# How to find shortest path in both directions of a number with over wrapping?

Let's say I have to pick a number from 0-10.

The number I pick is 6.

The next number I want to pick is 0.

Now the rules are I have to keep incrementing the number by 1 or decrementing it by 1, the number can also wrap around the last number.

Now whats most important is to find which direction is shortest to take.

So

``````6-5-4-3-2-1-0 = 7 moves.
6-7-8-9-10-0 = 6 moves.
``````

So incrementing wins in this case.

Well I came up with this code (probably broken)

``````int movesInc = 1;
int movesDec = 1;
int curNumber = 6;
int nextNumber = 0;
while((curNumber-- % 11) != nextNumber)
movesDec++;

while((curNumber++ % 11) != nextNumber)
movesInc++;
``````

Now instead of using a while loop in both directions.. and finding out which takes less moves..

any way to do this without a while loop? just maybe some kind of mathematical equation?

-
If you're allowing numbers from 0 to 10, you're working modulo 11, not 10. – Don Roby Jan 29 '12 at 12:48
"untested if it functions properly just seems right"... test it then. – Bart Jan 29 '12 at 12:49
Oh thanks forgot about that, some what slipped my mind, i'll edit it up. – SSpoke Jan 29 '12 at 12:49

Your code doesn't in fact work properly for two reasons:

You should be working modulo 11 instead of 10 (I see you've now fixed this per my earlier comment).

The `%` operator in Java and C++ doesn't deal with signs the way you think.

This does work, though it's not pretty, and it doesn't need loops.

It is tested for the start at 6 and end at 0, and I expect it works generally. For a different range, you'd of course need to change the number added when the result goes negative.

``````    int curNumber = 6;
int nextNumber = 0;
int movesInc = (nextNumber - curNumber) + 1
+ ((nextNumber > curNumber)? 0: 11);
int movesDec = (curNumber - nextNumber) + 1
+ ((nextNumber < curNumber)? 0: 11);
``````

The `+ 1` here is because you're counting both endpoints. The ternary expression is what handles going around 0.

-
That's actually pretty nice and easy to understand!. – SSpoke Jan 29 '12 at 13:34
``````int curNumber;
int nextNumber;
//calculate the modulo size by the highest number
int module = 10 + 1;
//calculate the direct distance to the nextNumber
int directDist = nextNumber - curNumber;

int nextNumberWrapped;
//calculate the wrapped distance, deciding the direction which wraps
if(directDist < 0)
//wrapping in positive direction: 10 -> 0
nextNumberWrapped = nextNumber + module;
else
//wrapping in negative direction 0 -> 10
nextNumberWrapped = nextNumber - module;
//calculating the wrapped distance
int wrappedDist = nextNumberWrapped - curNumber;
//assume the directDist to be shortest
int shortestDist = directDist;
//proof wrong if neccessary (compare the distances absolute values)
if(abs(wrappedDist) < abs(directDist))
//save the signed distance
shortestDist = wrappedDist;
``````

The absolute value of shortestDist tells you the length of the shortest distance and the sign gives you the direction. So when the sign is negative you have to decrement and when it is positive you must increment to go the shortest way.

http://ideone.com/0yCDw

Also your example seems wrong. Each - between the numbers is one step, leaving you with one step less than you counted:

``````6-5-4-3-2-1-0
^ ^ ^ ^ ^ ^
1 2 3 4 5 6  -> 6 moves
6-7-8-9-10-0
^ ^ ^ ^  ^
1 2 3 4  5 -> 5 moves
``````
-
ya should of started movesInc/movesDec at 1.. or added +1 when finished.. I don't really care which takes less moves.. I just want to know which one wins.. Increase or Decrease. You code gives me the shortest distance. But what do you mean by sign gives you the direction? I'm guessing I have to add another if statement for greater than?, confused there sorry. – SSpoke Jan 29 '12 at 13:21
@SSpoke: If shortestDist has a negative sign (it is less than zero) then you have to decrement else you have to increment. – Nobody Jan 29 '12 at 13:31
Thanks I understand now.. Sorry to say this but Don Roby's solution feels cleaner to me.. I'm going to have to accept his.. although.. you also taught me a good way to use abs function in a if statement. I thank you for that as well. – SSpoke Jan 29 '12 at 13:37