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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Pp
open Util
open Names
open Nameops
open Term
open Termops
open Sign
open Environ
open Evd
open Evarutil
open Proof_type
open Refiner
open Logic
open Reduction
open Reductionops
open Tacmach
open Glob_term
open Pattern
open Tacexpr
open Clenv
(* This function put casts around metavariables whose type could not be
* infered by the refiner, that is head of applications, predicates and
* subject of Cases.
* Does check that the casted type is closed. Anyway, the refiner would
* fail in this case... *)
let clenv_cast_meta clenv =
let rec crec u =
match kind_of_term u with
| App _ | Case _ -> crec_hd u
| Cast (c,_,_) when isMeta c -> u
| _ -> map_constr crec u
and crec_hd u =
match kind_of_term (strip_outer_cast u) with
| Meta mv ->
(try
let b = Typing.meta_type clenv.evd mv in
assert (not (occur_meta b));
if occur_meta b then u
else mkCast (mkMeta mv, DEFAULTcast, b)
with Not_found -> u)
| App(f,args) -> mkApp (crec_hd f, Array.map crec args)
| Case(ci,p,c,br) ->
mkCase (ci, crec_hd p, crec_hd c, Array.map crec br)
| _ -> u
in
crec
let clenv_value_cast_meta clenv =
clenv_cast_meta clenv (clenv_value clenv)
let clenv_pose_dependent_evars with_evars clenv =
let dep_mvs = clenv_dependent clenv in
if dep_mvs <> [] & not with_evars then
raise
(RefinerError (UnresolvedBindings (List.map (meta_name clenv.evd) dep_mvs)));
clenv_pose_metas_as_evars clenv dep_mvs
let clenv_refine with_evars ?(with_classes=true) clenv gls =
let clenv = clenv_pose_dependent_evars with_evars clenv in
let evd' =
if with_classes then
Typeclasses.resolve_typeclasses ~filter:Typeclasses.all_evars
~fail:(not with_evars) clenv.env clenv.evd
else clenv.evd
in
let clenv = { clenv with evd = evd' } in
tclTHEN
(tclEVARS evd')
(refine (clenv_cast_meta clenv (clenv_value clenv)))
gls
open Unification
let dft = default_unify_flags
let res_pf clenv ?(with_evars=false) ?(flags=dft) gls =
clenv_refine with_evars (clenv_unique_resolver ~flags clenv gls) gls
let elim_res_pf_THEN_i clenv tac gls =
let clenv' = (clenv_unique_resolver ~flags:elim_flags clenv gls) in
tclTHENLASTn (clenv_refine false clenv') (tac clenv') gls
let e_res_pf clenv = res_pf clenv ~with_evars:true ~flags:dft
(* [unifyTerms] et [unify] ne semble pas gérer les Meta, en
particulier ne semblent pas vérifier que des instances différentes
d'une même Meta sont compatibles. D'ailleurs le "fst" jette les metas
provenant de w_Unify. (Utilisé seulement dans prolog.ml) *)
let fail_quick_unif_flags = {
modulo_conv_on_closed_terms = Some full_transparent_state;
use_metas_eagerly_in_conv_on_closed_terms = false;
modulo_delta = empty_transparent_state;
modulo_delta_types = full_transparent_state;
modulo_delta_in_merge = None;
check_applied_meta_types = false;
resolve_evars = false;
use_pattern_unification = false;
use_meta_bound_pattern_unification = true; (* ? *)
frozen_evars = ExistentialSet.empty;
restrict_conv_on_strict_subterms = false; (* ? *)
modulo_betaiota = false;
modulo_eta = true;
allow_K_in_toplevel_higher_order_unification = false
}
(* let unifyTerms m n = walking (fun wc -> fst (w_Unify CONV m n [] wc)) *)
let unifyTerms ?(flags=fail_quick_unif_flags) m n gls =
let env = pf_env gls in
let evd = create_goal_evar_defs (project gls) in
let evd' = w_unify env evd CONV ~flags m n in
tclIDTAC {it = gls.it; sigma = evd'}
let unify ?(flags=fail_quick_unif_flags) m gls =
let n = pf_concl gls in unifyTerms ~flags m n gls
|
