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What is the specific method to iterate a stack in python. is the best practice to use a for loop just like to iterate a list?

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4  
Could you be more specific about what you mean by "stack" and "iterate"? Perhaps show an example for-loop that you think is not quite right. –  zwol Nov 9 '11 at 4:38
    
in C# language we get an iterator object to iterate a list or a stack . in python when iterating a stack is there a good practice? –  Kalanamith Nov 9 '11 at 4:40
1  
I Think you'll find "best practice" is heavily tied to purpose, you can iterate using list comprehensions, itertools.chain, generator sequences, map and many more. The most readable solution is usually the best, if speed is an issue then use what is fastest while still maintaining readability. –  Serdalis Nov 9 '11 at 4:44
    
can any one provide a working example? –  Kalanamith Nov 9 '11 at 4:47
    
see my comment below, there's pretty much well explained –  juliomalegria Nov 9 '11 at 21:00

3 Answers 3

up vote 0 down vote accepted

As the others have said, python doesn't really have a built-in stack datatype, per se-- but you can use a list to emulate one.

When using a list as a stack, you can model the first-in-last-out behavior with append() as push and pop() as pop, as julio.alegria describes.

If you want to use that list in a for-loop, but still have it behave in the FILO fashion you can reverse the order of the elements with this slice syntax: [::-1].

Example:

for element in stack[::-1]:
    print element

If you're using a custom class that implements a stack, just as long as it has __iter__() and next() methods defined you can use it in list comprehensions, for loops, or whatever.

That way you can implement a custom iterator that removes items as it iterates over it, just as it should with a proper stack.

Example:

class Stack:
    def __init__(self):
        self.data = []
    def push(self,n):
        self.data.append(n)
    def pop(self):
        return self.data.pop()
    def __iter__(self):
        return self
    def next(self):
        if len(self.data)>0:
            return self.pop()
        else:
            raise StopIteration

filo = Stack()
filo.push(1)
filo.push(2)
filo.push(3)

for i in filo:
    print i
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In Python, unlike other prog. languages ​​like C++ (STL), we do not have predefined data structure Stack, we just have a regular List.

So, if you want to iterate your "Stack" as a regular List, you can just simply have to make something like:

for item in reversed(my_list): # to preserve LIFO
    # do something with item
    # ...

Now, if you want your List to behave as a Stack (LIFO: Last In First Out), you could use the predefined list functions append and pop:

>>> stack = [1, 2]
>>> stack.append(3)
>>> stack.append(4)
>>> stack
[1, 2, 3, 4]
>>> stack.pop()
4
>>> stack
[1, 2, 3]

More about this in http://docs.python.org/tutorial/datastructures.html#using-lists-as-stacks

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1  
.append(), .pop() work at the end of the list. You should probably use for item in reversed(my_list) to preserve LIFO order. –  J.F. Sebastian Nov 9 '11 at 5:35
    
you are totally right, I'll edit my answer right now –  juliomalegria Nov 9 '11 at 5:43

If your stack can potentially grow to large proportions, you should absolutely not be using a List or a customer stack class. Raymond Hettinger has already done the work for you and written the wonderful collections.deque. The deque is a list like data structure that supports constant time appends and pops from both ends.

>>> from collections import deque
>>>
>>> stack = deque()
>>> stack.append(1)
>>> stack.append(2)
>>> stack.append(3)
>>> print stack
deque([1,2,3])

By then appropriately using deque.pop() and deque.popleft() you can acheive both FILO and FIFO respectively. You can also iterate over it with for item in stack if you want FIFO or for item in reversed(stack) for FILO, which will generate a memory efficient reverse iterator.

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