# Finding the max of a list using tail recursion

I am trying to understand how to write functions using tail recursion in Haskell. In my example below, the function takes in a list and outputs the maximum value in the list. My intention is to use the `c` variable to store the current max. I was wondering if someone can explain how using tail recursion would work for this instance?

``````    myMax [] c = error "max of empty list"
myMax [x] c = x
myMax (x:xs) c =
if x > myMax xs then c = x
else myMax xs c

--currently getting a parse error
``````
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What are you trying to do with `c = x` in the if statement? An if statement must return a value of the same type in both branches. It looks like you're trying to destructively modify `c` which isn't allowed in Haskell. I'm not sure what the intent there is because even if it was allowed I don't see what the desired outcome would be. – Andrew Myers Feb 12 '13 at 17:49
Thanks for the reply. I was trying to store the current max in `c` as I compare more and more values from the list to it. When I have no more values to compare, I output the final `max` value. That was my intention, again tail recursion is confusing to me, which is why I decided to try to get some help with it. – AnchovyLegend Feb 12 '13 at 17:53
There is no assignment statement in haskell. You cannot assign a value to an existing variable (the term "variable" is very misleading), you can only introduce a new binding. – pat Feb 12 '13 at 18:03
@pat: How is that misleading? That's exactly how the term "variable" was originally used and how it is still used in most contexts. What is misleading is conflating the idea of a variable with the idea of a mutable reference or memory location. – C. A. McCann Feb 12 '13 at 18:57
@C. A. McCann Yes, you are completely correct, it is a variable in the original mathematical sense. Only if you are used to the notion of mutable variables in a programming language does it become misleading. Sorry for confusing the issue! – pat Feb 12 '13 at 21:25

There are a couple things to think about here. First You don't want the user to have to enter some beginning value, so we want a function that takes only a list as its parameter. Since you want a tail recursive implementation we do need a function that takes a second parameter though, so we'll create an inner function named `go` which takes the current max and the remaining list.

``````myMax [] = error "Empty List"
myMax (x:xs) = go x xs  -- Initialize current max to head of list.
where
-- go takes the current max as the first argument and the remaining list
-- as the second.
-- m is the current max, if there are no more elements it is the max.
go m [] = m
-- Otherwise we compare m to the current head.
-- If the head (y) is greater than m it becomes the current max.
go m (y:ys) = if m > y then go m ys else go y ys
``````

Note that we never changed the value of any variable here. We update the current max value by passing it as a parameter to the next step in the function. This is critical to understand in Haskell because mutating variables is not allowed.

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+1 thanks for the clear explanation, this helps! – AnchovyLegend Feb 12 '13 at 18:04
Glad to help, Haskell is a lot of fun to learn :) – Andrew Myers Feb 12 '13 at 18:04
I had basically the same answer prepared! I would have factored out the recursive `go` as: `go m (y:ys) = go (if m > y then m else y) ys`, or even `go m (y:ys) = go (max m y) ys`, but taken to an extreme, you just get `myMax = maximum`. – pat Feb 12 '13 at 18:05
@Andrew Myers Agree to disagree with you on that, its unconventional, but rewarding:) One question, how does `go x xs` on the very top initialize current max to the head of the list, without any `=` assignment? – AnchovyLegend Feb 12 '13 at 18:05
Because we're carrying our current maximum value as the first parameter to `go`. So to "initialize" the value we pass it as the first parameter to `go`. The important thing to grok here is that every call of `go` is a new stack frame with no access to other `go` stack frames or their values. – Andrew Myers Feb 12 '13 at 18:07