From 97fefe1fcca363a1317e066e7f4b99b9c1e9987b Mon Sep 17 00:00:00 2001 From: Stephane Glondu Date: Thu, 12 Jan 2012 16:02:20 +0100 Subject: Imported Upstream version 8.4~beta --- pretyping/clenv.ml | 482 ----------------------------------------------------- 1 file changed, 482 deletions(-) delete mode 100644 pretyping/clenv.ml (limited to 'pretyping/clenv.ml') diff --git a/pretyping/clenv.ml b/pretyping/clenv.ml deleted file mode 100644 index abfef8d4..00000000 --- a/pretyping/clenv.ml +++ /dev/null @@ -1,482 +0,0 @@ -(************************************************************************) -(* v * The Coq Proof Assistant / The Coq Development Team *) -(* clrec t - | Prod (na,t,u) -> - let mv = new_meta () in - let dep = dependent (mkRel 1) u in - let na' = if dep then na else Anonymous 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; - templtyp = mk_freelisted concl; - evd = e'; - env = cl.env } - | _ -> raise NotExtensibleClause - in clrec typ - -(* Instantiate the first [bound] products of [t] with metas (all products if - [bound] is [None]; unfold local defs *) - -let clenv_environments evd bound t = - let rec clrec (e,metas) n t = - match n, kind_of_term t with - | (Some 0, _) -> (e, List.rev metas, t) - | (n, Cast (t,_,_)) -> clrec (e,metas) n t - | (n, Prod (na,t1,t2)) -> - let mv = new_meta () in - let dep = dependent (mkRel 1) t2 in - let na' = if dep then na else Anonymous 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) - | (n, _) -> (e, List.rev metas, t) - in - clrec (evd,[]) bound t - -(* Instantiate the first [bound] products of [t] with evars (all products if - [bound] is [None]; unfold local defs *) - -let clenv_environments_evars env evd bound t = - let rec clrec (e,ts) n t = - match n, kind_of_term t with - | (Some 0, _) -> (e, List.rev ts, t) - | (n, Cast (t,_,_)) -> clrec (e,ts) n t - | (n, Prod (na,t1,t2)) -> - let e',constr = Evarutil.new_evar e env t1 in - let dep = dependent (mkRel 1) t2 in - clrec (e', constr::ts) (Option.map ((+) (-1)) n) - (if dep then (subst1 constr t2) else t2) - | (n, LetIn (na,b,_,t)) -> clrec (e,ts) n (subst1 b t) - | (n, _) -> (e, List.rev ts, t) - in - clrec (evd,[]) bound t - -let clenv_conv_leq env sigma t c bound = - let ty = Retyping.get_type_of env sigma c in - let evd = Evd.create_goal_evar_defs sigma in - let evars,args,_ = clenv_environments_evars env evd (Some bound) ty in - let evars = Evarconv.the_conv_x_leq env t (applist (c,args)) evars in - let evars = Evarconv.consider_remaining_unif_problems env evars in - let args = List.map (whd_evar evars) args in - check_evars env sigma evars (applist (c,args)); - args - -let mk_clenv_from_env environ sigma n (c,cty) = - let evd = create_goal_evar_defs sigma in - let (evd,args,concl) = clenv_environments evd n cty in - { templval = mk_freelisted (match args with [] -> c | _ -> applist (c,args)); - templtyp = mk_freelisted concl; - evd = evd; - env = environ } - -let mk_clenv_from_n gls n (c,cty) = - mk_clenv_from_env (Global.env_of_context gls.it.evar_hyps) gls.sigma n (c, cty) - -let mk_clenv_from gls = mk_clenv_from_n gls None - -let mk_clenv_rename_from_n gls n (c,t) = - mk_clenv_from_n gls n (c,rename_bound_vars_as_displayed [] t) - -let mk_clenv_type_of gls t = mk_clenv_from gls (t,pf_type_of gls t) - -(******************************************************************) - -(* [mentions clenv mv0 mv1] is true if mv1 is defined and mentions - * mv0, or if one of the free vars on mv1's freelist mentions - * mv0 *) - -let mentions clenv mv0 = - let rec menrec mv1 = - mv0 = mv1 || - let mlist = - try match meta_opt_fvalue clenv.evd mv1 with - | Some (b,_) -> b.freemetas - | None -> Metaset.empty - with Not_found -> Metaset.empty in - meta_exists menrec mlist - in menrec - -let error_incompatible_inst clenv mv = - let na = meta_name clenv.evd mv in - match na with - Name id -> - errorlabstrm "clenv_assign" - (str "An incompatible instantiation has already been found for " ++ - pr_id id) - | _ -> - anomaly "clenv_assign: non dependent metavar already assigned" - -(* TODO: replace by clenv_unify (mkMeta mv) rhs ? *) -let clenv_assign mv rhs clenv = - let rhs_fls = mk_freelisted rhs in - if meta_exists (mentions clenv mv) rhs_fls.freemetas then - error "clenv_assign: circularity in unification"; - try - if meta_defined clenv.evd mv then - if not (eq_constr (fst (meta_fvalue clenv.evd mv)).rebus rhs) then - error_incompatible_inst clenv mv - else - clenv - else - let st = (ConvUpToEta 0,TypeNotProcessed) in - {clenv with evd = meta_assign mv (rhs_fls.rebus,st) clenv.evd} - with Not_found -> - error "clenv_assign: undefined meta" - - - -(* [clenv_dependent hyps_only clenv] - * returns a list of the metavars which appear in the template of clenv, - * and which are dependent, This is computed by taking the metavars in cval, - * in right-to-left order, and collecting the metavars which appear - * in their types, and adding in all the metavars appearing in the - * type of clenv. - * If [hyps_only] then metavariables occurring in the type are _excluded_ *) - -(* [clenv_metavars clenv mv] - * returns a list of the metavars which appear in the type of - * the metavar mv. The list is unordered. *) - -let clenv_metavars evd mv = - (mk_freelisted (meta_instance evd (meta_ftype evd mv))).freemetas - -let dependent_metas clenv mvs conclmetas = - List.fold_right - (fun mv deps -> - Metaset.union deps (clenv_metavars clenv.evd mv)) - mvs conclmetas - -let duplicated_metas c = - let rec collrec (one,more as acc) c = - match kind_of_term c with - | Meta mv -> if List.mem mv one then (one,mv::more) else (mv::one,more) - | _ -> fold_constr collrec acc c - in - snd (collrec ([],[]) c) - -let clenv_dependent hyps_only clenv = - let mvs = undefined_metas clenv.evd in - let ctyp_mvs = (mk_freelisted (clenv_type clenv)).freemetas in - let deps = dependent_metas clenv mvs ctyp_mvs in - let nonlinear = duplicated_metas (clenv_value clenv) in - (* Make the assumption that duplicated metas have internal dependencies *) - List.filter - (fun mv -> if Metaset.mem mv deps - then not (hyps_only && Metaset.mem mv ctyp_mvs) - else List.mem mv nonlinear) - mvs - -let clenv_missing ce = clenv_dependent true ce - -(******************************************************************) - -let clenv_unify allow_K ?(flags=default_unify_flags) cv_pb t1 t2 clenv = - { clenv with - evd = w_unify allow_K ~flags:flags clenv.env cv_pb t1 t2 clenv.evd } - -let clenv_unify_meta_types ?(flags=default_unify_flags) clenv = - { clenv with evd = w_unify_meta_types ~flags:flags clenv.env clenv.evd } - -let clenv_unique_resolver allow_K ?(flags=default_unify_flags) clenv gl = - if isMeta (fst (whd_stack clenv.evd clenv.templtyp.rebus)) then - clenv_unify allow_K CUMUL ~flags:flags (clenv_type clenv) (pf_concl gl) - (clenv_unify_meta_types ~flags:flags clenv) - else - clenv_unify allow_K CUMUL ~flags:flags - (meta_reducible_instance clenv.evd clenv.templtyp) (pf_concl gl) clenv - -(* [clenv_pose_metas_as_evars clenv dep_mvs] - * For each dependent evar in the clause-env which does not have a value, - * pose a value for it by constructing a fresh evar. We do this in - * left-to-right order, so that every evar's type is always closed w.r.t. - * metas. - - * Node added 14/4/08 [HH]: before this date, evars were collected in - clenv_dependent by collect_metas in the fold_constr order which is - (almost) the left-to-right order of dependencies in term. However, - due to K-redexes, collect_metas was sometimes missing some metas. - The call to collect_metas has been replaced by a call to - undefined_metas, but then the order was the one of definition of - the metas (numbers in increasing order) which is _not_ the - dependency order when a clenv_fchain occurs (because clenv_fchain - plugs a term with a list of consecutive metas in place of a - a priori - - arbitrary metavariable belonging to another sequence of consecutive metas: - e.g., clenv_fchain may plug (H ?1 ?2) at the position ?6 of - (nat_ind ?3 ?4 ?5 ?6), leading to a dependency order 3<4<5<1<2). - To ensure the dependency order, we check that the type of each meta - to pose is already meta-free, otherwise we postpone the transformation, - hoping that no cycle may happen. - - Another approach could have been to use decimal numbers for metas so that - in the example above, (H ?1 ?2) would have been renumbered (H ?6.1 ?6.2) - then making the numeric order match the dependency order. -*) - -let clenv_pose_metas_as_evars clenv dep_mvs = - let rec fold clenv = function - | [] -> clenv - | mv::mvs -> - let ty = clenv_meta_type clenv mv in - (* Postpone the evar-ization if dependent on another meta *) - (* This assumes no cycle in the dependencies - is it correct ? *) - if occur_meta ty then fold clenv (mvs@[mv]) - else - let (evd,evar) = - new_evar clenv.evd (cl_env clenv) ~src:(dummy_loc,GoalEvar) ty in - let clenv = clenv_assign mv evar {clenv with evd=evd} in - fold clenv mvs in - fold clenv dep_mvs - -let evar_clenv_unique_resolver = clenv_unique_resolver - -(******************************************************************) - -let connect_clenv gls clenv = - { clenv with - evd = evars_reset_evd ~with_conv_pbs:true gls.sigma clenv.evd; - env = Global.env_of_context gls.it.evar_hyps } - -(* [clenv_fchain mv clenv clenv'] - * - * Resolves the value of "mv" (which must be undefined) in clenv to be - * the template of clenv' be the value "c", applied to "n" fresh - * metavars, whose types are chosen by destructing "clf", which should - * be a clausale forme generated from the type of "c". The process of - * resolution can cause unification of already-existing metavars, and - * of the fresh ones which get created. This operation is a composite - * of operations which pose new metavars, perform unification on - * terms, and make bindings. - - Otherwise said, from - - [clenv] = [env;sigma;metas |- c:T] - [clenv'] = [env';sigma';metas' |- d:U] - [mv] = [mi] of type [Ti] in [metas] - - then, if the unification of [Ti] and [U] produces map [rho], the - chaining is [env';sigma';rho'(metas),rho(metas') |- c:rho'(T)] for - [rho'] being [rho;mi:=d]. - - In particular, it assumes that [env'] and [sigma'] extend [env] and [sigma]. -*) -let clenv_fchain ?(allow_K=true) ?(flags=default_unify_flags) mv clenv nextclenv = - (* Add the metavars of [nextclenv] to [clenv], with their name-environment *) - let clenv' = - { templval = clenv.templval; - templtyp = clenv.templtyp; - evd = meta_merge nextclenv.evd clenv.evd; - env = nextclenv.env } in - (* unify the type of the template of [nextclenv] with the type of [mv] *) - let clenv'' = - clenv_unify allow_K ~flags:flags CUMUL - (clenv_term clenv' nextclenv.templtyp) - (clenv_meta_type clenv' mv) - clenv' in - (* assign the metavar *) - let clenv''' = - clenv_assign mv (clenv_term clenv' nextclenv.templval) clenv'' - in - clenv''' - -(***************************************************************) -(* Bindings *) - -type arg_bindings = constr explicit_bindings - -(* [clenv_independent clenv] - * returns a list of metavariables which appear in the term cval, - * and which are not dependent. That is, they do not appear in - * the types of other metavars which are in cval, nor in the type - * of cval, ctyp. *) - -let clenv_independent clenv = - let mvs = collect_metas (clenv_value clenv) in - let ctyp_mvs = (mk_freelisted (clenv_type clenv)).freemetas in - let deps = dependent_metas clenv mvs ctyp_mvs in - List.filter (fun mv -> not (Metaset.mem mv deps)) mvs - -let check_bindings bl = - match list_duplicates (List.map pi2 bl) with - | NamedHyp s :: _ -> - errorlabstrm "" - (str "The variable " ++ pr_id s ++ - str " occurs more than once in binding list."); - | AnonHyp n :: _ -> - errorlabstrm "" - (str "The position " ++ int n ++ - str " occurs more than once in binding list.") - | [] -> () - -let meta_of_binder clause loc mvs = function - | NamedHyp s -> meta_with_name clause.evd s - | AnonHyp n -> - try List.nth mvs (n-1) - with (Failure _|Invalid_argument _) -> - errorlabstrm "" (str "No such binder.") - -let error_already_defined b = - match b with - | NamedHyp id -> - errorlabstrm "" - (str "Binder name \"" ++ pr_id id ++ - str"\" already defined with incompatible value.") - | AnonHyp n -> - anomalylabstrm "" - (str "Position " ++ int n ++ str" already defined.") - -let clenv_unify_binding_type clenv c t u = - if isMeta (fst (whd_stack clenv.evd u)) then - (* Not enough information to know if some subtyping is needed *) - CoerceToType, clenv, c - else - (* Enough information so as to try a coercion now *) - try - let evd,c = w_coerce_to_type (cl_env clenv) clenv.evd c t u in - TypeProcessed, { clenv with evd = evd }, c - with - | PretypeError (_,NotClean _) as e -> raise e - | e when precatchable_exception e -> - TypeNotProcessed, clenv, c - -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.evd (clenv_get_type_of clenv c) in - let status,clenv',c = clenv_unify_binding_type clenv c c_typ k_typ in - { clenv' with evd = meta_assign k (c,(UserGiven,status)) clenv'.evd } - -let clenv_match_args bl clenv = - if bl = [] then - clenv - else - let mvs = clenv_independent clenv in - check_bindings bl; - List.fold_left - (fun clenv (loc,b,c) -> - let k = meta_of_binder clenv loc mvs b in - if meta_defined clenv.evd k then - if eq_constr (fst (meta_fvalue clenv.evd k)).rebus c then clenv - else error_already_defined b - else - clenv_assign_binding clenv k c) - clenv bl - -exception NoSuchBinding - -let clenv_constrain_last_binding c clenv = - let all_mvs = collect_metas clenv.templval.rebus in - let k = try list_last all_mvs with Failure _ -> raise NoSuchBinding in - clenv_assign_binding clenv k c - -let clenv_constrain_dep_args hyps_only bl clenv = - if bl = [] then - clenv - else - let occlist = clenv_dependent hyps_only clenv in - if List.length occlist = List.length bl then - List.fold_left2 clenv_assign_binding clenv occlist bl - else - errorlabstrm "" - (strbrk "Not the right number of missing arguments (expected " ++ - int (List.length occlist) ++ str ").") - -(****************************************************************) -(* Clausal environment for an application *) - - -let make_clenv_binding_gen hyps_only n env sigma (c,t) = function - | ImplicitBindings largs -> - let clause = mk_clenv_from_env env sigma n (c,t) in - clenv_constrain_dep_args hyps_only largs clause - | ExplicitBindings lbind -> - let clause = mk_clenv_from_env env sigma n - (c,rename_bound_vars_as_displayed [] t) - in clenv_match_args lbind clause - | NoBindings -> - mk_clenv_from_env env sigma n (c,t) - -let make_clenv_binding_env_apply env sigma n = - make_clenv_binding_gen true n env sigma - -let make_clenv_binding_apply gls n = make_clenv_binding_gen true n (pf_env gls) gls.sigma -let make_clenv_binding gls = make_clenv_binding_gen false None (pf_env gls) gls.sigma - -(****************************************************************) -(* Pretty-print *) - -let pr_clenv clenv = - h 0 - (str"TEMPL: " ++ print_constr clenv.templval.rebus ++ - str" : " ++ print_constr clenv.templtyp.rebus ++ fnl () ++ - pr_evar_map clenv.evd) -- cgit v1.2.3