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authorGravatar Gaëtan Gilbert <gaetan.gilbert@skyskimmer.net>2018-06-13 14:16:49 +0200
committerGravatar Gaëtan Gilbert <gaetan.gilbert@skyskimmer.net>2018-06-22 13:09:16 +0200
commit1311a2bf08ac1deb16f0b3064bc1164d75858a97 (patch)
treeb583fda3032bb363ce85dd621fcd41f7fb9d98f1
parentd236c7362053c4fc8f1c7f3b59248b412b029fb8 (diff)
Remove hack skipping comparison of algebraic universes in subtyping.
When inferring [u <= v+k] I replaced the exception and instead add [u <= v]. This is trivially sound and it doesn't seem possible to have the one without the other (except specially for [Set <= v+k] which was already handled). I don't know an example where this used to fail and now succeeds (the point was to remove an anomaly, but the example ~~~ Module Type SG. Definition DG := Type. End SG. Module MG : SG. Definition DG := Type : Type. Fail End MG. ~~~ now fails with universe inconsistency. Fix #7695 (soundness bug!).
-rw-r--r--checker/subtyping.ml83
-rw-r--r--kernel/modops.ml1
-rw-r--r--kernel/modops.mli1
-rw-r--r--kernel/subtyping.ml81
-rw-r--r--kernel/univ.ml2
-rw-r--r--test-suite/bugs/closed/7695.v20
-rw-r--r--vernac/himsg.ml3
7 files changed, 25 insertions, 166 deletions
diff --git a/checker/subtyping.ml b/checker/subtyping.ml
index f4ae02084..9e9e94deb 100644
--- a/checker/subtyping.ml
+++ b/checker/subtyping.ml
@@ -9,7 +9,6 @@
(************************************************************************)
(*i*)
-open CErrors
open Util
open Names
open Cic
@@ -132,40 +131,7 @@ let check_inductive env mp1 l info1 mib2 spec2 subst1 subst2=
check (eq_constr) (fun x -> x.proj_type);
true
in
- let check_inductive_type 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 *) Prop Null, Prop Null
- | (Prop _, Type _) | (Type _,Prop _) -> error ()
- | _ -> (s1, s2) in
- check_conv conv_leq env
- (mkArity (ctx1,s1)) (mkArity (ctx2,s2))
- in
+ let check_inductive_type t1 t2 = check_conv conv_leq env t1 t2 in
let check_packet p1 p2 =
let check eq f = if not (eq (f p1) (f p2)) then error () in
@@ -251,52 +217,7 @@ let check_inductive env mp1 l info1 mib2 spec2 subst1 subst2=
let check_constant env mp1 l info1 cb2 spec2 subst1 subst2 =
let error () = error_not_match l spec2 in
let check_conv f = check_conv_error error f in
- let check_type env t1 t2 =
-
- (* 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 (Univ.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 (Univ.is_univ_variable u) ->
- (* Both types are inferred, no need to recheck them. We
- cheat and collapse the types to Prop *)
- mkArity (ctx1,Prop Null), mkArity (ctx2,Prop Null)
- | 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,Prop Null), mkArity (ctx2,Prop Null)
- | 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 ()
- with UserError _ (* "not an arity" *) ->
- error () end
- | _ -> t1,t2
- else
- (t1,t2) in
- check_conv conv_leq env t1 t2
- in
+ let check_type env t1 t2 = check_conv conv_leq env t1 t2 in
match info1 with
| Constant cb1 ->
let cb1 = subst_const_body subst1 cb1 in
diff --git a/kernel/modops.ml b/kernel/modops.ml
index 22f523a9a..02bab581a 100644
--- a/kernel/modops.ml
+++ b/kernel/modops.ml
@@ -47,7 +47,6 @@ type signature_mismatch_error =
| RecordFieldExpected of bool
| RecordProjectionsExpected of Name.t list
| NotEqualInductiveAliases
- | NoTypeConstraintExpected
| IncompatibleInstances
| IncompatibleUniverses of Univ.univ_inconsistency
| IncompatiblePolymorphism of env * types * types
diff --git a/kernel/modops.mli b/kernel/modops.mli
index ac76d28cf..8e7e618fc 100644
--- a/kernel/modops.mli
+++ b/kernel/modops.mli
@@ -106,7 +106,6 @@ type signature_mismatch_error =
| RecordFieldExpected of bool
| RecordProjectionsExpected of Name.t list
| NotEqualInductiveAliases
- | NoTypeConstraintExpected
| IncompatibleInstances
| IncompatibleUniverses of Univ.univ_inconsistency
| IncompatiblePolymorphism of env * types * types
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 ->
diff --git a/kernel/univ.ml b/kernel/univ.ml
index 2b4a1c50c..311477dac 100644
--- a/kernel/univ.ml
+++ b/kernel/univ.ml
@@ -666,7 +666,7 @@ let constraint_add_leq v u c =
else (* j >= 1 *) (* m = n + k, u <= v+k *)
if Level.equal x y then c (* u <= u+k, trivial *)
else if Level.is_small x then c (* Prop,Set <= u+S k, trivial *)
- else anomaly (Pp.str"Unable to handle arbitrary u <= v+k constraints.")
+ else Constraint.add (x,Le,y) c (* u <= v implies u <= v+k *)
let check_univ_leq_one u v = Universe.exists (Expr.leq u) v
diff --git a/test-suite/bugs/closed/7695.v b/test-suite/bugs/closed/7695.v
new file mode 100644
index 000000000..42bdb076b
--- /dev/null
+++ b/test-suite/bugs/closed/7695.v
@@ -0,0 +1,20 @@
+Require Import Hurkens.
+
+Universes i j k.
+Module Type T.
+ Parameter T1 : Type@{i+1}.
+ Parameter e : Type@{j} = T1 : Type@{k}.
+End T.
+
+Module M.
+ Definition T1 := Type@{j}.
+ Definition e : Type@{j} = T1 : Type@{k} := eq_refl.
+End M.
+
+Module F (A:T).
+ Definition bad := TypeNeqSmallType.paradox _ A.e.
+End F.
+
+Set Printing Universes.
+Fail Module X := F M.
+(* Universe inconsistency. Cannot enforce j <= i because i < Coq.Logic.Hurkens.105 = j. *)
diff --git a/vernac/himsg.ml b/vernac/himsg.ml
index 5d671ef52..534e58f9c 100644
--- a/vernac/himsg.ml
+++ b/vernac/himsg.ml
@@ -871,9 +871,6 @@ let explain_not_match_error = function
pr_enum (function Name id -> Id.print id | _ -> str "_") nal
| NotEqualInductiveAliases ->
str "Aliases to inductive types do not match"
- | NoTypeConstraintExpected ->
- strbrk "a definition whose type is constrained can only be subtype " ++
- strbrk "of a definition whose type is itself constrained"
| CumulativeStatusExpected b ->
let status b = if b then str"cumulative" else str"non-cumulative" in
str "a " ++ status b ++ str" declaration was expected, but a " ++