module Infer (inferTerm) where import List(nub) import MyList (minus) import Type (TVarId, TConId, MonoType (..), PolyType (All), arrow, freeTVarMono) import Term (VarId, Term (Var, Abs, App, Let)) import Substitution (Sub, applySub, lookupSub, makeSub) import Environment (Env, lookupEnv, extendLocal, extendGlobal, domEnv, freeTVarEnv) import InferMonad (Infer, thenI, returnI, guardI, getSubI, freshI, freshesI, unifyI, substituteI) import Maybe specialiseI :: PolyType -> Infer MonoType specialiseI (All xxs tt) = freshesI (length xxs) `thenI` (\yys -> returnI (applySubs xxs yys tt)) applySubs :: [TVarId] -> [MonoType] -> MonoType -> MonoType applySubs xxs yys tt = applySub (makeSub (zip xxs yys)) tt generaliseI :: Env -> MonoType -> Infer PolyType generaliseI aa tt = getSubI `thenI` (\s -> let aaVars = nub (freeTVarSubEnv s aa) in let ttVars = nub (freeTVarMono tt) in let xxs = ttVars `minus` aaVars in returnI (All xxs tt) ) freeTVarSubEnv :: Sub -> Env -> [TVarId] freeTVarSubEnv s aa = concat (map (freeTVarMono . lookupSub s) (freeTVarEnv aa)) inferTerm :: Env -> Term -> Infer MonoType inferTerm aa (Var x) = (x `elem` domEnv aa) `guardI` ( let ss = lookupEnv aa x in specialiseI ss `thenI` (\tt -> substituteI tt `thenI` (\uu -> returnI uu))) inferTerm aa (Abs x v) = freshI `thenI` (\xx -> inferTerm (extendLocal aa x xx) v `thenI` (\vv -> substituteI xx `thenI` (\uu -> returnI (uu `arrow` vv)))) inferTerm aa (App t u) = inferTerm aa t `thenI` (\tt -> inferTerm aa u `thenI` (\uu -> freshI `thenI` (\xx -> unifyI tt (uu `arrow` xx) `thenI` (\() -> substituteI xx `thenI` (\vv -> returnI vv))))) inferTerm aa (Let x u v) = inferTerm aa u `thenI` (\uu -> generaliseI aa uu `thenI` (\ss -> inferTerm (extendGlobal aa x ss) v `thenI` (\vv -> returnI vv)))