Difference between revisions of "Q1sol the solution"
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//to write a linked list like structure, you must begin with a node. Without the node, | //to write a linked list like structure, you must begin with a node. Without the node, | ||
//you can't have a linked list. | //you can't have a linked list. | ||
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return rc; | return rc; | ||
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Revision as of 17:02, 4 August 2010
//to write a linked list like structure, you must begin with a node. Without the node, //you can't have a linked list. template <class T> struct Node{ T data_; Node<T>* next_; }; template <class T> class Stack{ Node<T>* start_; public: /*this constructor initializes the stack to an empty stack*/ Stack(); /*this function adds a piece of data of type T to the stack and returns nothing*/ void push(T data); /*removes and returns a piece of data from the stack. If the stack is empty throw the string "empty stack"*/ T pop() /*returns true if empty, false otherwise*/ bool isempty(); }; template <class T> Stack<T>::Stack(){ start_=NULL; } template <class T> void Stack<T>::push(T data){ Node<T>* nn; nn=new Node<T>; nn->data_=data; nn->next_=start_; start_=nn; } template <class T> T Stack<T>::pop(){ T rc; if(isempty()){ throw "Empty Stack"; } else{ //this else is optional because if you throw an exception,rest rc=start_->data_; Node<T>* rm=start_; start_=start_->next; delete rm; } return rc; } template <class T> bool Stack<T>::isempty(){ bool rc=true; if(start_){ rc=false; } return rc; }