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Diffstat (limited to 'pretyping/term_dnet.ml')
-rw-r--r-- | pretyping/term_dnet.ml | 402 |
1 files changed, 0 insertions, 402 deletions
diff --git a/pretyping/term_dnet.ml b/pretyping/term_dnet.ml deleted file mode 100644 index 28a6c92c..00000000 --- a/pretyping/term_dnet.ml +++ /dev/null @@ -1,402 +0,0 @@ -(************************************************************************) -(* v * The Coq Proof Assistant / The Coq Development Team *) -(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2014 *) -(* \VV/ **************************************************************) -(* // * This file is distributed under the terms of the *) -(* * GNU Lesser General Public License Version 2.1 *) -(************************************************************************) - -(*i*) -open Util -open Term -open Sign -open Names -open Libnames -open Mod_subst -open Pp (* debug *) -(*i*) - - -(* Representation/approximation of terms to use in the dnet: - * - * - no meta or evar (use ['a pattern] for that) - * - * - [Rel]s and [Sort]s are not taken into account (that's why we need - * a second pass of linear filterin on the results - it's not a perfect - * term indexing structure) - - * - Foralls and LetIns are represented by a context DCtx (a list of - * generalization, similar to rel_context, and coded with DCons and - * DNil). This allows for matching under an unfinished context - *) - -module DTerm = -struct - - type 't t = - | DRel - | DSort - | DRef of global_reference - | DCtx of 't * 't (* (binding list, subterm) = Prods and LetIns *) - | DLambda of 't * 't - | DApp of 't * 't (* binary app *) - | DCase of case_info * 't * 't * 't array - | DFix of int array * int * 't array * 't array - | DCoFix of int * 't array * 't array - - (* special constructors only inside the left-hand side of DCtx or - DApp. Used to encode lists of foralls/letins/apps as contexts *) - | DCons of ('t * 't option) * 't - | DNil - - type dconstr = dconstr t - - (* debug *) - let rec pr_dconstr f : 'a t -> std_ppcmds = function - | DRel -> str "*" - | DSort -> str "Sort" - | DRef _ -> str "Ref" - | DCtx (ctx,t) -> f ctx ++ spc() ++ str "|-" ++ spc () ++ f t - | DLambda (t1,t2) -> str "fun"++ spc() ++ f t1 ++ spc() ++ str"->" ++ spc() ++ f t2 - | DApp (t1,t2) -> f t1 ++ spc() ++ f t2 - | DCase (_,t1,t2,ta) -> str "case" - | DFix _ -> str "fix" - | DCoFix _ -> str "cofix" - | DCons ((t,dopt),tl) -> f t ++ (match dopt with - Some t' -> str ":=" ++ f t' - | None -> str "") ++ spc() ++ str "::" ++ spc() ++ f tl - | DNil -> str "[]" - - (* - * Functional iterators for the t datatype - * a.k.a boring and error-prone boilerplate code - *) - - let map f = function - | (DRel | DSort | DNil | DRef _) as c -> c - | DCtx (ctx,c) -> DCtx (f ctx, f c) - | DLambda (t,c) -> DLambda (f t, f c) - | DApp (t,u) -> DApp (f t,f u) - | DCase (ci,p,c,bl) -> DCase (ci, f p, f c, Array.map f bl) - | DFix (ia,i,ta,ca) -> - DFix (ia,i,Array.map f ta,Array.map f ca) - | DCoFix(i,ta,ca) -> - DCoFix (i,Array.map f ta,Array.map f ca) - | DCons ((t,topt),u) -> DCons ((f t,Option.map f topt), f u) - - let compare x y = - let make_name n = - match n with - | DRef(ConstRef con) -> - DRef(ConstRef(constant_of_kn(canonical_con con))) - | DRef(IndRef (kn,i)) -> - DRef(IndRef(mind_of_kn(canonical_mind kn),i)) - | DRef(ConstructRef ((kn,i),j ))-> - DRef(ConstructRef((mind_of_kn(canonical_mind kn),i),j)) - | k -> k in - Pervasives.compare (make_name x) (make_name y) - - let fold f acc = function - | (DRel | DNil | DSort | DRef _) -> acc - | DCtx (ctx,c) -> f (f acc ctx) c - | DLambda (t,c) -> f (f acc t) c - | DApp (t,u) -> f (f acc t) u - | DCase (ci,p,c,bl) -> Array.fold_left f (f (f acc p) c) bl - | DFix (ia,i,ta,ca) -> - Array.fold_left f (Array.fold_left f acc ta) ca - | DCoFix(i,ta,ca) -> - Array.fold_left f (Array.fold_left f acc ta) ca - | DCons ((t,topt),u) -> f (Option.fold_left f (f acc t) topt) u - - let choose f = function - | (DRel | DSort | DNil | DRef _) -> invalid_arg "choose" - | DCtx (ctx,c) -> f ctx - | DLambda (t,c) -> f t - | DApp (t,u) -> f u - | DCase (ci,p,c,bl) -> f c - | DFix (ia,i,ta,ca) -> f ta.(0) - | DCoFix (i,ta,ca) -> f ta.(0) - | DCons ((t,topt),u) -> f u - - let fold2 (f:'a -> 'b -> 'c -> 'a) (acc:'a) (c1:'b t) (c2:'c t) : 'a = - let head w = map (fun _ -> ()) w in - if compare (head c1) (head c2) <> 0 - then invalid_arg "fold2:compare" else - match c1,c2 with - | (DRel, DRel | DNil, DNil | DSort, DSort | DRef _, DRef _) -> acc - | (DCtx (c1,t1), DCtx (c2,t2) - | DApp (c1,t1), DApp (c2,t2) - | DLambda (c1,t1), DLambda (c2,t2)) -> f (f acc c1 c2) t1 t2 - | DCase (ci,p1,c1,bl1),DCase (_,p2,c2,bl2) -> - array_fold_left2 f (f (f acc p1 p2) c1 c2) bl1 bl2 - | DFix (ia,i,ta1,ca1), DFix (_,_,ta2,ca2) -> - array_fold_left2 f (array_fold_left2 f acc ta1 ta2) ca1 ca2 - | DCoFix(i,ta1,ca1), DCoFix(_,ta2,ca2) -> - array_fold_left2 f (array_fold_left2 f acc ta1 ta2) ca1 ca2 - | DCons ((t1,topt1),u1), DCons ((t2,topt2),u2) -> - f (Option.fold_left2 f (f acc t1 t2) topt1 topt2) u1 u2 - | _ -> assert false - - let map2 (f:'a -> 'b -> 'c) (c1:'a t) (c2:'b t) : 'c t = - let head w = map (fun _ -> ()) w in - if compare (head c1) (head c2) <> 0 - then invalid_arg "map2_t:compare" else - match c1,c2 with - | (DRel, DRel | DSort, DSort | DNil, DNil | DRef _, DRef _) as cc -> - let (c,_) = cc in c - | DCtx (c1,t1), DCtx (c2,t2) -> DCtx (f c1 c2, f t1 t2) - | DLambda (t1,c1), DLambda (t2,c2) -> DLambda (f t1 t2, f c1 c2) - | DApp (t1,u1), DApp (t2,u2) -> DApp (f t1 t2,f u1 u2) - | DCase (ci,p1,c1,bl1), DCase (_,p2,c2,bl2) -> - DCase (ci, f p1 p2, f c1 c2, array_map2 f bl1 bl2) - | DFix (ia,i,ta1,ca1), DFix (_,_,ta2,ca2) -> - DFix (ia,i,array_map2 f ta1 ta2,array_map2 f ca1 ca2) - | DCoFix (i,ta1,ca1), DCoFix (_,ta2,ca2) -> - DCoFix (i,array_map2 f ta1 ta2,array_map2 f ca1 ca2) - | DCons ((t1,topt1),u1), DCons ((t2,topt2),u2) -> - DCons ((f t1 t2,Option.lift2 f topt1 topt2), f u1 u2) - | _ -> assert false - - let terminal = function - | (DRel | DSort | DNil | DRef _) -> true - | _ -> false -end - -(* - * Terms discrimination nets - * Uses the general dnet datatype on DTerm.t - * (here you can restart reading) - *) - -(* - * Construction of the module - *) - -module type IDENT = -sig - type t - val compare : t -> t -> int - val subst : substitution -> t -> t - val constr_of : t -> constr -end - -module type OPT = -sig - val reduce : constr -> constr - val direction : bool -end - -module Make = - functor (Ident : IDENT) -> - functor (Opt : OPT) -> -struct - - module TDnet : Dnet.S with type ident=Ident.t - and type 'a structure = 'a DTerm.t - and type meta = metavariable - = Dnet.Make(DTerm)(Ident) - (struct - type t = metavariable - let compare = Pervasives.compare - end) - - type t = TDnet.t - - type ident = TDnet.ident - - type 'a pattern = 'a TDnet.pattern - type term_pattern = term_pattern DTerm.t pattern - - type idset = TDnet.Idset.t - - type result = ident * (constr*existential_key) * Termops.subst - - open DTerm - open TDnet - - let rec pat_of_constr c : term_pattern = - match kind_of_term c with - | Rel _ -> Term DRel - | Sort _ -> Term DSort - | Var i -> Term (DRef (VarRef i)) - | Const c -> Term (DRef (ConstRef c)) - | Ind i -> Term (DRef (IndRef i)) - | Construct c -> Term (DRef (ConstructRef c)) - | Term.Meta _ -> assert false - | Evar (i,_) -> Meta i - | Case (ci,c1,c2,ca) -> - Term(DCase(ci,pat_of_constr c1,pat_of_constr c2,Array.map pat_of_constr ca)) - | Fix ((ia,i),(_,ta,ca)) -> - Term(DFix(ia,i,Array.map pat_of_constr ta, Array.map pat_of_constr ca)) - | CoFix (i,(_,ta,ca)) -> - Term(DCoFix(i,Array.map pat_of_constr ta,Array.map pat_of_constr ca)) - | Cast (c,_,_) -> pat_of_constr c - | Lambda (_,t,c) -> Term(DLambda (pat_of_constr t, pat_of_constr c)) - | (Prod (_,_,_) | LetIn(_,_,_,_)) -> - let (ctx,c) = ctx_of_constr (Term DNil) c in Term (DCtx (ctx,c)) - | App (f,ca) -> - Array.fold_left (fun c a -> Term (DApp (c,a))) - (pat_of_constr f) (Array.map pat_of_constr ca) - - and ctx_of_constr ctx c : term_pattern * term_pattern = - match kind_of_term c with - | Prod (_,t,c) -> ctx_of_constr (Term(DCons((pat_of_constr t,None),ctx))) c - | LetIn(_,d,t,c) -> ctx_of_constr (Term(DCons((pat_of_constr t, Some (pat_of_constr d)),ctx))) c - | _ -> ctx,pat_of_constr c - - let empty_ctx : term_pattern -> term_pattern = function - | Meta _ as c -> c - | Term (DCtx(_,_)) as c -> c - | c -> Term (DCtx (Term DNil, c)) - - (* - * Basic primitives - *) - - let empty = TDnet.empty - - let subst s t = - let sleaf id = Ident.subst s id in - let snode = function - | DTerm.DRef gr -> DTerm.DRef (fst (subst_global s gr)) - | n -> n in - TDnet.map sleaf snode t - - let union = TDnet.union - - let add (c:constr) (id:Ident.t) (dn:t) = - let c = Opt.reduce c in - let c = empty_ctx (pat_of_constr c) in - TDnet.add dn c id - - let new_meta_no = - let ctr = ref 0 in - fun () -> decr ctr; !ctr - - let new_meta_no = Evarutil.new_untyped_evar - - let neutral_meta = new_meta_no() - - let new_meta () = Meta (new_meta_no()) - let new_evar () = mkEvar(new_meta_no(),[||]) - - let rec remove_cap : term_pattern -> term_pattern = function - | Term (DCons (t,u)) -> Term (DCons (t,remove_cap u)) - | Term DNil -> new_meta() - | Meta _ as m -> m - | _ -> assert false - - let under_prod : term_pattern -> term_pattern = function - | Term (DCtx (t,u)) -> Term (DCtx (remove_cap t,u)) - | Meta m -> Term (DCtx(new_meta(), Meta m)) - | _ -> assert false - - let init = let e = new_meta_no() in (mkEvar (e,[||]),e) - - let rec e_subst_evar i (t:unit->constr) c = - match kind_of_term c with - | Evar (j,_) when i=j -> t() - | _ -> map_constr (e_subst_evar i t) c - - let subst_evar i c = e_subst_evar i (fun _ -> c) - - (* debug *) - let rec pr_term_pattern p = - (fun pr_t -> function - | Term t -> pr_t t - | Meta m -> str"["++Util.pr_int (Obj.magic m)++str"]" - ) (pr_dconstr pr_term_pattern) p - - let search_pat cpat dpat dn (up,plug) = - let whole_c = subst_evar plug cpat up in - (* if we are at the root, add an empty context *) - let dpat = if isEvar_or_Meta up then under_prod (empty_ctx dpat) else dpat in - TDnet.Idset.fold - (fun id acc -> - let c_id = Opt.reduce (Ident.constr_of id) in - let (ctx,wc) = - try Termops.align_prod_letin whole_c c_id - with Invalid_argument _ -> [],c_id in - let up = it_mkProd_or_LetIn up ctx in - let wc,whole_c = if Opt.direction then whole_c,wc else wc,whole_c in - try (id,(up,plug),Termops.filtering ctx Reduction.CUMUL wc whole_c)::acc - with Termops.CannotFilter -> (* msgnl(str"recon "++Termops.print_constr_env (Global.env()) wc); *) acc - ) (TDnet.find_match dpat dn) [] - - let fold_pattern_neutral f = - fold_pattern (fun acc (mset,m,dn) -> if m=neutral_meta then acc else f m dn acc) - - let fold_pattern_nonlin f = - let defined = ref Gmap.empty in - fold_pattern_neutral - ( fun m dn acc -> - let dn = try TDnet.inter dn (Gmap.find m !defined) with Not_found -> dn in - defined := Gmap.add m dn !defined; - f m dn acc ) - - let fold_pattern_up f acc dpat cpat dn (up,plug) = - fold_pattern_nonlin - ( fun m dn acc -> - f dn (subst_evar plug (e_subst_evar neutral_meta new_evar cpat) up, m) acc - ) acc dpat dn - - let possibly_under pat k dn (up,plug) = - let rec aux fst dn (up,plug) acc = - let cpat = pat() in - let dpat = pat_of_constr cpat in - let dpat = if fst then under_prod (empty_ctx dpat) else dpat in - (k dn (up,plug)) @ - snd (fold_pattern_up (aux false) acc dpat cpat dn (up,plug)) in - aux true dn (up,plug) [] - - let eq_pat eq () = mkApp(eq,[|mkEvar(neutral_meta,[||]);new_evar();new_evar()|]) - let app_pat () = mkApp(new_evar(),[|mkEvar(neutral_meta,[||])|]) - - (* - * High-level primitives describing specific search problems - *) - - let search_pattern dn pat = - let pat = Opt.reduce pat in - search_pat pat (empty_ctx (pat_of_constr pat)) dn init - - let search_concl dn pat = - let pat = Opt.reduce pat in - search_pat pat (under_prod (empty_ctx (pat_of_constr pat))) dn init - - let search_eq_concl dn eq pat = - let pat = Opt.reduce pat in - let eq_pat = eq_pat eq () in - let eq_dpat = under_prod (empty_ctx (pat_of_constr eq_pat)) in - snd (fold_pattern_up - (fun dn up acc -> - search_pat pat (pat_of_constr pat) dn up @ acc - ) [] eq_dpat eq_pat dn init) - - let search_head_concl dn pat = - let pat = Opt.reduce pat in - possibly_under app_pat (search_pat pat (pat_of_constr pat)) dn init - - let find_all dn = Idset.elements (TDnet.find_all dn) - - let map f dn = TDnet.map f (fun x -> x) dn -end - -module type S = -sig - type t - type ident - - type result = ident * (constr*existential_key) * Termops.subst - - val empty : t - val add : constr -> ident -> t -> t - val union : t -> t -> t - val subst : substitution -> t -> t - val search_pattern : t -> constr -> result list - val search_concl : t -> constr -> result list - val search_head_concl : t -> constr -> result list - val search_eq_concl : t -> constr -> constr -> result list - val find_all : t -> ident list - val map : (ident -> ident) -> t -> t -end |