diff options
Diffstat (limited to 'kernel/subtyping.ml')
-rw-r--r-- | kernel/subtyping.ml | 81 |
1 files changed, 2 insertions, 79 deletions
diff --git a/kernel/subtyping.ml b/kernel/subtyping.ml index 8cf588c3e..2e9a33a91 100644 --- a/kernel/subtyping.ml +++ b/kernel/subtyping.ml @@ -17,7 +17,6 @@ open Names open Univ open Util -open Term open Constr open Declarations open Declareops @@ -138,39 +137,8 @@ let check_inductive cst env mp1 l info1 mp2 mib2 spec2 subst1 subst2 reso1 reso2 in let mib2 = Declareops.subst_mind_body subst2 mib2 in let check_inductive_type cst name t1 t2 = - - (* Due to template polymorphism, the conclusions of - t1 and t2, if in Type, are generated as the least upper bounds - of the types of the constructors. - - By monotonicity of the infered l.u.b. wrt subtyping (i.e. if X:U - |- T(X):s and |- M:U' and U'<=U then infer_type(T(M))<=s), each - universe in the conclusion of t1 has an bounding universe in - the conclusion of t2, so that we don't need to check the - subtyping of the conclusions of t1 and t2. - - Even if we'd like to recheck it, the inference of constraints - is not designed to deal with algebraic constraints of the form - max-univ(u1..un) <= max-univ(u'1..u'n), so that it is not easy - to recheck it (in short, we would need the actual graph of - constraints as input while type checking is currently designed - to output a set of constraints instead) *) - - (* So we cheat and replace the subtyping problem on algebraic - constraints of the form max-univ(u1..un) <= max-univ(u'1..u'n) - (that we know are necessary true) by trivial constraints that - the constraint generator knows how to deal with *) - - let (ctx1,s1) = dest_arity env t1 in - let (ctx2,s2) = dest_arity env t2 in - let s1,s2 = - match s1, s2 with - | Type _, Type _ -> (* shortcut here *) Sorts.prop, Sorts.prop - | (Prop _, Type _) | (Type _,Prop _) -> - error (NotConvertibleInductiveField name) - | _ -> (s1, s2) in check_conv (NotConvertibleInductiveField name) - cst (inductive_is_polymorphic mib1) infer_conv_leq env (mkArity (ctx1,s1)) (mkArity (ctx2,s2)) + cst (inductive_is_polymorphic mib1) infer_conv_leq env t1 t2 in let check_packet cst p1 p2 = @@ -259,53 +227,8 @@ let check_constant cst env mp1 l info1 cb2 spec2 subst1 subst2 = let error why = error_signature_mismatch l spec2 why in let check_conv cst poly f = check_conv_error error cst poly f in let check_type poly cst env t1 t2 = - let err = NotConvertibleTypeField (env, t1, t2) in - - (* If the type of a constant is generated, it may mention - non-variable algebraic universes that the general conversion - algorithm is not ready to handle. Anyway, generated types of - constants are functions of the body of the constant. If the - bodies are the same in environments that are subtypes one of - the other, the types are subtypes too (i.e. if Gamma <= Gamma', - Gamma |- A |> T, Gamma |- A' |> T' and Gamma |- A=A' then T <= T'). - Hence they don't have to be checked again *) - - let t1,t2 = - if isArity t2 then - let (ctx2,s2) = destArity t2 in - match s2 with - | Type v when not (is_univ_variable v) -> - (* The type in the interface is inferred and is made of algebraic - universes *) - begin try - let (ctx1,s1) = dest_arity env t1 in - match s1 with - | Type u when not (is_univ_variable u) -> - (* Both types are inferred, no need to recheck them. We - cheat and collapse the types to Prop *) - mkArity (ctx1,Sorts.prop), mkArity (ctx2,Sorts.prop) - | Prop _ -> - (* The type in the interface is inferred, it may be the case - that the type in the implementation is smaller because - the body is more reduced. We safely collapse the upper - type to Prop *) - mkArity (ctx1,Sorts.prop), mkArity (ctx2,Sorts.prop) - | Type _ -> - (* The type in the interface is inferred and the type in the - implementation is not inferred or is inferred but from a - more reduced body so that it is just a variable. Since - constraints of the form "univ <= max(...)" are not - expressible in the system of algebraic universes: we fail - (the user has to use an explicit type in the interface *) - error NoTypeConstraintExpected - with NotArity -> - error err end - | _ -> - t1,t2 - else - (t1,t2) in - check_conv err cst poly infer_conv_leq env t1 t2 + check_conv err cst poly infer_conv_leq env t1 t2 in match info1 with | Constant cb1 -> |