There are some flaws when checking the solutions:
I think 15 has 4 combinations of sum of consecutive INTEGERS (as stated in the problem):
15 = 7+8 = 4+5+6 = 1+2+3+4+5 = 0+1+2+3+4+5; % 0 is integer.
or 1025 (you say 5, I say 9):
1025 = 1022+1023 = sum(203:207) = sum(98:107) = sum(29:53) = sum(5:45) = sum(-4:45) = sum(-28:53) = sum(-97:107) = sum(-202:207); % negative numbers are integers too.
I can see the flaw in the description now, I've missed repeating "positive", Thanks. Btw considering your interpretation 15 has 7 combinations: sum(-14:15),sum(-6:8),sum(-3:6),sum(0:5),sum(1:5),sum(4:6),sum(7:8). In this way 1025 should have 11 and conversion between our interpretations is "yours=2*mine+1"; to any of mine solutions of the form m:n, you can add "-m+1:n", the last thing is to add "-input+1:input"
An interesting problem, enough so that I chose to solve it in three essentially different ways. As always, there are various ways to solve any problem. The first two ways were essentially constructive, so counting the set of solutions for any N. The last used a formulaic approach.
Politeness is an integer sequence defined at https://oeis.org/A069283.
why it is showing--"While evaluating the solution, the server encountered an error caused by temporary unavailability of MATLAB Service'' ...
So, doing a little reading about polite numbers, one finds that the politeness divisors is related to the number of odd divisors.
vectorized & constructive, explicitly counting all solutions for even and odd k
Brute force, with a while loop. crude as hell, but it works for a first pass.
Whit this solution you can check the correct number of combinations that summing consecutive integers give the input number.
I had to cheat to get the test 1 to pass. The test requires that if N=1, then politeness=0. According to other reputable sources, politeness of 1 is 1.
then why politeness of 15 isn't 4?
Sorted highest to lowest?
How long is the longest prime diagonal?
Largest Twin Primes
Concatenate two strings
(Linear) Recurrence Equations - Generalised Fibonacci-like sequences
Packing oranges - one layer
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