# longest increasing subarray in recursive method using python

I tried solving this problem without recursion method

``````def findLongest():
nums=[1, 9, 3, 10, 4, 20, 2]
f = c = lastMax = p1 = 0

while (p1 < len(nums) - 1):
p2 = p1 + 1
while (p2 < len(nums) - 1):
if nums[p2] > nums[p1]:
c += 1
if f == 0:
f = 1
p1 = p2
p2 += 1

if c > lastMax:
lastMax = c
f = 0
c = 0
p1 += 1
return lastMax
``````

I have searched the web quite a bit to find a nice and easy recursion method to understand.

• Are you trying to find the length of the longest sequence within the list that is in increasing order? Your code produces 3, whereas the right answer is 2. – Tim Roberts Apr 18 at 23:51
• Yes that’s what I am trying to do – Ghost Apr 18 at 23:56

This finds the length of the longest monotonically increasing subsequence in the list. This is not a problem that lends itself to a recursive solution.

``````def findLongest(nums):
last = 99999999
maxSeq = 0
for n in nums:
if n > last:
seq += 1
if seq > maxSeq:
maxSeq = seq
else:
seq = 1
last = n
return maxSeq
print( findLongest([1, 9, 3, 10, 4, 20, 2]))
``````

Here is a recursive version.

``````def find1(last, nums, n):
if nums and nums[0] > last:
return find1(nums[0], nums[1:], n+1 )
else:
return n

def findRecursive(nums):
maxseq = 0
for i in range(len(nums)):
n = find1(nums[i], nums[i+1:], 1)
if n > maxseq:
maxseq = n
return maxseq

print( findRecursive([1, 9, 3, 10, 4, 20, 2]))
``````
• Thanks it works .. why can this problem not be done recursively? I found this link but honestly dont understand it codereview.stackexchange.com/questions/102232/… – Ghost Apr 19 at 0:02
• I didn't say it couldn't be done, I said it isn't natural, which is exactly what the commenter said in that link. It makes way more sense as an iterative solution. – Tim Roberts Apr 19 at 0:05
• Thanks. I guess I see how the recursion method just doesn't seem natural. – Ghost Apr 19 at 0:18