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T EMPLATES Chapter 11 (11.1 and 11.2 only) Department of CSE, BUET 1.

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Presentation on theme: "T EMPLATES Chapter 11 (11.1 and 11.2 only) Department of CSE, BUET 1."— Presentation transcript:

1 T EMPLATES Chapter 11 (11.1 and 11.2 only) Department of CSE, BUET 1

2 O BJECTIVES Generic functions Generic classes 2 Department of CSE, BUET

3 G ENERIC F UNCTIONS A generic function defines a general set of operations that will be applied to various types of data Allows to create a function that that can automatically overload itself !!! Allows to make the data type, on which to work, a parameter to the function General form template ret-type func-name(param list) { // body of function } Here, template is a keyword We can use keyword “typename” in place of keyword “class” “TtypeN” is the placeholder for data types used by the function 3 Department of CSE, BUET

4 G ENERIC F UNCTIONS (E XAMPLE -1) Department of CSE, BUET 4 template void swapargs( X &a, X &b) { X temp; temp = a; a = b; b = temp; } template void print( X1 x, X2 y) { cout << x << “, ” << y << endl; } void main() { int i = 10, j = 20; double x = 11.11, y = 22.22; print(i, j); // 10, 20 swapargs (i, j); // (int, int) print(i, j); // 20, 10 print(x, y); // 11.11, 22.22 swapargs (x, y); (double, double) print(x, y); // 22.22, 11.11 print(i, y); // 20, 11.11 // (int, double) }

5 G ENERIC F UNCTIONS ( CONTD.) The compiler generates as many different versions of a template function as required Generic functions are more restricted than overloaded functions Overloaded functions can alter their processing logic But, a generic function has only a single processing logic for all data types We can also write an explicit overload of a template function 5 Department of CSE, BUET

6 G ENERIC F UNCTIONS (E XAMPLE -2) template void swapargs(X &a, X &b) { cout << “template version\n”; } void swapargs(int &a, int &b) { cout << “int version\n”; } void main() { int i = 10, j = 20; double x = 11.11, y = 22.22; swapargs(i, j); // “int version” swapargs(x, y); // “template version” } 6 Department of CSE, BUET

7 G ENERIC C LASSES Makes a class data-type independent Useful when a class contains generalizable logic A generic stack A generic queue A generic linked list etc. etc. etc. The actual data type is specified while declaring an object of the class General form template class class-name { // body of class }; 7 Department of CSE, BUET

8 G ENERIC C LASSES (E XAMPLE ) Department of CSE, BUET 8 template class stack { X stck[10]; int tos; public: void init( ) { tos = 0; } void push( X item); X pop( ); }; template void stack ::push( X item) { … } template X stack ::pop( ) { … }

9 G ENERIC C LASSES (E XAMPLE ) ( CONTD.) Department of CSE, BUET 9 void main( ) { stack s1, s2; s1.init( ); s2.init( ); s1.push(‘a’); s1.push(‘b’); s2.push(‘x’); s2.push(‘y’); cout << s1.pop( ); // b cout << s2.pop( ); // y stack ds1, ds2; ds1.init( ); ds2.init( ); ds1.push(1.1); ds1.push(2.2); ds2.push(3.3); ds2.push(4.4); cout << ds1.pop( ); // 2.2 cout << ds2.pop( ); // 4.4 }

10 L ECTURE C ONTENTS Teach Yourself C++ Chapter 11 (11.1 and 11.2) Study the examples from the book carefully 10 Department of CSE, BUET

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