Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have been staring at this problem for days and I am stuck. I know I need to use multiple stacks and multiple queues but I just can't figure out the implementation. Implement (in Python) the selection sort algorithm using array, linked-list, stack, and queue data structures. That is, the input to selection sort will be an array or a linked-list or a stack or a queue of numbers and access to the data in those structures is via functions typical of the data structures

This is my code:

from Queue import *
from random import randint
from Stack import *
from LinkedList import *
from time import *

def ArraySort(A):
    length=len(A)
    for i in range (0,length-1):
        minpos=i
        for j in range(i+1,length):
            if A[j]<A[i]:
                minpos=j
        temp=A[i]
        A[i]=A[minpos]
        A[minpos]=temp

def LinkedListSort(L,length):
    A=[]
    for i in range (0,length-1):
        minpos=i
        for j in range(i,length):
            if i==0:
                A[j]=L.remove(0)
            else:
                if A[j]<A[i]:
                    minpos=j
        temp=A[i]
        A[i]=A[minpos]
        A[minpos]=temp  

def StackSort(S, length):
    A=[]
    for i in range (0,length-1):
        minpos=i
        for j in range(i,length):
            if i==0:
                A[j]=S.pop()
            else:
                if A[j]<A[i]:
                    minpos=j
        temp=A[i]
        A[i]=A[minpos]
        A[minpos]=temp    

def QueueSort(Q, length):
    length=len(Q)
    A=[]
    for i in range (0,length-1):
        minpos=i
        for j in range(i,length):
            if i==0:
                A[j]=Q.dequeue()
            else:
                if A[j]<A[i]:
                    minpos=j
        temp=A[i]
        A[i]=A[minpos]
        A[minpos]=temp

def main():
    for n in [10,100,500,1000,10000,100000]:
        A=[]
        L=LinkedList()
        S=Stack()
        Q=Queue()
        start,end=0,0
        for i in range(0,n):
            r=randint(0,n)
            A.append(r)
            L.add(r)
            S.push(r)
            Q.enqueue(r)
            i+=1
        start=time()
        ArraySort(A)
        end=time()-start
        print "Array: size=",n,"time=",end
        LinkedListSort(L,n)
        end=time()-start
        print "Linked List: size=",n,"time=",end
        start=time()
        StackSort(S,n)
        end=time()-start
        print "Stack: size=",n,"time=",end
        start=time()
        QueueSort(Q, n)
        end=time()-start
        print "Queue: size=",n,"time=",end
        start=time() 

main()
share|improve this question
1  
Don't use wildcard imports. It's just going to cause seemingly random problems in the future. It'll be useful if you post your implementations of Stack and LinkedList. –  sdolan Feb 21 '12 at 22:45
1  
This sounds like homework (if so should be tagged as such), so this might not be appropriate, but couldn't you just suck the data out of whatever structure its in and into, say, an array, sort that, then move the data back? Maybe not so efficient, but a heck of a lot less code to write. –  Scott Hunter Feb 21 '12 at 23:04

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Browse other questions tagged or ask your own question.