template
Syntax: template <class data-type> return-type name( parameter-list ) { statement-list; } Templates are used to create generic functions and can operate on data without knowing the nature of that data. They accomplish this by using a placeholder data-type for which many other data types can be substituted. Example code:
For example, the following code uses a template to define a generic swap function that can swap two variables of any type: template<class X> void genericSwap( X &a, X &b ) { X tmp; tmp = a; a = b; b = tmp; } int main(void) { ... int num1 = 5; int num2 = 21; cout << "Before, num1 is " << num1 << " and num2 is " << num2 << endl; genericSwap( num1, num2 ); cout << "After, num1 is " << num1 << " and num2 is " << num2 << endl; char c1 = 'a'; char c2 = 'z'; cout << "Before, c1 is " << c1 << " and c2 is " << c2 << endl; genericSwap( c1, c2 ); cout << "After, c1 is " << c1 << " and c2 is " << c2 << endl; ... return( 0 ); } Related topics:
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