tcSimplifyDeriv, tcSimplifyDefault,
bindInstsOfLocalFuns,
+
+ tcSimplifyStagedExpr,
misMatchMsg
) where
import SrcLoc
import DynFlags
import FastString
+
import Control.Monad
import Data.List
\end{code}
-- (ir1, .., irn) = f qtvs givens
-- where f is (evidence for) the new implication constraint
-- f :: forall qtvs. givens => (ir1, .., irn)
--- qtvs includes coercion variables.
+-- qtvs includes coercion variables
--
-- This binding must line up the 'rhs' in reduceImplication
makeImplicationBind loc all_tvs
name = mkInternalName uniq (mkVarOcc "ic") span
implic_inst = ImplicInst { tci_name = name,
tci_tyvars = all_tvs,
- tci_given = (eq_givens ++ dict_givens),
+ tci_given = eq_givens ++ dict_givens,
-- same order as binders
tci_wanted = irreds,
tci_loc = loc }
doc = ptext (sLit "default declaration")
\end{code}
+@tcSimplifyStagedExpr@ performs a simplification but does so at a new
+stage. This is used when typechecking annotations and splices.
+
+\begin{code}
+
+tcSimplifyStagedExpr :: ThStage -> TcM a -> TcM (a, TcDictBinds)
+-- Type check an expression that runs at a top level stage as if
+-- it were going to be spliced and then simplify it
+tcSimplifyStagedExpr stage tc_action
+ = setStage stage $ do {
+ -- Typecheck the expression
+ (thing', lie) <- getLIE tc_action
+
+ -- Solve the constraints
+ ; const_binds <- tcSimplifyTop lie
+
+ ; return (thing', const_binds) }
+
+\end{code}
+
%************************************************************************
%* *