(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* str (if d then "rewrite -> " else "rewrite <- ") ++ Printer.pr_lconstr c ++ str " of type " ++ Printer.pr_lconstr typ ++ str " then use tactic " ++ Pptactic.pr_glob_tactic (Global.env()) t) hints) with Not_found -> errorlabstrm "AutoRewrite" (str ("Rewriting base "^(bas)^" does not exist")) type raw_rew_rule = constr * bool * raw_tactic_expr (* Applies all the rules of one base *) let one_base general_rewrite_maybe_in tac_main bas = let lrul = try Stringmap.find bas !rewtab with Not_found -> errorlabstrm "AutoRewrite" (str ("Rewriting base "^(bas)^" does not exist")) in let lrul = List.map (fun (c,_,b,t) -> (c,b,Tacinterp.eval_tactic t)) lrul in tclREPEAT_MAIN (tclPROGRESS (List.fold_left (fun tac (csr,dir,tc) -> tclTHEN tac (tclREPEAT_MAIN (tclTHENSFIRSTn (general_rewrite_maybe_in dir csr) [|tac_main|] tc))) tclIDTAC lrul)) (* The AutoRewrite tactic *) let autorewrite tac_main lbas = tclREPEAT_MAIN (tclPROGRESS (List.fold_left (fun tac bas -> tclTHEN tac (one_base (fun dir -> general_rewrite dir []) tac_main bas)) tclIDTAC lbas)) let autorewrite_multi_in idl tac_main lbas : tactic = fun gl -> (* let's check at once if id exists (to raise the appropriate error) *) let _ = List.map (Tacmach.pf_get_hyp gl) idl in let general_rewrite_in id = let id = ref id in let to_be_cleared = ref false in fun dir cstr gl -> let last_hyp_id = match (Environ.named_context_of_val gl.Evd.it.Evd.evar_hyps) with (last_hyp_id,_,_)::_ -> last_hyp_id | _ -> (* even the hypothesis id is missing *) error ("No such hypothesis : " ^ (string_of_id !id)) in let gl' = general_rewrite_in dir [] !id cstr false gl in let gls = (fst gl').Evd.it in match gls with g::_ -> (match Environ.named_context_of_val g.Evd.evar_hyps with (lastid,_,_)::_ -> if last_hyp_id <> lastid then begin let gl'' = if !to_be_cleared then tclTHEN (fun _ -> gl') (tclTRY (clear [!id])) gl else gl' in id := lastid ; to_be_cleared := true ; gl'' end else begin to_be_cleared := false ; gl' end | _ -> assert false) (* there must be at least an hypothesis *) | _ -> assert false (* rewriting cannot complete a proof *) in tclMAP (fun id -> tclREPEAT_MAIN (tclPROGRESS (List.fold_left (fun tac bas -> tclTHEN tac (one_base (general_rewrite_in id) tac_main bas)) tclIDTAC lbas))) idl gl let autorewrite_in id = autorewrite_multi_in [id] let gen_auto_multi_rewrite tac_main lbas cl = let try_do_hyps treat_id l = autorewrite_multi_in (List.map treat_id l) tac_main lbas in if cl.concl_occs <> [] then error "The \"at\" syntax isn't available yet for the autorewrite tactic" else let compose_tac t1 t2 = match cl.onhyps with | Some [] -> t1 | _ -> tclTHENFIRST t1 t2 in compose_tac (if cl.onconcl then autorewrite tac_main lbas else tclIDTAC) (match cl.onhyps with | Some l -> try_do_hyps (fun ((_,id),_) -> id) l | None -> fun gl -> (* try to rewrite in all hypothesis (except maybe the rewritten one) *) let ids = Tacmach.pf_ids_of_hyps gl in try_do_hyps (fun id -> id) ids gl) let auto_multi_rewrite = gen_auto_multi_rewrite Refiner.tclIDTAC let auto_multi_rewrite_with tac_main lbas cl gl = match cl.Tacexpr.onconcl,cl.Tacexpr.onhyps with | false,Some [_] | true,Some [] | false,Some [] -> (* autorewrite with .... in clause using tac n'est sur que si clause reprensente soit le but soit UNE hypothse *) gen_auto_multi_rewrite tac_main lbas cl gl | _ -> Util.errorlabstrm "autorewrite" (str "autorewrite .. in .. using can only be used either with a unique hypothesis or" ++ str " on the conclusion") (* Functions necessary to the library object declaration *) let cache_hintrewrite (_,(rbase,lrl)) = let l = try let oldl = Stringmap.find rbase !rewtab in let lrl = List.map (fun (c,dummy,b,t) -> (* here we substitute the dummy value with the right one *) c,Typing.type_of (Global.env ()) Evd.empty c,b,t) lrl in (List.filter (fun (_,typ,_,_) -> not (List.exists (fun (_,typ',_,_) -> Term.eq_constr typ typ') oldl) ) lrl) @ oldl with | Not_found -> lrl in rewtab:=Stringmap.add rbase l !rewtab let export_hintrewrite x = Some x let subst_hintrewrite (_,subst,(rbase,list as node)) = let subst_first (cst,typ,b,t as pair) = let cst' = subst_mps subst cst in let typ' = (* here we do not have the environment and Global.env () is not the one where cst' lives in. Thus we can just put a dummy value and override it in cache_hintrewrite *) typ (* dummy value, it will be recomputed by cache_hintrewrite *) in let t' = Tacinterp.subst_tactic subst t in if cst == cst' && t == t' then pair else (cst',typ',b,t') in let list' = list_smartmap subst_first list in if list' == list then node else (rbase,list') let classify_hintrewrite (_,x) = Libobject.Substitute x (* Declaration of the Hint Rewrite library object *) let (inHintRewrite,outHintRewrite)= Libobject.declare_object {(Libobject.default_object "HINT_REWRITE") with Libobject.cache_function = cache_hintrewrite; Libobject.load_function = (fun _ -> cache_hintrewrite); Libobject.subst_function = subst_hintrewrite; Libobject.classify_function = classify_hintrewrite; Libobject.export_function = export_hintrewrite } (* To add rewriting rules to a base *) let add_rew_rules base lrul = let lrul = List.rev_map (fun (c,b,t) -> (c,mkProp (* dummy value *), b,Tacinterp.glob_tactic t) ) lrul in Lib.add_anonymous_leaf (inHintRewrite (base,lrul))