This isn't to say anything
prnr haven't said, but the difficulty is arising from not separating IO from pure functions: You say
["one", "two", "three"] and I want this into a file:
one two three.
You have a list of strings, and want to do something, i.e. you are looking for a function
lkndfhu :: [String] -> IO (). True enough, but if you ask:
What is the thing that I want to write to a (new) file?
you will notice that its the same sort of thing as in this case:
What is the thing that I want to write to stdout?
what is the thing I want to append to file file.txt?
"one two three" :: String. You want something that maps
["one", "two", "three"] to
"one two three", never mind what you are going to do with
"one two three"
So really you are looking for a function
lkndfhu_pure :: [String] -> String that you can compose with
writeFile filename which are of type
String -> IO ()
Well the prelude function
concat :: [String] -> String, has the right type, but it would yield
"onetwothree" and the file or stdout would look thus:
The Prelude function
unlines :: [String] -> String has the right type, but would yield `"one\ntwo\nthree" and the file would look thus:
The pre-given Prelude
[String] -> String function you want is
Tarrasch notes; but as
unlines are both compositions of
concat :: [[a]] -> [a] with
intersperse :: a -> [a] -> [a] -- basically:
unwords mystrings = concat (intersperse " " mystrings)
unlines mystrings = concat (intersperse "\n" mystrings)
unwords = concat . intersperse " "
unlines = concat . intersperse "\n"
(These aren't the definitions actually used by the Prelude.) As
pmr notes, the abstractness of
intersperse means it can be used with
IO in complex ways but there is no sign that this is what you need. Note that
intersperse have variants for the fancier String-like types, e.g.
If you want to think about document preparation that is consistent with using pure functions before passing to IO you might look at the pretty printing library that comes with the Haskell Platform (there are many others). in ghci type
:m +Text.PrettyPrint, then type :browse .
Hugs) implement the
Doc type in a special way, so evaluating an expression exhibits the
Doc as it will appear to the reader if you render it to a string and write it to a file:
PrettyPrint> let lknfdhu_strings = ["one", "two", "three"]
PrettyPrint> :t lknfdhu_strings
lknfdhu_strings :: [String]
PrettyPrint> let lknfdhu = map text lknfdhu_strings
PrettyPrint> :t lknfdhu
lknfdhu :: [Doc]
PrettyPrint> hcat lknfdhu
PrettyPrint> hsep lknfdhu
one two three
PrettyPrint> vcat lknfdhu
PrettyPrint> let looksGood = hsep lknfdhu
PrettyPrint> :t render
render :: Doc -> String
PrettyPrint> render looksGood
"one two three"
PrettyPrint> render (vcat lknfdhu)
PrettyPrint> let dash = " - "
PrettyPrint> let dashdoc = text dash
" - "
PrettyPrint> hcat ( punctuate dashdoc lknfdhu )
one - two - three
PrettyPrint> hcat ( punctuate (text " ") lknfdhu )
one two three
PrettyPrint> writeFile "lknfdhu.txt" (render looksGood)
These examples are of course pretty primitive, check out all the crazy functions with
:browse and the examples in the docs