aboutsummaryrefslogtreecommitdiffhomepage
diff options
context:
space:
mode:
-rw-r--r--dev/doc/changes.md9
-rw-r--r--dev/top_printers.ml2
-rw-r--r--engine/eConstr.ml148
-rw-r--r--engine/eConstr.mli5
-rw-r--r--engine/evarutil.ml51
-rw-r--r--engine/evarutil.mli2
-rw-r--r--engine/evd.ml105
-rw-r--r--engine/evd.mli133
-rw-r--r--engine/proofview.ml9
-rw-r--r--engine/termops.ml17
-rw-r--r--plugins/firstorder/sequent.ml2
-rw-r--r--plugins/funind/functional_principles_proofs.ml3
-rw-r--r--plugins/funind/functional_principles_types.ml15
-rw-r--r--plugins/funind/glob_termops.ml7
-rw-r--r--plugins/funind/indfun.ml11
-rw-r--r--plugins/funind/invfun.ml8
-rw-r--r--plugins/ltac/extratactics.ml42
-rw-r--r--plugins/ltac/rewrite.ml8
-rw-r--r--plugins/ssr/ssrcommon.ml16
-rw-r--r--plugins/ssr/ssrelim.ml2
-rw-r--r--plugins/ssr/ssrequality.ml6
-rw-r--r--plugins/ssr/ssripats.ml2
-rw-r--r--plugins/ssr/ssrview.ml2
-rw-r--r--plugins/ssrmatching/ssrmatching.ml424
-rw-r--r--pretyping/cases.ml2
-rw-r--r--pretyping/coercion.ml2
-rw-r--r--pretyping/evarconv.ml36
-rw-r--r--pretyping/evardefine.ml12
-rw-r--r--pretyping/evarsolve.ml55
-rw-r--r--pretyping/nativenorm.ml6
-rw-r--r--pretyping/patternops.ml2
-rw-r--r--pretyping/pretyping.ml8
-rw-r--r--pretyping/reductionops.ml15
-rw-r--r--pretyping/retyping.ml8
-rw-r--r--pretyping/tacred.ml4
-rw-r--r--pretyping/typeclasses.ml2
-rw-r--r--pretyping/typing.ml3
-rw-r--r--pretyping/unification.ml30
-rw-r--r--pretyping/vnorm.ml2
-rw-r--r--printing/printer.ml20
-rw-r--r--proofs/clenv.ml23
-rw-r--r--proofs/evar_refiner.ml8
-rw-r--r--proofs/goal.ml9
-rw-r--r--proofs/pfedit.ml2
-rw-r--r--proofs/proof_global.ml2
-rw-r--r--proofs/refine.ml16
-rw-r--r--stm/proofBlockDelimiter.ml2
-rw-r--r--stm/stm.ml3
-rw-r--r--tactics/auto.ml5
-rw-r--r--tactics/class_tactics.ml6
-rw-r--r--tactics/equality.ml4
-rw-r--r--tactics/inv.ml2
-rw-r--r--tactics/tacticals.ml7
-rw-r--r--tactics/tactics.ml11
-rw-r--r--vernac/class.ml1
-rw-r--r--vernac/himsg.ml20
-rw-r--r--vernac/obligations.ml11
-rw-r--r--vernac/vernacentries.ml2
58 files changed, 462 insertions, 468 deletions
diff --git a/dev/doc/changes.md b/dev/doc/changes.md
index ab78b0956..1a24f23e5 100644
--- a/dev/doc/changes.md
+++ b/dev/doc/changes.md
@@ -1,3 +1,12 @@
+## Changes between Coq 8.8 and Coq 8.9
+
+### ML API
+
+Proof engine
+
+ More functions have been changed to use `EConstr`, notably the
+ functions in `Evd`.
+
## Changes between Coq 8.7 and Coq 8.8
### Bug tracker
diff --git a/dev/top_printers.ml b/dev/top_printers.ml
index ba0c54407..f9b402586 100644
--- a/dev/top_printers.ml
+++ b/dev/top_printers.ml
@@ -181,7 +181,7 @@ let ppproofview p =
pp(pr_enum Goal.pr_goal gls ++ fnl () ++ Termops.pr_evar_map (Some 1) sigma)
let ppopenconstr (x : Evd.open_constr) =
- let (evd,c) = x in pp (Termops.pr_evar_map (Some 2) evd ++ envpp pr_constr_env c)
+ let (evd,c) = x in pp (Termops.pr_evar_map (Some 2) evd ++ envpp pr_econstr_env c)
(* spiwack: deactivated until a replacement is found
let pppftreestate p = pp(print_pftreestate p)
*)
diff --git a/engine/eConstr.ml b/engine/eConstr.ml
index 01b4fe851..a72bdee12 100644
--- a/engine/eConstr.ml
+++ b/engine/eConstr.ml
@@ -13,138 +13,8 @@ open Util
open Names
open Constr
open Context
-open Evd
-
-module API :
-sig
-module ESorts :
-sig
-type t
-val make : Sorts.t -> t
-val kind : Evd.evar_map -> t -> Sorts.t
-val unsafe_to_sorts : t -> Sorts.t
-end
-module EInstance :
-sig
-type t
-val make : Univ.Instance.t -> t
-val kind : Evd.evar_map -> t -> Univ.Instance.t
-val empty : t
-val is_empty : t -> bool
-val unsafe_to_instance : t -> Univ.Instance.t
-end
-type t
-val kind : Evd.evar_map -> t -> (t, t, ESorts.t, EInstance.t) Constr.kind_of_term
-val kind_upto : Evd.evar_map -> constr -> (constr, types, Sorts.t, Univ.Instance.t) Constr.kind_of_term
-val kind_of_type : Evd.evar_map -> t -> (t, t) Term.kind_of_type
-val whd_evar : Evd.evar_map -> t -> t
-val of_kind : (t, t, ESorts.t, EInstance.t) Constr.kind_of_term -> t
-val of_constr : Constr.t -> t
-val to_constr : ?abort_on_undefined_evars:bool -> evar_map -> t -> Constr.t
-val unsafe_to_constr : t -> Constr.t
-val unsafe_eq : (t, Constr.t) eq
-val of_named_decl : (Constr.t, Constr.types) Context.Named.Declaration.pt -> (t, t) Context.Named.Declaration.pt
-val unsafe_to_named_decl : (t, t) Context.Named.Declaration.pt -> (Constr.t, Constr.types) Context.Named.Declaration.pt
-val unsafe_to_rel_decl : (t, t) Context.Rel.Declaration.pt -> (Constr.t, Constr.types) Context.Rel.Declaration.pt
-val of_rel_decl : (Constr.t, Constr.types) Context.Rel.Declaration.pt -> (t, t) Context.Rel.Declaration.pt
-val to_rel_decl : Evd.evar_map -> (t, t) Context.Rel.Declaration.pt -> (Constr.t, Constr.types) Context.Rel.Declaration.pt
-end =
-struct
-
-module ESorts =
-struct
- type t = Sorts.t
- let make s = s
- let kind sigma = function
- | Sorts.Type u -> Sorts.sort_of_univ (Evd.normalize_universe sigma u)
- | s -> s
- let unsafe_to_sorts s = s
-end
-module EInstance =
-struct
- type t = Univ.Instance.t
- let make i = i
- let kind sigma i =
- if Univ.Instance.is_empty i then i
- else Evd.normalize_universe_instance sigma i
- let empty = Univ.Instance.empty
- let is_empty = Univ.Instance.is_empty
- let unsafe_to_instance t = t
-end
-
-type t = Constr.t
-
-let safe_evar_value sigma ev =
- try Some (Evd.existential_value sigma ev)
- with NotInstantiatedEvar | Not_found -> None
-
-let rec whd_evar sigma c =
- match Constr.kind c with
- | Evar ev ->
- begin match safe_evar_value sigma ev with
- | Some c -> whd_evar sigma c
- | None -> c
- end
- | App (f, args) when isEvar f ->
- (** Enforce smart constructor invariant on applications *)
- let ev = destEvar f in
- begin match safe_evar_value sigma ev with
- | None -> c
- | Some f -> whd_evar sigma (mkApp (f, args))
- end
- | Cast (c0, k, t) when isEvar c0 ->
- (** Enforce smart constructor invariant on casts. *)
- let ev = destEvar c0 in
- begin match safe_evar_value sigma ev with
- | None -> c
- | Some c -> whd_evar sigma (mkCast (c, k, t))
- end
- | _ -> c
-
-let kind sigma c = Constr.kind (whd_evar sigma c)
-let kind_upto = kind
-let kind_of_type sigma c = Term.kind_of_type (whd_evar sigma c)
-let of_kind = Constr.of_kind
-let of_constr c = c
-let unsafe_to_constr c = c
-let unsafe_eq = Refl
-
-let to_constr ?(abort_on_undefined_evars=true) sigma c =
-let rec to_constr c = match Constr.kind c with
-| Evar ev ->
- begin match safe_evar_value sigma ev with
- | Some c -> to_constr c
- | None ->
- if abort_on_undefined_evars then
- anomaly ~label:"econstr" Pp.(str "grounding a non evar-free term")
- else
- Constr.map (fun c -> to_constr c) c
- end
-| Sort (Sorts.Type u) ->
- let u' = Evd.normalize_universe sigma u in
- if u' == u then c else mkSort (Sorts.sort_of_univ u')
-| Const (c', u) when not (Univ.Instance.is_empty u) ->
- let u' = Evd.normalize_universe_instance sigma u in
- if u' == u then c else mkConstU (c', u')
-| Ind (i, u) when not (Univ.Instance.is_empty u) ->
- let u' = Evd.normalize_universe_instance sigma u in
- if u' == u then c else mkIndU (i, u')
-| Construct (co, u) when not (Univ.Instance.is_empty u) ->
- let u' = Evd.normalize_universe_instance sigma u in
- if u' == u then c else mkConstructU (co, u')
-| _ -> Constr.map (fun c -> to_constr c) c
-in to_constr c
-
-let of_named_decl d = d
-let unsafe_to_named_decl d = d
-let of_rel_decl d = d
-let unsafe_to_rel_decl d = d
-let to_rel_decl sigma d = Context.Rel.Declaration.map_constr (to_constr sigma) d
-
-end
-
-include API
+include Evd.MiniEConstr
type types = t
type constr = t
@@ -387,8 +257,7 @@ let decompose_prod_n_assum sigma n c =
in
prodec_rec Context.Rel.empty n c
-let existential_type sigma (evk, args) =
- of_constr (existential_type sigma (evk, Array.map unsafe_to_constr args))
+let existential_type = Evd.existential_type
let map sigma f c = match kind sigma c with
| (Rel _ | Meta _ | Var _ | Sort _ | Const _ | Ind _
@@ -749,7 +618,7 @@ let universes_of_constr env sigma c =
LSet.fold LSet.add (Universe.levels u) s
| Evar (k, args) ->
let concl = Evd.evar_concl (Evd.find sigma k) in
- fold sigma aux (aux s (of_constr concl)) c
+ fold sigma aux (aux s concl) c
| _ -> fold sigma aux s c
in aux LSet.empty c
@@ -907,6 +776,10 @@ let named_context e = cast_named_context (sym unsafe_eq) (named_context e)
let val_of_named_context e = val_of_named_context (cast_named_context unsafe_eq e)
let named_context_of_val e = cast_named_context (sym unsafe_eq) (named_context_of_val e)
+let of_existential : Constr.existential -> existential =
+ let gen : type a b. (a,b) eq -> 'c * b array -> 'c * a array = fun Refl x -> x in
+ gen unsafe_eq
+
let lookup_rel i e = cast_rel_decl (sym unsafe_eq) (lookup_rel i e)
let lookup_named n e = cast_named_decl (sym unsafe_eq) (lookup_named n e)
let lookup_named_val n e = cast_named_decl (sym unsafe_eq) (lookup_named_val n e)
@@ -922,7 +795,7 @@ let map_rel_context_in_env f env sign =
let fresh_global ?loc ?rigid ?names env sigma reference =
let (evd,t) = Evd.fresh_global ?loc ?rigid ?names env sigma reference in
- evd, of_constr t
+ evd, t
let is_global sigma gr c =
Globnames.is_global gr (to_constr sigma c)
@@ -934,5 +807,10 @@ let to_instance = EInstance.unsafe_to_instance
let to_constr = unsafe_to_constr
let to_rel_decl = unsafe_to_rel_decl
let to_named_decl = unsafe_to_named_decl
+let to_named_context =
+ let gen : type a b. (a, b) eq -> (a,a) Context.Named.pt -> (b,b) Context.Named.pt
+ = fun Refl x -> x
+ in
+ gen unsafe_eq
let eq = unsafe_eq
end
diff --git a/engine/eConstr.mli b/engine/eConstr.mli
index 9cc9bf680..9a5b5ec3a 100644
--- a/engine/eConstr.mli
+++ b/engine/eConstr.mli
@@ -13,7 +13,7 @@ open Names
open Constr
open Environ
-type t
+type t = Evd.econstr
(** Type of incomplete terms. Essentially a wrapper around {!Constr.t} ensuring
that {!Constr.kind} does not observe defined evars. *)
@@ -290,6 +290,7 @@ val is_global : Evd.evar_map -> Globnames.global_reference -> t -> bool
(** {5 Extra} *)
+val of_existential : Constr.existential -> existential
val of_named_decl : (Constr.t, Constr.types) Context.Named.Declaration.pt -> (t, types) Context.Named.Declaration.pt
val of_rel_decl : (Constr.t, Constr.types) Context.Rel.Declaration.pt -> (t, types) Context.Rel.Declaration.pt
@@ -308,6 +309,8 @@ sig
val to_named_decl : (t, types) Context.Named.Declaration.pt -> (Constr.t, Constr.types) Context.Named.Declaration.pt
(** Physical identity. Does not care for defined evars. *)
+ val to_named_context : (t, types) Context.Named.pt -> Context.Named.t
+
val to_sorts : ESorts.t -> Sorts.t
(** Physical identity. Does not care for normalization. *)
diff --git a/engine/evarutil.ml b/engine/evarutil.ml
index c707b37b6..065b42bf6 100644
--- a/engine/evarutil.ml
+++ b/engine/evarutil.ml
@@ -23,7 +23,8 @@ module RelDecl = Context.Rel.Declaration
module NamedDecl = Context.Named.Declaration
let safe_evar_value sigma ev =
- try Some (Evd.existential_value sigma ev)
+ let ev = EConstr.of_existential ev in
+ try Some (EConstr.Unsafe.to_constr @@ Evd.existential_value sigma ev)
with NotInstantiatedEvar | Not_found -> None
(** Combinators *)
@@ -44,11 +45,11 @@ let evd_comb2 f evdref x y =
z
let e_new_global evdref x =
- EConstr.of_constr (evd_comb1 (Evd.fresh_global (Global.env())) evdref x)
+ evd_comb1 (Evd.fresh_global (Global.env())) evdref x
let new_global evd x =
let (evd, c) = Evd.fresh_global (Global.env()) evd x in
- (evd, EConstr.of_constr c)
+ (evd, c)
(****************************************************)
(* Expanding/testing/exposing existential variables *)
@@ -61,7 +62,7 @@ exception Uninstantiated_evar of Evar.t
let rec flush_and_check_evars sigma c =
match kind c with
| Evar (evk,_ as ev) ->
- (match existential_opt_value sigma ev with
+ (match existential_opt_value0 sigma ev with
| None -> raise (Uninstantiated_evar evk)
| Some c -> flush_and_check_evars sigma c)
| _ -> Constr.map (flush_and_check_evars sigma) c
@@ -102,7 +103,8 @@ let nf_evar_map_universes evm =
if Univ.LMap.is_empty subst then evm, nf_evar0 evm
else
let f = nf_evars_universes evm in
- Evd.raw_map (fun _ -> map_evar_info f) evm, f
+ let f' c = EConstr.of_constr (f (EConstr.Unsafe.to_constr c)) in
+ Evd.raw_map (fun _ -> map_evar_info f') evm, f
let nf_named_context_evar sigma ctx =
Context.Named.map (nf_evar0 sigma) ctx
@@ -115,7 +117,7 @@ let nf_env_evar sigma env =
let rel' = nf_rel_context_evar sigma (EConstr.rel_context env) in
EConstr.push_rel_context rel' (reset_with_named_context (val_of_named_context nc') env)
-let nf_evar_info evc info = map_evar_info (nf_evar0 evc) info
+let nf_evar_info evc info = map_evar_info (nf_evar evc) info
let nf_evar_map evm =
Evd.raw_map (fun _ evi -> nf_evar_info evm evi) evm
@@ -414,7 +416,6 @@ let push_rel_context_to_named_context env sigma typ =
let default_source = Loc.tag @@ Evar_kinds.InternalHole
let restrict_evar evd evk filter ?src candidates =
- let candidates = Option.map (fun l -> List.map EConstr.Unsafe.to_constr l) candidates in
let evd, evk' = Evd.restrict evk filter ?candidates ?src evd in
Evd.declare_future_goal evk' evd, evk'
@@ -424,8 +425,6 @@ let new_pure_evar_full evd evi =
(evd, evk)
let new_pure_evar sign evd ?(src=default_source) ?(filter = Filter.identity) ?candidates ?(store = Store.empty) ?naming ?(principal=false) typ =
- let typ = EConstr.Unsafe.to_constr typ in
- let candidates = Option.map (fun l -> List.map EConstr.Unsafe.to_constr l) candidates in
let default_naming = Misctypes.IntroAnonymous in
let naming = Option.default default_naming naming in
let name = match naming with
@@ -513,7 +512,7 @@ let generalize_evar_over_rels sigma (ev,args) =
List.fold_left2
(fun (c,inst as x) a d ->
if isRel sigma a then (mkNamedProd_or_LetIn d c,a::inst) else x)
- (EConstr.of_constr evi.evar_concl,[]) (Array.to_list args) sign
+ (evi.evar_concl,[]) (Array.to_list args) sign
(************************************)
(* Removing a dependency in an evar *)
@@ -549,7 +548,8 @@ let rec check_and_clear_in_constr env evdref err ids global c =
| Evar (evk,l as ev) ->
if Evd.is_defined !evdref evk then
(* If evk is already defined we replace it by its definition *)
- let nc = Evd.existential_value !evdref ev in
+ let nc = Evd.existential_value !evdref (EConstr.of_existential ev) in
+ let nc = EConstr.Unsafe.to_constr nc in
(check_and_clear_in_constr env evdref err ids global nc)
else
(* We check for dependencies to elements of ids in the
@@ -559,8 +559,7 @@ let rec check_and_clear_in_constr env evdref err ids global c =
removed *)
let evi = Evd.find_undefined !evdref evk in
let ctxt = Evd.evar_filtered_context evi in
- let ctxt = List.map (fun d -> map_named_decl EConstr.of_constr d) ctxt in
- let (rids,filter) =
+ let (rids,filter) =
List.fold_right2
(fun h a (ri,filter) ->
try
@@ -586,7 +585,8 @@ let rec check_and_clear_in_constr env evdref err ids global c =
try
let nids = Id.Map.domain rids in
let global = Id.Set.exists is_section_variable nids in
- check_and_clear_in_constr env evdref (EvarTypingBreak ev) nids global (evar_concl evi)
+ let concl = EConstr.Unsafe.to_constr (evar_concl evi) in
+ check_and_clear_in_constr env evdref (EvarTypingBreak ev) nids global concl
with ClearDependencyError (rid,err) ->
raise (ClearDependencyError (Id.Map.find rid rids,err)) in
@@ -597,7 +597,7 @@ let rec check_and_clear_in_constr env evdref err ids global c =
let evd = !evdref in
let (evd,_) = restrict_evar evd evk filter None in
evdref := evd;
- Evd.existential_value !evdref ev
+ Evd.existential_value0 !evdref ev
| _ -> Constr.map (check_and_clear_in_constr env evdref err ids global) c
@@ -643,7 +643,7 @@ let clear_hyps2_in_evi env evdref hyps t concl ids =
let queue_set q is_dependent set =
Evar.Set.iter (fun a -> Queue.push (is_dependent,a) q) set
let queue_term q is_dependent c =
- queue_set q is_dependent (evars_of_term c)
+ queue_set q is_dependent (evars_of_term (EConstr.Unsafe.to_constr c))
let process_dependent_evar q acc evm is_dependent e =
let evi = Evd.find evm e in
@@ -656,12 +656,12 @@ let process_dependent_evar q acc evm is_dependent e =
match decl with
| LocalAssum _ -> ()
| LocalDef (_,b,_) -> queue_term q true b
- end (Environ.named_context_of_val evi.evar_hyps);
+ end (EConstr.named_context_of_val evi.evar_hyps);
match evi.evar_body with
| Evar_empty ->
if is_dependent then Evar.Map.add e None acc else acc
| Evar_defined b ->
- let subevars = evars_of_term b in
+ let subevars = evars_of_term (EConstr.Unsafe.to_constr b) in
(* evars appearing in the definition of an evar [e] are marked
as dependent when [e] is dependent itself: if [e] is a
non-dependent goal, then, unless they are reach from another
@@ -729,11 +729,11 @@ let undefined_evars_of_named_context evd nc =
~init:Evar.Set.empty
let undefined_evars_of_evar_info evd evi =
- Evar.Set.union (undefined_evars_of_term evd (EConstr.of_constr evi.evar_concl))
+ Evar.Set.union (undefined_evars_of_term evd evi.evar_concl)
(Evar.Set.union
(match evi.evar_body with
| Evar_empty -> Evar.Set.empty
- | Evar_defined b -> undefined_evars_of_term evd (EConstr.of_constr b))
+ | Evar_defined b -> undefined_evars_of_term evd b)
(undefined_evars_of_named_context evd
(named_context_of_val evi.evar_hyps)))
@@ -781,10 +781,11 @@ let filtered_undefined_evars_of_evar_info ?cache sigma evi =
in
let accu = match evi.evar_body with
| Evar_empty -> Evar.Set.empty
- | Evar_defined b -> evars_of_term b
+ | Evar_defined b -> evars_of_term (EConstr.Unsafe.to_constr b)
in
- let accu = Evar.Set.union (undefined_evars_of_term sigma (EConstr.of_constr evi.evar_concl)) accu in
- evars_of_named_context cache accu (evar_filtered_context evi)
+ let accu = Evar.Set.union (undefined_evars_of_term sigma evi.evar_concl) accu in
+ let ctxt = EConstr.Unsafe.to_named_context (evar_filtered_context evi) in
+ evars_of_named_context cache accu ctxt
(* spiwack: this is a more complete version of
{!Termops.occur_evar}. The latter does not look recursively into an
@@ -794,7 +795,7 @@ let occur_evar_upto sigma n c =
let c = EConstr.Unsafe.to_constr c in
let rec occur_rec c = match kind c with
| Evar (sp,_) when Evar.equal sp n -> raise Occur
- | Evar e -> Option.iter occur_rec (existential_opt_value sigma e)
+ | Evar e -> Option.iter occur_rec (existential_opt_value0 sigma e)
| _ -> Constr.iter occur_rec c
in
try occur_rec c; false with Occur -> true
@@ -849,6 +850,8 @@ let compare_constructor_instances evd u u' =
let eq_constr_univs_test sigma1 sigma2 t u =
(* spiwack: mild code duplication with {!Evd.eq_constr_univs}. *)
let open Evd in
+ let t = EConstr.Unsafe.to_constr t
+ and u = EConstr.Unsafe.to_constr u in
let fold cstr sigma =
try Some (add_universe_constraints sigma cstr)
with Univ.UniverseInconsistency _ | UniversesDiffer -> None
diff --git a/engine/evarutil.mli b/engine/evarutil.mli
index 972b0b9e1..40c1ee082 100644
--- a/engine/evarutil.mli
+++ b/engine/evarutil.mli
@@ -201,7 +201,7 @@ val kind_of_term_upto : evar_map -> Constr.constr ->
universes. The term [t] is interpreted in [sigma1] while [u] is
interpreted in [sigma2]. The universe constraints in [sigma2] are
assumed to be an extention of those in [sigma1]. *)
-val eq_constr_univs_test : evar_map -> evar_map -> Constr.constr -> Constr.constr -> bool
+val eq_constr_univs_test : evar_map -> evar_map -> constr -> constr -> bool
(** [compare_cumulative_instances cv_pb variance u1 u2 sigma] Returns
[Inl sigma'] where [sigma'] is [sigma] augmented with universe
diff --git a/engine/evd.ml b/engine/evd.ml
index f6e13e1f4..6dcec2760 100644
--- a/engine/evd.ml
+++ b/engine/evd.ml
@@ -21,6 +21,9 @@ open Environ
(* module RelDecl = Context.Rel.Declaration *)
module NamedDecl = Context.Named.Declaration
+type econstr = constr
+type etypes = types
+
(** Generic filters *)
module Filter :
sig
@@ -537,10 +540,14 @@ let existential_value d (n, args) =
| Evar_empty ->
raise NotInstantiatedEvar
+let existential_value0 = existential_value
+
let existential_opt_value d ev =
try Some (existential_value d ev)
with NotInstantiatedEvar -> None
+let existential_opt_value0 = existential_opt_value
+
let existential_type d (n, args) =
let info =
try find d n
@@ -548,6 +555,8 @@ let existential_type d (n, args) =
anomaly (str "Evar " ++ str (string_of_existential n) ++ str " was not declared.") in
instantiate_evar_array info info.evar_concl args
+let existential_type0 = existential_type
+
let add_constraints d c =
{ d with universes = UState.add_constraints d.universes c }
@@ -1065,6 +1074,7 @@ let meta_ftype evd mv =
| Clval(_,_,b) -> b
let meta_type evd mv = (meta_ftype evd mv).rebus
+let meta_type0 = meta_type
let meta_declare mv v ?(name=Anonymous) evd =
let metas = Metamap.add mv (Cltyp(name,mk_freelisted v)) evd.metas in
@@ -1217,3 +1227,98 @@ let normalize_evar_universe_context_variables = UState.normalize_variables
let abstract_undefined_variables = UState.abstract_undefined_variables
let normalize_evar_universe_context = UState.minimize
let nf_constraints = minimize_universes
+
+module MiniEConstr = struct
+
+ module ESorts =
+ struct
+ type t = Sorts.t
+ let make s = s
+ let kind sigma = function
+ | Sorts.Type u -> Sorts.sort_of_univ (normalize_universe sigma u)
+ | s -> s
+ let unsafe_to_sorts s = s
+ end
+
+ module EInstance =
+ struct
+ type t = Univ.Instance.t
+ let make i = i
+ let kind sigma i =
+ if Univ.Instance.is_empty i then i
+ else normalize_universe_instance sigma i
+ let empty = Univ.Instance.empty
+ let is_empty = Univ.Instance.is_empty
+ let unsafe_to_instance t = t
+ end
+
+ type t = econstr
+
+ let safe_evar_value sigma ev =
+ try Some (existential_value sigma ev)
+ with NotInstantiatedEvar | Not_found -> None
+
+ let rec whd_evar sigma c =
+ match Constr.kind c with
+ | Evar ev ->
+ begin match safe_evar_value sigma ev with
+ | Some c -> whd_evar sigma c
+ | None -> c
+ end
+ | App (f, args) when isEvar f ->
+ (** Enforce smart constructor invariant on applications *)
+ let ev = destEvar f in
+ begin match safe_evar_value sigma ev with
+ | None -> c
+ | Some f -> whd_evar sigma (mkApp (f, args))
+ end
+ | Cast (c0, k, t) when isEvar c0 ->
+ (** Enforce smart constructor invariant on casts. *)
+ let ev = destEvar c0 in
+ begin match safe_evar_value sigma ev with
+ | None -> c
+ | Some c -> whd_evar sigma (mkCast (c, k, t))
+ end
+ | _ -> c
+
+ let kind sigma c = Constr.kind (whd_evar sigma c)
+ let kind_upto = kind
+ let kind_of_type sigma c = Term.kind_of_type (whd_evar sigma c)
+ let of_kind = Constr.of_kind
+ let of_constr c = c
+ let unsafe_to_constr c = c
+ let unsafe_eq = Refl
+
+ let to_constr ?(abort_on_undefined_evars=true) sigma c =
+ let rec to_constr c = match Constr.kind c with
+ | Evar ev ->
+ begin match safe_evar_value sigma ev with
+ | Some c -> to_constr c
+ | None ->
+ if abort_on_undefined_evars then
+ anomaly ~label:"econstr" Pp.(str "grounding a non evar-free term")
+ else
+ Constr.map (fun c -> to_constr c) c
+ end
+ | Sort (Sorts.Type u) ->
+ let u' = normalize_universe sigma u in
+ if u' == u then c else mkSort (Sorts.sort_of_univ u')
+ | Const (c', u) when not (Univ.Instance.is_empty u) ->
+ let u' = normalize_universe_instance sigma u in
+ if u' == u then c else mkConstU (c', u')
+ | Ind (i, u) when not (Univ.Instance.is_empty u) ->
+ let u' = normalize_universe_instance sigma u in
+ if u' == u then c else mkIndU (i, u')
+ | Construct (co, u) when not (Univ.Instance.is_empty u) ->
+ let u' = normalize_universe_instance sigma u in
+ if u' == u then c else mkConstructU (co, u')
+ | _ -> Constr.map (fun c -> to_constr c) c
+ in to_constr c
+
+ let of_named_decl d = d
+ let unsafe_to_named_decl d = d
+ let of_rel_decl d = d
+ let unsafe_to_rel_decl d = d
+ let to_rel_decl sigma d = Context.Rel.Declaration.map_constr (to_constr sigma) d
+
+end
diff --git a/engine/evd.mli b/engine/evd.mli
index 911799c44..5ce16459c 100644
--- a/engine/evd.mli
+++ b/engine/evd.mli
@@ -28,6 +28,9 @@ open Environ
It also contains conversion constraints, debugging information and
information about meta variables. *)
+type econstr
+type etypes = econstr
+
(** {5 Existential variables and unification states} *)
type evar = Evar.t
@@ -86,16 +89,16 @@ end
type evar_body =
| Evar_empty
- | Evar_defined of constr
+ | Evar_defined of econstr
module Store : Store.S
(** Datatype used to store additional information in evar maps. *)
type evar_info = {
- evar_concl : constr;
+ evar_concl : econstr;
(** Type of the evar. *)
- evar_hyps : named_context_val;
+ evar_hyps : named_context_val; (** TODO econstr? *)
(** Context of the evar. *)
evar_body : evar_body;
(** Optional content of the evar. *)
@@ -105,16 +108,16 @@ type evar_info = {
in the solution *)
evar_source : Evar_kinds.t located;
(** Information about the evar. *)
- evar_candidates : constr list option;
+ evar_candidates : econstr list option;
(** List of possible solutions when known that it is a finite list *)
evar_extra : Store.t
(** Extra store, used for clever hacks. *)
}
-val make_evar : named_context_val -> types -> evar_info
-val evar_concl : evar_info -> constr
-val evar_context : evar_info -> Context.Named.t
-val evar_filtered_context : evar_info -> Context.Named.t
+val make_evar : named_context_val -> etypes -> evar_info
+val evar_concl : evar_info -> econstr
+val evar_context : evar_info -> (econstr, etypes) Context.Named.pt
+val evar_filtered_context : evar_info -> (econstr, etypes) Context.Named.pt
val evar_hyps : evar_info -> named_context_val
val evar_filtered_hyps : evar_info -> named_context_val
val evar_body : evar_info -> evar_body
@@ -122,8 +125,8 @@ val evar_filter : evar_info -> Filter.t
val evar_env : evar_info -> env
val evar_filtered_env : evar_info -> env
-val map_evar_body : (constr -> constr) -> evar_body -> evar_body
-val map_evar_info : (constr -> constr) -> evar_info -> evar_info
+val map_evar_body : (econstr -> econstr) -> evar_body -> evar_body
+val map_evar_info : (econstr -> econstr) -> evar_info -> evar_info
(** {6 Unification state} **)
@@ -190,7 +193,7 @@ val raw_map_undefined : (Evar.t -> evar_info -> evar_info) -> evar_map -> evar_m
(** Same as {!raw_map}, but restricted to undefined evars. For efficiency
reasons. *)
-val define : Evar.t-> constr -> evar_map -> evar_map
+val define : Evar.t-> econstr -> evar_map -> evar_map
(** Set the body of an evar to the given constr. It is expected that:
{ul
{- The evar is already present in the evarmap.}
@@ -198,7 +201,7 @@ val define : Evar.t-> constr -> evar_map -> evar_map
{- All the evars present in the constr should be present in the evar map.}
} *)
-val cmap : (constr -> constr) -> evar_map -> evar_map
+val cmap : (econstr -> econstr) -> evar_map -> evar_map
(** Map the function on all terms in the evar map. *)
val is_evar : evar_map -> Evar.t-> bool
@@ -222,20 +225,26 @@ val drop_all_defined : evar_map -> evar_map
exception NotInstantiatedEvar
-val existential_value : evar_map -> existential -> constr
+val existential_value : evar_map -> econstr pexistential -> econstr
(** [existential_value sigma ev] raises [NotInstantiatedEvar] if [ev] has
no body and [Not_found] if it does not exist in [sigma] *)
-val existential_type : evar_map -> existential -> types
+val existential_value0 : evar_map -> existential -> constr
+
+val existential_type : evar_map -> econstr pexistential -> etypes
-val existential_opt_value : evar_map -> existential -> constr option
+val existential_type0 : evar_map -> existential -> types
+
+val existential_opt_value : evar_map -> econstr pexistential -> econstr option
(** Same as {!existential_value} but returns an option instead of raising an
exception. *)
+val existential_opt_value0 : evar_map -> existential -> constr option
+
val evar_instance_array : (Context.Named.Declaration.t -> 'a -> bool) -> evar_info ->
'a array -> (Id.t * 'a) list
-val instantiate_evar_array : evar_info -> constr -> constr array -> constr
+val instantiate_evar_array : evar_info -> econstr -> econstr array -> econstr
val evars_reset_evd : ?with_conv_pbs:bool -> ?with_univs:bool ->
evar_map -> evar_map -> evar_map
@@ -243,7 +252,7 @@ val evars_reset_evd : ?with_conv_pbs:bool -> ?with_univs:bool ->
(** {6 Misc} *)
-val restrict : Evar.t-> Filter.t -> ?candidates:constr list ->
+val restrict : Evar.t-> Filter.t -> ?candidates:econstr list ->
?src:Evar_kinds.t located -> evar_map -> evar_map * Evar.t
(** Restrict an undefined evar into a new evar by filtering context and
possibly limiting the instances to a set of candidates *)
@@ -251,7 +260,7 @@ val restrict : Evar.t-> Filter.t -> ?candidates:constr list ->
val is_restricted_evar : evar_info -> Evar.t option
(** Tell if an evar comes from restriction of another evar, and if yes, which *)
-val downcast : Evar.t-> types -> evar_map -> evar_map
+val downcast : Evar.t-> etypes -> evar_map -> evar_map
(** Change the type of an undefined evar to a new type assumed to be a
subtype of its current type; subtyping must be ensured by caller *)
@@ -341,7 +350,7 @@ val shelve_on_future_goals : Evar.t list -> future_goals -> future_goals
Evar maps also keep track of the universe constraints defined at a given
point. This section defines the relevant manipulation functions. *)
-val whd_sort_variable : evar_map -> constr -> constr
+val whd_sort_variable : evar_map -> econstr -> econstr
exception UniversesDiffer
@@ -397,8 +406,8 @@ type 'a freelisted = {
rebus : 'a;
freemetas : Metaset.t }
-val metavars_of : constr -> Metaset.t
-val mk_freelisted : constr -> constr freelisted
+val metavars_of : econstr -> Metaset.t
+val mk_freelisted : econstr -> econstr freelisted
val map_fl : ('a -> 'b) -> 'a freelisted -> 'b freelisted
(** Status of an instance found by unification wrt to the meta it solves:
@@ -436,12 +445,12 @@ type instance_status = instance_constraint * instance_typing_status
(** Clausal environments *)
type clbinding =
- | Cltyp of Name.t * constr freelisted
- | Clval of Name.t * (constr freelisted * instance_status) * constr freelisted
+ | Cltyp of Name.t * econstr freelisted
+ | Clval of Name.t * (econstr freelisted * instance_status) * econstr freelisted
(** Unification constraints *)
type conv_pb = Reduction.conv_pb
-type evar_constraint = conv_pb * env * constr * constr
+type evar_constraint = conv_pb * env * econstr * econstr
val add_conv_pb : ?tail:bool -> evar_constraint -> evar_map -> evar_map
val extract_changed_conv_pbs : evar_map ->
@@ -457,7 +466,7 @@ val loc_of_conv_pb : evar_map -> evar_constraint -> Loc.t option
val evars_of_term : constr -> Evar.Set.t
(** including evars in instances of evars *)
-val evars_of_named_context : Context.Named.t -> Evar.Set.t
+val evars_of_named_context : (econstr, etypes) Context.Named.pt -> Evar.Set.t
val evars_of_filtered_evar_info : evar_info -> Evar.Set.t
@@ -465,19 +474,20 @@ val evars_of_filtered_evar_info : evar_info -> Evar.Set.t
val meta_list : evar_map -> (metavariable * clbinding) list
val meta_defined : evar_map -> metavariable -> bool
-val meta_value : evar_map -> metavariable -> constr
+val meta_value : evar_map -> metavariable -> econstr
(** [meta_fvalue] raises [Not_found] if meta not in map or [Anomaly] if
meta has no value *)
-val meta_fvalue : evar_map -> metavariable -> constr freelisted * instance_status
-val meta_opt_fvalue : evar_map -> metavariable -> (constr freelisted * instance_status) option
-val meta_type : evar_map -> metavariable -> types
-val meta_ftype : evar_map -> metavariable -> types freelisted
+val meta_fvalue : evar_map -> metavariable -> econstr freelisted * instance_status
+val meta_opt_fvalue : evar_map -> metavariable -> (econstr freelisted * instance_status) option
+val meta_type : evar_map -> metavariable -> etypes
+val meta_type0 : evar_map -> metavariable -> types
+val meta_ftype : evar_map -> metavariable -> etypes freelisted
val meta_name : evar_map -> metavariable -> Name.t
val meta_declare :
- metavariable -> types -> ?name:Name.t -> evar_map -> evar_map
-val meta_assign : metavariable -> constr * instance_status -> evar_map -> evar_map
-val meta_reassign : metavariable -> constr * instance_status -> evar_map -> evar_map
+ metavariable -> etypes -> ?name:Name.t -> evar_map -> evar_map
+val meta_assign : metavariable -> econstr * instance_status -> evar_map -> evar_map
+val meta_reassign : metavariable -> econstr * instance_status -> evar_map -> evar_map
val clear_metas : evar_map -> evar_map
@@ -485,10 +495,10 @@ val clear_metas : evar_map -> evar_map
val meta_merge : ?with_univs:bool -> evar_map -> evar_map -> evar_map
val undefined_metas : evar_map -> metavariable list
-val map_metas_fvalue : (constr -> constr) -> evar_map -> evar_map
-val map_metas : (constr -> constr) -> evar_map -> evar_map
+val map_metas_fvalue : (econstr -> econstr) -> evar_map -> evar_map
+val map_metas : (econstr -> econstr) -> evar_map -> evar_map
-type metabinding = metavariable * constr * instance_status
+type metabinding = metavariable * econstr * instance_status
val retract_coercible_metas : evar_map -> metabinding list * evar_map
@@ -639,13 +649,13 @@ val fresh_inductive_instance : ?loc:Loc.t -> env -> evar_map -> inductive -> eva
val fresh_constructor_instance : ?loc:Loc.t -> env -> evar_map -> constructor -> evar_map * pconstructor
val fresh_global : ?loc:Loc.t -> ?rigid:rigid -> ?names:Univ.Instance.t -> env ->
- evar_map -> Globnames.global_reference -> evar_map * constr
+ evar_map -> Globnames.global_reference -> evar_map * econstr
(********************************************************************)
(* constr with holes and pending resolution of classes, conversion *)
(* problems, candidates, etc. *)
-type open_constr = evar_map * constr (* Special case when before is empty *)
+type open_constr = evar_map * econstr (* Special case when before is empty *)
(** Partially constructed constrs. *)
@@ -665,3 +675,50 @@ val create_evar_defs : evar_map -> evar_map
(** Create an [evar_map] with empty meta map: *)
+(** Use this module only to bootstrap EConstr *)
+module MiniEConstr : sig
+ module ESorts : sig
+ type t
+ val make : Sorts.t -> t
+ val kind : evar_map -> t -> Sorts.t
+ val unsafe_to_sorts : t -> Sorts.t
+ end
+
+ module EInstance : sig
+ type t
+ val make : Univ.Instance.t -> t
+ val kind : evar_map -> t -> Univ.Instance.t
+ val empty : t
+ val is_empty : t -> bool
+ val unsafe_to_instance : t -> Univ.Instance.t
+ end
+
+ type t = econstr
+
+ val kind : evar_map -> t -> (t, t, ESorts.t, EInstance.t) Constr.kind_of_term
+ val kind_upto : evar_map -> constr -> (constr, types, Sorts.t, Univ.Instance.t) Constr.kind_of_term
+ val kind_of_type : evar_map -> t -> (t, t) Term.kind_of_type
+
+ val whd_evar : evar_map -> t -> t
+
+ val of_kind : (t, t, ESorts.t, EInstance.t) Constr.kind_of_term -> t
+
+ val of_constr : Constr.t -> t
+
+ val to_constr : ?abort_on_undefined_evars:bool -> evar_map -> t -> Constr.t
+
+ val unsafe_to_constr : t -> Constr.t
+
+ val unsafe_eq : (t, Constr.t) eq
+
+ val of_named_decl : (Constr.t, Constr.types) Context.Named.Declaration.pt ->
+ (t, t) Context.Named.Declaration.pt
+ val unsafe_to_named_decl : (t, t) Context.Named.Declaration.pt ->
+ (Constr.t, Constr.types) Context.Named.Declaration.pt
+ val unsafe_to_rel_decl : (t, t) Context.Rel.Declaration.pt ->
+ (Constr.t, Constr.types) Context.Rel.Declaration.pt
+ val of_rel_decl : (Constr.t, Constr.types) Context.Rel.Declaration.pt ->
+ (t, t) Context.Rel.Declaration.pt
+ val to_rel_decl : evar_map -> (t, t) Context.Rel.Declaration.pt ->
+ (Constr.t, Constr.types) Context.Rel.Declaration.pt
+end
diff --git a/engine/proofview.ml b/engine/proofview.ml
index 639f48e77..54237ceb4 100644
--- a/engine/proofview.ml
+++ b/engine/proofview.ml
@@ -45,9 +45,9 @@ let compact el ({ solution } as pv) =
let pruned_solution = Evd.drop_all_defined solution in
let apply_subst_einfo _ ei =
Evd.({ ei with
- evar_concl = nf0 ei.evar_concl;
+ evar_concl = nf ei.evar_concl;
evar_hyps = Environ.map_named_val nf0 ei.evar_hyps;
- evar_candidates = Option.map (List.map nf0) ei.evar_candidates }) in
+ evar_candidates = Option.map (List.map nf) ei.evar_candidates }) in
let new_solution = Evd.raw_map_undefined apply_subst_einfo pruned_solution in
let new_size = Evd.fold (fun _ _ i -> i+1) new_solution 0 in
Feedback.msg_info (Pp.str (Printf.sprintf "Evars: %d -> %d\n" size new_size));
@@ -875,8 +875,7 @@ module Progress = struct
(** equality function on hypothesis contexts *)
let eq_named_context_val sigma1 sigma2 ctx1 ctx2 =
- let open Environ in
- let c1 = named_context_of_val ctx1 and c2 = named_context_of_val ctx2 in
+ let c1 = EConstr.named_context_of_val ctx1 and c2 = EConstr.named_context_of_val ctx2 in
let eq_named_declaration d1 d2 =
match d1, d2 with
| LocalAssum (i1,t1), LocalAssum (i2,t2) ->
@@ -1101,7 +1100,7 @@ module Goal = struct
let gmake_with info env sigma goal state =
{ env = Environ.reset_with_named_context (Evd.evar_filtered_hyps info) env ;
sigma = sigma ;
- concl = EConstr.of_constr (Evd.evar_concl info);
+ concl = Evd.evar_concl info;
state = state ;
self = goal }
diff --git a/engine/termops.ml b/engine/termops.ml
index b7531f6fc..df43be28e 100644
--- a/engine/termops.ml
+++ b/engine/termops.ml
@@ -115,7 +115,7 @@ let pr_evar_suggested_name evk sigma =
| _,Evar_kinds.GoalEvar -> Id.of_string "Goal"
| _ ->
let env = reset_with_named_context evi.evar_hyps (Global.env()) in
- Namegen.id_of_name_using_hdchar env sigma (EConstr.of_constr evi.evar_concl) Anonymous
+ Namegen.id_of_name_using_hdchar env sigma evi.evar_concl Anonymous
in
let names = EvMap.mapi base_id (undefined_map sigma) in
let id = EvMap.find evk names in
@@ -154,7 +154,7 @@ let protect f x =
with e -> str "EXCEPTION: " ++ str (Printexc.to_string e)
let print_kconstr a =
- protect (fun c -> print_constr (EConstr.of_constr c)) a
+ protect (fun c -> print_constr c) a
let pr_meta_map evd =
let open Evd in
@@ -197,11 +197,11 @@ let pr_evar_source = function
let print_constr = print_kconstr in
let id = Option.get ido in
str "parameter " ++ Id.print id ++ spc () ++ str "of" ++
- spc () ++ print_constr (printable_constr_of_global c)
+ spc () ++ print_constr (EConstr.of_constr @@ printable_constr_of_global c)
| Evar_kinds.InternalHole -> str "internal placeholder"
| Evar_kinds.TomatchTypeParameter (ind,n) ->
let print_constr = print_kconstr in
- pr_nth n ++ str " argument of type " ++ print_constr (mkInd ind)
+ pr_nth n ++ str " argument of type " ++ print_constr (EConstr.mkInd ind)
| Evar_kinds.GoalEvar -> str "goal evar"
| Evar_kinds.ImpossibleCase -> str "type of impossible pattern-matching clause"
| Evar_kinds.MatchingVar _ -> str "matching variable"
@@ -256,7 +256,7 @@ let compute_evar_dependency_graph sigma =
in
match evar_body evi with
| Evar_empty -> acc
- | Evar_defined c -> Evar.Set.fold fold_ev (evars_of_term c) acc
+ | Evar_defined c -> Evar.Set.fold fold_ev (evars_of_term (EConstr.Unsafe.to_constr c)) acc
in
Evd.fold fold sigma EvMap.empty
@@ -314,7 +314,8 @@ let print_env_short env =
let print_constr = print_kconstr in
let pr_rel_decl = function
| RelDecl.LocalAssum (n,_) -> Name.print n
- | RelDecl.LocalDef (n,b,_) -> str "(" ++ Name.print n ++ str " := " ++ print_constr b ++ str ")"
+ | RelDecl.LocalDef (n,b,_) -> str "(" ++ Name.print n ++ str " := "
+ ++ print_constr (EConstr.of_constr b) ++ str ")"
in
let pr_named_decl = NamedDecl.to_rel_decl %> pr_rel_decl in
let nc = List.rev (named_context env) in
@@ -335,11 +336,11 @@ let pr_evar_constraints sigma pbs =
Namegen.make_all_name_different env sigma
in
print_env_short env ++ spc () ++ str "|-" ++ spc () ++
- protect (print_constr_env env sigma) (EConstr.of_constr t1) ++ spc () ++
+ protect (print_constr_env env sigma) t1 ++ spc () ++
str (match pbty with
| Reduction.CONV -> "=="
| Reduction.CUMUL -> "<=") ++
- spc () ++ protect (print_constr_env env Evd.empty) (EConstr.of_constr t2)
+ spc () ++ protect (print_constr_env env Evd.empty) t2
in
prlist_with_sep fnl pr_evconstr pbs
diff --git a/plugins/firstorder/sequent.ml b/plugins/firstorder/sequent.ml
index 83fbc2d5d..7c612c0d8 100644
--- a/plugins/firstorder/sequent.ml
+++ b/plugins/firstorder/sequent.ml
@@ -197,7 +197,7 @@ let extend_with_ref_list env sigma l seq =
let l = expand_constructor_hints l in
let f gr (seq, sigma) =
let sigma, c = Evd.fresh_global env sigma gr in
- let sigma, typ= Typing.type_of env sigma (EConstr.of_constr c) in
+ let sigma, typ= Typing.type_of env sigma c in
(add_formula env sigma Hyp gr typ seq, sigma) in
List.fold_right f l (seq, sigma)
diff --git a/plugins/funind/functional_principles_proofs.ml b/plugins/funind/functional_principles_proofs.ml
index d04887a48..8da0e1c4f 100644
--- a/plugins/funind/functional_principles_proofs.ml
+++ b/plugins/funind/functional_principles_proofs.ml
@@ -1050,8 +1050,7 @@ let do_replace (evd:Evd.evar_map ref) params rec_arg_num rev_args_id f fun_num a
(Global.env ()) !evd
(Constrintern.locate_reference (qualid_of_ident equation_lemma_id))
in
- let res = EConstr.of_constr res in
- evd:=evd';
+ evd:=evd';
let _ = Typing.e_type_of ~refresh:true (Global.env ()) evd res in
res
in
diff --git a/plugins/funind/functional_principles_types.ml b/plugins/funind/functional_principles_types.ml
index 804548ce5..04a23cdb9 100644
--- a/plugins/funind/functional_principles_types.ml
+++ b/plugins/funind/functional_principles_types.ml
@@ -266,7 +266,7 @@ let change_property_sort evd toSort princ princName =
(Global.env ()) evd (Constrintern.locate_reference (Libnames.qualid_of_ident princName)) in
let init =
let nargs = (princ_info.nparams + (List.length princ_info.predicates)) in
- mkApp(princName_as_constr,
+ mkApp(EConstr.Unsafe.to_constr princName_as_constr,
Array.init nargs
(fun i -> mkRel (nargs - i )))
in
@@ -630,11 +630,14 @@ let build_scheme fas =
in
let evd',f = Evd.fresh_global (Global.env ()) !evd f_as_constant in
let _ = evd := evd' in
- let _ = Typing.e_type_of ~refresh:true (Global.env ()) evd (EConstr.of_constr f) in
- if isConst f
- then (destConst f,sort)
- else user_err Pp.(pr_constr_env (Global.env ()) !evd f ++spc () ++ str "should be the named of a globally defined function")
- )
+ let _ = Typing.e_type_of ~refresh:true (Global.env ()) evd f in
+ let c, u =
+ try EConstr.destConst !evd f
+ with DestKO ->
+ user_err Pp.(pr_econstr_env (Global.env ()) !evd f ++spc () ++ str "should be the named of a globally defined function")
+ in
+ (c, EConstr.EInstance.kind !evd u), sort
+ )
fas
) in
let bodies_types =
diff --git a/plugins/funind/glob_termops.ml b/plugins/funind/glob_termops.ml
index 40ea40b6b..845104c3c 100644
--- a/plugins/funind/glob_termops.ml
+++ b/plugins/funind/glob_termops.ml
@@ -564,6 +564,7 @@ let resolve_and_replace_implicits ?(flags=Pretyping.all_and_fail_flags) ?(expect
If someone knows how to prevent solved existantial removal in understand, please do not hesitate to change the computation of [ctx] here *)
let ctx,_,_ = Pretyping.ise_pretype_gen flags env sigma Glob_ops.empty_lvar expected_type rt in
let ctx, f = Evarutil.nf_evars_and_universes ctx in
+ let f c = EConstr.of_constr (f (EConstr.Unsafe.to_constr c)) in
(* then we map [rt] to replace the implicit holes by their values *)
let rec change rt =
@@ -586,8 +587,8 @@ If someone knows how to prevent solved existantial removal in understand, pleas
with Found evi -> (* we found the evar corresponding to this hole *)
match evi.evar_body with
| Evar_defined c ->
- (* we just have to lift the solution in glob_term *)
- Detyping.detype Detyping.Now false Id.Set.empty env ctx (EConstr.of_constr (f c))
+ (* we just have to lift the solution in glob_term *)
+ Detyping.detype Detyping.Now false Id.Set.empty env ctx (f c)
| Evar_empty -> rt (* the hole was not solved : we do nothing *)
)
| (GHole(BinderType na,_,_)) -> (* we only want to deal with implicit arguments *)
@@ -609,7 +610,7 @@ If someone knows how to prevent solved existantial removal in understand, pleas
match evi.evar_body with
| Evar_defined c ->
(* we just have to lift the solution in glob_term *)
- Detyping.detype Detyping.Now false Id.Set.empty env ctx (EConstr.of_constr (f c))
+ Detyping.detype Detyping.Now false Id.Set.empty env ctx (f c)
| Evar_empty -> rt (* the hole was not solved : we d when falseo nothing *)
in
res
diff --git a/plugins/funind/indfun.ml b/plugins/funind/indfun.ml
index d395e3601..748d8add2 100644
--- a/plugins/funind/indfun.ml
+++ b/plugins/funind/indfun.ml
@@ -77,8 +77,7 @@ let functional_induction with_clean c princl pat =
user_err (str "Cannot find induction principle for "
++ Printer.pr_leconstr_env (Tacmach.pf_env g) sigma (mkConst c') )
in
- let princ = EConstr.of_constr princ in
- (princ,NoBindings,Tacmach.pf_unsafe_type_of g' princ,g')
+ (princ,NoBindings,Tacmach.pf_unsafe_type_of g' princ,g')
| _ -> raise (UserError(None,str "functional induction must be used with a function" ))
end
| Some ((princ,binding)) ->
@@ -261,7 +260,6 @@ let derive_inversion fix_names =
let evd,c =
Evd.fresh_global
(Global.env ()) evd (Constrintern.locate_reference (Libnames.qualid_of_ident id)) in
- let c = EConstr.of_constr c in
let (cst, u) = destConst evd c in
evd, (cst, EInstance.kind evd u) :: l
)
@@ -283,8 +281,7 @@ let derive_inversion fix_names =
(Global.env ()) evd
(Constrintern.locate_reference (Libnames.qualid_of_ident (mk_rel_id id)))
in
- let id = EConstr.of_constr id in
- evd,(fst (destInd evd id))::l
+ evd,(fst (destInd evd id))::l
)
fix_names
(evd',[])
@@ -388,7 +385,7 @@ let generate_principle (evd:Evd.evar_map ref) pconstants on_error
let evd = ref (Evd.from_env env) in
let evd',uprinc = Evd.fresh_global env !evd princ in
let _ = evd := evd' in
- let princ_type = Typing.e_type_of ~refresh:true env evd (EConstr.of_constr uprinc) in
+ let princ_type = Typing.e_type_of ~refresh:true env evd uprinc in
let princ_type = EConstr.Unsafe.to_constr princ_type in
Functional_principles_types.generate_functional_principle
evd
@@ -425,7 +422,6 @@ let register_struct is_rec (fixpoint_exprl:(Vernacexpr.fixpoint_expr * Vernacexp
let evd,c =
Evd.fresh_global
(Global.env ()) evd (Constrintern.locate_reference (Libnames.qualid_of_ident fname)) in
- let c = EConstr.of_constr c in
let (cst, u) = destConst evd c in
let u = EInstance.kind evd u in
evd,((cst, u) :: l)
@@ -442,7 +438,6 @@ let register_struct is_rec (fixpoint_exprl:(Vernacexpr.fixpoint_expr * Vernacexp
let evd,c =
Evd.fresh_global
(Global.env ()) evd (Constrintern.locate_reference (Libnames.qualid_of_ident fname)) in
- let c = EConstr.of_constr c in
let (cst, u) = destConst evd c in
let u = EInstance.kind evd u in
evd,((cst, u) :: l)
diff --git a/plugins/funind/invfun.ml b/plugins/funind/invfun.ml
index ae84eaa93..28e85268a 100644
--- a/plugins/funind/invfun.ml
+++ b/plugins/funind/invfun.ml
@@ -102,7 +102,6 @@ let generate_type evd g_to_f f graph i =
let evd',graph =
Evd.fresh_global (Global.env ()) !evd (Globnames.IndRef (fst (destInd !evd graph)))
in
- let graph = EConstr.of_constr graph in
evd:=evd';
let graph_arity = Typing.e_type_of (Global.env ()) evd graph in
let ctxt,_ = decompose_prod_assum !evd graph_arity in
@@ -172,7 +171,6 @@ let find_induction_principle evd f =
| None -> raise Not_found
| Some rect_lemma ->
let evd',rect_lemma = Evd.fresh_global (Global.env ()) !evd (Globnames.ConstRef rect_lemma) in
- let rect_lemma = EConstr.of_constr rect_lemma in
let evd',typ = Typing.type_of ~refresh:true (Global.env ()) evd' rect_lemma in
evd:=evd';
rect_lemma,typ
@@ -823,8 +821,7 @@ let derive_correctness make_scheme (funs: pconstant list) (graphs:inductive list
(* let lem_cst = fst (destConst (Constrintern.global_reference lem_id)) in *)
let _,lem_cst_constr = Evd.fresh_global
(Global.env ()) !evd (Constrintern.locate_reference (Libnames.qualid_of_ident lem_id)) in
- let lem_cst_constr = EConstr.of_constr lem_cst_constr in
- let (lem_cst,_) = destConst !evd lem_cst_constr in
+ let (lem_cst,_) = destConst !evd lem_cst_constr in
update_Function {finfo with correctness_lemma = Some lem_cst};
)
@@ -884,8 +881,7 @@ let derive_correctness make_scheme (funs: pconstant list) (graphs:inductive list
let finfo = find_Function_infos (fst f_as_constant) in
let _,lem_cst_constr = Evd.fresh_global
(Global.env ()) !evd (Constrintern.locate_reference (Libnames.qualid_of_ident lem_id)) in
- let lem_cst_constr = EConstr.of_constr lem_cst_constr in
- let (lem_cst,_) = destConst !evd lem_cst_constr in
+ let (lem_cst,_) = destConst !evd lem_cst_constr in
update_Function {finfo with completeness_lemma = Some lem_cst}
)
funs)
diff --git a/plugins/ltac/extratactics.ml4 b/plugins/ltac/extratactics.ml4
index 2e90ce90c..a5f8060ae 100644
--- a/plugins/ltac/extratactics.ml4
+++ b/plugins/ltac/extratactics.ml4
@@ -296,7 +296,6 @@ let project_hint ~poly pri l2r r =
let env = Global.env() in
let sigma = Evd.from_env env in
let sigma, c = Evd.fresh_global env sigma gr in
- let c = EConstr.of_constr c in
let t = Retyping.get_type_of env sigma c in
let t =
Tacred.reduce_to_quantified_ref env sigma (Lazy.force coq_iff_ref) t in
@@ -307,7 +306,6 @@ let project_hint ~poly pri l2r r =
let p =
if l2r then build_coq_iff_left_proj () else build_coq_iff_right_proj () in
let sigma, p = Evd.fresh_global env sigma p in
- let p = EConstr.of_constr p in
let c = Reductionops.whd_beta sigma (mkApp (c, Context.Rel.to_extended_vect mkRel 0 sign)) in
let c = it_mkLambda_or_LetIn
(mkApp (p,[|mkArrow a (lift 1 b);mkArrow b (lift 1 a);c|])) sign in
diff --git a/plugins/ltac/rewrite.ml b/plugins/ltac/rewrite.ml
index d32a2faef..9eb55aa5e 100644
--- a/plugins/ltac/rewrite.ml
+++ b/plugins/ltac/rewrite.ml
@@ -428,7 +428,8 @@ let split_head = function
| [] -> assert(false)
let eq_pb (ty, env, x, y as pb) (ty', env', x', y' as pb') =
- pb == pb' || (ty == ty' && Constr.equal x x' && Constr.equal y y')
+ let equal x y = Constr.equal (EConstr.Unsafe.to_constr x) (EConstr.Unsafe.to_constr y) in
+ pb == pb' || (ty == ty' && equal x x' && equal y y')
let problem_inclusion x y =
List.for_all (fun pb -> List.exists (fun pb' -> eq_pb pb pb') y) x
@@ -626,9 +627,9 @@ let solve_remaining_by env sigma holes by =
(** Evar should not be defined, but just in case *)
| Some evi ->
let env = Environ.reset_with_named_context evi.evar_hyps env in
- let ty = EConstr.of_constr evi.evar_concl in
+ let ty = evi.evar_concl in
let c, sigma = Pfedit.refine_by_tactic env sigma ty solve_tac in
- Evd.define evk c sigma
+ Evd.define evk (EConstr.of_constr c) sigma
in
List.fold_left solve sigma indep
@@ -1862,7 +1863,6 @@ let declare_projection n instance_id r =
let env = Global.env () in
let sigma = Evd.from_env env in
let sigma,c = Evd.fresh_global env sigma r in
- let c = EConstr.of_constr c in
let ty = Retyping.get_type_of env sigma c in
let term = proper_projection sigma c ty in
let sigma, typ = Typing.type_of env sigma term in
diff --git a/plugins/ssr/ssrcommon.ml b/plugins/ssr/ssrcommon.ml
index e07bc48a4..06c26edbe 100644
--- a/plugins/ssr/ssrcommon.ml
+++ b/plugins/ssr/ssrcommon.ml
@@ -509,11 +509,12 @@ let pf_abs_evars2 gl rigid (sigma, c0) =
let nenv = env_size (pf_env gl) in
let abs_evar n k =
let evi = Evd.find sigma k in
- let dc = CList.firstn n (evar_filtered_context evi) in
+ let concl = EConstr.Unsafe.to_constr evi.evar_concl in
+ let dc = EConstr.Unsafe.to_named_context (CList.firstn n (evar_filtered_context evi)) in
let abs_dc c = function
| NamedDecl.LocalDef (x,b,t) -> mkNamedLetIn x b t (mkArrow t c)
| NamedDecl.LocalAssum (x,t) -> mkNamedProd x t c in
- let t = Context.Named.fold_inside abs_dc ~init:evi.evar_concl dc in
+ let t = Context.Named.fold_inside abs_dc ~init:concl dc in
nf_evar sigma t in
let rec put evlist c = match Constr.kind c with
| Evar (k, a) ->
@@ -569,11 +570,12 @@ let pf_abs_evars_pirrel gl (sigma, c0) =
let nenv = env_size (pf_env gl) in
let abs_evar n k =
let evi = Evd.find sigma k in
- let dc = CList.firstn n (evar_filtered_context evi) in
+ let concl = EConstr.Unsafe.to_constr evi.evar_concl in
+ let dc = EConstr.Unsafe.to_named_context (CList.firstn n (evar_filtered_context evi)) in
let abs_dc c = function
| NamedDecl.LocalDef (x,b,t) -> mkNamedLetIn x b t (mkArrow t c)
| NamedDecl.LocalAssum (x,t) -> mkNamedProd x t c in
- let t = Context.Named.fold_inside abs_dc ~init:evi.evar_concl dc in
+ let t = Context.Named.fold_inside abs_dc ~init:concl dc in
nf_evar sigma0 (nf_evar sigma t) in
let rec put evlist c = match Constr.kind c with
| Evar (k, a) ->
@@ -581,7 +583,7 @@ let pf_abs_evars_pirrel gl (sigma, c0) =
let n = max 0 (Array.length a - nenv) in
let k_ty =
Retyping.get_sort_family_of
- (pf_env gl) sigma (EConstr.of_constr (Evd.evar_concl (Evd.find sigma k))) in
+ (pf_env gl) sigma (Evd.evar_concl (Evd.find sigma k)) in
let is_prop = k_ty = InProp in
let t = abs_evar n k in (k, (n, t, is_prop)) :: put evlist t
| _ -> Constr.fold put evlist c in
@@ -746,7 +748,7 @@ let pf_mkSsrConst name gl =
let pf_fresh_global name gl =
let sigma, env, it = project gl, pf_env gl, sig_it gl in
let sigma,t = Evd.fresh_global env sigma name in
- t, re_sig it sigma
+ EConstr.Unsafe.to_constr t, re_sig it sigma
let mkProt t c gl =
let prot, gl = pf_mkSsrConst "protect_term" gl in
@@ -980,7 +982,7 @@ let applyn ~with_evars ?beta ?(with_shelve=false) n t gl =
if not (EConstr.Vars.closed0 sigma ty) then
raise dependent_apply_error;
let m = Evarutil.new_meta () in
- loop (meta_declare m (EConstr.Unsafe.to_constr ty) sigma) bo ((EConstr.mkMeta m)::args) (n-1)
+ loop (meta_declare m ty sigma) bo ((EConstr.mkMeta m)::args) (n-1)
| _ -> assert false
in loop sigma t [] n in
pp(lazy(str"Refiner.refiner " ++ Printer.pr_econstr_env (pf_env gl) (project gl) t));
diff --git a/plugins/ssr/ssrelim.ml b/plugins/ssr/ssrelim.ml
index 717657a24..de8ffb976 100644
--- a/plugins/ssr/ssrelim.ml
+++ b/plugins/ssr/ssrelim.ml
@@ -356,7 +356,7 @@ let ssrelim ?(ind=ref None) ?(is_case=false) deps what ?elim eqid elim_intro_tac
let ev = List.fold_left Evar.Set.union Evar.Set.empty patterns_ev in
let ty_ev = Evar.Set.fold (fun i e ->
let ex = i in
- let i_ty = EConstr.of_constr (Evd.evar_concl (Evd.find (project gl) ex)) in
+ let i_ty = Evd.evar_concl (Evd.find (project gl) ex) in
Evar.Set.union e (evars_of_term i_ty))
ev Evar.Set.empty in
let inter = Evar.Set.inter ev ty_ev in
diff --git a/plugins/ssr/ssrequality.ml b/plugins/ssr/ssrequality.ml
index 2f0433b64..7748ba2b0 100644
--- a/plugins/ssr/ssrequality.ml
+++ b/plugins/ssr/ssrequality.ml
@@ -359,7 +359,7 @@ let pirrel_rewrite pred rdx rdx_ty new_rdx dir (sigma, c) c_ty gl =
let evs = Evar.Set.elements (Evarutil.undefined_evars_of_term sigma t) in
let open_evs = List.filter (fun k ->
Sorts.InProp <> Retyping.get_sort_family_of
- env sigma (EConstr.of_constr (Evd.evar_concl (Evd.find sigma k))))
+ env sigma (Evd.evar_concl (Evd.find sigma k)))
evs in
if open_evs <> [] then Some name else None)
(List.combine (Array.to_list args) names)
@@ -478,10 +478,10 @@ let rwprocess_rule dir rule gl =
| _ -> let ra = Array.append a [|r|] in
function 1 ->
let sigma, pi1 = Evd.fresh_global env sigma coq_prod.Coqlib.proj1 in
- EConstr.mkApp (EConstr.of_constr pi1, ra), sigma
+ EConstr.mkApp (pi1, ra), sigma
| _ ->
let sigma, pi2 = Evd.fresh_global env sigma coq_prod.Coqlib.proj2 in
- EConstr.mkApp (EConstr.of_constr pi2, ra), sigma in
+ EConstr.mkApp (pi2, ra), sigma in
if EConstr.eq_constr sigma a.(0) (EConstr.of_constr (Universes.constr_of_global @@ Coqlib.build_coq_True ())) then
let s, sigma = sr sigma 2 in
loop (converse_dir d) sigma s a.(1) rs 0
diff --git a/plugins/ssr/ssripats.ml b/plugins/ssr/ssripats.ml
index af78bf36a..6b7a96deb 100644
--- a/plugins/ssr/ssripats.ml
+++ b/plugins/ssr/ssripats.ml
@@ -623,7 +623,7 @@ let tacFIND_ABSTRACT_PROOF check_lock abstract_n =
Goal.enter_one ~__LOC__ begin fun g ->
let sigma, env = Goal.(sigma g, env g) in
let l = Evd.fold_undefined (fun e ei l ->
- match EConstr.kind sigma (EConstr.of_constr ei.Evd.evar_concl) with
+ match EConstr.kind sigma ei.Evd.evar_concl with
| Term.App(hd, [|ty; n; lock|])
when (not check_lock ||
(occur_existential_or_casted_meta sigma ty &&
diff --git a/plugins/ssr/ssrview.ml b/plugins/ssr/ssrview.ml
index afe03533d..fc50b24a6 100644
--- a/plugins/ssr/ssrview.ml
+++ b/plugins/ssr/ssrview.ml
@@ -265,7 +265,7 @@ Goal.enter_one ~__LOC__ begin fun g ->
List.fold_left (fun l k ->
if Evd.is_defined sigma k then
let bo = get_body Evd.(evar_body (find sigma k)) in
- k :: l @ Evar.Set.elements (evars_of_econstr sigma bo)
+ k :: l @ Evar.Set.elements (evars_of_econstr sigma (EConstr.Unsafe.to_constr bo))
else l
) [] s in
let und0 = (* Unassigned evars in the initial goal *)
diff --git a/plugins/ssrmatching/ssrmatching.ml4 b/plugins/ssrmatching/ssrmatching.ml4
index 2ba6acc03..a10437a63 100644
--- a/plugins/ssrmatching/ssrmatching.ml4
+++ b/plugins/ssrmatching/ssrmatching.ml4
@@ -283,7 +283,7 @@ exception NoProgress
(* comparison can be much faster than the HO one. *)
let unif_EQ env sigma p c =
- let evars = existential_opt_value sigma, Evd.universes sigma in
+ let evars = existential_opt_value0 sigma, Evd.universes sigma in
try let _ = Reduction.conv env p ~evars c in true with _ -> false
let unif_EQ_args env sigma pa a =
@@ -337,7 +337,7 @@ let nf_open_term sigma0 ise c =
let s = ise and s' = ref sigma0 in
let rec nf c' = match kind c' with
| Evar ex ->
- begin try nf (existential_value s ex) with _ ->
+ begin try nf (existential_value0 s ex) with _ ->
let k, a = ex in let a' = Array.map nf a in
if not (Evd.mem !s' k) then
s' := Evd.add !s' k (Evarutil.nf_evar_info s (Evd.find s k));
@@ -347,7 +347,9 @@ let nf_open_term sigma0 ise c =
let copy_def k evi () =
if evar_body evi != Evd.Evar_empty then () else
match Evd.evar_body (Evd.find s k) with
- | Evar_defined c' -> s' := Evd.define k (nf c') !s'
+ | Evar_defined c' ->
+ let c' = EConstr.of_constr (nf (EConstr.Unsafe.to_constr c')) in
+ s' := Evd.define k c' !s'
| _ -> () in
let c' = nf c in let _ = Evd.fold copy_def sigma0 () in
!s', Evd.evar_universe_context s, EConstr.of_constr c'
@@ -446,7 +448,7 @@ let evars_for_FO ~hack env sigma0 (ise0:evar_map) c0 =
let nenv = env_size env + if hack then 1 else 0 in
let rec put c = match kind c with
| Evar (k, a as ex) ->
- begin try put (existential_value !sigma ex)
+ begin try put (existential_value0 !sigma ex)
with NotInstantiatedEvar ->
if Evd.mem sigma0 k then map put c else
let evi = Evd.find !sigma k in
@@ -457,11 +459,13 @@ let evars_for_FO ~hack env sigma0 (ise0:evar_map) c0 =
| Context.Named.Declaration.LocalAssum (x, t) ->
mkVar x :: d, mkNamedProd x (put t) c in
let a, t =
- Context.Named.fold_inside abs_dc ~init:([], (put evi.evar_concl)) dc in
+ Context.Named.fold_inside abs_dc
+ ~init:([], (put @@ EConstr.Unsafe.to_constr evi.evar_concl))
+ (EConstr.Unsafe.to_named_context dc) in
let m = Evarutil.new_meta () in
- ise := meta_declare m t !ise;
- sigma := Evd.define k (applistc (mkMeta m) a) !sigma;
- put (existential_value !sigma ex)
+ ise := meta_declare m (EConstr.of_constr t) !ise;
+ sigma := Evd.define k (EConstr.of_constr (applistc (mkMeta m) a)) !sigma;
+ put (existential_value0 !sigma ex)
end
| _ -> map put c in
let c1 = put c0 in !ise, c1
@@ -541,7 +545,7 @@ let splay_app ise =
| App (f, a') -> loop f (Array.append a' a)
| Cast (c', _, _) -> loop c' a
| Evar ex ->
- (try loop (existential_value ise ex) a with _ -> c, a)
+ (try loop (existential_value0 ise ex) a with _ -> c, a)
| _ -> c, a in
fun c -> match kind c with
| App (f, a) -> loop f a
@@ -1255,7 +1259,7 @@ let eval_pattern ?raise_NoMatch env0 sigma0 concl0 pattern occ do_subst =
let fs sigma x = nf_evar sigma x in
let pop_evar sigma e p =
let { Evd.evar_body = e_body } as e_def = Evd.find sigma e in
- let e_body = match e_body with Evar_defined c -> c
+ let e_body = match e_body with Evar_defined c -> EConstr.Unsafe.to_constr c
| _ -> errorstrm (str "Matching the pattern " ++ pr_constr_env env0 sigma0 p ++
str " did not instantiate ?" ++ int (Evar.repr e) ++ spc () ++
str "Does the variable bound by the \"in\" construct occur "++
diff --git a/pretyping/cases.ml b/pretyping/cases.ml
index b16f1a9ed..4c87b4e7e 100644
--- a/pretyping/cases.ml
+++ b/pretyping/cases.ml
@@ -1015,7 +1015,7 @@ let adjust_impossible_cases pb pred tomatch submat =
| Evar (evk,_) when snd (evar_source evk !(pb.evdref)) == Evar_kinds.ImpossibleCase ->
if not (Evd.is_defined !(pb.evdref) evk) then begin
let evd, default = use_unit_judge !(pb.evdref) in
- pb.evdref := Evd.define evk (EConstr.Unsafe.to_constr default.uj_type) evd
+ pb.evdref := Evd.define evk default.uj_type evd
end;
add_assert_false_case pb tomatch
| _ ->
diff --git a/pretyping/coercion.ml b/pretyping/coercion.ml
index 04cb6a59f..6dc3687a0 100644
--- a/pretyping/coercion.ml
+++ b/pretyping/coercion.ml
@@ -251,7 +251,7 @@ and coerce ?loc env evdref (x : EConstr.constr) (y : EConstr.constr)
let (n, dom, rng) = destLambda !evdref t in
if isEvar !evdref dom then
let (domk, args) = destEvar !evdref dom in
- evdref := define domk (EConstr.Unsafe.to_constr a) !evdref;
+ evdref := define domk a !evdref;
else ();
t, rng
| _ -> raise NoSubtacCoercion
diff --git a/pretyping/evarconv.ml b/pretyping/evarconv.ml
index d37090a65..144166a34 100644
--- a/pretyping/evarconv.ml
+++ b/pretyping/evarconv.ml
@@ -114,9 +114,6 @@ let flex_kind_of_term ts env evd c sk =
| Fix _ -> Rigid (* happens when the fixpoint is partially applied *)
| Cast _ | App _ | Case _ -> assert false
-let add_conv_pb (pb, env, x, y) sigma =
- Evd.add_conv_pb (pb, env, EConstr.Unsafe.to_constr x, EConstr.Unsafe.to_constr y) sigma
-
let apprec_nohdbeta ts env evd c =
let (t,sk as appr) = Reductionops.whd_nored_state evd (c, []) in
if Stack.not_purely_applicative sk
@@ -1045,7 +1042,7 @@ let choose_less_dependent_instance evk evd term args =
let subst' = List.filter (fun (id,c) -> EConstr.eq_constr evd c term) subst in
match subst' with
| [] -> None
- | (id, _) :: _ -> Some (Evd.define evk (Constr.mkVar id) evd)
+ | (id, _) :: _ -> Some (Evd.define evk (mkVar id) evd)
let apply_on_subterm env evdref f c t =
let rec applyrec (env,(k,c) as acc) t =
@@ -1085,7 +1082,7 @@ let filter_possible_projections evd c ty ctxt args =
let a = Array.unsafe_get args i in
(match decl with
| NamedDecl.LocalAssum _ -> false
- | NamedDecl.LocalDef (_,c,_) -> not (isRel evd (EConstr.of_constr c) || isVar evd (EConstr.of_constr c))) ||
+ | NamedDecl.LocalDef (_,c,_) -> not (isRel evd c || isVar evd c)) ||
a == c ||
(* Here we make an approximation, for instance, we could also be *)
(* interested in finding a term u convertible to c such that a occurs *)
@@ -1135,7 +1132,7 @@ let second_order_matching ts env_rhs evd (evk,args) argoccs rhs =
end
| decl'::ctxt', c::l, occs::occsl ->
let id = NamedDecl.get_id decl' in
- let t = EConstr.of_constr (NamedDecl.get_type decl') in
+ let t = NamedDecl.get_type decl' in
let evs = ref [] in
let ty = Retyping.get_type_of env_rhs evd c in
let filter' = filter_possible_projections evd c ty ctxt args in
@@ -1183,7 +1180,7 @@ let second_order_matching ts env_rhs evd (evk,args) argoccs rhs =
(* We force abstraction over this unconstrained occurrence *)
(* and we use typing to propagate this instantiation *)
(* This is an arbitrary choice *)
- let evd = Evd.define evk (Constr.mkVar id) evd in
+ let evd = Evd.define evk (mkVar id) evd in
match evar_conv_x ts env_evar evd CUMUL idty evty with
| UnifFailure _ -> user_err Pp.(str "Cannot find an instance")
| Success evd ->
@@ -1205,14 +1202,11 @@ let second_order_matching ts env_rhs evd (evk,args) argoccs rhs =
(evar_conv_x full_transparent_state)
with IllTypedInstance _ -> raise (TypingFailed evd)
in
- Evd.define evk (EConstr.Unsafe.to_constr rhs) evd
+ Evd.define evk rhs evd
in
abstract_free_holes evd subst, true
with TypingFailed evd -> evd, false
-let to_pb (pb, env, t1, t2) =
- (pb, env, EConstr.Unsafe.to_constr t1, EConstr.Unsafe.to_constr t2)
-
let second_order_matching_with_args ts env evd pbty ev l t =
(*
let evd,ev = evar_absorb_arguments env evd ev l in
@@ -1222,7 +1216,7 @@ let second_order_matching_with_args ts env evd pbty ev l t =
else UnifFailure (evd, ConversionFailed (env,mkApp(mkEvar ev,l),t))
if b then Success evd else
*)
- let pb = to_pb (pbty,env,mkApp(mkEvar ev,l),t) in
+ let pb = (pbty,env,mkApp(mkEvar ev,l),t) in
UnifFailure (evd, CannotSolveConstraint (pb,ProblemBeyondCapabilities))
let apply_conversion_problem_heuristic ts env evd pbty t1 t2 =
@@ -1245,7 +1239,7 @@ let apply_conversion_problem_heuristic ts env evd pbty t1 t2 =
| Some evd -> Success evd
| None ->
let reason = ProblemBeyondCapabilities in
- UnifFailure (evd, CannotSolveConstraint (to_pb (pbty,env,t1,t2),reason)))
+ UnifFailure (evd, CannotSolveConstraint ((pbty,env,t1,t2),reason)))
| (Rel _|Var _), Evar (evk2,args2) when app_empty
&& List.for_all (fun a -> EConstr.eq_constr evd a term1 || isEvar evd a)
(remove_instance_local_defs evd evk2 args2) ->
@@ -1255,7 +1249,7 @@ let apply_conversion_problem_heuristic ts env evd pbty t1 t2 =
| Some evd -> Success evd
| None ->
let reason = ProblemBeyondCapabilities in
- UnifFailure (evd, CannotSolveConstraint (to_pb (pbty,env,t1,t2),reason)))
+ UnifFailure (evd, CannotSolveConstraint ((pbty,env,t1,t2),reason)))
| Evar (evk1,args1), Evar (evk2,args2) when Evar.equal evk1 evk2 ->
let f env evd pbty x y = is_fconv ~reds:ts pbty env evd x y in
Success (solve_refl ~can_drop:true f env evd
@@ -1295,10 +1289,10 @@ let error_cannot_unify env evd pb ?reason t1 t2 =
let check_problems_are_solved env evd =
match snd (extract_all_conv_pbs evd) with
- | (pbty,env,t1,t2) as pb::_ -> error_cannot_unify env evd pb (EConstr.of_constr t1) (EConstr.of_constr t2)
+ | (pbty,env,t1,t2) as pb::_ -> error_cannot_unify env evd pb t1 t2
| _ -> ()
-exception MaxUndefined of (Evar.t * evar_info * Constr.t list)
+exception MaxUndefined of (Evar.t * evar_info * EConstr.t list)
let max_undefined_with_candidates evd =
let fold evk evi () = match evi.evar_candidates with
@@ -1326,7 +1320,7 @@ let rec solve_unconstrained_evars_with_candidates ts evd =
| a::l ->
try
let conv_algo = evar_conv_x ts in
- let evd = check_evar_instance evd evk (EConstr.of_constr a) conv_algo in
+ let evd = check_evar_instance evd evk a conv_algo in
let evd = Evd.define evk a evd in
match reconsider_unif_constraints conv_algo evd with
| Success evd -> solve_unconstrained_evars_with_candidates ts evd
@@ -1348,7 +1342,7 @@ let solve_unconstrained_impossible_cases env evd =
let ty = j_type j in
let conv_algo = evar_conv_x full_transparent_state in
let evd' = check_evar_instance evd' evk ty conv_algo in
- Evd.define evk (EConstr.Unsafe.to_constr ty) evd'
+ Evd.define evk ty evd'
| _ -> evd') evd evd
let solve_unif_constraints_with_heuristics env
@@ -1357,8 +1351,6 @@ let solve_unif_constraints_with_heuristics env
let rec aux evd pbs progress stuck =
match pbs with
| (pbty,env,t1,t2 as pb) :: pbs ->
- let t1 = EConstr.of_constr t1 in
- let t2 = EConstr.of_constr t2 in
(match apply_conversion_problem_heuristic ts env evd pbty t1 t2 with
| Success evd' ->
let (evd', rest) = extract_all_conv_pbs evd' in
@@ -1375,9 +1367,7 @@ let solve_unif_constraints_with_heuristics env
match stuck with
| [] -> (* We're finished *) evd
| (pbty,env,t1,t2 as pb) :: _ ->
- let t1 = EConstr.of_constr t1 in
- let t2 = EConstr.of_constr t2 in
- (* There remains stuck problems *)
+ (* There remains stuck problems *)
error_cannot_unify env evd pb t1 t2
in
let (evd,pbs) = extract_all_conv_pbs evd in
diff --git a/pretyping/evardefine.ml b/pretyping/evardefine.ml
index 4cffbbb83..b452755b1 100644
--- a/pretyping/evardefine.ml
+++ b/pretyping/evardefine.ml
@@ -77,7 +77,7 @@ let define_pure_evar_as_product evd evk =
let evi = Evd.find_undefined evd evk in
let evenv = evar_env evi in
let id = next_ident_away idx (Environ.ids_of_named_context_val evi.evar_hyps) in
- let concl = Reductionops.whd_all evenv evd (EConstr.of_constr evi.evar_concl) in
+ let concl = Reductionops.whd_all evenv evd evi.evar_concl in
let s = destSort evd concl in
let evksrc = evar_source evk evd in
let src = subterm_source evk ~where:Domain evksrc in
@@ -101,7 +101,7 @@ let define_pure_evar_as_product evd evk =
evd3, rng
in
let prod = mkProd (Name id, dom, subst_var id rng) in
- let evd3 = Evd.define evk (EConstr.Unsafe.to_constr prod) evd2 in
+ let evd3 = Evd.define evk prod evd2 in
evd3,prod
(* Refine an applied evar to a product and returns its instantiation *)
@@ -128,7 +128,7 @@ let define_pure_evar_as_lambda env evd evk =
let open Context.Named.Declaration in
let evi = Evd.find_undefined evd evk in
let evenv = evar_env evi in
- let typ = Reductionops.whd_all evenv evd (EConstr.of_constr (evar_concl evi)) in
+ let typ = Reductionops.whd_all evenv evd (evar_concl evi) in
let evd1,(na,dom,rng) = match EConstr.kind evd typ with
| Prod (na,dom,rng) -> (evd,(na,dom,rng))
| Evar ev' -> let evd,typ = define_evar_as_product evd ev' in evd,destProd evd typ
@@ -141,7 +141,7 @@ let define_pure_evar_as_lambda env evd evk =
let src = subterm_source evk ~where:Body (evar_source evk evd1) in
let evd2,body = new_evar newenv evd1 ~src (subst1 (mkVar id) rng) ~filter in
let lam = mkLambda (Name id, dom, subst_var id body) in
- Evd.define evk (EConstr.Unsafe.to_constr lam) evd2, lam
+ Evd.define evk lam evd2, lam
let define_evar_as_lambda env evd (evk,args) =
let evd,lam = define_pure_evar_as_lambda env evd evk in
@@ -166,9 +166,9 @@ let define_evar_as_sort env evd (ev,args) =
let evd, u = new_univ_variable univ_rigid evd in
let evi = Evd.find_undefined evd ev in
let s = Type u in
- let concl = Reductionops.whd_all (evar_env evi) evd (EConstr.of_constr evi.evar_concl) in
+ let concl = Reductionops.whd_all (evar_env evi) evd evi.evar_concl in
let sort = destSort evd concl in
- let evd' = Evd.define ev (Constr.mkSort s) evd in
+ let evd' = Evd.define ev (mkSort s) evd in
Evd.set_leq_sort env evd' (Type (Univ.super u)) (ESorts.kind evd' sort), s
(* Propagation of constraints through application and abstraction:
diff --git a/pretyping/evarsolve.ml b/pretyping/evarsolve.ml
index 0c109b026..b7eaff078 100644
--- a/pretyping/evarsolve.ml
+++ b/pretyping/evarsolve.ml
@@ -89,9 +89,9 @@ let refresh_universes ?(status=univ_rigid) ?(onlyalg=false) ?(refreshset=false)
Array.iter (refresh_term_evars onevars false) args
| Evar (ev, a) when onevars ->
let evi = Evd.find !evdref ev in
- let ty' = refresh ~onlyalg univ_flexible ~direction:true (EConstr.of_constr evi.evar_concl) in
+ let ty' = refresh ~onlyalg univ_flexible ~direction:true evi.evar_concl in
if !modified then
- evdref := Evd.add !evdref ev {evi with evar_concl = EConstr.Unsafe.to_constr ty'}
+ evdref := Evd.add !evdref ev {evi with evar_concl = ty'}
else ()
| _ -> EConstr.iter !evdref (refresh_term_evars onevars false) t
and refresh_polymorphic_positions args pos =
@@ -137,8 +137,6 @@ let test_success conv_algo env evd c c' rhs =
is_success (conv_algo env evd c c' rhs)
let add_conv_oriented_pb ?(tail=true) (pbty,env,t1,t2) evd =
- let t1 = EConstr.Unsafe.to_constr t1 in
- let t2 = EConstr.Unsafe.to_constr t2 in
match pbty with
| Some true -> add_conv_pb ~tail (Reduction.CUMUL,env,t1,t2) evd
| Some false -> add_conv_pb ~tail (Reduction.CUMUL,env,t2,t1) evd
@@ -197,7 +195,7 @@ let restrict_evar_key evd evk filter candidates =
| None -> evar_filter evi
| Some filter -> filter in
let candidates = match candidates with
- | NoUpdate -> Option.map (fun l -> List.map EConstr.of_constr l) evi.evar_candidates
+ | NoUpdate -> evi.evar_candidates
| UpdateWith c -> Some c in
restrict_evar evd evk filter candidates
end
@@ -600,7 +598,6 @@ let solve_pattern_eqn env sigma l c =
let make_projectable_subst aliases sigma evi args =
let sign = evar_filtered_context evi in
- let sign = List.map (fun d -> map_named_decl EConstr.of_constr d) sign in
let evar_aliases = compute_var_aliases sign sigma in
let (_,full_subst,cstr_subst) =
List.fold_right
@@ -877,7 +874,7 @@ let choose_projection evi sols =
let rec do_projection_effects define_fun env ty evd = function
| ProjectVar -> evd
| ProjectEvar ((evk,argsv),evi,id,p) ->
- let evd = Evd.define evk (Constr.mkVar id) evd in
+ let evd = Evd.define evk (mkVar id) evd in
(* TODO: simplify constraints involving evk *)
let evd = do_projection_effects define_fun env ty evd p in
let ty = whd_all env evd (Lazy.force ty) in
@@ -887,7 +884,7 @@ let rec do_projection_effects define_fun env ty evd = function
one (however, regarding coercions, because t is obtained by
unif, we know that no coercion can be inserted) *)
let subst = make_pure_subst evi argsv in
- let ty' = replace_vars subst (EConstr.of_constr evi.evar_concl) in
+ let ty' = replace_vars subst evi.evar_concl in
if isEvar evd ty' then define_fun env evd (Some false) (destEvar evd ty') ty else evd
else
evd
@@ -1004,7 +1001,7 @@ let filter_effective_candidates evd evi filter candidates =
let filter_candidates evd evk filter candidates_update =
let evi = Evd.find_undefined evd evk in
let candidates = match candidates_update with
- | NoUpdate -> Option.map (fun l -> List.map EConstr.of_constr l) evi.evar_candidates
+ | NoUpdate -> evi.evar_candidates
| UpdateWith c -> Some c
in
match candidates with
@@ -1023,13 +1020,12 @@ let closure_of_filter evd evk = function
| None -> None
| Some filter ->
let evi = Evd.find_undefined evd evk in
- let vars = collect_vars evd (EConstr.of_constr (evar_concl evi)) in
+ let vars = collect_vars evd (evar_concl evi) in
let test b decl = b || Id.Set.mem (get_id decl) vars ||
match decl with
| LocalAssum _ ->
false
| LocalDef (_,c,_) ->
- let c = EConstr.of_constr c in
not (isRel evd c || isVar evd c)
in
let newfilter = Filter.map_along test filter (evar_context evi) in
@@ -1062,7 +1058,7 @@ let do_restrict_hyps evd (evk,args as ev) filter candidates =
match candidates,filter with
| UpdateWith [], _ -> user_err Pp.(str "Not solvable.")
| UpdateWith [nc],_ ->
- let evd = Evd.define evk (EConstr.Unsafe.to_constr nc) evd in
+ let evd = Evd.define evk nc evd in
raise (EvarSolvedWhileRestricting (evd,mkEvar ev))
| NoUpdate, None -> evd,ev
| _ -> restrict_applied_evar evd ev filter candidates
@@ -1113,9 +1109,6 @@ let postpone_non_unique_projection env evd pbty (evk,argsv as ev) sols rhs =
* Note: argument f is the function used to instantiate evars.
*)
-let instantiate_evar_array evi c args =
- EConstr.of_constr (instantiate_evar_array evi (EConstr.Unsafe.to_constr c) (Array.map EConstr.Unsafe.to_constr args))
-
let filter_compatible_candidates conv_algo env evd evi args rhs c =
let c' = instantiate_evar_array evi c args in
match conv_algo env evd Reduction.CONV rhs c' with
@@ -1135,8 +1128,6 @@ let restrict_candidates conv_algo env evd filter1 (evk1,argsv1) (evk2,argsv2) =
| _, None -> filter_candidates evd evk1 filter1 NoUpdate
| None, Some _ -> raise DoesNotPreserveCandidateRestriction
| Some l1, Some l2 ->
- let l1 = List.map EConstr.of_constr l1 in
- let l2 = List.map EConstr.of_constr l2 in
let l1 = filter_effective_candidates evd evi1 filter1 l1 in
let l1' = List.filter (fun c1 ->
let c1' = instantiate_evar_array evi1 c1 argsv1 in
@@ -1242,9 +1233,9 @@ let check_evar_instance evd evk1 body conv_algo =
try Retyping.get_type_of ~lax:true evenv evd body
with Retyping.RetypeError _ -> user_err Pp.(str "Ill-typed evar instance")
in
- match conv_algo evenv evd Reduction.CUMUL ty (EConstr.of_constr evi.evar_concl) with
+ match conv_algo evenv evd Reduction.CUMUL ty evi.evar_concl with
| Success evd -> evd
- | UnifFailure _ -> raise (IllTypedInstance (evenv,ty,EConstr.of_constr evi.evar_concl))
+ | UnifFailure _ -> raise (IllTypedInstance (evenv,ty, evi.evar_concl))
let update_evar_source ev1 ev2 evd =
let loc, evs2 = evar_source ev2 evd in
@@ -1257,7 +1248,7 @@ let update_evar_source ev1 ev2 evd =
let solve_evar_evar_l2r force f g env evd aliases pbty ev1 (evk2,_ as ev2) =
try
let evd,body = project_evar_on_evar force g env evd aliases 0 pbty ev1 ev2 in
- let evd' = Evd.define evk2 (EConstr.Unsafe.to_constr body) evd in
+ let evd' = Evd.define evk2 body evd in
let evd' = update_evar_source (fst (destEvar evd body)) evk2 evd' in
check_evar_instance evd' evk2 body g
with EvarSolvedOnTheFly (evd,c) ->
@@ -1292,17 +1283,19 @@ let solve_evar_evar_aux force f g env evd pbty (evk1,args1 as ev1) (evk2,args2 a
let solve_evar_evar ?(force=false) f g env evd pbty (evk1,args1 as ev1) (evk2,args2 as ev2) =
let pbty = if force then None else pbty in
let evi = Evd.find evd evk1 in
- let downcast evk t evd = downcast evk (EConstr.Unsafe.to_constr t) evd in
+ let downcast evk t evd = downcast evk t evd in
let evd =
try
(* ?X : Π Δ. Type i = ?Y : Π Δ'. Type j.
The body of ?X and ?Y just has to be of type Π Δ. Type k for some k <= i, j. *)
let evienv = Evd.evar_env evi in
- let ctx1, i = Reduction.dest_arity evienv evi.evar_concl in
+ let concl1 = EConstr.Unsafe.to_constr evi.evar_concl in
+ let ctx1, i = Reduction.dest_arity evienv concl1 in
let ctx1 = List.map (fun c -> map_rel_decl EConstr.of_constr c) ctx1 in
let evi2 = Evd.find evd evk2 in
let evi2env = Evd.evar_env evi2 in
- let ctx2, j = Reduction.dest_arity evi2env evi2.evar_concl in
+ let concl2 = EConstr.Unsafe.to_constr evi2.evar_concl in
+ let ctx2, j = Reduction.dest_arity evi2env concl2 in
let ctx2 = List.map (fun c -> map_rel_decl EConstr.of_constr c) ctx2 in
let ui, uj = univ_of_sort i, univ_of_sort j in
if i == j || Evd.check_eq evd ui uj
@@ -1375,14 +1368,14 @@ let solve_candidates conv_algo env evd (evk,argsv) rhs =
| Some l ->
let l' =
List.map_filter
- (fun c -> filter_compatible_candidates conv_algo env evd evi argsv rhs (EConstr.of_constr c)) l in
+ (fun c -> filter_compatible_candidates conv_algo env evd evi argsv rhs c) l in
match l' with
| [] -> raise IncompatibleCandidates
| [c,evd] ->
(* solve_candidates might have been called recursively in the mean *)
(* time and the evar been solved by the filtering process *)
if Evd.is_undefined evd evk then
- let evd' = Evd.define evk (EConstr.Unsafe.to_constr c) evd in
+ let evd' = Evd.define evk c evd in
check_evar_instance evd' evk c conv_algo
else evd
| l when List.length l < List.length l' ->
@@ -1401,8 +1394,8 @@ let occur_evar_upto_types sigma n c =
Array.iter occur_rec args
else (
seen := Evar.Set.add sp !seen;
- Option.iter occur_rec (existential_opt_value sigma e);
- occur_rec (Evd.existential_type sigma e))
+ Option.iter occur_rec (existential_opt_value0 sigma e);
+ occur_rec (Evd.existential_type0 sigma e))
| _ -> Constr.iter occur_rec c
in
try occur_rec c; false with Occur -> true
@@ -1529,7 +1522,7 @@ let rec invert_definition conv_algo choose env evd pbty (evk,argsv as ev) rhs =
(* Try to project (a restriction of) the left evar ... *)
try
let evd,body = project_evar_on_evar false conv_algo env' evd aliases 0 None ev'' ev' in
- let evd = Evd.define evk' (EConstr.Unsafe.to_constr body) evd in
+ let evd = Evd.define evk' body evd in
check_evar_instance evd evk' body conv_algo
with
| EvarSolvedOnTheFly _ -> assert false (* ev has no candidates *)
@@ -1644,7 +1637,7 @@ and evar_define conv_algo ?(choose=false) env evd pbty (evk,argsv as ev) rhs =
print_constr body);
raise e in*)
let evd' = check_evar_instance evd' evk body conv_algo in
- Evd.define evk (EConstr.Unsafe.to_constr body) evd'
+ Evd.define evk body evd'
with
| NotEnoughInformationToProgress sols ->
postpone_non_unique_projection env evd pbty ev sols rhs
@@ -1691,8 +1684,6 @@ and evar_define conv_algo ?(choose=false) env evd pbty (evk,argsv as ev) rhs =
*)
let status_changed evd lev (pbty,_,t1,t2) =
- let t1 = EConstr.of_constr t1 in
- let t2 = EConstr.of_constr t2 in
(try Evar.Set.mem (head_evar evd t1) lev with NoHeadEvar -> false) ||
(try Evar.Set.mem (head_evar evd t2) lev with NoHeadEvar -> false)
@@ -1702,7 +1693,7 @@ let reconsider_unif_constraints conv_algo evd =
(fun p (pbty,env,t1,t2 as x) ->
match p with
| Success evd ->
- (match conv_algo env evd pbty (EConstr.of_constr t1) (EConstr.of_constr t2) with
+ (match conv_algo env evd pbty t1 t2 with
| Success _ as x -> x
| UnifFailure (i,e) -> UnifFailure (i,CannotSolveConstraint (x,e)))
| UnifFailure _ as x -> x)
diff --git a/pretyping/nativenorm.ml b/pretyping/nativenorm.ml
index fcbf50fea..85911394f 100644
--- a/pretyping/nativenorm.ml
+++ b/pretyping/nativenorm.ml
@@ -401,9 +401,9 @@ and nf_evar env sigma evk ty args =
mkEvar (evk, Array.of_list args), ty
let evars_of_evar_map sigma =
- { Nativelambda.evars_val = Evd.existential_opt_value sigma;
- Nativelambda.evars_typ = Evd.existential_type sigma;
- Nativelambda.evars_metas = Evd.meta_type sigma }
+ { Nativelambda.evars_val = Evd.existential_opt_value0 sigma;
+ Nativelambda.evars_typ = Evd.existential_type0 sigma;
+ Nativelambda.evars_metas = Evd.meta_type0 sigma }
(* fork perf process, return profiler's process id *)
let start_profiler_linux profile_fn =
diff --git a/pretyping/patternops.ml b/pretyping/patternops.ml
index e52112fda..27e457e3b 100644
--- a/pretyping/patternops.ml
+++ b/pretyping/patternops.ml
@@ -184,7 +184,7 @@ let pattern_of_constr env sigma t =
| Evar_kinds.GoalEvar | Evar_kinds.VarInstance _ ->
(* These are the two evar kinds used for existing goals *)
(* see Proofview.mark_in_evm *)
- if Evd.is_defined sigma evk then pattern_of_constr env (Evd.existential_value sigma ev)
+ if Evd.is_defined sigma evk then pattern_of_constr env (Evd.existential_value0 sigma ev)
else PEvar (evk,Array.map (pattern_of_constr env) ctxt)
| Evar_kinds.MatchingVar (Evar_kinds.SecondOrderPatVar ido) -> assert false
| _ ->
diff --git a/pretyping/pretyping.ml b/pretyping/pretyping.ml
index 2c371d5cf..947469ca0 100644
--- a/pretyping/pretyping.ml
+++ b/pretyping/pretyping.ml
@@ -315,7 +315,7 @@ let apply_inference_hook hook evdref frozen = match frozen with
then
try
let sigma, c = hook sigma evk in
- Evd.define evk (EConstr.Unsafe.to_constr c) sigma
+ Evd.define evk c sigma
with Exit ->
sigma
else
@@ -532,7 +532,7 @@ let pretype_global ?loc rigid env evd gr us =
interp_instance ?loc evd ~len l
in
let (sigma, c) = Evd.fresh_global ?loc ~rigid ?names:instance env.ExtraEnv.env evd gr in
- (sigma, EConstr.of_constr c)
+ (sigma, c)
let pretype_ref ?loc evdref env ref us =
match ref with
@@ -1109,7 +1109,7 @@ let rec pretype k0 resolve_tc (tycon : type_constraint) (env : ExtraEnv.t) evdre
and pretype_instance k0 resolve_tc env evdref lvar loc hyps evk update =
let f decl (subst,update) =
let id = NamedDecl.get_id decl in
- let t = replace_vars subst (EConstr.of_constr (NamedDecl.get_type decl)) in
+ let t = replace_vars subst (NamedDecl.get_type decl) in
let c, update =
try
let c = List.assoc id update in
@@ -1150,7 +1150,7 @@ and pretype_type k0 resolve_tc valcon (env : ExtraEnv.t) evdref lvar c = match D
(* Correction of bug #5315 : we need to define an evar for *all* holes *)
let evkt = e_new_evar env evdref ~src:(loc, knd) ~naming (mkSort s) in
let ev,_ = destEvar !evdref evkt in
- evdref := Evd.define ev (to_constr ~abort_on_undefined_evars:false !evdref v) !evdref;
+ evdref := Evd.define ev (nf_evar !evdref v) !evdref;
(* End of correction of bug #5315 *)
{ utj_val = v;
utj_type = s }
diff --git a/pretyping/reductionops.ml b/pretyping/reductionops.ml
index 360c6e86e..244b8e60b 100644
--- a/pretyping/reductionops.ml
+++ b/pretyping/reductionops.ml
@@ -871,7 +871,7 @@ let rec whd_state_gen ?csts ~refold ~tactic_mode flags env sigma =
| Evar ev -> fold ()
| Meta ev ->
(match safe_meta_value sigma ev with
- | Some body -> whrec cst_l (EConstr.of_constr body, stack)
+ | Some body -> whrec cst_l (body, stack)
| None -> fold ())
| Const (c,u as const) ->
reduction_effect_hook env sigma (EConstr.to_constr sigma x)
@@ -1106,7 +1106,7 @@ let local_whd_state_gen flags sigma =
| Evar ev -> s
| Meta ev ->
(match safe_meta_value sigma ev with
- Some c -> whrec (EConstr.of_constr c,stack)
+ Some c -> whrec (c,stack)
| None -> s)
| Construct ((ind,c),u) ->
@@ -1392,7 +1392,7 @@ let vm_infer_conv ?(pb=Reduction.CUMUL) env t1 t2 =
(********************************************************************)
let whd_meta sigma c = match EConstr.kind sigma c with
- | Meta p -> (try EConstr.of_constr (meta_value sigma p) with Not_found -> c)
+ | Meta p -> (try meta_value sigma p with Not_found -> c)
| _ -> c
let default_plain_instance_ident = Id.of_string "H"
@@ -1612,7 +1612,7 @@ let meta_value evd mv =
match meta_opt_fvalue evd mv with
| Some (b,_) ->
let metas = Metamap.bind valrec b.freemetas in
- instance evd metas (EConstr.of_constr b.rebus)
+ instance evd metas b.rebus
| None -> mkMeta mv
in
valrec mv
@@ -1625,9 +1625,8 @@ let meta_instance sigma b =
instance sigma c_sigma b.rebus
let nf_meta sigma c =
- let c = EConstr.Unsafe.to_constr c in
let cl = mk_freelisted c in
- meta_instance sigma { cl with rebus = EConstr.of_constr cl.rebus }
+ meta_instance sigma { cl with rebus = cl.rebus }
(* Instantiate metas that create beta/iota redexes *)
@@ -1648,7 +1647,6 @@ let meta_reducible_instance evd b =
(match
try
let g, s = Metamap.find m metas in
- let g = EConstr.of_constr g in
let is_coerce = match s with CoerceToType -> true | _ -> false in
if isConstruct evd g || not is_coerce then Some g else None
with Not_found -> None
@@ -1660,7 +1658,6 @@ let meta_reducible_instance evd b =
(match
try
let g, s = Metamap.find m metas in
- let g = EConstr.of_constr g in
let is_coerce = match s with CoerceToType -> true | _ -> false in
if isLambda evd g || not is_coerce then Some g else None
with Not_found -> None
@@ -1669,7 +1666,6 @@ let meta_reducible_instance evd b =
| None -> mkApp (f,Array.map irec l))
| Meta m ->
(try let g, s = Metamap.find m metas in
- let g = EConstr.of_constr g in
let is_coerce = match s with CoerceToType -> true | _ -> false in
if not is_coerce then irec g else u
with Not_found -> u)
@@ -1678,7 +1674,6 @@ let meta_reducible_instance evd b =
(match
try
let g, s = Metamap.find m metas in
- let g = EConstr.of_constr g in
let is_coerce = match s with CoerceToType -> true | _ -> false in
if isConstruct evd g || not is_coerce then Some g else None
with Not_found -> None
diff --git a/pretyping/retyping.ml b/pretyping/retyping.ml
index 95aa5ebef..746a68b21 100644
--- a/pretyping/retyping.ml
+++ b/pretyping/retyping.ml
@@ -57,8 +57,8 @@ let get_type_from_constraints env sigma t =
if isEvar sigma (fst (decompose_app_vect sigma t)) then
match
List.map_filter (fun (pbty,env,t1,t2) ->
- if is_fconv Reduction.CONV env sigma t (EConstr.of_constr t1) then Some t2
- else if is_fconv Reduction.CONV env sigma t (EConstr.of_constr t2) then Some t1
+ if is_fconv Reduction.CONV env sigma t t1 then Some t2
+ else if is_fconv Reduction.CONV env sigma t t2 then Some t1
else None)
(snd (Evd.extract_all_conv_pbs sigma))
with
@@ -99,7 +99,7 @@ let retype ?(polyprop=true) sigma =
let rec type_of env cstr =
match EConstr.kind sigma cstr with
| Meta n ->
- (try strip_outer_cast sigma (EConstr.of_constr (Evd.meta_ftype sigma n).Evd.rebus)
+ (try strip_outer_cast sigma (Evd.meta_ftype sigma n).Evd.rebus
with Not_found -> retype_error (BadMeta n))
| Rel n ->
let ty = RelDecl.get_type (lookup_rel n env) in
@@ -115,7 +115,7 @@ let retype ?(polyprop=true) sigma =
try Inductiveops.find_rectype env sigma t
with Not_found ->
try
- let t = EConstr.of_constr (get_type_from_constraints env sigma t) in
+ let t = get_type_from_constraints env sigma t in
Inductiveops.find_rectype env sigma t
with Not_found -> retype_error BadRecursiveType
in
diff --git a/pretyping/tacred.ml b/pretyping/tacred.ml
index 977713fd8..696001ab7 100644
--- a/pretyping/tacred.ml
+++ b/pretyping/tacred.ml
@@ -416,7 +416,7 @@ exception Partial
reduction is solved by the expanded fix term. *)
let solve_arity_problem env sigma fxminargs c =
let evm = ref sigma in
- let set_fix i = evm := Evd.define i (Constr.mkVar vfx) !evm in
+ let set_fix i = evm := Evd.define i (mkVar vfx) !evm in
let rec check strict c =
let c' = whd_betaiotazeta sigma c in
let (h,rcargs) = decompose_app_vect sigma c' in
@@ -641,7 +641,7 @@ let whd_nothing_for_iota env sigma s =
| _ -> s)
| Evar ev -> s
| Meta ev ->
- (try whrec (EConstr.of_constr (Evd.meta_value sigma ev), stack)
+ (try whrec (Evd.meta_value sigma ev, stack)
with Not_found -> s)
| Const (const, u) when is_transparent_constant full_transparent_state const ->
let u = EInstance.kind sigma u in
diff --git a/pretyping/typeclasses.ml b/pretyping/typeclasses.ml
index 08051fd3a..30ddeffa6 100644
--- a/pretyping/typeclasses.ml
+++ b/pretyping/typeclasses.ml
@@ -158,7 +158,7 @@ let rec is_class_type evd c =
| _ -> is_class_constr evd c
let is_class_evar evd evi =
- is_class_type evd (EConstr.of_constr evi.Evd.evar_concl)
+ is_class_type evd evi.Evd.evar_concl
(*
* classes persistent object
diff --git a/pretyping/typing.ml b/pretyping/typing.ml
index c4eb6af89..aaec73f04 100644
--- a/pretyping/typing.ml
+++ b/pretyping/typing.ml
@@ -29,7 +29,6 @@ let meta_type evd mv =
let ty =
try Evd.meta_ftype evd mv
with Not_found -> anomaly (str "unknown meta ?" ++ str (Nameops.string_of_meta mv) ++ str ".") in
- let ty = Evd.map_fl EConstr.of_constr ty in
meta_instance evd ty
let inductive_type_knowing_parameters env sigma (ind,u) jl =
@@ -129,7 +128,7 @@ let e_is_correct_arity env evdref c pj ind specif params =
then error ()
| Evar (ev,_), [] ->
let evd, s = Evd.fresh_sort_in_family env !evdref (max_sort allowed_sorts) in
- evdref := Evd.define ev (Constr.mkSort s) evd
+ evdref := Evd.define ev (mkSort s) evd
| _, (LocalDef _ as d)::ar' ->
srec (push_rel d env) (lift 1 pt') ar'
| _ ->
diff --git a/pretyping/unification.ml b/pretyping/unification.ml
index ca03b96ab..d98ce9aba 100644
--- a/pretyping/unification.ml
+++ b/pretyping/unification.ml
@@ -84,7 +84,7 @@ let occur_meta_or_undefined_evar evd c =
| Evar (ev,args) ->
(match evar_body (Evd.find evd ev) with
| Evar_defined c ->
- occrec c; Array.iter occrec args
+ occrec (EConstr.Unsafe.to_constr c); Array.iter occrec args
| Evar_empty -> raise Occur)
| _ -> Constr.iter occrec c
in try occrec c; false with Occur | Not_found -> true
@@ -189,10 +189,9 @@ let pose_all_metas_as_evars env evd t =
let rec aux t = match EConstr.kind !evdref t with
| Meta mv ->
(match Evd.meta_opt_fvalue !evdref mv with
- | Some ({rebus=c},_) -> EConstr.of_constr c
+ | Some ({rebus=c},_) -> c
| None ->
let {rebus=ty;freemetas=mvs} = Evd.meta_ftype evd mv in
- let ty = EConstr.of_constr ty in
let ty = if Evd.Metaset.is_empty mvs then ty else aux ty in
let ty =
if Flags.version_strictly_greater Flags.V8_6
@@ -200,7 +199,7 @@ let pose_all_metas_as_evars env evd t =
else ty (* some beta-iota-normalization "regression" in 8.5 and 8.6 *) in
let src = Evd.evar_source_of_meta mv !evdref in
let ev = Evarutil.e_new_evar env evdref ~src ty in
- evdref := meta_assign mv (EConstr.Unsafe.to_constr ev,(Conv,TypeNotProcessed)) !evdref;
+ evdref := meta_assign mv (ev,(Conv,TypeNotProcessed)) !evdref;
ev)
| _ ->
EConstr.map !evdref aux t in
@@ -1060,7 +1059,7 @@ let rec unify_0_with_initial_metas (sigma,ms,es as subst : subst0) conv_at_top e
(evd,t2::ks, m-1)
else
let mv = new_meta () in
- let evd' = meta_declare mv (EConstr.Unsafe.to_constr (substl ks b)) evd in
+ let evd' = meta_declare mv (substl ks b) evd in
(evd', mkMeta mv :: ks, m - 1))
(sigma,[],List.length bs) bs
in
@@ -1247,7 +1246,7 @@ let try_to_coerce env evd c cty tycon =
let j = make_judge c cty in
let (evd',j') = inh_conv_coerce_rigid_to true env evd j tycon in
let evd' = Evarconv.solve_unif_constraints_with_heuristics env evd' in
- let evd' = Evd.map_metas_fvalue (fun c -> EConstr.Unsafe.to_constr (nf_evar evd' (EConstr.of_constr c))) evd' in
+ let evd' = Evd.map_metas_fvalue (fun c -> nf_evar evd' c) evd' in
(evd',j'.uj_val)
let w_coerce_to_type env evd c cty mvty =
@@ -1359,11 +1358,11 @@ let w_merge env with_types flags (evd,metas,evars : subst0) =
if meta_defined evd mv then
let {rebus=c'},(status',_) = meta_fvalue evd mv in
let (take_left,st,(evd,metas',evars')) =
- merge_instances env evd flags status' status (EConstr.of_constr c') c
+ merge_instances env evd flags status' status c' c
in
let evd' =
if take_left then evd
- else meta_reassign mv (EConstr.Unsafe.to_constr c,(st,TypeProcessed)) evd
+ else meta_reassign mv (c,(st,TypeProcessed)) evd
in
w_merge_rec evd' (metas'@metas@metas'') (evars'@evars'') eqns
else
@@ -1372,7 +1371,7 @@ let w_merge env with_types flags (evd,metas,evars : subst0) =
if isMetaOf evd mv (whd_all env evd c) then evd
else error_cannot_unify env evd (mkMeta mv,c)
else
- meta_assign mv (EConstr.Unsafe.to_constr c,(status,TypeProcessed)) evd in
+ meta_assign mv (c,(status,TypeProcessed)) evd in
w_merge_rec evd' (metas''@metas) evars'' eqns
| [] ->
(* Process type eqns *)
@@ -1396,17 +1395,17 @@ let w_merge env with_types flags (evd,metas,evars : subst0) =
let (evd', c) = applyHead sp_env evd nargs hdc in
let (evd'',mc,ec) =
unify_0 sp_env evd' CUMUL flags
- (get_type_of sp_env evd' c) (EConstr.of_constr ev.evar_concl) in
+ (get_type_of sp_env evd' c) ev.evar_concl in
let evd''' = w_merge_rec evd'' mc ec [] in
if evd' == evd'''
- then Evd.define sp (EConstr.Unsafe.to_constr c) evd'''
- else Evd.define sp (EConstr.Unsafe.to_constr (Evarutil.nf_evar evd''' c)) evd''' in
+ then Evd.define sp c evd'''
+ else Evd.define sp (Evarutil.nf_evar evd''' c) evd''' in
let check_types evd =
let metas = Evd.meta_list evd in
let eqns = List.fold_left (fun acc (mv, b) ->
match b with
- | Clval (n, (t, (c, TypeNotProcessed)), v) -> (mv, c, EConstr.of_constr t.rebus) :: acc
+ | Clval (n, (t, (c, TypeNotProcessed)), v) -> (mv, c, t.rebus) :: acc
| _ -> acc) [] metas
in w_merge_rec evd [] [] eqns
in
@@ -1417,11 +1416,6 @@ let w_merge env with_types flags (evd,metas,evars : subst0) =
in
if with_types then check_types res else res
-let retract_coercible_metas evd =
- let (metas, evd) = retract_coercible_metas evd in
- let map (mv, c, st) = (mv, EConstr.of_constr c, st) in
- (List.map map metas, evd)
-
let w_unify_meta_types env ?(flags=default_unify_flags ()) evd =
let metas,evd = retract_coercible_metas evd in
w_merge env true flags.merge_unify_flags (evd,metas,[])
diff --git a/pretyping/vnorm.ml b/pretyping/vnorm.ml
index f314ae0d6..049c3aff5 100644
--- a/pretyping/vnorm.ml
+++ b/pretyping/vnorm.ml
@@ -205,7 +205,7 @@ and nf_univ_args ~nb_univs mk env sigma stk =
and nf_evar env sigma evk stk =
let evi = try Evd.find sigma evk with Not_found -> assert false in
let hyps = Environ.named_context_of_val (Evd.evar_filtered_hyps evi) in
- let concl = Evd.evar_concl evi in
+ let concl = EConstr.Unsafe.to_constr @@ Evd.evar_concl evi in
if List.is_empty hyps then
nf_stk env sigma (mkEvar (evk, [||])) concl stk
else match stk with
diff --git a/printing/printer.ml b/printing/printer.ml
index 199aa79c6..edcce874d 100644
--- a/printing/printer.ml
+++ b/printing/printer.ml
@@ -93,13 +93,13 @@ let _ = Hook.set Refine.pr_constr pr_constr_env
let pr_lconstr_goal_style_env env sigma c = pr_leconstr_core true env sigma (EConstr.of_constr c)
let pr_constr_goal_style_env env sigma c = pr_econstr_core true env sigma (EConstr.of_constr c)
-let pr_open_lconstr_env env sigma (_,c) = pr_lconstr_env env sigma c
-let pr_open_constr_env env sigma (_,c) = pr_constr_env env sigma c
-
let pr_econstr_n_env env sigma c = pr_econstr_n_core false env sigma c
let pr_leconstr_env env sigma c = pr_leconstr_core false env sigma c
let pr_econstr_env env sigma c = pr_econstr_core false env sigma c
+let pr_open_lconstr_env env sigma (_,c) = pr_leconstr_env env sigma c
+let pr_open_constr_env env sigma (_,c) = pr_econstr_env env sigma c
+
(* NB do not remove the eta-redexes! Global.env() has side-effects... *)
let pr_lconstr t =
let (sigma, env) = Pfedit.get_current_context () in
@@ -108,12 +108,12 @@ let pr_constr t =
let (sigma, env) = Pfedit.get_current_context () in
pr_constr_env env sigma t
-let pr_open_lconstr (_,c) = pr_lconstr c
-let pr_open_constr (_,c) = pr_constr c
-
let pr_leconstr c = pr_lconstr (EConstr.Unsafe.to_constr c)
let pr_econstr c = pr_constr (EConstr.Unsafe.to_constr c)
+let pr_open_lconstr (_,c) = pr_leconstr c
+let pr_open_constr (_,c) = pr_econstr c
+
let pr_constr_under_binders_env_gen pr env sigma (ids,c) =
(* Warning: clashes can occur with variables of same name in env but *)
(* we also need to preserve the actual names of the patterns *)
@@ -541,12 +541,12 @@ let pr_evgl_sign sigma evi =
if List.is_empty ids then mt () else
(str " (" ++ prlist_with_sep pr_comma pr_id ids ++ str " cannot be used)")
in
- let pc = pr_lconstr_env env sigma evi.evar_concl in
+ let pc = pr_leconstr_env env sigma evi.evar_concl in
let candidates =
match evi.evar_body, evi.evar_candidates with
| Evar_empty, Some l ->
spc () ++ str "= {" ++
- prlist_with_sep (fun () -> str "|") (pr_lconstr_env env sigma) l ++ str "}"
+ prlist_with_sep (fun () -> str "|") (pr_leconstr_env env sigma) l ++ str "}"
| _ ->
mt ()
in
@@ -622,8 +622,8 @@ let print_evar_constraints gl sigma =
end
in
let pr_evconstr (pbty,env,t1,t2) =
- let t1 = Evarutil.nf_evar sigma (EConstr.of_constr t1)
- and t2 = Evarutil.nf_evar sigma (EConstr.of_constr t2) in
+ let t1 = Evarutil.nf_evar sigma t1
+ and t2 = Evarutil.nf_evar sigma t2 in
let env =
(** We currently allow evar instances to refer to anonymous de Bruijn
indices, so we protect the error printing code in this case by giving
diff --git a/proofs/clenv.ml b/proofs/clenv.ml
index 03ff580ad..aeaf16723 100644
--- a/proofs/clenv.ml
+++ b/proofs/clenv.ml
@@ -62,9 +62,6 @@ let clenv_get_type_of ce c = Retyping.get_type_of (cl_env ce) (cl_sigma ce) c
exception NotExtensibleClause
-let mk_freelisted c =
- map_fl EConstr.of_constr (mk_freelisted (EConstr.Unsafe.to_constr c))
-
let clenv_push_prod cl =
let typ = whd_all (cl_env cl) (cl_sigma cl) (clenv_type cl) in
let rec clrec typ = match EConstr.kind cl.evd typ with
@@ -73,7 +70,7 @@ let clenv_push_prod cl =
let mv = new_meta () in
let dep = not (noccurn (cl_sigma cl) 1 u) in
let na' = if dep then na else Anonymous in
- let e' = meta_declare mv (EConstr.Unsafe.to_constr t) ~name:na' cl.evd in
+ let e' = meta_declare mv t ~name:na' cl.evd in
let concl = if dep then subst1 (mkMeta mv) u else u in
let def = applist (cl.templval.rebus,[mkMeta mv]) in
{ templval = mk_freelisted def;
@@ -107,8 +104,7 @@ let clenv_environments evd bound t =
let mv = new_meta () in
let dep = not (noccurn evd 1 t2) in
let na' = if dep then na else Anonymous in
- let t1 = EConstr.Unsafe.to_constr t1 in
- let e' = meta_declare mv t1 ~name:na' e in
+ let e' = meta_declare mv t1 ~name:na' e in
clrec (e', (mkMeta mv)::metas) (Option.map ((+) (-1)) n)
(if dep then (subst1 (mkMeta mv) t2) else t2)
| (n, LetIn (na,b,_,t)) -> clrec (e,metas) n (subst1 b t)
@@ -167,13 +163,13 @@ let clenv_assign mv rhs clenv =
user_err Pp.(str "clenv_assign: circularity in unification");
try
if meta_defined clenv.evd mv then
- if not (EConstr.eq_constr clenv.evd (EConstr.of_constr (fst (meta_fvalue clenv.evd mv)).rebus) rhs) then
+ if not (EConstr.eq_constr clenv.evd (fst (meta_fvalue clenv.evd mv)).rebus rhs) then
error_incompatible_inst clenv mv
else
clenv
else
let st = (Conv,TypeNotProcessed) in
- {clenv with evd = meta_assign mv (EConstr.Unsafe.to_constr rhs_fls.rebus,st) clenv.evd}
+ {clenv with evd = meta_assign mv (rhs_fls.rebus,st) clenv.evd}
with Not_found ->
user_err Pp.(str "clenv_assign: undefined meta")
@@ -218,7 +214,7 @@ let clenv_assign mv rhs clenv =
*)
let clenv_metas_in_type_of_meta evd mv =
- (mk_freelisted (meta_instance evd (map_fl EConstr.of_constr (meta_ftype evd mv)))).freemetas
+ (mk_freelisted (meta_instance evd (meta_ftype evd mv))).freemetas
let dependent_in_type_of_metas clenv mvs =
List.fold_right
@@ -288,11 +284,11 @@ let adjust_meta_source evd mv = function
in situations like "ex_intro (fun x => P) ?ev p" *)
let f = function (mv',(Cltyp (_,t) | Clval (_,_,t))) ->
if Metaset.mem mv t.freemetas then
- let f,l = decompose_app evd (EConstr.of_constr t.rebus) in
+ let f,l = decompose_app evd t.rebus in
match EConstr.kind evd f with
| Meta mv'' ->
(match meta_opt_fvalue evd mv'' with
- | Some (c,_) -> match_name (EConstr.of_constr c.rebus) l
+ | Some (c,_) -> match_name c.rebus l
| None -> None)
| _ -> None
else None in
@@ -502,7 +498,6 @@ let clenv_assign_binding clenv k c =
let k_typ = clenv_hnf_constr clenv (clenv_meta_type clenv k) in
let c_typ = nf_betaiota clenv.env clenv.evd (clenv_get_type_of clenv c) in
let status,clenv',c = clenv_unify_binding_type clenv c c_typ k_typ in
- let c = EConstr.Unsafe.to_constr c in
{ clenv' with evd = meta_assign k (c,(Conv,status)) clenv'.evd }
let clenv_match_args bl clenv =
@@ -515,7 +510,7 @@ let clenv_match_args bl clenv =
(fun clenv {CAst.loc;v=(b,c)} ->
let k = meta_of_binder clenv loc mvs b in
if meta_defined clenv.evd k then
- if EConstr.eq_constr clenv.evd (EConstr.of_constr (fst (meta_fvalue clenv.evd k)).rebus) c then clenv
+ if EConstr.eq_constr clenv.evd (fst (meta_fvalue clenv.evd k)).rebus c then clenv
else error_already_defined b
else
clenv_assign_binding clenv k c)
@@ -677,7 +672,7 @@ let define_with_type sigma env ev c =
let j = Environ.make_judge c ty in
let (sigma, j) = Coercion.inh_conv_coerce_to true env sigma j t in
let (ev, _) = destEvar sigma ev in
- let sigma = Evd.define ev (EConstr.Unsafe.to_constr j.Environ.uj_val) sigma in
+ let sigma = Evd.define ev j.Environ.uj_val sigma in
sigma
let solve_evar_clause env sigma hyp_only clause = function
diff --git a/proofs/evar_refiner.ml b/proofs/evar_refiner.ml
index 0d197c92c..c80f370fd 100644
--- a/proofs/evar_refiner.ml
+++ b/proofs/evar_refiner.ml
@@ -25,8 +25,6 @@ open Ltac_pretype
type glob_constr_ltac_closure = ltac_var_map * glob_constr
let depends_on_evar sigma evk _ (pbty,_,t1,t2) =
- let t1 = EConstr.of_constr t1 in
- let t2 = EConstr.of_constr t2 in
try Evar.equal (head_evar sigma t1) evk
with NoHeadEvar ->
try Evar.equal (head_evar sigma t2) evk
@@ -35,12 +33,12 @@ let depends_on_evar sigma evk _ (pbty,_,t1,t2) =
let define_and_solve_constraints evk c env evd =
if Termops.occur_evar evd evk c then
Pretype_errors.error_occur_check env evd evk c;
- let evd = define evk (EConstr.Unsafe.to_constr c) evd in
+ let evd = define evk c evd in
let (evd,pbs) = extract_changed_conv_pbs evd (depends_on_evar evd evk) in
match
List.fold_left
(fun p (pbty,env,t1,t2) -> match p with
- | Success evd -> Evarconv.evar_conv_x full_transparent_state env evd pbty (EConstr.of_constr t1) (EConstr.of_constr t2)
+ | Success evd -> Evarconv.evar_conv_x full_transparent_state env evd pbty t1 t2
| UnifFailure _ as x -> x) (Success evd)
pbs
with
@@ -59,7 +57,7 @@ let w_refine (evk,evi) (ltac_var,rawc) sigma =
Pretyping.fail_evar = false;
Pretyping.expand_evars = true } in
try Pretyping.understand_ltac flags
- env sigma ltac_var (Pretyping.OfType (EConstr.of_constr evi.evar_concl)) rawc
+ env sigma ltac_var (Pretyping.OfType evi.evar_concl) rawc
with e when CErrors.noncritical e ->
let loc = Glob_ops.loc_of_glob_constr rawc in
user_err ?loc
diff --git a/proofs/goal.ml b/proofs/goal.ml
index 6912db364..1440d1636 100644
--- a/proofs/goal.ml
+++ b/proofs/goal.ml
@@ -48,7 +48,7 @@ module V82 = struct
(* Access to ".evar_concl" *)
let concl evars gl =
let evi = Evd.find evars gl in
- EConstr.of_constr evi.Evd.evar_concl
+ evi.Evd.evar_concl
(* Access to ".evar_extra" *)
let extra evars gl =
@@ -61,7 +61,6 @@ module V82 = struct
be shelved. It must not appear as a future_goal, so the future
goals are restored to their initial value after the evar is
created. *)
- let concl = EConstr.Unsafe.to_constr concl in
let prev_future_goals = Evd.save_future_goals evars in
let evi = { Evd.evar_hyps = hyps;
Evd.evar_concl = concl;
@@ -86,7 +85,7 @@ module V82 = struct
if not (Evarutil.occur_evar_upto sigma evk c) then ()
else Pretype_errors.error_occur_check Environ.empty_env sigma evk c
in
- Evd.define evk (EConstr.Unsafe.to_constr c) sigma
+ Evd.define evk c sigma
(* Instantiates a goal with an open term, using name of goal for evk' *)
let partial_solution_to sigma evk evk' c =
@@ -100,7 +99,9 @@ module V82 = struct
let same_goal evars1 gl1 evars2 gl2 =
let evi1 = Evd.find evars1 gl1 in
let evi2 = Evd.find evars2 gl2 in
- Constr.equal evi1.Evd.evar_concl evi2.Evd.evar_concl &&
+ let c1 = EConstr.Unsafe.to_constr evi1.Evd.evar_concl in
+ let c2 = EConstr.Unsafe.to_constr evi2.Evd.evar_concl in
+ Constr.equal c1 c2 &&
Environ.eq_named_context_val evi1.Evd.evar_hyps evi2.Evd.evar_hyps
let weak_progress glss gls =
diff --git a/proofs/pfedit.ml b/proofs/pfedit.ml
index 8725f51cd..abda04ff1 100644
--- a/proofs/pfedit.ml
+++ b/proofs/pfedit.ml
@@ -233,7 +233,7 @@ let apply_implicit_tactic tac = (); fun env sigma evk ->
(Environ.named_context env) ->
let tac = Proofview.tclTHEN tac (Proofview.tclEXTEND [] (Proofview.tclZERO (CErrors.UserError (None,Pp.str"Proof is not complete."))) []) in
(try
- let c = Evarutil.nf_evars_universes sigma evi.evar_concl in
+ let c = Evarutil.nf_evars_universes sigma (EConstr.Unsafe.to_constr evi.evar_concl) in
let c = EConstr.of_constr c in
if Evarutil.has_undefined_evars sigma c then raise Exit;
let (ans, _, ctx) =
diff --git a/proofs/proof_global.ml b/proofs/proof_global.ml
index d6c0e3341..fc7c437e6 100644
--- a/proofs/proof_global.ml
+++ b/proofs/proof_global.ml
@@ -340,7 +340,7 @@ let close_proof ~keep_body_ucst_separate ?feedback_id ~now
have existential variables in the initial types of goals, we need to
normalise them for the kernel. *)
let subst_evar k =
- Proof.in_proof proof (fun m -> Evd.existential_opt_value m k) in
+ Proof.in_proof proof (fun m -> Evd.existential_opt_value0 m k) in
let nf = Universes.nf_evars_and_universes_opt_subst subst_evar
(UState.subst universes) in
let make_body =
diff --git a/proofs/refine.ml b/proofs/refine.ml
index 909556b1e..5a2d82977 100644
--- a/proofs/refine.ml
+++ b/proofs/refine.ml
@@ -15,7 +15,7 @@ open Context.Named.Declaration
module NamedDecl = Context.Named.Declaration
let extract_prefix env info =
- let ctx1 = List.rev (Environ.named_context env) in
+ let ctx1 = List.rev (EConstr.named_context env) in
let ctx2 = List.rev (Evd.evar_context info) in
let rec share l1 l2 accu = match l1, l2 with
| d1 :: l1, d2 :: l2 ->
@@ -29,21 +29,21 @@ let typecheck_evar ev env sigma =
let info = Evd.find sigma ev in
(** Typecheck the hypotheses. *)
let type_hyp (sigma, env) decl =
- let t = EConstr.of_constr (NamedDecl.get_type decl) in
+ let t = NamedDecl.get_type decl in
let evdref = ref sigma in
let _ = Typing.e_sort_of env evdref t in
let () = match decl with
| LocalAssum _ -> ()
- | LocalDef (_,body,_) -> Typing.e_check env evdref (EConstr.of_constr body) t
+ | LocalDef (_,body,_) -> Typing.e_check env evdref body t
in
- (!evdref, Environ.push_named decl env)
+ (!evdref, EConstr.push_named decl env)
in
let (common, changed) = extract_prefix env info in
- let env = Environ.reset_with_named_context (Environ.val_of_named_context common) env in
+ let env = Environ.reset_with_named_context (EConstr.val_of_named_context common) env in
let (sigma, env) = List.fold_left type_hyp (sigma, env) changed in
(** Typecheck the conclusion *)
let evdref = ref sigma in
- let _ = Typing.e_sort_of env evdref (EConstr.of_constr (Evd.evar_concl info)) in
+ let _ = Typing.e_sort_of env evdref (Evd.evar_concl info) in
!evdref
let typecheck_proof c concl env sigma =
@@ -106,7 +106,6 @@ let generic_refine ~typecheck f gl =
let evs = Evd.map_filter_future_goals (Proofview.Unsafe.advance sigma) evs in
let comb,shelf,given_up,evkmain = Evd.dispatch_future_goals evs in
(** Proceed to the refinement *)
- let c = EConstr.Unsafe.to_constr c in
let sigma = match Proofview.Unsafe.advance sigma self with
| None ->
(** Nothing to do, the goal has been solved by side-effect *)
@@ -124,7 +123,8 @@ let generic_refine ~typecheck f gl =
(** Mark goals *)
let sigma = CList.fold_left Proofview.Unsafe.mark_as_goal sigma comb in
let comb = CList.map (fun x -> Proofview.goal_with_state x state) comb in
- let trace () = Pp.(hov 2 (str"simple refine"++spc()++ Hook.get pr_constrv env sigma c)) in
+ let trace () = Pp.(hov 2 (str"simple refine"++spc()++
+ Hook.get pr_constrv env sigma (EConstr.Unsafe.to_constr c))) in
Proofview.Trace.name_tactic trace (Proofview.tclUNIT v) >>= fun v ->
Proofview.Unsafe.tclSETENV (Environ.reset_context env) <*>
Proofview.Unsafe.tclEVARS sigma <*>
diff --git a/stm/proofBlockDelimiter.ml b/stm/proofBlockDelimiter.ml
index 23f976120..0af766219 100644
--- a/stm/proofBlockDelimiter.ml
+++ b/stm/proofBlockDelimiter.ml
@@ -41,7 +41,7 @@ let simple_goal sigma g gs =
let open Evd in
let open Evarutil in
let evi = Evd.find sigma g in
- Set.is_empty (evars_of_term evi.evar_concl) &&
+ Set.is_empty (evars_of_term (EConstr.Unsafe.to_constr evi.evar_concl)) &&
Set.is_empty (evars_of_filtered_evar_info (nf_evar_info sigma evi)) &&
not (List.exists (Proofview.depends_on sigma g) gs)
diff --git a/stm/stm.ml b/stm/stm.ml
index 30aa9ea06..326b6d1c2 100644
--- a/stm/stm.ml
+++ b/stm/stm.ml
@@ -1896,7 +1896,7 @@ end = struct (* {{{ *)
stm_purify (fun () ->
let _,_,_,_,sigma0 = Proof.proof (Proof_global.give_me_the_proof ()) in
let g = Evd.find sigma0 r_goal in
- let is_ground c = Evarutil.is_ground_term sigma0 (EConstr.of_constr c) in
+ let is_ground c = Evarutil.is_ground_term sigma0 c in
if not (
is_ground Evd.(evar_concl g) &&
List.for_all (Context.Named.Declaration.for_all is_ground)
@@ -1919,7 +1919,6 @@ end = struct (* {{{ *)
match Evd.(evar_body (find sigma r_goal)) with
| Evd.Evar_empty -> RespNoProgress
| Evd.Evar_defined t ->
- let t = EConstr.of_constr t in
let t = Evarutil.nf_evar sigma t in
if Evarutil.is_ground_term sigma t then
let t = EConstr.Unsafe.to_constr t in
diff --git a/tactics/auto.ml b/tactics/auto.ml
index 0c0d9bcfc..15a24fb37 100644
--- a/tactics/auto.ml
+++ b/tactics/auto.ml
@@ -8,8 +8,6 @@
(* * (see LICENSE file for the text of the license) *)
(************************************************************************)
-module CVars = Vars
-
open Pp
open Util
open Names
@@ -82,14 +80,13 @@ let connect_hint_clenv poly (c, _, ctx) clenv gl =
if poly then
(** Refresh the instance of the hint *)
let (subst, ctx) = Universes.fresh_universe_context_set_instance ctx in
- let map c = CVars.subst_univs_level_constr subst c in
let emap c = Vars.subst_univs_level_constr subst c in
let evd = Evd.merge_context_set Evd.univ_flexible evd ctx in
(** Only metas are mentioning the old universes. *)
let clenv = {
templval = Evd.map_fl emap clenv.templval;
templtyp = Evd.map_fl emap clenv.templtyp;
- evd = Evd.map_metas map evd;
+ evd = Evd.map_metas emap evd;
env = Proofview.Goal.env gl;
} in
clenv, emap c
diff --git a/tactics/class_tactics.ml b/tactics/class_tactics.ml
index 0260460e6..b11e36bce 100644
--- a/tactics/class_tactics.ml
+++ b/tactics/class_tactics.ml
@@ -1030,8 +1030,8 @@ module Intpart = Unionfind.Make(Evar.Set)(Evar.Map)
let deps_of_constraints cstrs evm p =
List.iter (fun (_, _, x, y) ->
- let evx = Evarutil.undefined_evars_of_term evm (EConstr.of_constr x) in
- let evy = Evarutil.undefined_evars_of_term evm (EConstr.of_constr y) in
+ let evx = Evarutil.undefined_evars_of_term evm x in
+ let evy = Evarutil.undefined_evars_of_term evm y in
Intpart.union_set (Evar.Set.union evx evy) p)
cstrs
@@ -1076,7 +1076,7 @@ let error_unresolvable env comp evd =
| Some s -> Evar.Set.mem ev s
in
let fold ev evi (found, accu) =
- let ev_class = class_of_constr evd (EConstr.of_constr evi.evar_concl) in
+ let ev_class = class_of_constr evd evi.evar_concl in
if not (Option.is_empty ev_class) && is_part ev then
(* focus on one instance if only one was searched for *)
if not found then (true, Some ev)
diff --git a/tactics/equality.ml b/tactics/equality.ml
index 98f627f21..d7a3e9470 100644
--- a/tactics/equality.ml
+++ b/tactics/equality.ml
@@ -1108,8 +1108,6 @@ let make_tuple env sigma (rterm,rty) lind =
let p = mkLambda (na, a, rty) in
let sigma, exist_term = Evd.fresh_global env sigma sigdata.intro in
let sigma, sig_term = Evd.fresh_global env sigma sigdata.typ in
- let exist_term = EConstr.of_constr exist_term in
- let sig_term = EConstr.of_constr sig_term in
sigma,
(applist(exist_term,[a;p;(mkRel lind);rterm]),
applist(sig_term,[a;p]))
@@ -1203,7 +1201,6 @@ let sig_clausal_form env sigma sort_of_ty siglen ty dflt =
let w_type = unsafe_type_of env !evdref w in
if Evarconv.e_cumul env evdref w_type a then
let exist_term = Evarutil.evd_comb1 (Evd.fresh_global env) evdref sigdata.intro in
- let exist_term = EConstr.of_constr exist_term in
applist(exist_term,[a;p_i_minus_1;w;tuple_tail])
else
user_err Pp.(str "Cannot solve a unification problem.")
@@ -1372,7 +1369,6 @@ let inject_at_positions env sigma l2r (eq,_,(t,t1,t2)) eq_clause posns tac =
let sigma, (injbody,resty) = build_injector e_env !evdref t1' (mkVar e) cpath in
let injfun = mkNamedLambda e t injbody in
let sigma,congr = Evd.fresh_global env sigma eq.congr in
- let congr = EConstr.of_constr congr in
let pf = applist(congr,[t;resty;injfun;t1;t2]) in
let sigma, pf_typ = Typing.type_of env sigma pf in
let inj_clause = apply_on_clause (pf,pf_typ) eq_clause in
diff --git a/tactics/inv.ml b/tactics/inv.ml
index d76c9a697..412954989 100644
--- a/tactics/inv.ml
+++ b/tactics/inv.ml
@@ -124,12 +124,10 @@ let make_inv_predicate env evd indf realargs id status concl =
in
let eq_term = eqdata.Coqlib.eq in
let eq = Evarutil.evd_comb1 (Evd.fresh_global env) evd eq_term in
- let eq = EConstr.of_constr eq in
let eqn = applist (eq,[eqnty;lhs;rhs]) in
let eqns = (Anonymous, lift n eqn) :: eqns in
let refl_term = eqdata.Coqlib.refl in
let refl_term = Evarutil.evd_comb1 (Evd.fresh_global env) evd refl_term in
- let refl_term = EConstr.of_constr refl_term in
let refl = mkApp (refl_term, [|eqnty; rhs|]) in
let _ = Evarutil.evd_comb1 (Typing.type_of env) evd refl in
let args = refl :: args in
diff --git a/tactics/tacticals.ml b/tactics/tacticals.ml
index a97ae8f65..5e81e2d4b 100644
--- a/tactics/tacticals.ml
+++ b/tactics/tacticals.ml
@@ -263,7 +263,7 @@ let pf_with_evars glsev k gls =
tclTHEN (Refiner.tclEVARS evd) (k a) gls
let pf_constr_of_global gr k =
- pf_with_evars (fun gls -> on_snd EConstr.of_constr (pf_apply Evd.fresh_global gls gr)) k
+ pf_with_evars (fun gls -> pf_apply Evd.fresh_global gls gr) k
(** Tacticals of Ltac defined directly in term of Proofview *)
module New = struct
@@ -506,7 +506,7 @@ module New = struct
let evi = Evd.find sigma evk in
match Evd.evar_body evi with
| Evd.Evar_empty -> Some (evk,evi)
- | Evd.Evar_defined c -> match Constr.kind c with
+ | Evd.Evar_defined c -> match Constr.kind (EConstr.Unsafe.to_constr c) with
| Term.Evar (evk,l) -> is_undefined_up_to_restriction sigma evk
| _ ->
(* We make the assumption that there is no way to refine an
@@ -709,7 +709,7 @@ module New = struct
let gl_make_elim ind = begin fun gl ->
let gr = Indrec.lookup_eliminator (fst ind) (elimination_sort_of_goal gl) in
let (sigma, c) = pf_apply Evd.fresh_global gl gr in
- (sigma, EConstr.of_constr c)
+ (sigma, c)
end
let gl_make_case_dep (ind, u) = begin fun gl ->
@@ -769,7 +769,6 @@ module New = struct
Proofview.tclEVARMAP >>= fun sigma ->
Proofview.tclENV >>= fun env ->
let (sigma, c) = Evd.fresh_global env sigma ref in
- let c = EConstr.of_constr c in
Proofview.Unsafe.tclEVARS sigma <*> Proofview.tclUNIT c
end
diff --git a/tactics/tactics.ml b/tactics/tactics.ml
index d0ec3358a..efb46e7d9 100644
--- a/tactics/tactics.ml
+++ b/tactics/tactics.ml
@@ -1258,7 +1258,6 @@ let cut c =
end
let error_uninstantiated_metas t clenv =
- let t = EConstr.Unsafe.to_constr t in
let na = meta_name clenv.evd (List.hd (Metaset.elements (metavars_of t))) in
let id = match na with Name id -> id | _ -> anomaly (Pp.str "unnamed dependent meta.")
in user_err (str "Cannot find an instance for " ++ Id.print id ++ str".")
@@ -1268,7 +1267,7 @@ let check_unresolved_evars_of_metas sigma clenv =
(* Refiner.pose_all_metas_as_evars are resolved *)
List.iter (fun (mv,b) -> match b with
| Clval (_,(c,_),_) ->
- (match Constr.kind c.rebus with
+ (match Constr.kind (EConstr.Unsafe.to_constr c.rebus) with
| Evar (evk,_) when Evd.is_undefined clenv.evd evk
&& not (Evd.mem sigma evk) ->
error_uninstantiated_metas (mkMeta mv) clenv
@@ -1445,9 +1444,7 @@ let is_nonrec mind = (Global.lookup_mind (fst mind)).mind_finite == Declarations
let find_ind_eliminator ind s gl =
let gr = lookup_eliminator ind s in
- let evd, c = Tacmach.New.pf_apply Evd.fresh_global gl gr in
- let c = EConstr.of_constr c in
- evd, c
+ Tacmach.New.pf_apply Evd.fresh_global gl gr
let find_eliminator c gl =
let ((ind,u),t) = Tacmach.New.pf_reduce_to_quantified_ind gl (Tacmach.New.pf_unsafe_type_of gl c) in
@@ -2612,9 +2609,7 @@ let letin_tac_gen with_eq (id,depdecls,lastlhyp,ccl,c) ty =
let eqdata = build_coq_eq_data () in
let args = if lr then [t;mkVar id;c] else [t;c;mkVar id]in
let (sigma, eq) = Evd.fresh_global env sigma eqdata.eq in
- let eq = EConstr.of_constr eq in
let (sigma, refl) = Evd.fresh_global env sigma eqdata.refl in
- let refl = EConstr.of_constr refl in
let eq = applist (eq,args) in
let refl = applist (refl, [t;mkVar id]) in
let term = mkNamedLetIn id c t (mkLetIn (Name heq, refl, eq, ccl)) in
@@ -2668,9 +2663,7 @@ let mkletin_goal env sigma store with_eq dep (id,lastlhyp,ccl,c) ty =
let eqdata = build_coq_eq_data () in
let args = if lr then [t;mkVar id;c] else [t;c;mkVar id]in
let (sigma, eq) = Evd.fresh_global env sigma eqdata.eq in
- let eq = EConstr.of_constr eq in
let (sigma, refl) = Evd.fresh_global env sigma eqdata.refl in
- let refl = EConstr.of_constr refl in
let eq = applist (eq,args) in
let refl = applist (refl, [t;mkVar id]) in
let newenv = insert_before [LocalAssum (heq,eq); decl] lastlhyp env in
diff --git a/vernac/class.ml b/vernac/class.ml
index 59d933108..f0b01061b 100644
--- a/vernac/class.ml
+++ b/vernac/class.ml
@@ -181,6 +181,7 @@ let build_id_coercion idf_opt source poly =
let sigma, vs = match source with
| CL_CONST sp -> Evd.fresh_global env sigma (ConstRef sp)
| _ -> error_not_transparent source in
+ let vs = EConstr.Unsafe.to_constr vs in
let c = match constant_opt_value_in env (destConst vs) with
| Some c -> c
| None -> error_not_transparent source in
diff --git a/vernac/himsg.ml b/vernac/himsg.ml
index 23c863cab..acb461cac 100644
--- a/vernac/himsg.ml
+++ b/vernac/himsg.ml
@@ -75,11 +75,7 @@ let rec contract3' env sigma a b c = function
| MetaOccurInBody _ | InstanceNotSameType _ | ProblemBeyondCapabilities
| UnifUnivInconsistency _ as x -> contract3 env sigma a b c, x
| CannotSolveConstraint ((pb,env',t,u),x) ->
- let t = EConstr.of_constr t in
- let u = EConstr.of_constr u in
let env',t,u = contract2 env' sigma t u in
- let t = EConstr.Unsafe.to_constr t in
- let u = EConstr.Unsafe.to_constr u in
let y,x = contract3' env sigma a b c x in
y,CannotSolveConstraint ((pb,env',t,u),x)
@@ -322,8 +318,6 @@ let explain_unification_error env sigma p1 p2 = function
else
[str "universe inconsistency"]
| CannotSolveConstraint ((pb,env,t,u),e) ->
- let t = EConstr.of_constr t in
- let u = EConstr.of_constr u in
let env = make_all_name_different env sigma in
(strbrk "cannot satisfy constraint " ++ pr_leconstr_env env sigma t ++
str " == " ++ pr_leconstr_env env sigma u)
@@ -562,9 +556,9 @@ let rec explain_evar_kind env sigma evk ty = function
| Evar_kinds.SubEvar (where,evk') ->
let evi = Evd.find sigma evk' in
let pc = match evi.evar_body with
- | Evar_defined c -> pr_leconstr_env env sigma (EConstr.of_constr c)
+ | Evar_defined c -> pr_leconstr_env env sigma c
| Evar_empty -> assert false in
- let ty' = EConstr.of_constr evi.evar_concl in
+ let ty' = evi.evar_concl in
(match where with
| Some Evar_kinds.Body -> str "the body of "
| Some Evar_kinds.Domain -> str "the domain of "
@@ -577,11 +571,11 @@ let rec explain_evar_kind env sigma evk ty = function
(pr_leconstr_env env sigma ty') (snd evi.evar_source)
let explain_typeclass_resolution env sigma evi k =
- match Typeclasses.class_of_constr sigma (EConstr.of_constr evi.evar_concl) with
+ match Typeclasses.class_of_constr sigma evi.evar_concl with
| Some _ ->
let env = Evd.evar_filtered_env evi in
fnl () ++ str "Could not find an instance for " ++
- pr_lconstr_env env sigma evi.evar_concl ++
+ pr_leconstr_env env sigma evi.evar_concl ++
pr_trailing_ne_context_of env sigma
| _ -> mt()
@@ -590,14 +584,14 @@ let explain_placeholder_kind env sigma c e =
| Some (SeveralInstancesFound n) ->
strbrk " (several distinct possible type class instances found)"
| None ->
- match Typeclasses.class_of_constr sigma (EConstr.of_constr c) with
+ match Typeclasses.class_of_constr sigma c with
| Some _ -> strbrk " (no type class instance found)"
| _ -> mt ()
let explain_unsolvable_implicit env sigma evk explain =
let evi = Evarutil.nf_evar_info sigma (Evd.find_undefined sigma evk) in
let env = Evd.evar_filtered_env evi in
- let type_of_hole = pr_lconstr_env env sigma evi.evar_concl in
+ let type_of_hole = pr_leconstr_env env sigma evi.evar_concl in
let pe = pr_trailing_ne_context_of env sigma in
strbrk "Cannot infer " ++
explain_evar_kind env sigma evk type_of_hole (snd evi.evar_source) ++
@@ -765,7 +759,7 @@ let pr_constraints printenv env sigma evars cstrs =
let evs =
prlist
(fun (ev, evi) -> fnl () ++ pr_existential_key sigma ev ++
- str " : " ++ pr_lconstr_env env' sigma evi.evar_concl ++ fnl ()) l
+ str " : " ++ pr_leconstr_env env' sigma evi.evar_concl ++ fnl ()) l
in
h 0 (pe ++ evs ++ pr_evar_constraints sigma cstrs)
else
diff --git a/vernac/obligations.ml b/vernac/obligations.ml
index 064e40b9b..3f2792518 100644
--- a/vernac/obligations.ml
+++ b/vernac/obligations.ml
@@ -209,8 +209,10 @@ let eterm_obligations env name evm fs ?status t ty =
List.fold_right
(fun (id, (n, nstr), ev) l ->
let hyps = Evd.evar_filtered_context ev in
- let hyps = trunc_named_context nc_len hyps in
- let evtyp, deps, transp = etype_of_evar l hyps ev.evar_concl in
+ let hyps = trunc_named_context nc_len hyps in
+ let hyps = EConstr.Unsafe.to_named_context hyps in
+ let concl = EConstr.Unsafe.to_constr ev.evar_concl in
+ let evtyp, deps, transp = etype_of_evar l hyps concl in
let evtyp, hyps, chop =
match chop_product fs evtyp with
| Some t -> t, trunc_named_context fs hyps, fs
@@ -356,7 +358,7 @@ let _ =
optread = get_shrink_obligations;
optwrite = set_shrink_obligations; }
-let evar_of_obligation o = make_evar (Global.named_context_val ()) o.obl_type
+let evar_of_obligation o = make_evar (Global.named_context_val ()) (EConstr.of_constr o.obl_type)
let get_obligation_body expand obl =
match obl.obl_body with
@@ -813,10 +815,9 @@ let rec string_of_list sep f = function
let solve_by_tac name evi t poly ctx =
let id = name in
- let concl = EConstr.of_constr evi.evar_concl in
(* spiwack: the status is dropped. *)
let (entry,_,ctx') = Pfedit.build_constant_by_tactic
- id ~goal_kind:(goal_kind poly) ctx evi.evar_hyps concl (Tacticals.New.tclCOMPLETE t) in
+ id ~goal_kind:(goal_kind poly) ctx evi.evar_hyps evi.evar_concl (Tacticals.New.tclCOMPLETE t) in
let env = Global.env () in
let entry = Safe_typing.inline_private_constants_in_definition_entry env entry in
let body, () = Future.force entry.const_entry_body in
diff --git a/vernac/vernacentries.ml b/vernac/vernacentries.ml
index b44c7cccb..a9d1631ba 100644
--- a/vernac/vernacentries.ml
+++ b/vernac/vernacentries.ml
@@ -449,7 +449,7 @@ let start_proof_and_print k l hook =
let evi = Evarutil.nf_evar_info sigma evi in
let env = Evd.evar_filtered_env evi in
try
- let concl = EConstr.of_constr evi.Evd.evar_concl in
+ let concl = evi.Evd.evar_concl in
if not (Evarutil.is_ground_env sigma env &&
Evarutil.is_ground_term sigma concl)
then raise Exit;