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I have to dessignate types of 2 functions(without using compiler :t) i just dont know how soudl i read these functions to make correct steps.

f x = map -1 x
f x = map (-1) x

Well i'm a bit confuse how it will be parsed

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map -1 x is parsed as (map) - (1 x). But its type is not really nice. –  Vitus May 6 '12 at 20:32
    
doeas it mean we wanna minus something from map ? –  whd May 6 '12 at 20:36
    
Basically. This is going to put some crazy constrait on the function type (Num (t -> (a -> b) -> [a] -> [b]), I think). –  Vitus May 6 '12 at 20:54
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4 Answers

up vote 4 down vote accepted

Function application, or "the empty space operator" has higher precedence than any operator symbol, so the first line parses as f x = map - (1 x), which will most likely1 be a type error.

The other example is parenthesized the way it looks, but note that (-1) desugars as negate 1. This is an exception from the normal rule, where operator sections like (+1) desugar as (\x -> x + 1), so this will also likely1 be a type error since map expects a function, not a number, as its first argument.

1 I say likely because it is technically possible to provide Num instances for functions which may allow this to type check.

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It type checks for me, but the result is ugly. –  John L May 6 '12 at 22:09
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well i did it by my self :P

(map) - (1 x)
(-)::Num a => a->a->->a
1::Num b=> b
x::e
map::(c->d)->[c]->[d]
map::a
a\(c->d)->[c]->[d]
(1 x)::a
1::e->a
f::(Num ((c->d)->[c]->[d]),Num (e->(c->d)->[c]->[d])) => e->(c->d)->[c]->[d]
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These functions do not have types, because they do not type check (you will get ridiculous type class constraints). To figure out why, you need to know that (-1) has type Num n => n, and you need to read up on how a - is interpreted with or without parens before it.

The following function is the "correct" version of your function:

f x = map (subtract 1) x

You should be able to figure out the type of this function, if I say that:

subtract 1 :: Num n => n -> n
map :: (a -> b) -> [a] -> [b]
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For questions like this, the definitive answer is to check the Haskell Report. The relevant syntax hasn't changed from Haskell 98.

In particular, check the section on "Expressions". That should explain how expressions are parsed, operator precedence, and the like.

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