Copyright | (c) The University of Glasgow 2001 |
---|---|
License | BSD-style (see the file libraries/base/LICENSE) |
Maintainer | [email protected] |
Stability | provisional |
Portability | non-portable (uses Text.ParserCombinators.ReadP) |
Safe Haskell | Trustworthy |
Language | Haskell2010 |
Converting strings to values.
The Text.Read library is the canonical library to import for
Read
-class facilities. For GHC only, it offers an extended and much
improved Read
class, which constitutes a proposed alternative to the
Haskell 2010 Read
. In particular, writing parsers is easier, and
the parsers are much more efficient.
- class Read a where
- type ReadS a = String -> [(a, String)]
- reads :: Read a => ReadS a
- read :: Read a => String -> a
- readParen :: Bool -> ReadS a -> ReadS a
- lex :: ReadS String
- module Text.ParserCombinators.ReadPrec
- data Lexeme
- lexP :: ReadPrec Lexeme
- parens :: ReadPrec a -> ReadPrec a
- readListDefault :: Read a => ReadS [a]
- readListPrecDefault :: Read a => ReadPrec [a]
- readEither :: Read a => String -> Either String a
- readMaybe :: Read a => String -> Maybe a
The Read
class
Parsing of String
s, producing values.
Derived instances of Read
make the following assumptions, which
derived instances of Show
obey:
- If the constructor is defined to be an infix operator, then the
derived
Read
instance will parse only infix applications of the constructor (not the prefix form). - Associativity is not used to reduce the occurrence of parentheses, although precedence may be.
- If the constructor is defined using record syntax, the derived
Read
will parse only the record-syntax form, and furthermore, the fields must be given in the same order as the original declaration. - The derived
Read
instance allows arbitrary Haskell whitespace between tokens of the input string. Extra parentheses are also allowed.
For example, given the declarations
infixr 5 :^: data Tree a = Leaf a | Tree a :^: Tree a
the derived instance of Read
in Haskell 2010 is equivalent to
instance (Read a) => Read (Tree a) where readsPrec d r = readParen (d > app_prec) (\r -> [(Leaf m,t) | ("Leaf",s) <- lex r, (m,t) <- readsPrec (app_prec+1) s]) r ++ readParen (d > up_prec) (\r -> [(u:^:v,w) | (u,s) <- readsPrec (up_prec+1) r, (":^:",t) <- lex s, (v,w) <- readsPrec (up_prec+1) t]) r where app_prec = 10 up_prec = 5
Note that right-associativity of :^:
is unused.
The derived instance in GHC is equivalent to
instance (Read a) => Read (Tree a) where readPrec = parens $ (prec app_prec $ do Ident "Leaf" <- lexP m <- step readPrec return (Leaf m)) +++ (prec up_prec $ do u <- step readPrec Symbol ":^:" <- lexP v <- step readPrec return (u :^: v)) where app_prec = 10 up_prec = 5 readListPrec = readListPrecDefault
readsPrec :: Int -> ReadS a Source #
attempts to parse a value from the front of the string, returning a list of (parsed value, remaining string) pairs. If there is no successful parse, the returned list is empty.
Derived instances of Read
and Show
satisfy the following:
That is, readsPrec
parses the string produced by
showsPrec
, and delivers the value that
showsPrec
started with.
readList :: ReadS [a] Source #
The method readList
is provided to allow the programmer to
give a specialised way of parsing lists of values.
For example, this is used by the predefined Read
instance of
the Char
type, where values of type String
should be are
expected to use double quotes, rather than square brackets.
readPrec :: ReadPrec a Source #
Proposed replacement for readsPrec
using new-style parsers (GHC only).
readListPrec :: ReadPrec [a] Source #
Proposed replacement for readList
using new-style parsers (GHC only).
The default definition uses readList
. Instances that define readPrec
should also define readListPrec
as readListPrecDefault
.
Read Bool # | |
Read Char # | |
Read Double # | |
Read Float # | |
Read Int # | |
Read Int8 # | |
Read Int16 # | |
Read Int32 # | |
Read Int64 # | |
Read Integer # | |
Read Ordering # | |
Read Word # | |
Read Word8 # | |
Read Word16 # | |
Read Word32 # | |
Read Word64 # | |
Read () # | |
Read GeneralCategory # | |
Read Lexeme # | |
Read IOMode # | |
Read SomeSymbol # | |
Read SomeNat # | |
Read DecidedStrictness # | |
Read SourceStrictness # | |
Read SourceUnpackedness # | |
Read Associativity # | |
Read Fixity # | |
Read Any # | |
Read All # | |
Read SeekMode # | |
Read CUIntMax # | |
Read CIntMax # | |
Read CUIntPtr # | |
Read CIntPtr # | |
Read CSUSeconds # | |
Read CUSeconds # | |
Read CTime # | |
Read CClock # | |
Read CSigAtomic # | |
Read CWchar # | |
Read CSize # | |
Read CPtrdiff # | |
Read CDouble # | |
Read CFloat # | |
Read CULLong # | |
Read CLLong # | |
Read CULong # | |
Read CLong # | |
Read CUInt # | |
Read CInt # | |
Read CUShort # | |
Read CShort # | |
Read CUChar # | |
Read CSChar # | |
Read CChar # | |
Read IntPtr # | |
Read WordPtr # | |
Read NewlineMode # | |
Read Newline # | |
Read BufferMode # | |
Read ExitCode # | |
Read Fd # | |
Read CRLim # | |
Read CTcflag # | |
Read CSpeed # | |
Read CCc # | |
Read CUid # | |
Read CNlink # | |
Read CGid # | |
Read CSsize # | |
Read CPid # | |
Read COff # | |
Read CMode # | |
Read CIno # | |
Read CDev # | |
Read GCStats # | |
Read Version # | |
Read Void # | Reading a |
Read Natural # | |
Read a => Read [a] # | |
Read a => Read (Maybe a) # | |
(Integral a, Read a) => Read (Ratio a) # | |
Read (V1 p) # | |
Read (U1 p) # | |
Read p => Read (Par1 p) # | |
Read a => Read (Down a) # | |
Read a => Read (Last a) # | |
Read a => Read (First a) # | |
Read a => Read (Product a) # | |
Read a => Read (Sum a) # | |
Read a => Read (Dual a) # | |
Read a => Read (ZipList a) # | |
Read a => Read (Complex a) # | |
HasResolution a => Read (Fixed a) # | |
Read a => Read (NonEmpty a) # | |
Read a => Read (Option a) # | |
Read m => Read (WrappedMonoid m) # | |
Read a => Read (Last a) # | |
Read a => Read (First a) # | |
Read a => Read (Max a) # | |
Read a => Read (Min a) # | |
Read a => Read (Identity a) # | This instance would be equivalent to the derived instances of the
|
(Read b, Read a) => Read (Either a b) # | |
Read (f p) => Read (Rec1 f p) # | |
(Read a, Read b) => Read (a, b) # | |
Read (Proxy k s) # | |
(Read b, Read a) => Read (Arg a b) # | |
Read c => Read (K1 i c p) # | |
(Read (g p), Read (f p)) => Read ((:+:) f g p) # | |
(Read (g p), Read (f p)) => Read ((:*:) f g p) # | |
Read (f (g p)) => Read ((:.:) f g p) # | |
(Read a, Read b, Read c) => Read (a, b, c) # | |
(~) k a b => Read ((:~:) k a b) # | |
Coercible k a b => Read (Coercion k a b) # | |
Read (f a) => Read (Alt k f a) # | |
Read a => Read (Const k a b) # | This instance would be equivalent to the derived instances of the
|
Read (f p) => Read (M1 i c f p) # | |
(Read a, Read b, Read c, Read d) => Read (a, b, c, d) # | |
(Read1 f, Read1 g, Read a) => Read (Product * f g a) # | |
(Read1 f, Read1 g, Read a) => Read (Sum * f g a) # | |
(Read a, Read b, Read c, Read d, Read e) => Read (a, b, c, d, e) # | |
(Read1 f, Read1 g, Read a) => Read (Compose * * f g a) # | |
(Read a, Read b, Read c, Read d, Read e, Read f) => Read (a, b, c, d, e, f) # | |
(Read a, Read b, Read c, Read d, Read e, Read f, Read g) => Read (a, b, c, d, e, f, g) # | |
(Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h) => Read (a, b, c, d, e, f, g, h) # | |
(Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i) => Read (a, b, c, d, e, f, g, h, i) # | |
(Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j) => Read (a, b, c, d, e, f, g, h, i, j) # | |
(Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j, Read k) => Read (a, b, c, d, e, f, g, h, i, j, k) # | |
(Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j, Read k, Read l) => Read (a, b, c, d, e, f, g, h, i, j, k, l) # | |
(Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j, Read k, Read l, Read m) => Read (a, b, c, d, e, f, g, h, i, j, k, l, m) # | |
(Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j, Read k, Read l, Read m, Read n) => Read (a, b, c, d, e, f, g, h, i, j, k, l, m, n) # | |
(Read a, Read b, Read c, Read d, Read e, Read f, Read g, Read h, Read i, Read j, Read k, Read l, Read m, Read n, Read o) => Read (a, b, c, d, e, f, g, h, i, j, k, l, m, n, o) # | |
Haskell 2010 functions
read :: Read a => String -> a Source #
The read
function reads input from a string, which must be
completely consumed by the input process.
The lex
function reads a single lexeme from the input, discarding
initial white space, and returning the characters that constitute the
lexeme. If the input string contains only white space, lex
returns a
single successful `lexeme' consisting of the empty string. (Thus
.) If there is no legal lexeme at the
beginning of the input string, lex
"" = [("","")]lex
fails (i.e. returns []
).
This lexer is not completely faithful to the Haskell lexical syntax in the following respects:
- Qualified names are not handled properly
- Octal and hexadecimal numerics are not recognized as a single token
- Comments are not treated properly
New parsing functions
parens :: ReadPrec a -> ReadPrec a Source #
(parens p)
parses "P", "(P0)", "((P0))", etc,
where p
parses "P" in the current precedence context
and parses "P0" in precedence context zero
readListDefault :: Read a => ReadS [a] Source #
A possible replacement definition for the readList
method (GHC only).
This is only needed for GHC, and even then only for Read
instances
where readListPrec
isn't defined as readListPrecDefault
.
readListPrecDefault :: Read a => ReadPrec [a] Source #
A possible replacement definition for the readListPrec
method,
defined using readPrec
(GHC only).