>
enum class GraphType {circle, triangle, rectangle};
// Graph类定义
class Graph {
public:
virtual void draw() {}
virtual ~Graph() = default;
};
// Circle类声明
class Circle : public Graph {
public:
void draw();
};
// Triangle类声明
class Triangle : public Graph {
public:
void draw();
};
// Rectangle类声明
class Rectangle : public Graph {
public:
void draw();
};
// Canvas类声明
class Canvas {
public:
void add(const std::string& type); // 根据字符串添加图形
void paint() const; // 使用统一接口绘制所有图形
~Canvas(); // 手动释放资源
private:
std::vector<Graph*> graphs;
};
// 4. 工具函数
GraphType str_to_GraphType(const std::string& s); // 字符串转枚举类型
Graph* make_graph(const std::string& type); // 创建图形,返回堆对象指针
Graph.cpp
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#include <algorithm>
#include <cctype>
#include <iostream>
#include <string>
#include "Graph.hpp"
// Circle类实现
void Circle::draw() { std::cout << "draw a circle...\n"; }
// Triangle类实现
void Triangle::draw() { std::cout << "draw a triangle...\n"; }
// Rectangle类实现
void Rectangle::draw() { std::cout << "draw a rectangle...\n"; }
// Canvas类实现
void Canvas::add(const std::string& type) {
Graph* g = make_graph(type);
if (g)
graphs.push_back(g);
}
void Canvas::paint() const {
for (Graph* g : graphs)
g->draw();
}
Canvas::~Canvas() {
for (Graph* g : graphs)
delete g;
}
// 工具函数实现
// 字符串 → 枚举转换
GraphType str_to_GraphType(const std::string& s) {
std::string t = s;
std::transform(s.begin(), s.end(), t.begin(),
[](unsigned char c) { return std::tolower(c);});
if (t == "circle")
return GraphType::circle;
if (t == "triangle")
return GraphType::triangle;
if (t == "rectangle")
return GraphType::rectangle;
return GraphType::circle; // 缺省返回
}
// 创建图形,返回堆对象指针
Graph* make_graph(const std::string& type) {
switch (str_to_GraphType(type)) {
case GraphType::circle: return new Circle;
case GraphType::triangle: return new Triangle;
case GraphType::rectangle: return new Rectangle;
default: return nullptr;
}
}
demo3.cpp
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#include <string>
#include "Graph.hpp"
void test() {
Canvas canvas;
canvas.add("circle");
canvas.add("triangle");
canvas.add("rectangle");
canvas.paint();
}
int main() {
test();
}
结果
问题1:(1)std::vector<Graph> graphs,Canvas 通过组合持有多个 Graph,用于保存要绘制的多个图形对象。
(2)class Circle : public Graph,class Triangle : public Graph,class Rectangle : public Graph。
问题2:(1)如果未声明为虚函数,g->draw是静态的,导致输出出问题。
(2)修改后作用对象由指针变为值
(3)
问题3:Graph.hpp:添加class Star:public Graph{public:void draw();}
Graph.cpp:void Star::draw(){std::cout<<"draw a star...\n";}
demon3.cpp:canvas.add("star");
问题4:(1)在析构函数中释放。
(2)简单,易懂;手写繁琐,麻烦,并且容易出问题。
实验任务四
代码
Toy.hpp
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#pragma once
#include<iostream>
#include<string>
#include<vector>
#include<memory>
class Toy
{
public:
Toy(const std::string& name,const std::string& type);
virtual ~Toy();
virtual void info() const;
virtual void activate()=0;
protected:
std::string name;
std::string type;
};
class Sound:public Toy
{
public:
Sound(const std::string& name);
void activate();
};
class Move:public Toy
{
public:
Move(const std::string& name);
void activate();
};
class Light:public Toy
{
public:
Light(const std::string& name);
void activate();
};
class ToyFactory
{
public:
void add(std::unique_ptr<Toy> toy);
void show() const;
void activate();
private:
std::vector<std::unique_ptr<Toy>> toys;
};
Toy.cpp
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#include "Toy.hpp"
Toy::Toy(const std::string& name,const std::string& type):name(name),type(type)
{
}
Toy::~Toy()=default;
void Toy::info() const
{
std::cout<<"Name:"<<name
<<",Type:"<<type<<std::endl;
}
Sound::Sound(const std::string& name):Toy(name,"Sound")
{
}
void Sound::activate()
{
std::cout<<name<<" can make sound." <<std::endl;
}
Light::Light(const std::string& name):Toy(name,"Light")
{
}
void Light::activate()
{
std::cout<<name<<" can shine."<<std::endl;
}
Move::Move(const std::string& name):Toy(name,"Move")
{
}
void Move::activate()
{
std::cout<<name<<" can move."<<std::endl;
}
void ToyFactory::add(std::unique_ptr<Toy> toy)
{
toys.push_back(std::move(toy));
}
void ToyFactory::show() const
{
std::cout<<"Toy List"<<std::endl;
for(auto& t:toys)
{
t->info();
}
}
void ToyFactory::activate()
{
std::cout<<"Activate List"<<std::endl;
for(auto& t:toys)
{
t->activate();
}
}
demo4.cpp
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#include"Toy.hpp"
int main()
{
ToyFactory factory;
factory.add(std::unique_ptr<Toy>(new Sound("SoundToy")));
factory.add(std::unique_ptr<Toy>(new Move("MoveToy")));
factory.add(std::unique_ptr<Toy>(new Light("LightToy")));
factory.show();
factory.activate();
return 0;
}
结果
问题场景:一个工厂与各种玩具,有可以发声的、可以发光的、可以动的等等。用代码输出所有玩具的信息及其功能。
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