% % (c) The University of Glasgow 2006 % (c) The GRASP/AQUA Project, Glasgow University, 1992-1998 % \section[HsLit]{Abstract syntax: source-language literals} \begin{code}
{-# OPTIONS -fno-warn-tabs #-}
-- The above warning supression flag is a temporary kludge.
-- While working on this module you are encouraged to remove it and
-- detab the module (please do the detabbing in a separate patch). See
--     http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#TabsvsSpaces
-- for details

{-# LANGUAGE DeriveDataTypeable #-}

module HsLit where

#include "HsVersions.h"

import {-# SOURCE #-} HsExpr( SyntaxExpr, pprExpr )
import BasicTypes ( FractionalLit(..) )
import Type	( Type, Kind )
import Outputable
import FastString

import Data.Data
\end{code} %************************************************************************ %* * \subsection{Annotating the syntax} %* * %************************************************************************ \begin{code}
type PostTcKind = Kind
type PostTcType = Type		-- Used for slots in the abstract syntax
				-- where we want to keep slot for a type
				-- to be added by the type checker...but
				-- before typechecking it's just bogus

placeHolderType :: PostTcType	-- Used before typechecking
placeHolderType  = panic "Evaluated the place holder for a PostTcType"

placeHolderKind :: PostTcKind	-- Used before typechecking
placeHolderKind  = panic "Evaluated the place holder for a PostTcKind"
\end{code} %************************************************************************ %* * \subsection[HsLit]{Literals} %* * %************************************************************************ \begin{code}
data HsLit
  = HsChar	    Char		-- Character
  | HsCharPrim	    Char		-- Unboxed character
  | HsString	    FastString		-- String
  | HsStringPrim    FastString		-- Packed string
  | HsInt	    Integer		-- Genuinely an Int; arises from TcGenDeriv, 
					--	and from TRANSLATION
  | HsIntPrim       Integer             -- literal Int#
  | HsWordPrim      Integer             -- literal Word#
  | HsInt64Prim     Integer             -- literal Int64#
  | HsWord64Prim    Integer             -- literal Word64#
  | HsInteger	    Integer  Type	-- Genuinely an integer; arises only from TRANSLATION
					-- 	(overloaded literals are done with HsOverLit)
  | HsRat	    FractionalLit Type	-- Genuinely a rational; arises only from TRANSLATION
					-- 	(overloaded literals are done with HsOverLit)
  | HsFloatPrim	    FractionalLit	-- Unboxed Float
  | HsDoublePrim    FractionalLit	-- Unboxed Double
  deriving (Data, Typeable)

instance Eq HsLit where
  (HsChar x1)	    == (HsChar x2)	 = x1==x2
  (HsCharPrim x1)   == (HsCharPrim x2)	 = x1==x2
  (HsString x1)     == (HsString x2)	 = x1==x2
  (HsStringPrim x1) == (HsStringPrim x2) = x1==x2
  (HsInt x1)	    == (HsInt x2)	 = x1==x2
  (HsIntPrim x1)    == (HsIntPrim x2)    = x1==x2
  (HsWordPrim x1)   == (HsWordPrim x2)   = x1==x2
  (HsInt64Prim x1)  == (HsInt64Prim x2)  = x1==x2
  (HsWord64Prim x1) == (HsWord64Prim x2) = x1==x2
  (HsInteger x1 _)  == (HsInteger x2 _)  = x1==x2
  (HsRat x1 _)	    == (HsRat x2 _)      = x1==x2
  (HsFloatPrim x1)  == (HsFloatPrim x2)  = x1==x2
  (HsDoublePrim x1) == (HsDoublePrim x2) = x1==x2
  _                 == _                 = False

data HsOverLit id 	-- An overloaded literal
  = OverLit {
	ol_val :: OverLitVal, 
	ol_rebindable :: Bool,		-- Note [ol_rebindable]
	ol_witness :: SyntaxExpr id,	-- Note [Overloaded literal witnesses]
	ol_type :: PostTcType }
  deriving (Data, Typeable)

data OverLitVal
  = HsIntegral   !Integer   	-- Integer-looking literals;
  | HsFractional !FractionalLit	-- Frac-looking literals
  | HsIsString   !FastString 	-- String-looking literals
  deriving (Data, Typeable)

overLitType :: HsOverLit a -> Type
overLitType = ol_type
\end{code} Note [ol_rebindable] ~~~~~~~~~~~~~~~~~~~~ The ol_rebindable field is True if this literal is actually using rebindable syntax. Specifically: False iff ol_witness is the standard one True iff ol_witness is non-standard Equivalently it's True if a) RebindableSyntax is on b) the witness for fromInteger/fromRational/fromString that happens to be in scope isn't the standard one Note [Overloaded literal witnesses] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ *Before* type checking, the SyntaxExpr in an HsOverLit is the name of the coercion function, 'fromInteger' or 'fromRational'. *After* type checking, it is a witness for the literal, such as (fromInteger 3) or lit_78 This witness should replace the literal. This dual role is unusual, because we're replacing 'fromInteger' with a call to fromInteger. Reason: it allows commoning up of the fromInteger calls, which wouldn't be possible if the desguarar made the application. The PostTcType in each branch records the type the overload literal is found to have. \begin{code}
-- Comparison operations are needed when grouping literals
-- for compiling pattern-matching (module MatchLit)
instance Eq (HsOverLit id) where
  (OverLit {ol_val = val1}) == (OverLit {ol_val=val2}) = val1 == val2

instance Eq OverLitVal where
  (HsIntegral i1)   == (HsIntegral i2)   = i1 == i2
  (HsFractional f1) == (HsFractional f2) = f1 == f2
  (HsIsString s1)   == (HsIsString s2)   = s1 == s2
  _                 == _                 = False

instance Ord (HsOverLit id) where
  compare (OverLit {ol_val=val1}) (OverLit {ol_val=val2}) = val1 `compare` val2

instance Ord OverLitVal where
  compare (HsIntegral i1)   (HsIntegral i2)   = i1 `compare` i2
  compare (HsIntegral _)    (HsFractional _)  = LT
  compare (HsIntegral _)    (HsIsString _)    = LT
  compare (HsFractional f1) (HsFractional f2) = f1 `compare` f2
  compare (HsFractional _)  (HsIntegral _)    = GT
  compare (HsFractional _)  (HsIsString _)    = LT
  compare (HsIsString s1)   (HsIsString s2)   = s1 `compare` s2
  compare (HsIsString _)    (HsIntegral _)    = GT
  compare (HsIsString _)    (HsFractional _)  = GT
\end{code} \begin{code}
instance Outputable HsLit where
	-- Use "show" because it puts in appropriate escapes
    ppr (HsChar c)	 = pprHsChar c
    ppr (HsCharPrim c)	 = pprHsChar c <> char '#'
    ppr (HsString s)	 = pprHsString s
    ppr (HsStringPrim s) = pprHsString s <> char '#'
    ppr (HsInt i)	 = integer i
    ppr (HsInteger i _)	 = integer i
    ppr (HsRat f _)	 = ppr f
    ppr (HsFloatPrim f)	 = ppr f <> char '#'
    ppr (HsDoublePrim d) = ppr d <> text "##"
    ppr (HsIntPrim i)	 = integer i  <> char '#'
    ppr (HsWordPrim w)	 = integer w  <> text "##"
    ppr (HsInt64Prim i)  = integer i  <> text "L#"
    ppr (HsWord64Prim w) = integer w  <> text "L##"

-- in debug mode, print the expression that it's resolved to, too
instance OutputableBndr id => Outputable (HsOverLit id) where
  ppr (OverLit {ol_val=val, ol_witness=witness}) 
	= ppr val <+> (ifPprDebug (parens (pprExpr witness)))

instance Outputable OverLitVal where
  ppr (HsIntegral i)   = integer i 
  ppr (HsFractional f) = ppr f
  ppr (HsIsString s)   = pprHsString s
\end{code}