# Converting a list to a linked list

I'm trying to figure out to convert a list to a linked list. I already have a class for the link but I'm trying to figure out how to convert a list to linked list, for example:

``````def list_to_link(lst):
"""Takes a Python list and returns a Link with the same elements.

<1 2 3>
"""

empty = ()

def __init__(self, first, rest=empty):
self.first = first
self.rest = rest

<1 2 3>
<1 <2> 3>
<3 <4> 5 6>
"""
``````
• Why do you need a linked-list? What kind of functionality would it offer? (not already offered by std lists) Commented Jul 22, 2015 at 4:03
• Its simply an exercise for an assignment. I'm guessing they want us to think about linked lists as a mutable function but I'm confused on how to approach the question. Commented Jul 22, 2015 at 4:08
• This could be helpful interactivepython.org/runestone/static/pythonds/BasicDS/… Commented Jul 22, 2015 at 4:21
• thanks! I'll take a look Commented Jul 22, 2015 at 4:22
• I don't think this is quite the same as a linked list. You have nested all of the `Link`s into a single `Link`.
– Matt
Commented Jul 22, 2015 at 5:25

I have an idea using dummy ListNode. This makes code simple and neat.

``````class ListNode:
def __init__(self, x):
self.val = x
self.next = None

cur = dummy = ListNode(0)
for e in lst:
cur.next = ListNode(e)
cur = cur.next
return dummy.next
``````

Matt's answer is good, but it's outside the constraint of the function prototype described in the problem above.

Reading the abstract/prototype, it looks like the creator of the problem wanted to solve this with recursive/dynamic programming methodology. This is a pretty standard recursive algorithm introduction. It's more about understanding how to write elegant recursive code more than creating linked-list in Python (not really useful or common).

Here's a solution I came up with. Try it out:

``````class Link:
empty = ()

def __init__(self, first, rest=empty):
self.first = first
self.rest = rest

"""

"""Takes a Python list and returns a Link with the same elements.
"""
if len(lst) == 1:

first = '<' + helper(link.first).rstrip() + '>'  # <<<< RECURSIVE
else:

return first + ' ' + helper(link.rest)  # <<<< RECURSIVE
else:
return first + ' '

def main():
""" Below are taken from sample in function prototype comments
"""

if __name__ == '__main__':
main()
``````

This is what you want.

``````class Node(object):
def __init__(self, value, next=None):
self.value = value
self.reference = next

def __init__(self, sequence):
for item in sequence[1:]:
current.reference = Node(item)
current = current.reference
a = range(10)
while current is not None:
print current.value
current = current.reference
``````
• Alright thanks, I havent learned about Nodes yet so I dont really understand the code but thanks for your input! Commented Jul 22, 2015 at 5:13
• @d'chang The Node is a container with a `value` and a pointer to the next node aka the `reference`. Try running the code and you'll see that it converts a Python list into a `LinkedList`. It seems like you changed your question though.
– Matt
Commented Jul 22, 2015 at 5:15
• oh yeah sorry @Matt. I did. I figured out how the previous question I'm sorry if that wasn't clear. I will change it back to accommodate your answer Commented Jul 22, 2015 at 5:20

In case it helps anyone, here is an example for converting a set (could be a list or array etc...some sequence) to a singly linked list or a doubly linked list:

``````class LinkedList:
def __init__(self):

def print_in_order(self):
'''
until the end of the list
'''
print(curr_node.val)
while curr_node.next is not None:
print(curr_node.next.val)
curr_node = curr_node.next

def __init__(self, val=None, next=None):
'''
'''
self.val = val
self.next = next

'''
'''

def populate_from_set(self, set_to_use: set):
'''
iteratively populate a singly linked list from a set of values
'''
if len(set_to_use) == 0:
raise ValueError('Cannot start a singly linked list from an empty set.')

# then iterate through to the end of the set, linking each node to the next
node_prev = None
for set_i in range(len(set_to_use)):

# set the current node

# set the head of the SLL on the first pass through the set
if set_i == 0:
# otherwise we link the previous node to the current node
else:
node_prev.next = node_curr

# then set the previous node to the current node for the next iteration
node_prev = node_curr

def __init__(self, val=None, prev=None, next=None):
self.val = val
self.prev=prev
self.next=next

def __init__(self, tail=None):
self.tail=tail

def populate_from_set(self, set_to_use: set):
'''
iteratively populate the doubly linked list from a set of values
'''
if len(set_to_use) == 0:
raise ValueError('Cannot populate a doubly linked list from an empty set.')

prev_node = None
for set_i in range(len(set_to_use)):

# if we are on the first element, we assign the head
if set_i == 0:
# otherwise we assign a next value to the previous and a
# previous to the current
else:
prev_node.next = curr_node
curr_node.prev = prev_node

# if we are on the last set element, we assign a tail value
if set_i == len(set_to_use)-1:
self.tail = curr_node

prev_node = curr_node

def print_in_reverse_order(self):
'''
print all linked list elements starting from the tail
and walking along until you hit the head
'''
curr_node = self.tail
print(curr_node.val)
while curr_node.prev is not None:
print(curr_node.prev.val)
curr_node = curr_node.prev

def main():

days = ('Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun')
print('SINGLE:')
sll.populate_from_set(days)
sll.print_in_order()

print('\n\nDOUBLE:')