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See all Premium member Presentation Transcript C++ Concepts : 1 C++ Concepts Operator overloading Friend Function This Operator Inline Function Operator overloading : 2 Operator overloading Programmer can use some operator symbols to define special member functions of a class Provides convenient notations for object behaviors Why Operator Overloading : 3 int i, j, k; // integers float m, n, p; // floats k = i + j; // integer addition and assignment p = m + n; // floating addition and assignment Why Operator Overloading The compiler overloads the + operator for built-in integer and float types by default, producing integer addition with i+j, and floating addition with m+n. We can make object operation look like individual int variable operation, using operator functions Complex a,b,c; c = a + b; Operator Overloading Syntax : 4 Operator Overloading Syntax Syntax is: operator@(argument-list) --- operator is a function --- @ is one of C++ operator symbols (+, -, =, etc..) Examples: operator+ operator- operator* operator/ Example of Operator Overloading : 5 class CStr { char *pData; int nLength; public: // … void cat(char *s); // … CStr operator+(CStr str1, CStr str2); CStr operator+(CStr str, char *s); CStr operator+(char *s, CStr str); //accessors char* get_Data(); int get_Len(); }; Example of Operator Overloading void CStr::cat(char *s) { int n; char *pTemp; n=strlen(s); if (n==0) return; pTemp=new char[n+nLength+1]; if (pData) strcpy(pTemp,pData); strcat(pTemp,s); pData=pTemp; nLength+=n; } The Addition (+) Operator : 6 The Addition (+) Operator CStr CStr::operator+(CStr str1, CStr str2) { CStr new_string(str1); //call the copy constructor to initialize an //entirely new CStr object with the first //operand new_string.cat(str2.get_Data()); //concatenate the second operand onto the //end of new_string return new_string; //call copy constructor to create a copy of //the return value new_string } new_string str1 strlen(str1) strcat(str1,str2) strlen(str1)+strlen(str2) How does it work? : 7 How does it work? CStr first(“John”); CStr last(“Johnson”); CStr name(first+last); CStr CStr::operator+(CStr str1,CStr str2) { CStr new_string(str1); new_string.cat(str2.get()); return new_string; } “John Johnson” Temporary CStr object Copy constructor name Implementing Operator Overloading : 8 Implementing Operator Overloading Two ways: Implemented as member functions Implemented as non-member or Friend functions the operator function may need to be declared as a friend if it requires access to protected or private data Expression obj1@obj2 translates into a function call obj1.operator@(obj2), if this function is defined within class obj1 operator@(obj1,obj2), if this function is defined outside the class obj1 Implementing Operator Overloading : 9 Defined as a member function Implementing Operator Overloading class Complex { ... public: ... Complex operator +(const Complex &op) { double real = _real + op._real, imag = _imag + op._imag; return(Complex(real, imag)); } ... }; c = a+b; Implementing Operator Overloading : 10 Defined as a non-member function Implementing Operator Overloading class Complex { ... public: ... double real() { return _real; } //need access functions double imag() { return _imag; } ... }; Complex operator +(Complex &op1, Complex &op2) { double real = op1.real() + op2.real(), imag = op1.imag() + op2.imag(); return(Complex(real, imag)); } c = a+b; Implementing Operator Overloading : 11 Defined as a friend function Implementing Operator Overloading class Complex { ... public: ... friend Complex operator +( const Complex &, const Complex & ); ... }; Complex operator +(Complex &op1, Complex &op2) { double real = op1._real + op2._real, imag = op1._imag + op2._imag; return(Complex(real, imag)); } c = a+b; Ordinary Member Functions, Static Functionsand Friend Functions : 12 Ordinary Member Functions, Static Functionsand Friend Functions The function can access the private part of the class definition The function is in the scope of the class The function must be invoked on an object Which of these are true about the different functions? What is ‘Friend’? : 13 What is ‘Friend’? Friend declarations introduce extra coupling between classes Once an object is declared as a friend, it has access to all non-public members as if they were public Access is unidirectional If B is designated as friend of A, B can access A’s non-public members; A cannot access B’s A friend function of a class is defined outside of that class's scope More about ‘Friend’ : 14 More about ‘Friend’ The major use of friends is to provide more efficient access to data members than the function call to accommodate operator functions with easy access to private data members Friends can have access to everything, which defeats data hiding, so use them carefully Friends have permission to change the internal state from outside the class. Always recommend use member functions instead of friends to change state Assignment Operator : 15 Assignment Operator Assignment between objects of the same type is always supported the compiler supplies a hidden assignment function if you don’t write your own one same problem as with the copy constructor - the member by member copying Syntax: class& class::operator=(const class &arg) { //… } Example: Assignment for CStr class : 16 Example: Assignment for CStr class CStr& CStr::operator=(const CStr &source){ //... Do the copying return *this; } Assignment operator for CStr: CStr& CStr::operator=(const CStr & source) Copy Assignment is different from Copy Constructor The “this” pointer : 17 The “this” pointer Within a member function, the this keyword is a pointer to the current object, i.e. the object through which the function was called C++ passes a hidden this pointer whenever a member function is called Within a member function definition, there is an implicit use of this pointer for references to data members pData nLength this Data member reference Equivalent to pData this->pData nLength this->nLength CStr object (*this) Overloading stream-insertion and stream-extraction operators : 18 Overloading stream-insertion and stream-extraction operators In fact, cout<< or cin>> are operator overloading built in C++ standard lib of iostream.h, using operator "<<" and ">>" cout and cin are the objects of ostream and istream classes, respectively We can add a friend function which overloads the operator << friend ostream& operator<< (ostream &os, const Date &d); Overloading stream-insertion and stream-extraction operators : 19 Overloading stream-insertion and stream-extraction operators We can also add a friend function which overloads the operator >> istream& operator>> (istream &in, Date &d) { char mmddyy[9]; in >> mmddyy; // check if valid data entered if (d.set(mmddyy)) return in; cout<< "Invalid date format: "<<d<<endl; exit(-1); } friend istream& operator>> (istream &in, Date &d); cin >> d1; Inline functions : 20 Inline functions An inline function is one in which the function code replaces the function call directly. Inline class member functions if they are defined as part of the class definition, implicit if they are defined outside of the class definition, explicit, I.e.using the keyword, inline. Inline functions should be short (preferable one-liners). Why? Because the use of inline function results in duplication of the code of the function for each invocation of the inline function Example of Inline functions : 21 class CStr { char *pData; int nLength; … public: … char *get_Data(void) {return pData; }//implicit inline function int getlength(void); … }; inline void CStr::getlength(void) //explicit inline function { return nLength; } … int main(void) { char *s; int n; CStr a(“Joe”); s = a.get_Data(); n = b.getlength(); } Example of Inline functions Inline functions within class declarations Inline functions outside of class declarations In both cases, the compiler will insert the code of the functions get_Data() and getlength() instead of generating calls to these functions Inline functions (II) : 22 Inline functions (II) An inline function can never be located in a run-time library since the actual code is inserted by the compiler and must therefore be known at compile-time. It is only useful to implement an inline function when the time which is spent during a function call is long compared to the code in the function. Take Home Message : 23 Take Home Message Operator overloading provides convenient notations for object behaviors There are three ways to implement operator overloading member functions normal non-member functions friend functions You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
C Concepts ankush85 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 4811 Category: Education License: All Rights Reserved Like it (9) Dislike it (0) Added: April 08, 2009 This Presentation is Public Favorites: 9 Presentation Description No description available. Comments Posting comment... By: tsitij (13 month(s) ago) pls send me at tsitij@gmail.com thanxxxxxxxx Saving..... Post Reply Close Saving..... Edit Comment Close By: rakhikirti (13 month(s) ago) i need the presentation on friend function Saving..... Post Reply Close Saving..... Edit Comment Close By: rakhikirti (13 month(s) ago) good Saving..... Post Reply Close Saving..... 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See all Premium member Presentation Transcript C++ Concepts : 1 C++ Concepts Operator overloading Friend Function This Operator Inline Function Operator overloading : 2 Operator overloading Programmer can use some operator symbols to define special member functions of a class Provides convenient notations for object behaviors Why Operator Overloading : 3 int i, j, k; // integers float m, n, p; // floats k = i + j; // integer addition and assignment p = m + n; // floating addition and assignment Why Operator Overloading The compiler overloads the + operator for built-in integer and float types by default, producing integer addition with i+j, and floating addition with m+n. We can make object operation look like individual int variable operation, using operator functions Complex a,b,c; c = a + b; Operator Overloading Syntax : 4 Operator Overloading Syntax Syntax is: operator@(argument-list) --- operator is a function --- @ is one of C++ operator symbols (+, -, =, etc..) Examples: operator+ operator- operator* operator/ Example of Operator Overloading : 5 class CStr { char *pData; int nLength; public: // … void cat(char *s); // … CStr operator+(CStr str1, CStr str2); CStr operator+(CStr str, char *s); CStr operator+(char *s, CStr str); //accessors char* get_Data(); int get_Len(); }; Example of Operator Overloading void CStr::cat(char *s) { int n; char *pTemp; n=strlen(s); if (n==0) return; pTemp=new char[n+nLength+1]; if (pData) strcpy(pTemp,pData); strcat(pTemp,s); pData=pTemp; nLength+=n; } The Addition (+) Operator : 6 The Addition (+) Operator CStr CStr::operator+(CStr str1, CStr str2) { CStr new_string(str1); //call the copy constructor to initialize an //entirely new CStr object with the first //operand new_string.cat(str2.get_Data()); //concatenate the second operand onto the //end of new_string return new_string; //call copy constructor to create a copy of //the return value new_string } new_string str1 strlen(str1) strcat(str1,str2) strlen(str1)+strlen(str2) How does it work? : 7 How does it work? CStr first(“John”); CStr last(“Johnson”); CStr name(first+last); CStr CStr::operator+(CStr str1,CStr str2) { CStr new_string(str1); new_string.cat(str2.get()); return new_string; } “John Johnson” Temporary CStr object Copy constructor name Implementing Operator Overloading : 8 Implementing Operator Overloading Two ways: Implemented as member functions Implemented as non-member or Friend functions the operator function may need to be declared as a friend if it requires access to protected or private data Expression obj1@obj2 translates into a function call obj1.operator@(obj2), if this function is defined within class obj1 operator@(obj1,obj2), if this function is defined outside the class obj1 Implementing Operator Overloading : 9 Defined as a member function Implementing Operator Overloading class Complex { ... public: ... Complex operator +(const Complex &op) { double real = _real + op._real, imag = _imag + op._imag; return(Complex(real, imag)); } ... }; c = a+b; Implementing Operator Overloading : 10 Defined as a non-member function Implementing Operator Overloading class Complex { ... public: ... double real() { return _real; } //need access functions double imag() { return _imag; } ... }; Complex operator +(Complex &op1, Complex &op2) { double real = op1.real() + op2.real(), imag = op1.imag() + op2.imag(); return(Complex(real, imag)); } c = a+b; Implementing Operator Overloading : 11 Defined as a friend function Implementing Operator Overloading class Complex { ... public: ... friend Complex operator +( const Complex &, const Complex & ); ... }; Complex operator +(Complex &op1, Complex &op2) { double real = op1._real + op2._real, imag = op1._imag + op2._imag; return(Complex(real, imag)); } c = a+b; Ordinary Member Functions, Static Functionsand Friend Functions : 12 Ordinary Member Functions, Static Functionsand Friend Functions The function can access the private part of the class definition The function is in the scope of the class The function must be invoked on an object Which of these are true about the different functions? What is ‘Friend’? : 13 What is ‘Friend’? Friend declarations introduce extra coupling between classes Once an object is declared as a friend, it has access to all non-public members as if they were public Access is unidirectional If B is designated as friend of A, B can access A’s non-public members; A cannot access B’s A friend function of a class is defined outside of that class's scope More about ‘Friend’ : 14 More about ‘Friend’ The major use of friends is to provide more efficient access to data members than the function call to accommodate operator functions with easy access to private data members Friends can have access to everything, which defeats data hiding, so use them carefully Friends have permission to change the internal state from outside the class. Always recommend use member functions instead of friends to change state Assignment Operator : 15 Assignment Operator Assignment between objects of the same type is always supported the compiler supplies a hidden assignment function if you don’t write your own one same problem as with the copy constructor - the member by member copying Syntax: class& class::operator=(const class &arg) { //… } Example: Assignment for CStr class : 16 Example: Assignment for CStr class CStr& CStr::operator=(const CStr &source){ //... Do the copying return *this; } Assignment operator for CStr: CStr& CStr::operator=(const CStr & source) Copy Assignment is different from Copy Constructor The “this” pointer : 17 The “this” pointer Within a member function, the this keyword is a pointer to the current object, i.e. the object through which the function was called C++ passes a hidden this pointer whenever a member function is called Within a member function definition, there is an implicit use of this pointer for references to data members pData nLength this Data member reference Equivalent to pData this->pData nLength this->nLength CStr object (*this) Overloading stream-insertion and stream-extraction operators : 18 Overloading stream-insertion and stream-extraction operators In fact, cout<< or cin>> are operator overloading built in C++ standard lib of iostream.h, using operator "<<" and ">>" cout and cin are the objects of ostream and istream classes, respectively We can add a friend function which overloads the operator << friend ostream& operator<< (ostream &os, const Date &d); Overloading stream-insertion and stream-extraction operators : 19 Overloading stream-insertion and stream-extraction operators We can also add a friend function which overloads the operator >> istream& operator>> (istream &in, Date &d) { char mmddyy[9]; in >> mmddyy; // check if valid data entered if (d.set(mmddyy)) return in; cout<< "Invalid date format: "<<d<<endl; exit(-1); } friend istream& operator>> (istream &in, Date &d); cin >> d1; Inline functions : 20 Inline functions An inline function is one in which the function code replaces the function call directly. Inline class member functions if they are defined as part of the class definition, implicit if they are defined outside of the class definition, explicit, I.e.using the keyword, inline. Inline functions should be short (preferable one-liners). Why? Because the use of inline function results in duplication of the code of the function for each invocation of the inline function Example of Inline functions : 21 class CStr { char *pData; int nLength; … public: … char *get_Data(void) {return pData; }//implicit inline function int getlength(void); … }; inline void CStr::getlength(void) //explicit inline function { return nLength; } … int main(void) { char *s; int n; CStr a(“Joe”); s = a.get_Data(); n = b.getlength(); } Example of Inline functions Inline functions within class declarations Inline functions outside of class declarations In both cases, the compiler will insert the code of the functions get_Data() and getlength() instead of generating calls to these functions Inline functions (II) : 22 Inline functions (II) An inline function can never be located in a run-time library since the actual code is inserted by the compiler and must therefore be known at compile-time. It is only useful to implement an inline function when the time which is spent during a function call is long compared to the code in the function. Take Home Message : 23 Take Home Message Operator overloading provides convenient notations for object behaviors There are three ways to implement operator overloading member functions normal non-member functions friend functions