Copyright | (c) 2013 Chris Done 2013 Shachaf Ben-Kiki |
---|---|
License | BSD3 |
Maintainer | chrisdone@gmail.com |
Stability | experimental |
Portability | GHC |
Safe Haskell | None |
Language | Haskell98 |
Combinator-based type-safe formatting (like printf() or FORMAT) for Text.
Example:
>>>
format ("Person's name is " % text % ", age is " % hex) "Dave" 54
See Formatting.Formatters for a complete list of formatting combinators.
Synopsis
- data Format r a
- (%) :: Format r a -> Format r' r -> Format r' a
- (%.) :: Format r (Builder -> r') -> Format r' a -> Format r a
- now :: Builder -> Format r r
- later :: (a -> Builder) -> Format r (a -> r)
- mapf :: (a -> b) -> Format r (b -> t) -> Format r (a -> t)
- runFormat :: Format r a -> (Builder -> r) -> a
- format :: Format Text a -> a
- sformat :: Format Text a -> a
- bprint :: Format Builder a -> a
- fprint :: Format (IO ()) a -> a
- hprint :: Handle -> Format (IO ()) a -> a
- module Formatting.Formatters
- formatToString :: Format [Char] a -> a
Documentation
A formatter. When you construct formatters the first type
parameter, r
, will remain polymorphic. The second type
parameter, a
, will change to reflect the types of the data that
will be formatted. For example, in
myFormat :: Formatter r (Text -> Int -> r) myFormat = "Person's name is " % text % ", age is " % hex
the first type parameter remains polymorphic, and the second type
parameter is Text -> Int -> r
, which indicates that it formats a
Text
and an Int
.
When you run the Format
, for example with format
, you provide
the arguments and they will be formatted into a string.
> format ("Person's name is " % text % ", age is " % hex) "Dave" 54 "Person's name is Dave, age is 36"
Instances
Functor (Format r) Source # | Not particularly useful, but could be. |
Category Format Source # | The same as (%). At present using |
a ~ r => IsString (Format r a) Source # | Useful instance for writing format string. With this you can
write |
Defined in Formatting.Internal fromString :: String -> Format r a # | |
Semigroup (Format r (a -> r)) Source # | |
Monoid (Format r (a -> r)) Source # | Useful instance for applying two formatters to the same input
argument. For example: |
(%) :: Format r a -> Format r' r -> Format r' a infixr 9 Source #
Concatenate two formatters.
formatter1 % formatter2
is a formatter that accepts arguments for
formatter1
and formatter2
and concatenates their results. For example
format1 :: Format r (Text -> r) format1 = "Person's name is " % text
format2 :: Format r r format2 = ", "
format3 :: Format r (Int -> r) format3 = "age is " % hex
myFormat :: Formatter r (Text -> Int -> r) myFormat = format1 % format2 % format3
Notice how the argument types of format1
and format3
are
gathered into the type of myFormat
.
(This is actually the composition operator for Format'
s
Category
instance, but that is (at present) inconvenient to use
with regular Prelude. So this function is provided as a
convenience.)
(%.) :: Format r (Builder -> r') -> Format r' a -> Format r a infixr 8 Source #
Function compose two formatters. Will feed the result of one formatter into another.
later :: (a -> Builder) -> Format r (a -> r) Source #
Format a value of type a
using a function of type a ->
. For example, Builder
later (f :: Int -> Builder)
produces
Format r (Int -> r)
.
mapf :: (a -> b) -> Format r (b -> t) -> Format r (a -> t) Source #
Functorial map over a formatter's input. Example: format (mapf (drop 1) string) "hello"
Top-level functions
hprint :: Handle -> Format (IO ()) a -> a Source #
Run the formatter and put the output onto the given Handle
.
Formatting library
module Formatting.Formatters
Other functions
formatToString :: Format [Char] a -> a Source #
Run the formatter and return a list of characters.