module HsLit where
#include "HsVersions.h"
import GhcPrelude
import HsExpr( HsExpr, pprExpr )
import BasicTypes ( IntegralLit(..),FractionalLit(..),negateIntegralLit,
negateFractionalLit,SourceText(..),pprWithSourceText )
import Type ( Type )
import Outputable
import FastString
import HsExtension
import Data.ByteString (ByteString)
import Data.Data hiding ( Fixity )
data HsLit x
= HsChar (XHsChar x) Char
| HsCharPrim (XHsCharPrim x) Char
| HsString (XHsString x) FastString
| HsStringPrim (XHsStringPrim x) ByteString
| HsInt (XHsInt x) IntegralLit
| HsIntPrim (XHsIntPrim x) Integer
| HsWordPrim (XHsWordPrim x) Integer
| HsInt64Prim (XHsInt64Prim x) Integer
| HsWord64Prim (XHsWord64Prim x) Integer
| HsInteger (XHsInteger x) Integer Type
| HsRat (XHsRat x) FractionalLit Type
| HsFloatPrim (XHsFloatPrim x) FractionalLit
| HsDoublePrim (XHsDoublePrim x) FractionalLit
deriving instance (DataId x) => Data (HsLit x)
instance Eq (HsLit x) 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 p
= OverLit {
ol_val :: OverLitVal,
ol_rebindable :: PostRn p Bool,
ol_witness :: HsExpr p,
ol_type :: PostTc p Type }
deriving instance (DataId p) => Data (HsOverLit p)
data OverLitVal
= HsIntegral !IntegralLit
| HsFractional !FractionalLit
| HsIsString !SourceText !FastString
deriving Data
negateOverLitVal :: OverLitVal -> OverLitVal
negateOverLitVal (HsIntegral i) = HsIntegral (negateIntegralLit i)
negateOverLitVal (HsFractional f) = HsFractional (negateFractionalLit f)
negateOverLitVal _ = panic "negateOverLitVal: argument is not a number"
overLitType :: HsOverLit p -> PostTc p Type
overLitType = ol_type
convertLit :: (ConvertIdX a b) => HsLit a -> HsLit b
convertLit (HsChar a x) = (HsChar (convert a) x)
convertLit (HsCharPrim a x) = (HsCharPrim (convert a) x)
convertLit (HsString a x) = (HsString (convert a) x)
convertLit (HsStringPrim a x) = (HsStringPrim (convert a) x)
convertLit (HsInt a x) = (HsInt (convert a) x)
convertLit (HsIntPrim a x) = (HsIntPrim (convert a) x)
convertLit (HsWordPrim a x) = (HsWordPrim (convert a) x)
convertLit (HsInt64Prim a x) = (HsInt64Prim (convert a) x)
convertLit (HsWord64Prim a x) = (HsWord64Prim (convert a) x)
convertLit (HsInteger a x b) = (HsInteger (convert a) x b)
convertLit (HsRat a x b) = (HsRat (convert a) x b)
convertLit (HsFloatPrim a x) = (HsFloatPrim (convert a) x)
convertLit (HsDoublePrim a x) = (HsDoublePrim (convert a) x)
instance Eq (HsOverLit p) 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 p) 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
instance (SourceTextX x) => Outputable (HsLit x) where
ppr (HsChar st c) = pprWithSourceText (getSourceText st) (pprHsChar c)
ppr (HsCharPrim st c)
= pp_st_suffix (getSourceText st) primCharSuffix (pprPrimChar c)
ppr (HsString st s)
= pprWithSourceText (getSourceText st) (pprHsString s)
ppr (HsStringPrim st s)
= pprWithSourceText (getSourceText st) (pprHsBytes s)
ppr (HsInt _ i)
= pprWithSourceText (il_text i) (integer (il_value i))
ppr (HsInteger st i _) = pprWithSourceText (getSourceText st) (integer i)
ppr (HsRat _ f _) = ppr f
ppr (HsFloatPrim _ f) = ppr f <> primFloatSuffix
ppr (HsDoublePrim _ d) = ppr d <> primDoubleSuffix
ppr (HsIntPrim st i)
= pprWithSourceText (getSourceText st) (pprPrimInt i)
ppr (HsWordPrim st w)
= pprWithSourceText (getSourceText st) (pprPrimWord w)
ppr (HsInt64Prim st i)
= pp_st_suffix (getSourceText st) primInt64Suffix (pprPrimInt64 i)
ppr (HsWord64Prim st w)
= pp_st_suffix (getSourceText st) primWord64Suffix (pprPrimWord64 w)
pp_st_suffix :: SourceText -> SDoc -> SDoc -> SDoc
pp_st_suffix NoSourceText _ doc = doc
pp_st_suffix (SourceText st) suffix _ = text st <> suffix
instance (SourceTextX p, OutputableBndrId p)
=> Outputable (HsOverLit p) where
ppr (OverLit {ol_val=val, ol_witness=witness})
= ppr val <+> (whenPprDebug (parens (pprExpr witness)))
instance Outputable OverLitVal where
ppr (HsIntegral i) = pprWithSourceText (il_text i) (integer (il_value i))
ppr (HsFractional f) = ppr f
ppr (HsIsString st s) = pprWithSourceText st (pprHsString s)
pmPprHsLit :: (SourceTextX x) => HsLit x -> SDoc
pmPprHsLit (HsChar _ c) = pprHsChar c
pmPprHsLit (HsCharPrim _ c) = pprHsChar c
pmPprHsLit (HsString st s) = pprWithSourceText (getSourceText st)
(pprHsString s)
pmPprHsLit (HsStringPrim _ s) = pprHsBytes s
pmPprHsLit (HsInt _ i) = integer (il_value i)
pmPprHsLit (HsIntPrim _ i) = integer i
pmPprHsLit (HsWordPrim _ w) = integer w
pmPprHsLit (HsInt64Prim _ i) = integer i
pmPprHsLit (HsWord64Prim _ w) = integer w
pmPprHsLit (HsInteger _ i _) = integer i
pmPprHsLit (HsRat _ f _) = ppr f
pmPprHsLit (HsFloatPrim _ f) = ppr f
pmPprHsLit (HsDoublePrim _ d) = ppr d
isCompoundHsLit :: HsLit x -> Bool
isCompoundHsLit (HsChar {}) = False
isCompoundHsLit (HsCharPrim {}) = False
isCompoundHsLit (HsString {}) = False
isCompoundHsLit (HsStringPrim {}) = False
isCompoundHsLit (HsInt _ x) = il_neg x
isCompoundHsLit (HsIntPrim _ x) = x < 0
isCompoundHsLit (HsWordPrim _ x) = x < 0
isCompoundHsLit (HsInt64Prim _ x) = x < 0
isCompoundHsLit (HsWord64Prim _ x) = x < 0
isCompoundHsLit (HsInteger _ x _) = x < 0
isCompoundHsLit (HsRat _ x _) = fl_neg x
isCompoundHsLit (HsFloatPrim _ x) = fl_neg x
isCompoundHsLit (HsDoublePrim _ x) = fl_neg x
isCompoundHsOverLit :: HsOverLit x -> Bool
isCompoundHsOverLit (OverLit { ol_val = olv }) = compound_ol_val olv
where
compound_ol_val :: OverLitVal -> Bool
compound_ol_val (HsIntegral x) = il_neg x
compound_ol_val (HsFractional x) = fl_neg x
compound_ol_val (HsIsString {}) = False