目录
本章小结
程序清单
一个简单的基类
派生一个类
多态公有继承
抽象基类
使用动态内存分配和友元的继承
继承通过使用已有的类(基类)定义新的类(派生类),使得能够根据需要修改编程代码。公有继承建立is-a关系,这意味若派生类对象也应该是某种基类对象。作为is-a模型的一部分,派生类继承基类的数据成员和大部分方法,但不继承基类的构造函数、析构函数和赋值运算符。派生类可以直接访问基类的公有成员和保护成员,并能够通过基类的公有方法和保护方法访问基类的私有成员。可以在派化类中新增数据成员和方法,还可以将派生类用作基类,来做进一步的开发。每个派生类都必须有自己的构造函数。程序创建派生类对象时,将首先调用基类的构造函数,然后调用派生类的构造函数;程序删除对象时,将首先调用派生类的析构函数,然后调用基类的析构函数。
如果要将类用作基类,则可以将成员声明为保护的,而不是私有的,这样,派生类将可以直接访问这些成员。然而,使用私有成员通常可以减少出现编程问题的可能性。如果希望派生类可以重新定义基类的方法,则可以使用关键字virtual将它声明为虚的。这样对于通过指针或引用访问的对象,能够根据对象类型来处理,而不是根据引用或指针的类型来处理。具体地说,基类的析构函数通常应当是虚的。
可以考虑定义一个ABC:只定义接口,而不涉及实现。例如,可以定义抽象类Shape,然后使用它派生出具体的形状类,如Circle和Square。ABC必须至少包含一个纯虚方法,可以在声明中的分号前面加h=0 来声明纯虚方法,
virtual double area{} const = 0;
不一定非得定义纯虚方法。对于包含纯虚成员的类,不能使用它来创建对象。纯虚方法用于定义派生类的通用接口。
13.1 tabtenn0.h
//tabtenn0.h -- a table-tennis base class
#ifndef TABTENN0_H_
#define TABTENN0_H_
#include
using std::string;
class TableTennisPlayer
{
private:
string firstname;
string lastname;
bool hasTable;
public:
TableTennisPlayer(const string & fn = "none", const string & ln = "none", bool ht = false);
void Name() const;
bool HasTable() const { return hasTable; }
void ResetTable(bool v) { hasTable = v; }
};
#endif // !TABTENN0_H_
13.2 tabtenn0.cpp
//tabtenn0.cpp -- simple base-class methods
#include
#include "tabtenn0.h"
TableTennisPlayer::TableTennisPlayer(const string & fn, const string & ln , bool ht):firstname(fn),lastname(ln),hasTable(ht) {}
void TableTennisPlayer::Name() const
{
std::cout << lastname << ", " << firstname;
}
13.3 usett0.cpp
//usett0.cpp -- using a base class
#include
#include "tabtenn0.h"
int main()
{
using namespace std;
TableTennisPlayer player1("Chuck", "Blizzard", true);
TableTennisPlayer player2("Tara", "Boomdea", false);
player1.Name();
if (player1.HasTable())
cout << ": has a table.\n";
else
cout << ": hasn't a table.\n";
player2.Name();
if (player2.HasTable())
cout << ": has a table.\n";
else
cout << ": hasn't a table.\n";
return 0;
}
13.4 tabtenn1.h
//tabtenn1.h -- a table-tennis base class
#ifndef TABTENN1_H_
#define TABTENN1_H_
#include
using std::string;
class TableTennisPlayer
{
private:
string firstname;
string lastname;
bool hasTable;
public:
TableTennisPlayer(const string & fn = "none", const string & ln = "none", bool ht = false);
void Name() const;
bool HasTable() const { return hasTable; }
void ResetTable(bool v) { hasTable = v; }
};
class RatedPlayer :public TableTennisPlayer
{
private:
unsigned int rating;
public:
RatedPlayer(unsigned int r = 0, const string & fn = "none", const string & ln = "none", bool ht = false);
RatedPlayer(unsigned int r, const TableTennisPlayer & tp);
unsigned int Rating() const { return rating; }
void ResetRating(unsigned int r) { rating = r; }
};
#endif // !TABTENN0_H_
13.5 tabtenn1.cpp
//tabtenn1.cpp -- simple base-class methods
#include
#include "tabtenn1.h"
TableTennisPlayer::TableTennisPlayer(const string & fn, const string & ln, bool ht)
:firstname(fn), lastname(ln), hasTable(ht) {}
void TableTennisPlayer::Name() const
{
std::cout << lastname << ", " << firstname;
}
RatedPlayer::RatedPlayer(unsigned int r, const string & fn, const string & ln, bool ht) :TableTennisPlayer(fn, ln, ht)
{
rating = r;
}
RatedPlayer::RatedPlayer(unsigned int r, const TableTennisPlayer & tp):TableTennisPlayer(tp),rating(r) {}
13.6 usett.cpp
//usett1.cpp -- using a base class and derived class
#include
#include "tabtenn1.h"
int main()
{
using namespace std;
TableTennisPlayer player1("Tara", "Boomdea", false);
RatedPlayer rplayer1(1140, "Mallory", "Duck", true);
rplayer1.Name();
if (player1.HasTable())
cout << ": has a table.\n";
else
cout << ": hasn't a table.\n";
player1.Name();
if (player1.HasTable())
cout << ": has a table.\n";
else
cout << ": hasn't a table.\n";
cout << "Name: ";
rplayer1.Name();
cout << ": Rating: " << rplayer1.Rating() << endl;
RatedPlayer rplayer2(1212, player1);
cout << "Name: ";
rplayer2.Name();
cout << "; Rating: " << rplayer2.Rating() << endl;
return 0;
}
13.7 brass.h
//brass.h -- bank account classes
#ifndef BRASS_H_
#define BRASS_H_
#include
using namespace std;
class Brass
{
private:
string fullName;
long acctNum;
double balance;
public:
Brass(const string & s = "Nullbody", long an = -1, double bal = 0.0);
void Deposit(double amt);
virtual void Withdraw(double amt);
double Balance() const;
virtual void ViewAcct() const;
virtual ~Brass() {}
};
class BrassPlus :public Brass
{
private:
double maxLoan;
double rate;
double owesBank;
public:
BrassPlus(const string & s = "Nullbody", long an = -1, double bal = 0.0, double ml = 500, double r = 0.11125);
BrassPlus(const Brass & ba, double ml = 500, double r = 0.11125);
virtual void ViewAcct()const;
virtual void Withdraw(double amt);
void ResetMax(double m) { maxLoan = m; }
void ResetRate(double r) { rate = r; }
void ResetOwes() { owesBank = 0; }
};
#endif // !BRASS_H_
13.8 brass.cpp
//brass.cpp -- bank account class methods
#include
#include "brass.h"
using namespace std;
typedef ios_base::fmtflags format;
typedef streamsize precis;
format setFormat();
void restore(format fm, precis p);
Brass::Brass(const string & s /* = "Nullbody" */, long an /* = -1 */, double bal /* = 0.0 */)
{
fullName = s;
acctNum = an;
balance = bal;
}
void Brass::Deposit(double amt)
{
if (amt < 0)
cout << "Negative deposit not allowed; deposit is cancelled:\n";
else
balance += amt;
}
void Brass::Withdraw(double amt)
{
format initialState = setFormat();
precis prec = cout.precision(2);
if (amt < 0)
cout << "Withdrawal amout must be positive; withdrawal canceled.\n";
else if (amt <= balance)
balance -= amt;
else
cout << "Withdrawal amount of $" << amt << " exceeds your balance.\n" << "Withdrawal canceled.\n";
restore(initialState, prec);
}
double Brass::Balance() const
{
return balance;
}
void Brass::ViewAcct() const
{
format initialState = setFormat();
precis prec = cout.precision(2);
cout << "Client: " << fullName << endl;
cout << "Account Number: " << acctNum << endl;
cout << "Balance: $" << balance << endl;
restore(initialState, prec);
}
BrassPlus::BrassPlus(const string & s, long an, double bal, double ml, double r) :Brass(s, an, bal)
{
maxLoan = ml;
owesBank = 0.0;
rate = r;
}
void BrassPlus::ViewAcct() const
{
format initialState = setFormat();
precis prec = cout.precision(2);
Brass::ViewAcct();
cout << "Maximum loan: $" << maxLoan << endl;
cout << "Owed to bank: $" << owesBank << endl;
cout.precision(3);
cout << "Loan Rate: " << 100 * rate << "%\n";
restore(initialState, prec);
}
void BrassPlus::Withdraw(double amt)
{
format initialState = setFormat();
precis prec = cout.precision(2);
double bal = Balance();
if (amt <= bal)
Brass::Withdraw(amt);
else if (amt <= bal + maxLoan - owesBank)
{
double advance = amt - bal;
owesBank += advance * (1.0 + rate);
cout << "Bank advance: $" << advance << endl;
cout << "Finance charge: $" << advance * rate << endl;
Deposit(advance);
Brass::Withdraw(amt);
}
else
cout << "Credit limit exceeded. Transaction cancelled.\n";
restore(initialState, prec);
}
format setFormat()
{
return cout.setf(ios_base::fixed, ios_base::floatfield);
}
void restore(format f, precis p)
{
cout.setf(f, ios_base::floatfield);
cout.precision(p);
}
13.9 usebrass1.cpp 没有使用虚方法特性
//usebrass1.cpp -- testing bank account classes
//compile with brass.cpp
#include
#include "brass.h"
int main()
{
using namespace std;
Brass Piggy("Porcelot Pigg", 381299, 4000.00);
BrassPlus Hoggy("Horatio Hogg", 382288, 3000.00);
Piggy.ViewAcct();
cout << endl;
Hoggy.ViewAcct();
cout << endl;
cout << "Depositing $1000 into the hogg Account:\n";
Hoggy.Deposit(1000.00);
cout << "New balance: $" << Hoggy.Balance() << endl;
cout << "Withdrawing $4200 from the Pigg Account:\n";
Piggy.Withdraw(4200.00);
cout << "Pigg account balance: $" << Piggy.Balance() << endl;
cout << "Withdrawing $4200 from the Hogg Account:\n";
Hoggy.Withdraw(4200.00);
Hoggy.ViewAcct();
return 0;
}
13.10 usebrass2.cpp 使用虚方法特性
//usebrass2.cpp -- polymorphic example
//compile with brass.cpp
#include
#include
#include "brass.h"
const int CLIENTS = 4;
int main()
{
using namespace std;
Brass * p_clients[CLIENTS];
string temp;
long tempnum;
double tempbal;
char kind;
for (int i = 0; i < CLIENTS; i++)
{
cout << "Enter client's name: ";
getline(cin, temp);
cout << "Enter client's account number: ";
cin >> tempnum;
cout << "Enter opening balance: $";
cin >> tempbal;
cout << "Enter 1 for Brass Account or 2 for BrassPlus Account: ";
while (cin >> kind && (kind != '1' && kind != '2'))
cout << "Enter either 1 or 2:";
if (kind == '1')
p_clients[i] = new Brass(temp, tempnum, tempbal);
else
{
double tmax, trate;
cout << "Enter the overdraft limit: $";
cin >> tmax;
cout << "Enter the interest rate as a decimal fraction: ";
cin >> trate;
p_clients[i] = new BrassPlus(temp, tempnum, tempbal, tmax, trate);
}
while (cin.get() != '\n')
continue;
}
cout << endl;
for (int i = 0; i < CLIENTS; i++)
{
p_clients[i]->ViewAcct();
cout << endl;
}
for (int i = 0; i < CLIENTS; i++)
{
delete p_clients[i];
}
cout << "Done.\n";
return 0;
}
13.11 acctabc.h
//acctabc.h -- bank account classes
#ifndef ACCTABC_H_
#define ACCTABC_H_
#include
#include
using namespace std;
class AcctABC
{
private:
string fullName;
long acctNum;
double balance;
protected:
struct Formatting
{
ios_base::fmtflags flag;
streamsize pr;
};
const string & FullName() const { return fullName; }
long AcctNum() const { return acctNum; }
Formatting SetFormat() const;
void Restore(Formatting & f) const;
public:
AcctABC(const string & s = "Nullbody", long an = -1, double baF = 0.0);
void Deposit(double amt);
virtual void Withdraw(double amt) = 0;
double Balance() const { return balance; }
virtual void ViewAcct() const = 0;
virtual ~AcctABC() {}
};
class Brass :public AcctABC
{
public:
Brass(const string & s = "Nullbody", long an = -1, double bal = 0.0) :AcctABC(s, an, bal) {}
virtual void ViewAcct()const;
virtual void Withdraw(double amt);
virtual ~Brass() {}
};
class BrassPlus :public AcctABC
{
private:
double maxLoan;
double rate;
double owesBank;
public:
BrassPlus(const string & s = "Nullbody", long an = -1, double bal = 0.0, double ml = 500, double r = 0.10);
BrassPlus(const Brass & ba, double ml = 500, double r = 0.10);
virtual void ViewAcct()const;
virtual void Withdraw(double amt);
void ResetMax(double m) { maxLoan = m; }
void ResetRate(double r) { rate = r; }
void ResetOwes() { owesBank = 0; }
};
#endif // !ACCTABC_H_
13.12 acctabc.cpp
//acctabc.cpp -- bank account class methods
#include
#include "acctabc.h"
using namespace std;
AcctABC::AcctABC(const string & s /* = "Nullbody" */, long an /* = -1 */, double bal /* = 0.0 */)
{
fullName = s;
acctNum = an;
balance = bal;
}
void AcctABC::Deposit(double amt)
{
if (amt < 0)
cout << "Negative deposit not allowed; deposit is cancelled:\n";
else
balance += amt;
}
void AcctABC::Withdraw(double amt)
{
balance -= amt;
}
AcctABC::Formatting AcctABC::SetFormat() const
{
Formatting f;
f.flag = cout.setf(ios_base::fixed, ios_base::floatfield);
f.pr = cout.precision(2);
return f;
}
void AcctABC::Restore(Formatting & f) const
{
cout.setf(f.flag, ios_base::floatfield);
cout.precision(f.pr);
}
void Brass::Withdraw(double amt)
{
if (amt < 0)
cout << "Withdrawal amout must be positive; withdrawal canceled.\n";
else if (amt <= Balance())
AcctABC::Withdraw(amt);
else
cout << "Withdrawal amount of $" << amt << " exceeds your balance.\n" << "Withdrawal canceled.\n";
}
void Brass::ViewAcct() const
{
Formatting f = SetFormat();
cout << "Brass Client: " << FullName() << endl;
cout << "Account Number: " << AcctNum() << endl;
cout << "Balance: $" << Balance() << endl;
Restore(f);
}
BrassPlus::BrassPlus(const string & s, long an, double bal, double ml, double r) :AcctABC(s, an, bal)
{
maxLoan = ml;
owesBank = 0.0;
rate = r;
}
BrassPlus::BrassPlus(const Brass & ba, double ml /* = 500 */, double r /* = 0.10 */) :AcctABC(ba)
{
maxLoan = ml;
owesBank = 0.0;
rate = r;
}
void BrassPlus::ViewAcct() const
{
Formatting f = SetFormat();
cout << "BrassPlus Client: " << FullName() << endl;
cout << "Account Number: " << AcctNum() << endl;
cout << "Balance: $" << Balance() << endl;
cout << "Maximum loan: $" << maxLoan << endl;
cout << "Owed to bank: $" << owesBank << endl;
cout.precision(3);
cout << "Loan Rate: " << 100 * rate << "%\n";
Restore(f);
}
void BrassPlus::Withdraw(double amt)
{
Formatting f = SetFormat();
double bal = Balance();
if (amt <= bal)
AcctABC::Withdraw(amt);
else if (amt <= bal + maxLoan - owesBank)
{
double advance = amt - bal;
owesBank += advance * (1.0 + rate);
cout << "Bank advance: $" << advance << endl;
cout << "Finance charge: $" << advance * rate << endl;
Deposit(advance);
AcctABC::Withdraw(amt);
}
else
cout << "Credit limit exceeded. Transaction cancelled.\n";
Restore(f);
}
13.13 usebrass3.cpp
//usebrass3.cpp -- polymorphic example using an abstract base class
//compile with brass.cpp
#include
#include
#include "acctabc.h"
const int CLIENTS = 4;
int main()
{
using namespace std;
Brass * p_clients[CLIENTS];
string temp;
long tempnum;
double tempbal;
char kind;
for (int i = 0; i < CLIENTS; i++)
{
cout << "Enter client's name: ";
getline(cin, temp);
cout << "Enter client's account number: ";
cin >> tempnum;
cout << "Enter opening balance: $";
cin >> tempbal;
cout << "Enter 1 for Brass Account or 2 for BrassPlus Account: ";
while (cin >> kind && (kind != '1' && kind != '2'))
cout << "Enter either 1 or 2:";
if (kind == '1')
p_clients[i] = new Brass(temp, tempnum, tempbal);
else
{
double tmax, trate;
cout << "Enter the overdraft limit: $";
cin >> tmax;
cout << "Enter the interest rate as a decimal fraction: ";
cin >> trate;
p_clients[i] = new BrassPlus(temp, tempnum, tempbal, tmax, trate);
}
while (cin.get() != '\n')
continue;
}
cout << endl;
for (int i = 0; i < CLIENTS; i++)
{
p_clients[i]->ViewAcct();
cout << endl;
}
for (int i = 0; i < CLIENTS; i++)
{
delete p_clients[i];
}
cout << "Done.\n";
return 0;
}
13.14 dma.h
//dma.h -- inheritance and dynamic memory allocation
#ifndef DMA_H_
#define DMA_H_
#include
class baseDMA
{
private:
char * label;
int rating;
public:
baseDMA(const char * l = "null", int r = 0);
baseDMA(const baseDMA & rs);
virtual ~baseDMA();
baseDMA & operator=(const baseDMA & rs);
friend std::ostream & operator<<(std::ostream &os, const baseDMA & rs);
};
class lacksDMA :public baseDMA
{
private:
enum { COL_LEN = 40 };
char color[COL_LEN];
public:
lacksDMA(const char * c = "blank", const char * l = "null", int r = 0);
lacksDMA(const char * c, const baseDMA & rs);
friend std::ostream & operator<<(std::ostream & os, const lacksDMA & rs);
};
class hasDMA :public baseDMA
{
private:
char * style;
public:
hasDMA(const char*s = "none", const char * l = "null", int r = 0);
hasDMA(const char * s, const baseDMA & rs);
hasDMA(const hasDMA & hs);
~hasDMA();
hasDMA & operator=(const hasDMA & rs);
friend std::ostream & operator<<(std::ostream & os, const hasDMA & rs);
};
#endif // !DMA_H_
13.15 dma.cpp
//dma.cpp -- dma class methods
#include "dma.h"
#include
using namespace std;
baseDMA::baseDMA(const char * l /* = "null" */, int r /* = 0 */)
{
label = new char[strlen(l) + 1];
strcpy(label, l);
rating = r;
}
baseDMA::baseDMA(const baseDMA &rs)
{
label = new char[strlen(rs.label) + 1];
strcpy(label, rs.label);
rating = rs.rating;
}
baseDMA::~baseDMA()
{
delete[] label;
}
baseDMA & baseDMA::operator=(const baseDMA & rs)
{
if (this == &rs)
return *this;
delete[]label;
label = new char[strlen(rs.label) + 1];
strcpy(label, rs.label);
rating = rs.rating;
return *this;
}
ostream & operator<<(ostream & os, const baseDMA & rs)
{
os << "Label: " << rs.label << endl;
os << "Rating: " << rs.rating << endl;
return os;
}
lacksDMA::lacksDMA(const char * c /* = "blank" */, const char * l /* = "null" */, int r /* = 0 */) :baseDMA(l, r)
{
strncpy(color, c, 39);
color[39] = '\0';
}
lacksDMA::lacksDMA(const char * c /* = "blank" */, const baseDMA & rs) :baseDMA(rs)
{
strncpy(color, c, COL_LEN - 1);
color[COL_LEN - 1] = '\0';
}
ostream & operator << (ostream & os, const lacksDMA & ls)
{
os << (const baseDMA &)ls;
os << "Color: " << ls.color << endl;
return os;
}
hasDMA::hasDMA(const char * s, const char * l, int r) : baseDMA(l, r)
{
style = new char[strlen(s) + 1];
strcpy(style, s);
}
hasDMA::hasDMA(const char * s, const baseDMA & rs) :baseDMA(rs)
{
style = new char[strlen(s) + 1];
strcpy(style, s);
}
hasDMA::hasDMA(const hasDMA & hs) :baseDMA(hs)
{
style = new char[strlen(hs.style) + 1];
strcpy(style, hs.style);
}
hasDMA::~hasDMA()
{
delete[]style;
}
hasDMA & hasDMA::operator=(const hasDMA & hs)
{
if (this == &hs)
return *this;
baseDMA::operator=(hs);
delete[]style;
style = new char[strlen(hs.style) + 1];
strcpy(style, hs.style);
return *this;
}
ostream & operator<<(ostream & os, const hasDMA & hs)
{
os << (const baseDMA &)hs;
os << "Style: " << hs.style << endl;
return os;
}
13.16 usedma.cpp
//usedma.cpp -- inheritance, friends, and DMA
//compile with dma.cpp
#include
#include "dma.h"
int main()
{
using namespace std;
baseDMA shirt("Portabelly", 8);
lacksDMA balloon("red", "Blimpo", 4);
hasDMA map("Mercator", "Buffalo Keys", 5);
cout << "Displaying baseDMA object:\n" << shirt << endl;
cout << "Displaying lacksDMA object:\n" << balloon << endl;
cout << "Displaying hasDMA object:\n" << map << endl;
lacksDMA balloon2(balloon);
cout << "Result of lacksDMA copy:\n" << balloon2 << endl;
hasDMA map2;
map2 = map;
cout << "Result of hasDMA assignment:\n" << map2 << endl;
return 0;
}