# Time Limit exceeded on LeetCode

I'm trying to solve the Leetcode's Two Sum problem (https://leetcode.com/problems/two-sum/) and my code runs well on small lists,

but the website outputs me 'time limit exceeded' when trying this list and target (https://leetcode.com/submissions/detail/845707290/testcase/) (19999), although my coding environment outputs [9998, 9999] (after some time though)

``````x = 0
y = 1
while x < len(nums):
if x == y:
y += 1
if (nums[x] + nums[y]) == target:
L = [x, y]
print(L)
break
if y == len(nums) - 1:
x += 1
y = 0
if (nums[x] + nums[y]) == target:
L = [x, y]
print(L)
break
#if x == len(nums) - 1:
#    y += 1
#    x = 0
elif (nums[x] + nums[y]) == target:
L = [x, y]
print(L)
break
y += 1
``````

(My code in Leetcode contains return instead of print as it's a part of function) Thanks.

Here is the code on LeetCode

``````class Solution:
def twoSum(self, nums: List[int], target: int) -> List[int]:
x = 0
y = 1
while x < len(nums):
if x == y:
y += 1
if (nums[x] + nums[y]) == target:
L = [x, y]
return L
break
if y == len(nums) - 1:
x += 1
y = 0
if (nums[x] + nums[y]) == target:
L = [x, y]
return L
break
#if x == len(nums) - 1:
#    y += 1
#    x = 0
if (nums[x] + nums[y]) == target:
L = [x, y]
return L
break
y += 1
``````

UPDATE 1

``````class Solution:
def twoSum(self, nums: List[int], target: int) -> List[int]:
x = 0
y = 1
while x < len(nums):
if (nums[x] + nums[y]) == target:
L = [x, y]
return L
if y == len(nums) - 1:
x += 1
y = x + 1
if (nums[x] + nums[y]) == target:
L = [x, y]
return L
y += 1
``````
• The online IDE simply won't give you the resources to complete more lengthy tasks (therefore time limit exceeded) Commented Nov 18, 2022 at 9:16
• Can't you use range to directly define the list in your function? Commented Nov 18, 2022 at 9:18
• Also, I believe break isn't necessary when you return. Commented Nov 18, 2022 at 9:20
• When Leetcode tells you that your code is taking too long to run that generally means that although your code may (eventually) output the correct results your algorithm is flawed Commented Nov 18, 2022 at 9:41
• You're checking `nums[x] + nums[y]) == target` three times for every pair of elements where it is false (which is almost always). You're also checking every (x, y) pairing except one on all iterations, which is approximately twice the work as when you ignore the ones you've already tried. (`y` should start at `x+1`, not at 0.) Commented Nov 18, 2022 at 9:44

Use a dictionary to create a performant lookup.

``````nums = [1,5,2,7,21]
target = 23

lookup = { k:v for (v,k) in enumerate(nums) }

for a in nums:
b = target - a
if lookup.get(b, None):
print([lookup[a], lookup[b]])
break
``````

Output:

``````[2, 4]
``````

Moving `lookup.get()` to the assignment of `b` will improve performance further:

``````def sum_of_two(nums, target):
lookup = { value:index for (index, value) in enumerate(nums) }
for a in nums:
b = lookup.get(target - a, None)
if b is not None:
return([lookup[a], b])
``````

EDIT: As pointed out by @Nineteendo in the comments, the straight up dictionary lookup can't handle duplicates in the list. However if the dictionary is populated while iterating through the list of numbers then this case is handled.

``````def sum_of_two_edit(nums, target):
lookup = {}
for i, a in enumerate(nums):
b = target - a
j = lookup.get(b, None)
if j is not None:
return [j, i]
lookup[a] = i
``````

Sample input:

``````nums = [1,2,3,3,6]
target = 6

sum_of_two_edit(nums, target)
``````

Result:

``````[2, 3]
``````
• What do you think of my analysis below? Commented Nov 18, 2022 at 10:10
• Sadly, no duplicates are allowed, like [3,3] with target 6. Which makes a dictionary not work. Commented Nov 18, 2022 at 10:33
• Thanks for catching that. I've updated my answer to include a function for handling that scenario. Commented Nov 18, 2022 at 11:06
• Should I remove the non- working suggestions? Commented Nov 18, 2022 at 11:14
• That's up to you, the edited solution will be a fraction of a second faster because only in the worst case scenario does it need to populate the entire lookup dictionary. Commented Nov 18, 2022 at 11:26

If you're looking for a reasonably efficient implementation then you could try this:

``````    def twoSum(nums, target):
d = {}
for i, n in enumerate(nums):
if (b := target - n) in d:
return [i, d[b]]
d[n] = i
``````

For the list containing inclusive values 1 -> 10000 and a target of 19999, this returns [9999, 9998] in 0.0012s

• what must I import for the List? Commented Nov 18, 2022 at 10:32
• You'll need to import typing or just remove the hints. I only left them there because that's what Leetocde requires. I'll simplify it Commented Nov 18, 2022 at 10:34
• Ok, now I included your answer too. Commented Nov 18, 2022 at 10:52

I think the code isn't quite linearly scaling yet, maybe search further. (Definitely use datetime to track the time). Attempt 1 of Mohamed Hassan:

``````from datetime import datetime
start = datetime.now()
nums = list(range(1,10_000 + 1))
target = 19_999
x = 0
y = 1
while x < len(nums):
if x == y:
y += 1
if (nums[x] + nums[y]) == target:
print([x, y])
break
if y == len(nums) - 1:
x += 1
y = 0
if (nums[x] + nums[y]) == target:
print([x, y])
break
if (nums[x] + nums[y]) == target:
print([x, y])
break
y += 1
print("Finished in:", datetime.now() - start)
``````

Result:

``````[9998, 9999]
Finished in: 0:04:43.237951
``````

Attempt 2 of Mohamed Hassan, using a class:

``````from datetime import datetime
from typing import List
class Solution:
def twoSum(self, nums: List[int], target: int) -> List[int]:
x = 0
y = 1
while x < len(nums):
if x == y:
y += 1
if (nums[x] + nums[y]) == target:
return [x, y]
if y == len(nums) - 1:
x += 1
y = 0
if (nums[x] + nums[y]) == target:
return [x, y]
if (nums[x] + nums[y]) == target:
return [x, y]
y += 1

start = datetime.now()
nums = list(range(1, 10_000 + 1))
target = 19_999
print(Solution().twoSum(nums, target))
print("Finished in:", datetime.now() - start)
``````

Result:

``````[9998, 9999]
Finished in: 0:03:47.205079
``````

attempt 3 of Mohamed Hassan, with some optimisations:

``````from datetime import datetime
from typing import List
class Solution:
def twoSum(self, nums: List[int], target: int) -> List[int]:
x = 0
y = 1
while x < len(nums):
if (nums[x] + nums[y]) == target:
return [x, y]
if y == len(nums) - 1:
x += 1
y = x + 1
if (nums[x] + nums[y]) == target:
return [x, y]
y += 1

start = datetime.now()
nums = list(range(1, 10_000 + 1))
target = 19_999
print(Solution().twoSum(nums, target))
print("Finished in:", datetime.now() - start)
``````

Result:

``````[9998, 9999]
Finished in: 0:01:25.186796
``````

Attempt 1 of me, Nineteendo, using a for loop instead:

``````from datetime import datetime
start = datetime.now()
nums = list(range(1,10_000 + 1))
target = 19_999
for i, x in enumerate(nums):
for j, y in enumerate(nums[i + 1:]):
if x + y == target:
break
if x + y == target:
print([i, i + 1 + j])
break
print("Finished in:", datetime.now() - start)
``````

Result:

``````[9998, 9999]
Finished in: 0:00:28.605655
``````

Attempt 2 of me, Nineteendo, using a function too to avoid the second break, it's also a lot faster:

``````from datetime import datetime
def find_sum(nums, target):
for i, x in enumerate(nums):
for j, y in enumerate(nums[i + 1:]):
if x + y == target:
return [i, i + 1 + j]

start = datetime.now()
nums = list(range(1, 10_000 + 1))
target = 19_999
print(find_sum(nums, target))
print("Finished in:", datetime.now() - start)
``````

Result:

``````[9998, 9999]
Finished in: 0:00:18.117496
``````

Attempt 3 of Dan Nagle, using a math solution, and a function:

``````from datetime import datetime
def sum_of_two_edit(nums, target):
lookup = {}
for i, a in enumerate(nums):
b = target - a
j = lookup.get(b, None)
if j is not None:
return [j, i]
lookup[a] = i

start = datetime.now()
nums = list(range(1, 10_000 + 1))
target = 19_999
print(sum_of_two_edit(nums, target))
print("Finished in:", datetime.now() - start)
``````

Result:

``````[9998, 9999]
Finished in: 0:00:00.010349
``````

Attempt 1 of Cobra, also using a for loop:

``````from datetime import datetime
def twoSum(nums, target):
d = {}
for i, n in enumerate(nums):
if (j := d.get(target - n)) is not None:
return [i, j]
d[n] = i
start = datetime.now()
nums = list(range(1, 10_000 + 1))
target = 19_999
print(twoSum(nums, target))
print("Finished in:", datetime.now() - start)
``````

Result:

``````[9999, 9998]
Finished in: 0:00:00.009762
``````
• The dictionary approach is an excellent one. However, for the sake of completeness it's worth pointing out that this does not satisfy the Leetcode constraint in that no two elements can be duplicated. For example, if the list is [3,3] and the target is 6, Leetcode requires a response of either [0,1] or [1,0] whereas this code returns [1,1] Commented Nov 18, 2022 at 10:15
• I don't think you could do much about that. I believe the other methods could be adapted to that constraint, though. Commented Nov 18, 2022 at 10:19
• @Cobra, I believe the for loops are the best solution, now that I fixed their problem Commented Nov 18, 2022 at 10:30

I thought about the O(n²) problematic and additonally I wanted to have it elegant :D.

Pythons tim-sort (`sorted()`, `[].sort()`) is O(n*log(n)) which is indeed better :).

So what I did:

1. Sort the input array (O(n * log(n))
2. iterate with two indizes through the array: one on the right and one on the left O(2*n) = O(n)
3. When the result is too large: move right one to the left
4. when the result is too low: move left one to the right
5. When the result == target: find the indizes O(2*n) again

In code:

``````def twoSum(self, nums: List[int], target: int) -> List[int]:
sorted_list = list(sorted(nums))  # the most expensive part
left, right = 0, len(nums) - 1  # start at the ends
result = -1  # any value which is not "possible" suffices
while result != target:
if result < target:
left += 1
elif result > targe:t
right -= 1
value_left, value_right = sorted_list[left], sorted_list[right]
result = value_left + value_right

return [nums.index(value_left), nums.index(value_right)]
``````
• If the nums list is [3,2,4] and the target is 6 this code (after fixing the syntax error) returns [0,0] whereas it should be [1,2] or [2,1] Commented Nov 18, 2022 at 9:53