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Stacks Prepared By : Ramesh Kumar PGT CS(KV Chamera-II(NHPC)

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1 Stacks Prepared By : Ramesh Kumar PGT CS(KV Chamera-II(NHPC)

2 Stack A stack is a data structure that stores data in such a way that the last piece of data stored, is the first one retrieved –also called last-in, first-out Only access to the stack is the top element –consider trays in a cafeteria to get the bottom tray out, you must first remove all of the elements above

3 Stack Push –the operation to place a new item at the top of the stack Pop –the operation to remove the next item from the top of the stack

4 Stack A X R C push(M) A X R C M item = pop() item = M A X R C

5 Implementing a Stack At least three different ways to implement a stack –array –vector –linked list Which method to use depends on the application –what advantages and disadvantages does each implementation have?

6 Implementing Stacks: Array Advantages –best performance Disadvantage –fixed size Basic implementation –initially empty array –field to record where the next data gets placed into –if array is full, push() returns false otherwise adds it into the correct spot –if array is empty, pop() returns null otherwise removes the next item in the stack

7 Stack Class (array based) class StackArray { private Object[ ] stack; private int nextIn; public StackArray(int size) { stack = new Object[size]; nextIn = 0; } public boolean push(Object data); public Object pop(); public void clear(); public boolean isEmpty(); public boolean isFull(); }

8 push() Method (array based) public boolean push(Object data) { if(nextIn == stack.length) { return false; } // stack is full // add the element and then increment nextIn stack[nextIn] = data; nextIn++; return true; }

9 pop() Method (array based) public Object pop() { if(nextIn == 0) { return null; } // stack is empty // decrement nextIn and return the data nextIn--; Object data = stack[nextIn]; return data; }

10 Notes on push() and pop() Other ways to do this even if using arrays –may want to keep a size variable that tracks how many items in the list –may want to keep a maxSize variable that stores the maximum number of elements the stack can hold (size of the array) you would have to do this in a language like C++ –could add things in the opposite direction keep track of nextOut and decrement it on every push; increment it on every pop

11 Remaining Methods (array based) public void clear() { nextIn = 0; } public boolean isEmpty() { return nextIn == 0; } public boolean isFull() { return nextIn == stack.length; }

12 Additional Notes Notice that the array is considered empty if nextIn equals zero –doesn’t matter if there is more data stored in the array – it will never be retrieved pop() method will automatically return For a truly robust implementation –should set array elements equal to null if they are not being used why? how?

13 Implementing a Stack: Vector Advantages –grows to accommodate any amount of data –second fastest implementation when data size is less than vector size Disadvantage –slowest method if data size exceeds current vector size have to copy everything over and then add data –wasted space if anomalous growth vectors only grow in size – they don’t shrink –can grow to an unlimited size I thought this was an advantage? Basic implementation –virtually identical to array based version

14 Stack Class (vector based) class StackVector { private Object[ ] stack; private int nextIn; public StackVector(int initialSize) { stack = new Object[initialSize]; nextIn = 0; } public void push(Object data); public Object pop(); public void clear(); public boolean isEmpty(); }

15 push() Method (vector based) public void push(Object data) { // see if we need to grow this stack if(nextIn == stack.length) { Object [ ] tmp = new Object[stack.length * 2]; for(int i=0; i<stack.length; i++) tmp[i] = stack[i]; stack = tmp; } // now add the element and increment nextIn stack[nextIn] = data; nextIn++; }

16 pop() Method (vector based) public Object pop() { if(nextIn == 0) { return null; } // stack empty // decrement nextIn, get the data, and return it nextIn--; Object data = stack[nextIn]; return data; }

17 Notes on push() and pop() Notice that the pop() method is identical to that for an array based version Only difference is in push() method –doesn’t return a boolean because it cannot fail unless we run out of memory  –first checks if the push will exceed the current array if so, create a new array that’s 2x as big, copy data, and make that the new stack this is the case that’s very slow

18 Remaining Methods (vector based) The clear() and isEmpty() methods are identical to those in an array based stack implementation There is no need for an isFull() method –why?

19 Implementing a Stack: Linked List Advantages: –always constant time to push or pop an element –can grow to an infinite size Disadvantages –the common case is the slowest of all the implementations –can grow to an infinite size Basic implementation –list is initially empty –push() method adds a new item to the head of the list –pop() method removes the head of the list

20 Stack Class (list based) class StackList { private LinkedList list; public StackList() { list = new LinkedList(); } public void push(Object data) { list.addHead(data); } public Object pop() { return list.deleteHead(); } public void clear() { list.clear(); } public boolean isEmpty() { return list.isEmpty(); } }

21 Additional Notes It should appear obvious that linked lists are very well suited for stacks –addHead() and deleteHead() are basically the push() and pop() methods Our original list implementation did not have a clear() method –it’s very simple to do –how would you do it? Again, no need for the isFull() method –list can grow to an infinite size

22 Stack Applications Stacks are a very common data structure –compilers parsing data between delimiters (brackets) –operating systems program stack –virtual machines manipulating numbers –pop 2 numbers off stack, do work (such as add) –push result back on stack and repeat –artificial intelligence finding a path

23 Reverse Polish Notation Way of inputting numbers to a calculator –(5 + 3) * 6 becomes 5 3 + 6 * –5 + 3 * 6 becomes 5 3 6 * + We can use a stack to implement this –consider 5 3 + 6 * 5 3 8 + 8 6 * 6 48 –try doing 5 3 6 * +

24 public int rpn(String equation) { StackList stack = new StackList(); StringTokenizer tok = new StringTokenizer(equation); while(tok.hasMoreTokens()) { String element = tok.nextToken(); if(isOperator(element)) { char op = element.charAt(0); if(op == ‘=‘) { int result = ((Integer)stack.pop()).intValue(); if(!stack.isEmpty() || tok.hasMoreTokens()) { return Integer.MAX_VALUE; } // error else { return result; } } else { Integer op1 = (Integer)stack.pop() Integer op2 = (Integer)stack.pop(); if((op1 == null) || (op2 == null)) { return Integer.MAX_VALUE; } stack.push(doOperation(op, op1, op2)); } else { Integer operand = new Integer(Integer.parseInt(element)); stack.push(operand); } return Integer.MAX_VALUE; }

25 Finding a Path Consider the following graph of flights PRXQ W YZST Key : city (represented as C) : flight from city C 1 to city C 2 C 1 C 2 flight goes from W to S W S Example

26 Finding a Path If it exists, we can find a path from any city C 1 to another city C 2 using a stack –place the starting city on the bottom of the stack mark it as visited pick any arbitrary arrow out of the city –city cannot be marked as visited place that city on the stack –also mark it as visited if that’s the destination, we’re done otherwise, pick an arrow out of the city currently at –next city must not have been visited before –if there are no legitimate arrows out, pop it off the stack and go back to the previous city repeat this process until the destination is found or all the cities have been visited

27 Example Want to go from P to Y –push P on the stack and mark it as visited –pick R as the next city to visit (random select) push it on the stack and mark it as visited –pick X as the next city to visit (only choice) push it on the stack and mark it as visited –no available arrows out of X – pop it –no more available arrows from R – pop it –pick W as next city to visit (only choice left) push it on the stack and mark it as visited –pick Y as next city to visit (random select) this is the destination – all done

28 Psuedo-Code for the Example public boolean findPath(City origin, City destination) { StackArray stack = new Stack(numCities); clearAllCityMarks(); stack.push(origin); origin.mark(); while(!stack.isEmpty()) { City next = pickCity(); if(next == destination) { return true; } if(next != null) { stack.push(next); } else { stack.pop(); } // no valid arrows out of city } return false; }

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