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I don't understand why these two similar list comprehensions give different results:

Prelude> let t2s n= [ 1/(2*i) | i <- [1,3..n]]
Prelude> t2s 0
Prelude> let t2s n= [   (2*i) | i <- [1,3..n]]
Prelude> t2s 0

I expected both to return the empty list on argument 0. I must be missing something silly?!

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2 Answers 2

up vote 6 down vote accepted

It has to do with the fact that

enumFromThenTo 1.0 3.0 0.0

evaluates to [1.0]. The specification of enumFromThenTo for Floats can be found in section 6.3.4 of http://www.haskell.org/onlinereport/haskell2010/haskellch6.html .

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For increasing floats, [a,b..c] keeps going until the numbers exceed c + (b-a)/2.0. For example [1.0, 2.0 .. 4.0] is [1.0, 3.0, 5.0]. –  Theodore Norvell Feb 22 '13 at 4:25
What happened to 2.0 and 4.0 in your example? –  Code-Apprentice Feb 22 '13 at 4:44
@Code-Guru. Mea culpa. I meant [1.0, 3.0 .. 4.0]. Thanks. –  Theodore Norvell Feb 22 '13 at 4:52
Here's an example that better shows why the specification kind of makes sense. Consider [0.1, 0.4 .. 0.9]. The answer is [0.1, 0.4, 0.7, 1.0], which is 'better' than the alternative of [0.1, 0.4, 0.7] in the sense that |1.0 - 0.9| < |0.7 - 0.9|. In your example [1.0, 3.0 .. 0.0] the choice of the "last" number in the list is between 1.0 and -1.0 (-1.0 being 2 less than 1.0, see?). Both are equally close to 0.0; when there is a tie, the standard chooses the one that makes the list longer. Whether this choice is arbitrary or intended to make empty list errors less likely, I don't know. –  Theodore Norvell Feb 22 '13 at 15:16
:t enumFromThenTo 1.0 says enumFromThenTo 1.0 :: (Fractional t, Enum t) => t -> t -> [t] so the concrete type will have to define instances for both type classes. Both Float and Double have instances for Enum and Fractional. (say > :i Enum and > :i Fractional to see it). –  Will Ness Feb 22 '13 at 19:57

First of all, I changed the name of your first t2s to t1s, so that I can have them both loaded into ghci at the same time. Look at the inferred types for each of them:

[ts.hs:2:1-33] *Main> :t t1s
t1s :: (Enum t, Fractional t) => t -> [t]
[ts.hs:2:1-33] *Main> :t t2s
t2s :: (Enum t, Num t) => t -> [t]
[ts.hs:2:1-33] *Main>

Note that t1s takes a Fractional argument whereas t2s takes a Num. This means that in t1s 0, the 0 is inferred to be a Double. On the other hand, the interpreter infers 0 to be a Integer in t2s 0. Since the type used for the argument differs, the behavior can differ in very surprising ways. In particular, you should be sure to use only Integral types when enumerating a list as in [1,3..n].

To fix this, you simply need to provide explicit type signatures for both functions.

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Defaulting strikes again! Basically, the type inference finds the most general type. The problem is that numeric literals are overloaded, so an expression like t2s 0 is ambiguous--it can be valid for any numeric type! Since ambiguities like this are common and we want to be able to use Haskell like a calculator, we have a hacky way to deal with it: defaulting. Essentially, we just first try Integer and then try Double for expressions like this. You might want to edit something about this into your answer. –  Tikhon Jelvis Feb 22 '13 at 5:55
@TikhonJelvis I'm a Haskell newb and didn't know about defaulting until you posted this comment. My answer posted here simply came from hacking at the OP's code because I was curious about the differences, too. I found the type differences when I :steped through the evaluation. –  Code-Apprentice Feb 22 '13 at 5:57
It's as good a time to learn about it as any :). I actually first read about it when answering an SO question too. In fact, that's how I picked up a whole bunch of tidbits like that. –  Tikhon Jelvis Feb 22 '13 at 6:14
@TikhonJelvis I've learned quite a bit, as well, while reading or attempting to answer SO questions. Of course, most of these I have forgotten. Thankfully I can outsource my memory to Google when a need arises. –  Code-Apprentice Feb 22 '13 at 6:16
Thanks; actually my code was: sum [ ...], so I would have to break things out (unnecessarily?) to be able to specify the type of this expression in the sum term, so I'm not sure how I might do that nicely. –  guthrie Feb 23 '13 at 4:14

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