quox/lib/Quox/Typing.idr

176 lines
5.6 KiB
Idris

module Quox.Typing
import public Quox.Typing.Context as Typing
import public Quox.Typing.EqMode as Typing
import public Quox.Typing.Error as Typing
import public Quox.Syntax
import public Quox.Definition
import public Quox.Whnf
import public Quox.Pretty
import Language.Reflection
import Control.Eff
%default total
%language ElabReflection
private TTName : Type
TTName = TT.Name
%hide TT.Name
public export
CheckResult' : Nat -> Type
CheckResult' = QOutput
public export
CheckResult : DimEq d -> Nat -> Type
CheckResult eqs n = IfConsistent eqs $ CheckResult' n
public export
record InferResult' d n where
constructor InfRes
type : Term d n
qout : QOutput n
public export
InferResult : DimEq d -> TermLike
InferResult eqs d n = IfConsistent eqs $ InferResult' d n
export
lookupFree : Has ErrorEff fs => Name -> Loc -> Definitions -> Eff fs Definition
lookupFree x loc defs = maybe (throw $ NotInScope loc x) pure $ lookup x defs
public export
substCasePairRet : BContext 2 -> Term d n -> ScopeTerm d n -> Term d (2 + n)
substCasePairRet [< x, y] dty retty =
let tm = Pair (BVT 1 x.loc) (BVT 0 y.loc) $ x.loc `extendL` y.loc
arg = Ann tm (dty // fromNat 2) tm.loc in
retty.term // (arg ::: shift 2)
public export
substCaseSuccRet : BContext 2 -> ScopeTerm d n -> Term d (2 + n)
substCaseSuccRet [< p, ih] retty =
let loc = p.loc `extendL` ih.loc
arg = Ann (Succ (BVT 1 p.loc) p.loc) (NAT p.loc) loc in
retty.term // (arg ::: shift 2)
public export
substCaseBoxRet : BindName -> Term d n -> ScopeTerm d n -> Term d (S n)
substCaseBoxRet x dty retty =
let arg = Ann (Box (BVT 0 x.loc) x.loc) (weakT 1 dty) x.loc in
retty.term // (arg ::: shift 1)
private
0 ExpectErrorConstructor : Type
ExpectErrorConstructor =
forall d, n. Loc -> NameContexts d n -> Term d n -> Error
parameters (defs : Definitions)
{auto _ : (Has ErrorEff fs, Has NameGen fs, Has Log fs)}
namespace TyContext
parameters (ctx : TyContext d n) (sg : SQty) (loc : Loc)
export covering
whnf : {0 isRedex : RedexTest tm} -> CanWhnf tm isRedex =>
tm d n -> Eff fs (NonRedex tm d n defs (toWhnfContext ctx) sg)
whnf tm = do
let Val n = ctx.termLen; Val d = ctx.dimLen
res <- lift $ runExcept $ whnf defs (toWhnfContext ctx) sg tm
rethrow res
private covering %macro
expect : ExpectErrorConstructor -> TTImp -> TTImp ->
Elab (Term d n -> Eff fs a)
expect err pat rhs = Prelude.do
match <- check `(\case ~(pat) => Just ~(rhs); _ => Nothing)
pure $ \term => do
res <- whnf term
maybe (throw $ err loc ctx.names term) pure $ match $ fst res
export covering %inline
expectTYPE : Term d n -> Eff fs Universe
expectTYPE = expect ExpectedTYPE `(TYPE {l, _}) `(l)
export covering %inline
expectPi : Term d n -> Eff fs (Qty, Term d n, ScopeTerm d n)
expectPi = expect ExpectedPi `(Pi {qty, arg, res, _}) `((qty, arg, res))
export covering %inline
expectSig : Term d n -> Eff fs (Term d n, ScopeTerm d n)
expectSig = expect ExpectedSig `(Sig {fst, snd, _}) `((fst, snd))
export covering %inline
expectEnum : Term d n -> Eff fs (SortedSet TagVal)
expectEnum = expect ExpectedEnum `(Enum {cases, _}) `(cases)
export covering %inline
expectEq : Term d n -> Eff fs (DScopeTerm d n, Term d n, Term d n)
expectEq = expect ExpectedEq `(Eq {ty, l, r, _}) `((ty, l, r))
export covering %inline
expectNAT : Term d n -> Eff fs ()
expectNAT = expect ExpectedNAT `(NAT {}) `(())
export covering %inline
expectSTRING : Term d n -> Eff fs ()
expectSTRING = expect ExpectedSTRING `(STRING {}) `(())
export covering %inline
expectBOX : Term d n -> Eff fs (Qty, Term d n)
expectBOX = expect ExpectedBOX `(BOX {qty, ty, _}) `((qty, ty))
namespace EqContext
parameters (ctx : EqContext n) (sg : SQty) (loc : Loc)
export covering
whnf : {0 isRedex : RedexTest tm} -> CanWhnf tm isRedex =>
tm 0 n -> Eff fs (NonRedex tm 0 n defs (toWhnfContext ctx) sg)
whnf tm = do
res <- lift $ runExcept $ whnf defs (toWhnfContext ctx) sg tm
rethrow res
private covering %macro
expect : ExpectErrorConstructor -> TTImp -> TTImp ->
Elab (Term 0 n -> Eff fs a)
expect err pat rhs = do
match <- check `(\case ~(pat) => Just ~(rhs); _ => Nothing)
pure $ \term => do
res <- whnf term
let t0 = delay $ term // shift0 ctx.dimLen
maybe (throw $ err loc ctx.names t0) pure $ match $ fst res
export covering %inline
expectTYPE : Term 0 n -> Eff fs Universe
expectTYPE = expect ExpectedTYPE `(TYPE {l, _}) `(l)
export covering %inline
expectPi : Term 0 n -> Eff fs (Qty, Term 0 n, ScopeTerm 0 n)
expectPi = expect ExpectedPi `(Pi {qty, arg, res, _}) `((qty, arg, res))
export covering %inline
expectSig : Term 0 n -> Eff fs (Term 0 n, ScopeTerm 0 n)
expectSig = expect ExpectedSig `(Sig {fst, snd, _}) `((fst, snd))
export covering %inline
expectEnum : Term 0 n -> Eff fs (SortedSet TagVal)
expectEnum = expect ExpectedEnum `(Enum {cases, _}) `(cases)
export covering %inline
expectEq : Term 0 n -> Eff fs (DScopeTerm 0 n, Term 0 n, Term 0 n)
expectEq = expect ExpectedEq `(Eq {ty, l, r, _}) `((ty, l, r))
export covering %inline
expectNAT : Term 0 n -> Eff fs ()
expectNAT = expect ExpectedNAT `(NAT {}) `(())
export covering %inline
expectSTRING : Term 0 n -> Eff fs ()
expectSTRING = expect ExpectedSTRING `(STRING {}) `(())
export covering %inline
expectBOX : Term 0 n -> Eff fs (Qty, Term 0 n)
expectBOX = expect ExpectedBOX `(BOX {qty, ty, _}) `((qty, ty))