# creating a reverse method for a python list from scratch

I want to create a reverse method for a list. I know there already is such a method built into python but I want to try it from scratch. Here's what I have and it seems to make sense to me but it just returns the list in the same order. My understanding was that lists are mutable and I could just reassign values in the loop.

``````def reverse(data_list):
length = len(data_list)
s = length

for item in data_list:
s = s - 1
data_list[s] = item
return data_list
``````

``````def reverse(data_list):
return data_list[::-1]
``````
```>> reverse([1,2,3,4,5])
[5, 4, 3, 2, 1]
```
• The slicing method worked for me, thank you. I found it confusing but found the following explanation useful (source: geeksforgeeks.org/python-reversed-vs-1-which-one-is-faster): "The format[a : b : c] in slicing states that from an inclusive to b exclusive, count in increments of c. In above code, a and b is blank and c is -1. So it iterates the entire list counting from the last element to the first element resulting in a reversed list." Commented Sep 17, 2021 at 2:10

By the time you are half-way through the list, you have swapped all the items; as you continue through the second half, you are swapping them all back to their original locations again.

``````def reverse(lst):
i = 0            # first item
j = len(lst)-1   # last item
while i<j:
lst[i],lst[j] = lst[j],lst[i]
i += 1
j -= 1
return lst
``````

This can be used in two ways:

``````a = [1,2,3,4,5]
reverse(a)        # in-place
print a           # -> [5,4,3,2,1]

b = reverse(a[:]) # return the result of reversing a copy of a
print a           # -> [5,4,3,2,1]
print b           # -> [1,2,3,4,5]
``````

You are changing the list that you iterate on it (data_list) because of that it's not working , try like this:

``````def reverse(data_list):
length = len(data_list)
s = length

new_list = [None]*length

for item in data_list:
s = s - 1
new_list[s] = item
return new_list
``````
• Thanks! That does work but my question is what does [None]*length do? Why doesn't it work if I make new_list equal to []?
– user637965
Commented Mar 9, 2011 at 17:17
• `[None]*length` will create a list like this one [None, None ...] length time, and about `new_list = []` will not work because this create a list of 0 element so when you will try to do `new_lits[1] = ..` it will give an index error because there is no index 1 in the list, basically `new_lits[1] = ..` change the value of the index one with the new value, it don't add. hope this make sense :) Commented Mar 9, 2011 at 17:23
• It's not failing "because you are changing the list that you iterate on"; that is only an issue if you add or remove items from the list. It's failing because each swap works on two places (this item and its twin) so by the time you process the whole list, you have operated on each item twice - swapping it, then swapping it back. So each item ends up where it started. Commented Mar 9, 2011 at 17:24

an easy way in python (without using the reverse function) is using the [] access operator with negative values such as (print and create a new list in reverse order):

``````x = [1, 2 ,3, 4, 5]
newx = []
for i in range(1, len(x)+1):
newx.append(x[-i])
print x[-i]
``````

the function would be:

``````def reverse(list):
newlist = []
for i in range(1, len(list)+1):
newlist.append(list[-1])
return newlist
``````

I do not get the same list when I try to run your code. But I also do not get a reversed list because the list is moving forward through the list state which is changing from end back. I think the way you are looking to do it is:

``````def reverse(data_set):
length = len(data_set)

for i in range(0, length / 2):
length = length - 1
hold = data_set[i]
data_set[i] = data_set[length]
data_set[length] = hold
return data_set
``````

here we actually reverse in half the iterations and we memoize the value of the index we are changing so we can set the "reversal" in the same step.

``````word_reversed = ''

for i in range(len(word) -1, -1, -1):
word_reversed += word[i]
``````

That will reverse a string of unknown length called (word) and call it (word_reversed).

I am using it to check to see if a word is a palindrome and I'm not allowed to use .reverse or word[::-1].

``````# Tyler G
# April 10, 2018
# Palindromes

import re

word = input("Palindromes are words that spell the same thing forwars or backwards, enter a word and see if its one!: ")
word = word.lower()
word = re.sub("[^a-zA-Z]+", "", word)
# count the number of characters in the string
# make a if <string>[0] = <string[counted char -1]
# repeat that over and over
# make a else print("not a ...")
word_reversed = ''

for i in range(len(word) - 1, -1, -1):
word_reversed += word[i]

itis = 0
if len(word) > 12:
print("It is not a Palindrome")

else:
for i in range(0, len(word)):
if word[i] == word_reversed[i]:
itis = itis + 1
else:
itis = itis - len(word)
if itis > 0:
print("It is a palindrome")
else:
print("It is NOT a Palindrome")

itis = 0
if len(word) > 12:
print("It is not a Palindrome")
``````

There are two simple ways to solve the problem : First using a temp variable :

``````maList = [2,5,67,8,99,34]
halfLen = len(maList) // 2
for index in range(halfLen):
temp = maList[index]
maList[index] = maList[len(maList) - 1 - index]
maList[len(maList) - 1 - index] = temp
print(maList)
``````

Second is using a new list where to store the reversed values :

``````newList = []
for index,value in enumerate(maList):
newList.append(maList[len(maList) - 1 - index])
print(newList)
``````

Something like this should work:

``````mylist = [1,2,3,4,5]
def reverse(orig_list):
data_list = orig_list[:]
length = len(data_list)
for i in xrange(0, length/2):
tmp = data_list[length-i-1]
data_list[length-i-1] = data_list[i]
data_list[i] = tmp
return data_list

reverse(mylist)
mylist
``````

There are two ways of doing this

Pythonic Swap:

``````def Reverse_Function(item):
for i in range(len(item)/2):
item[i], item[-(i+1)] = item[-(i+1)], item[i]
return item
``````

or

XOR application:

``````def Reverse_Function(item):
for i in range(len(item)/2):
item[i] = item[i] ^ item[-(i+1)]
item[-(i+1)] = item[i] ^ item[-(i+1)]
item[i] = item[i] ^ item[-(i+1)]
return item
``````

Not looking to create a new list to hold your "temp" data? Its simple if you look at the pattern:

``````reverse_list([a, b, c, d, e]) => [e, d, c, b, a]
``````

This means that position `0 -> n`, `1 -> (n - 1)`, `2 -> (n - 2)`. Which means that you can pop the last item and put it in the current index...

``````def reverse_list(list):
i = 0
while i < (len(list) - 1):
list.insert(i, list.pop())
i += 1
``````
• Your response should be an answer, but, your post begins by asking a question. If you are providing a solution, offer an explanation for your answer. If you have a question, post that as a comment underneath the original question. Commented Nov 2, 2016 at 22:25
``````from array import *

x=array('i',[1,2,3,98,5,6,7,8])

y=array('i',[])

for i in x:

y.insert(0,i)

print(y)
``````
• When you provide an answer in the form of a code fragment, you also ideally should explain in text (or at least in comments in the code) how the code fragment solves the OPs problem. Also it might be worth explaining why your code fragment uses integer arrays - where as the OP is asking for a solution for a general list. It is likely that your for loop would work for a general list - but it isn't clear why you have made the choices you did. Commented Jan 11, 2019 at 1:03

Normally you can use either `reversed()` in general, or `[::-1]` on sequences. Since you are trying to implement a function from scratch, consider using stack, which is a common Abstract Data Type.

Given

``````import queue

s = "abc"
lst = list(s)
iter_ = iter(s)
``````

Code

The following works on sequences and iterators similar to `reversed()`:

``````def reversed_iter(iterable):
"""Yield items in reverse with a queue."""
stack = queue.LifoQueue()                          # 1
for x in iterable:                                 # 2
stack.put(x)
while not stack.empty():                           # 3
yield stack.get()
``````

Demo

``````list(reversed_iter(s))
# ['c', 'b', 'a']
list(reversed_iter(lst))
# ['c', 'b', 'a']
list(reversed_iter(iter_))
# ['c', 'b', 'a']
``````

Details

A stack is type of queue where the last element placed in is the first element removed. Imagine placing elements on top of each other in a container.

``````       ↓   ↑
|   "c"   |
|   "b"   |
|   "a"   |
-----------
``````

Here the last element placed (enqueued) is the first to remove (dequeue), e.g. `"c"`.

In the code, we:

1. Initialize a stack (the same as a `LifoQueue`)
2. Enqueue items to the stack
3. Dequeue items from the stack

The result are elements yielded in reversed order.

A `queue` is not required. Alternatively, we can emulate a stack with a simple `list`:

``````def reversed_iter(iterable):
"""Yield items in reverse with a list."""
stack = []
for x in iterable:
stack.append(x)
while stack:
yield stack.pop()

list(reversed_iter(s))
# ['c', 'b', 'a']
``````

Emulating the Abstract Data Type is all that is needed in both examples.

``````list = [23, 3, 33, 44, 55, 16, 27 ];
``````

1.more codes

``````def conver(list):
list.sort()

length = len(list)
s = length

new_list = [None]*length
for item in list:
s = s - 1
new_list[s] = item

print(new_list)

conver(list)
``````

output:

``````[55, 44, 33, 27, 23, 16, 3]
``````

2.easiest

``````list.sort()

list.reverse()

print(list)
``````

output:

``````[55, 44, 33, 27, 23, 16, 3]
``````

The following code demonstrates how to accept input:

``````a=[]
n=int(input("enter the no.of elements ")
for I in range(0,n):
a.insert(I,int(input(" enter elements: ")))
def rev_list(a):
print(a[::-1])
rev_list(a)
``````
``````def reverseOrder():
my_list = []
a = input("What is your word?")
count = len(a) - 1

x = ''
for i in range(0, len(a)):
my_list.append(a[count])
count = count - 1
x = x.join(my_list)
print(x)

reverseOrder()
``````

This is what I did. First I made an empty list. Then I stored users answer in a variable and subtracted one for indexing purposes. Now start a for loop and you set 'range' from 0 , len(a) then you append into the list backwards since count is = len(a). After that you set the .join function and join the list together. This is why there was variable x before the for loop.