Auxiliary function for instantiating the loose bound variables in e
with args[start:stop]
.
This function is similar to instantiateRevRange
, but it applies beta-reduction when
we instantiate a bound variable with a lambda expression.
Example: Given the term #0 a
, and start := 0, stop := 1, args := #[fun x => x]
the result is
a
instead of (fun x => x) a
.
This reduction is useful when we are inferring the type of eliminator-like applications.
For example, given (n m : Nat) (f : Nat → Nat) (h : m = n)
,
the type of Eq.subst (motive := fun x => f m = f x) h rfl
is motive n
which is (fun (x : Nat) => f m = f x) n
This function reduces the new application to f m = f n
We use it to implement inferAppType
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- Lean.Meta.throwFunctionExpected f = Lean.throwError (Lean.toMessageData "function expected" ++ Lean.toMessageData (Lean.indentExpr f) ++ Lean.toMessageData "")
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- Lean.Meta.throwTypeExcepted type = Lean.throwError (Lean.toMessageData "type expected" ++ Lean.toMessageData (Lean.indentExpr type) ++ Lean.toMessageData "")
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- Lean.Meta.throwUnknownMVar mvarId = Lean.throwError (Lean.toMessageData "unknown metavariable '?" ++ Lean.toMessageData mvarId.name ++ Lean.toMessageData "'")
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- Lean.Meta.inferTypeImp.infer (Lean.Expr.const c []) = Lean.Meta.inferConstType c []
- Lean.Meta.inferTypeImp.infer (Lean.Expr.const c us) = Lean.Meta.checkInferTypeCache (Lean.Expr.const c us) (Lean.Meta.inferConstType c us)
- Lean.Meta.inferTypeImp.infer (Lean.Expr.proj n i s) = Lean.Meta.checkInferTypeCache (Lean.Expr.proj n i s) (Lean.Meta.inferProjType n i s)
- Lean.Meta.inferTypeImp.infer (f.app arg) = Lean.Meta.checkInferTypeCache (f.app arg) (Lean.Meta.inferAppType f.getAppFn (f.app arg).getAppArgs)
- Lean.Meta.inferTypeImp.infer (Lean.Expr.mvar mvarId) = Lean.Meta.inferMVarType mvarId
- Lean.Meta.inferTypeImp.infer (Lean.Expr.fvar fvarId) = Lean.Meta.inferFVarType fvarId
- Lean.Meta.inferTypeImp.infer (Lean.Expr.bvar bidx) = Lean.throwError (Lean.toMessageData "unexpected bound variable " ++ Lean.toMessageData (Lean.mkBVar bidx) ++ Lean.toMessageData "")
- Lean.Meta.inferTypeImp.infer (Lean.Expr.mdata data e_2) = Lean.Meta.inferTypeImp.infer e_2
- Lean.Meta.inferTypeImp.infer (Lean.Expr.lit v) = pure v.type
- Lean.Meta.inferTypeImp.infer (Lean.Expr.sort lvl) = pure (Lean.mkSort (Lean.mkLevelSucc lvl))
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isPropQuick e
is an "approximate" predicate which returns LBool.true
if e
is a proposition.
isProp e
returns true
if e
is a proposition.
If e
contains metavariables, it may not be possible
to decide whether is a proposition or not. We return false
in this
case. We considered using LBool
and retuning LBool.undef
, but
we have no applications for it.
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isProofQuick e
is an "approximate" predicate which returns LBool.true
if e
is a proof.
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isTypeQuick e
is an "approximate" predicate which returns LBool.true
if e
is a type.
Return true
iff the type of e
is a Sort _
.
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- Lean.Meta.isTypeFormerTypeQuick (Lean.Expr.forallE binderName binderType b binderInfo) = Lean.Meta.isTypeFormerTypeQuick b
- Lean.Meta.isTypeFormerTypeQuick (Lean.Expr.sort u) = true
- Lean.Meta.isTypeFormerTypeQuick x = false
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Return true iff type
is Sort _
or As → Sort _
.
Equations
- Lean.Meta.isTypeFormerType type = match Lean.Meta.isTypeFormerTypeQuick type with | true => pure true | false => Lean.Meta.savingCache (Lean.Meta.isTypeFormerType.go type #[])
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Return true iff e : Sort _
or e : (forall As, Sort _)
.
Remark: it subsumes isType
Equations
- Lean.Meta.isTypeFormer e = do let __do_lift ← Lean.Meta.inferType e Lean.Meta.isTypeFormerType __do_lift