module GHC.Base
(
module GHC.Base,
- module GHC.Prim, -- Re-export GHC.Prim and GHC.Err, to avoid lots
+ module GHC.Prim, -- Re-export GHC.Prim and GHC.Err, to avoid lots
module GHC.Err -- of people having to import it explicitly
)
where
lazy :: a -> a
lazy x = x
+-- Assertion function. This simply ignores its boolean argument.
+-- The compiler may rewrite it to (assertError line)
+-- SLPJ: in 5.04 etc 'assert' is in GHC.Prim,
+-- but from Template Haskell onwards it's simply
+-- defined here in Base.lhs
+assert :: Bool -> a -> a
+assert pred r = r
+
-- constant function
const :: a -> b -> a
const x _ = x
#endif
\end{code}
+%*********************************************************
+%* *
+\subsection{@getTag@}
+%* *
+%*********************************************************
+
+Returns the 'tag' of a constructor application; this function is used
+by the deriving code for Eq, Ord and Enum.
+
+The primitive dataToTag# requires an evaluated constructor application
+as its argument, so we provide getTag as a wrapper that performs the
+evaluation before calling dataToTag#. We could have dataToTag#
+evaluate its argument, but we prefer to do it this way because (a)
+dataToTag# can be an inline primop if it doesn't need to do any
+evaluation, and (b) we want to expose the evaluation to the
+simplifier, because it might be possible to eliminate the evaluation
+in the case when the argument is already known to be evaluated.
+
+\begin{code}
+{-# INLINE getTag #-}
+getTag :: a -> Int#
+getTag x = x `seq` dataToTag# x
+\end{code}
%*********************************************************
%* *
| ch `eqChar#` '\0'# = []
| ch `leChar#` '\x7F'# = C# ch : unpack (nh +# 1#)
| ch `leChar#` '\xDF'# =
- C# (chr# ((ord# ch -# 0xC0#) `uncheckedIShiftL#` 6# +#
- (ord# (indexCharOffAddr# addr (nh +# 1#)) -# 0x80#))) :
+ C# (chr# (((ord# ch -# 0xC0#) `uncheckedIShiftL#` 6#) +#
+ (ord# (indexCharOffAddr# addr (nh +# 1#)) -# 0x80#))) :
unpack (nh +# 2#)
| ch `leChar#` '\xEF'# =
- C# (chr# ((ord# ch -# 0xE0#) `uncheckedIShiftL#` 12# +#
- (ord# (indexCharOffAddr# addr (nh +# 1#)) -# 0x80#) `uncheckedIShiftL#` 6# +#
- (ord# (indexCharOffAddr# addr (nh +# 2#)) -# 0x80#))) :
+ C# (chr# (((ord# ch -# 0xE0#) `uncheckedIShiftL#` 12#) +#
+ ((ord# (indexCharOffAddr# addr (nh +# 1#)) -# 0x80#) `uncheckedIShiftL#` 6#) +#
+ (ord# (indexCharOffAddr# addr (nh +# 2#)) -# 0x80#))) :
unpack (nh +# 3#)
| otherwise =
- C# (chr# ((ord# ch -# 0xF0#) `uncheckedIShiftL#` 18# +#
- (ord# (indexCharOffAddr# addr (nh +# 1#)) -# 0x80#) `uncheckedIShiftL#` 12# +#
- (ord# (indexCharOffAddr# addr (nh +# 2#)) -# 0x80#) `uncheckedIShiftL#` 6# +#
- (ord# (indexCharOffAddr# addr (nh +# 3#)) -# 0x80#))) :
+ C# (chr# (((ord# ch -# 0xF0#) `uncheckedIShiftL#` 18#) +#
+ ((ord# (indexCharOffAddr# addr (nh +# 1#)) -# 0x80#) `uncheckedIShiftL#` 12#) +#
+ ((ord# (indexCharOffAddr# addr (nh +# 2#)) -# 0x80#) `uncheckedIShiftL#` 6#) +#
+ (ord# (indexCharOffAddr# addr (nh +# 3#)) -# 0x80#))) :
unpack (nh +# 4#)
where
ch = indexCharOffAddr# addr nh