Python Logic of ListNode in Leetcode

Here is the definition of `ListNote` class in `LeetCode`:

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

For the code:

``````result = ListNode(0)
#result = 0 -> None
result_tail = result
#result_tail = 0 -> None
result_tail.next = ListNode(1)
#result_tail = 0 -> 1 -> None
#result = 0 -> 1 -> None
result_tail = result_tail.next
#result_tail = 1 -> None
#result = 0 -> 1 -> None
result_tail.next = ListNode(2)
#result_tail = 1 -> 2 -> None
#result = 0 -> 1 -> 2 -> None
result_tail = result_tail.next
#result_tail = 2 -> None
#result = 0 -> 1 -> 2 -> None
``````

The values in comments are from my guessing. I cannot understand the step

``````result_tail = result_tail.next
``````

`result_tail = result` is pass by reference, so when `result_tail` becomes `1 -> None`, `result` should also become `1 -> None`. Why does `result` still keep `0 -> 1 -> None`? And when `result_tail` becomes `1 -> 2 -> None`, why does `result` extend its tail to `0 -> 1 -> 2 -> None`?

``````result_tail = result_tail.next
``````

is something like

``````result_tail = result.next.next
``````

Can anyone tell me the logic here?

The short answer to this is that, Python is a pass-by-object-reference language, not pass-by-reference as implied in the question. It means that:

1. `result` and `result_tail` are two variables that happen to point at the same value
2. Mutation / Changing of the underlying value (`result_tail.next = ListNode(1)`) will affect the value shown by `result`
3. However, assigning / pointing the variable `result_tail` to another value will NOT affect the value of `result`
4. `result_tail = result_tail.next` is assigning the next node of the node that is currently assigned by the variable

The following is an visualization of the values that are assigned to the variables (`r` = `result`, `rt` = `result_tail`):

``````result = ListNode(0)
#r
#0 -> None

result_tail = result
#r
#0 -> None
#rt

result_tail.next = ListNode(1)
#r
#0 -> 1 -> None
#rt

result_tail = result_tail.next
#r
#0 -> 1 -> None
#     rt

result_tail.next = ListNode(2)
#r
#0 -> 1 -> 2 -> None
#     rt

result_tail = result_tail.next
#r
#0 -> 1 -> 2 -> None
#          rt
``````

For those reading this in the future: I wanted to debug linked list problems on a local environment so here is what I did.

1. Modified the Leetcode code for ListNode by including the dunder "repr" method. This is for when you want to print a ListNode to see what its value and next node(s).
``````class ListNode:
def __init__(self, val=0, next=None):
self.val = val
self.next = next

def __repr__(self):
return "ListNode(val=" + str(self.val) + ", next={" + str(self.next) + "})"
``````
1. Next, I made a recursive function that makes a nested ListNode when you pass in a list. This is so you can test your methods by passing in lists (instead of having to manually make a confusing looking ListNode yourself.
``````def list_to_LL(arr):
if len(arr) < 1:
return None

if len(arr) == 1:
return ListNode(arr[0])
return ListNode(arr[0], next=list_to_LL(arr[1:]))
``````
1. Here is an example that tests my answer for the "reverseList" problem:
``````def reverseList(head: ListNode) -> ListNode:
prev = None

return prev

# test cases
t1 = list_to_LL([1, 2, 3, 4, 5])  #ListNode(val=1, next={ListNode(val=2, next={ListNode(val=3, next={ListNode(val=4, next={ListNode(val=5, next={None})})})})})
t2 = list_to_LL([1, 2])  #ListNode(val=1, next={ListNode(val=2, next={None})})
t3 = list_to_LL([])

print(reverseList(t1))
print(reverseList(t2))
print(reverseList(t3))
``````

First, thank you so much for posting this question. I worked on the same problem and saw this piece of code and was puzzled too. Then I followed some comments from leetcode and came here.

I realize that my problem was that I didn't have a pen and paper earlier. After I drew the linked list on the paper by following the loop, it turned out to be quite clear.

If you are still not clear about this, please try to draw the linked list by following the logic. Not sure if I got the right term here but below is my understanding.

To be honest, I do not think this is related to pass by reference or value. To me, this is just about two variables being assigned with the same value(memory location) at the beginning. Think of variables as storage of address. Address is the real memory location which is the start of some value. Later on, one variable(result_tail) kept getting reassigned to a different location and one(result) stays the same.

Result and result_tail both point to the location of 0|None before the while loop.
`0|None` grew into `0->7|None`, then `0->7->0|None` and at last `0->7->0->8|None` by result_tail.next being assigned every time. Result_tail gets reassigned so value changed during each loop, but result points to the same location which is the `0->....` Thus the result.

Input given : `[[1,4,5],[1,3,4],[2,6]]`
``````[ListNode{val: 1, next: ListNode{val: 4, next: ListNode{val: 5, next: None}}}, ListNode{val: 1, next: ListNode{val: 3, next: ListNode{val: 4, next: None}}}, ListNode{val: 2, next: ListNode{val: 6, next: None}}]