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So for the following code I have been trying to use singly linked lists in python to calculate the sum of a list based on the even numbers within that list. I've written the code for the linked list portion I believe but I'm stumped on how to get it to actually take the even numbers only and sum them. Right now my code looks something like this:

def createList(plist):
     linkedList = None
     # goes backwards, adding each element to the beginning
     # of the list.  
     for index in range(len(plist)-1, -1, -1):
        linkedList = insertValueHead(linkedList, plist[index])
    return linkedList

def sumEvens(linkedList): #This is what I'm looking for help with
    .... #code


def testSumEvens():
    myList = createList([14, 21, 29, 2, 16, 49, -26])
    print "The sum of the even numbers in the first list is ", sumEvens(myList)
    myList = createList([])
    print "The sum of the even numbers in an empty list is ", sumEvens(myList)
    myList = createList([5, 15, 25])
    print "The sume of the even numbers in the final list is ", sumEvens(myList)

How would I go about making this create a sum of these lists? Such as in the first, 14 + 2 + 16?

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2  
make your list iterable by defining a __next__ method ... then just use sum –  Joran Beasley Aug 5 '14 at 19:20
1  
Per this question use num % 2 == 0 to determine if the number is even or odd –  wnnmaw Aug 5 '14 at 19:21
1  
How does your list class look? Without knowing how it looks, I would suggest something along the lines of ((lst.head if lst.head % 2 == 0 else 0) + sumEvens(lst.tail)) if lst else 0 –  tobias_k Aug 5 '14 at 19:21
1  
Why are you writing your own implementation of list? Homework? –  stderr Aug 5 '14 at 19:24
2  
possible duplicate of Using linked lists to sum only even numbers? –  tobias_k Aug 5 '14 at 19:36

2 Answers 2

As previously mentioned taking the modulous % of a number will yield the remainder. Thus if n%2 is 0, then the number is even. You could implement sumEvens like this...

def sumEvens(linkedList):
    runningSum = 0
    for number in linkedList:
        if number % 2 == 0:
            runningSum += number
            print number
    print runningSum

sumEvens([14, 21, 29, 2, 16, 49, -26]) # prints 6 (14+2+16-26)
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1  
... assuming linkedList is just a regular Python list. –  tobias_k Aug 5 '14 at 19:24
    
Correct or OP would have to modify his linkedList class to be an iterable stackoverflow.com/questions/9884132/… –  The2ndSon Aug 5 '14 at 19:27
2  
@The2ndSon from what I can tell from his previous questions, he wants to implement it entirely C-style, only in Python instead of C. –  TheSoundDefense Aug 5 '14 at 19:31
    
@TheSoundDefense, agreed. There was a very well constructed answer to a similar question by OP. It would be worth time to look at that again if you need help building your linked-list class stackoverflow.com/questions/25131144/… –  The2ndSon Aug 5 '14 at 19:35
    
@The2ndSon well the OP has not demonstrated thus far that he is reading the answers all that carefully, unfortunately. –  TheSoundDefense Aug 5 '14 at 19:38

here is a very basic linked list example

class LLNode:
    def __init__(self,value):
        self.next = None
        self.val = value
    def __float__(self):
        return float(self.val)
    def __int__(self):
        return int(self.val)
    def __str__(self):
        return str(self.val)

class LL:
    head =None
    def iterNodes(self):
        tmp = self.head
        while tmp is not None:
            yield tmp
            tmp = tmp.next
    def iterInts(self):
        for node in self.iterNodes():
            try:
                yield int(node)
            except ValueError:
                pass
    def iterFloats(self):
        for node in self.iterNodes():
            try:
                yield float(node)
            except ValueError:
                pass
    def iterStrings(self):
        for node in self.iterNodes():
            yield str(node)

    def insert(self,value):
        nn = LLNode(value)
        if self.head is None:
           self.head = nn
        else:
            list(self.iterNodes())[-1].next = nn



l = LL()
l.insert(1)
l.insert(2)
l.insert(3)
l.insert(4)
l.insert(5)
l.insert(6)
print "Sum of Even:",sum([n for n in l.iterInts() if n%2 == 0])
print "Sum of Odd:", sum([n for n in l.iterInts() if n%2 != 0])

the iterFunctions are the ones of primary interest to you I think

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