-
-
-%************************************************************************
-%* *
-\subsection[DsExpr-literals]{Literals}
-%* *
-%************************************************************************
-
-We give int/float literals type @Integer@ and @Rational@, respectively.
-The typechecker will (presumably) have put \tr{from{Integer,Rational}s}
-around them.
-
-ToDo: put in range checks for when converting ``@i@''
-(or should that be in the typechecker?)
-
-For numeric literals, we try to detect there use at a standard type
-(@Int@, @Float@, etc.) are directly put in the right constructor.
-[NB: down with the @App@ conversion.]
-
-See also below where we look for @DictApps@ for \tr{plusInt}, etc.
-
-\begin{code}
-dsLit :: HsLit -> DsM CoreExpr
-dsLit (HsChar c) = returnDs (mkConApp charDataCon [mkLit (MachChar c)])
-dsLit (HsCharPrim c) = returnDs (mkLit (MachChar c))
-dsLit (HsString str) = mkStringLitFS str
-dsLit (HsStringPrim s) = returnDs (mkLit (MachStr s))
-dsLit (HsInteger i) = mkIntegerLit i
-dsLit (HsInt i) = returnDs (mkConApp intDataCon [mkIntLit i])
-dsLit (HsIntPrim i) = returnDs (mkIntLit i)
-dsLit (HsFloatPrim f) = returnDs (mkLit (MachFloat f))
-dsLit (HsDoublePrim d) = returnDs (mkLit (MachDouble d))
-dsLit (HsLitLit str ty)
- = ASSERT( maybeToBool maybe_ty )
- returnDs (wrap_fn (mkLit (MachLitLit str rep_ty)))
- where
- (maybe_ty, wrap_fn) = resultWrapper ty
- Just rep_ty = maybe_ty
-
-dsLit (HsRat r ty)
- = mkIntegerLit (numerator r) `thenDs` \ num ->
- mkIntegerLit (denominator r) `thenDs` \ denom ->
- returnDs (mkConApp ratio_data_con [Type integer_ty, num, denom])
- where
- (ratio_data_con, integer_ty)
- = case tcSplitTyConApp ty of
- (tycon, [i_ty]) -> ASSERT(isIntegerTy i_ty && tycon `hasKey` ratioTyConKey)
- (head (tyConDataCons tycon), i_ty)
-\end{code}