ghc-lib-8.8.0.20190424: The GHC API, decoupled from GHC versions

Safe HaskellNone
LanguageHaskell2010

TcSimplify

Synopsis

Documentation

data InferMode Source #

How should we choose which constraints to quantify over?

Constructors

ApplyMR

Apply the monomorphism restriction, never quantifying over any constraints

EagerDefaulting

See Note [TcRnExprMode] in TcRnDriver, the :type +d case; this mode refuses to quantify over any defaultable constraint

NoRestrictions

Quantify over any constraint that satisfies TcType.pickQuantifiablePreds

Instances
Outputable InferMode Source # 
Instance details

Defined in TcSimplify

solveEqualities :: TcM a -> TcM a Source #

Type-check a thing that emits only equality constraints, then solve those constraints. Fails outright if there is trouble. Use this if you're not going to get another crack at solving (because, e.g., you're checking a datatype declaration)

solveLocalEqualities :: String -> TcM a -> TcM a Source #

Type-check a thing that emits only equality constraints, solving any constraints we can and re-emitting constraints that we can't. The thing_inside should generally bump the TcLevel to make sure that this run of the solver doesn't affect anything lying around.

tcNormalise :: Bag EvVar -> Type -> TcM Type Source #

Normalise a type as much as possible using the given constraints. See Note [tcNormalise].

simpl_top :: WantedConstraints -> TcS WantedConstraints Source #

Simplify top-level constraints, but without reporting any unsolved constraints nor unsafe overlapping.

runTcSDeriveds :: TcS a -> TcM a Source #

This variant of runTcS will keep solving, even when only Deriveds are left around. It also doesn't return any evidence, as callers won't need it.