# How do you get HPC to acknowledge that you have 100% code coverage with guards in Haskell?

I'm trying to get (and prove) 100% test coverage for some code I'm writing in Haskell using HPC. However if I write something like this:

``````fac n | n > 0 = n * (fac (n - 1))
| otherwise = 1
``````

Then the second expression of the guard statement has always True tagged to it. What is the easiest way to overcome this in the general case?

edit: Just to clarify. This code:

``````fac n = if n > 0 then n * (fac (n - 1))
else 1
``````

Works fine with HPC, (running it gives 100% code coverage).

I'm basically suffering from this problem: http://hackage.haskell.org/trac/ghc/ticket/3175

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What do you mean by overcome? Your function is a total function(it is defined for all inputs.) You reach 100% code coverage on this function when you try it with a positive number and a negative number. –  stonemetal Jan 11 '11 at 15:31
I mean if write a set of unit tests for it then HPC won't ever tell you it has 100% code coverage. –  dan_waterworth Jan 11 '11 at 15:44
Can't you replace `otherwise` with cases for equality and less than? Since the (numeric) input type T has a total order, for all n, m in T, either n < m, n = m, or n > m. Just define cases for each. –  danportin Jan 11 '11 at 15:55
@danportin, that doesn't work either. –  dan_waterworth Jan 11 '11 at 16:57
This is clearly a bug in HPC. Report it. :-) –  luqui Jan 11 '11 at 17:12

There's no issue. If an expression is marked as always true, that does not mean that you have less than 100% coverage. As an example, I just wrote a small executable based on fac, then ran hpc on it and hpc report on the resulting tix file.

Here's the source:

``````fac n | n > 0 = n * (fac (n - 1))
| n == 0 = 1
| otherwise = 125 -- An arbitrary value. This of couse is demo code, and not actually a factorial.

main = print (fac 12) >> print (fac (negate 100))
``````

and here's the result:

``````100% expressions used (23/23)
66% boolean coverage (2/3)
66% guards (2/3), 1 always True
100% 'if' conditions (0/0)
100% qualifiers (0/0)
100% alternatives used (3/3)
100% local declarations used (0/0)
100% top-level declarations used (2/2)
``````

The key thing is 100% expressions used, and 100% alternative used, 100% top-level declarations used. The fact that you have 66% boolean coverage is irrelevant. That's why if you run hpc markup and look at the resulting hpc_index file, it reports top level, alternative, and expressions, but not boolean coverage.

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Can I suggest you change `125` to `undefined`? (assuming 125 is arbitrary) –  dan_waterworth Jan 11 '11 at 18:24
That would cause his main function to throw an error. –  luqui Jan 11 '11 at 18:46

You can replace the guard syntax with lots of "if then else" expressions. I don't know of any better ways to do it.

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