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Diffstat (limited to 'plugins/subtac/subtac_utils.ml')
| -rw-r--r-- | plugins/subtac/subtac_utils.ml | 484 |
1 files changed, 484 insertions, 0 deletions
diff --git a/plugins/subtac/subtac_utils.ml b/plugins/subtac/subtac_utils.ml new file mode 100644 index 00000000..06a80f68 --- /dev/null +++ b/plugins/subtac/subtac_utils.ml @@ -0,0 +1,484 @@ +open Evd +open Libnames +open Coqlib +open Term +open Names +open Util + +let ($) f x = f x + +(****************************************************************************) +(* Library linking *) + +let contrib_name = "Program" + +let subtac_dir = [contrib_name] +let fix_sub_module = "Wf" +let utils_module = "Utils" +let fixsub_module = subtac_dir @ [fix_sub_module] +let utils_module = subtac_dir @ [utils_module] +let tactics_module = subtac_dir @ ["Tactics"] +let init_constant dir s = gen_constant contrib_name dir s +let init_reference dir s = gen_reference contrib_name dir s + +let fixsub = lazy (init_constant fixsub_module "Fix_sub") +let ex_pi1 = lazy (init_constant utils_module "ex_pi1") +let ex_pi2 = lazy (init_constant utils_module "ex_pi2") + +let make_ref l s = lazy (init_reference l s) +let well_founded_ref = make_ref ["Init";"Wf"] "Well_founded" +let acc_ref = make_ref ["Init";"Wf"] "Acc" +let acc_inv_ref = make_ref ["Init";"Wf"] "Acc_inv" +let fix_sub_ref = make_ref fixsub_module "Fix_sub" +let measure_on_R_ref = make_ref fixsub_module "MR" +let fix_measure_sub_ref = make_ref fixsub_module "Fix_measure_sub" +let refl_ref = make_ref ["Init";"Logic"] "refl_equal" + +let make_ref s = Qualid (dummy_loc, qualid_of_string s) +let lt_ref = make_ref "Init.Peano.lt" +let sig_ref = make_ref "Init.Specif.sig" +let proj1_sig_ref = make_ref "Init.Specif.proj1_sig" +let proj2_sig_ref = make_ref "Init.Specif.proj2_sig" + +let build_sig () = + { proj1 = init_constant ["Init"; "Specif"] "proj1_sig"; + proj2 = init_constant ["Init"; "Specif"] "proj2_sig"; + elim = init_constant ["Init"; "Specif"] "sig_rec"; + intro = init_constant ["Init"; "Specif"] "exist"; + typ = init_constant ["Init"; "Specif"] "sig" } + +let sig_ = lazy (build_sig ()) + +let fix_proto = lazy (init_constant tactics_module "fix_proto") +let fix_proto_ref () = + match Nametab.global (make_ref "Program.Tactics.fix_proto") with + | ConstRef c -> c + | _ -> assert false + +let eq_ind = lazy (init_constant ["Init"; "Logic"] "eq") +let eq_rec = lazy (init_constant ["Init"; "Logic"] "eq_rec") +let eq_rect = lazy (init_constant ["Init"; "Logic"] "eq_rect") +let eq_refl = lazy (init_constant ["Init"; "Logic"] "refl_equal") +let eq_ind_ref = lazy (init_reference ["Init"; "Logic"] "eq") +let refl_equal_ref = lazy (init_reference ["Init"; "Logic"] "refl_equal") + +let not_ref = lazy (init_constant ["Init"; "Logic"] "not") + +let and_typ = lazy (Coqlib.build_coq_and ()) + +let eqdep_ind = lazy (init_constant [ "Logic";"Eqdep"] "eq_dep") +let eqdep_rec = lazy (init_constant ["Logic";"Eqdep"] "eq_dep_rec") +let eqdep_ind_ref = lazy (init_reference [ "Logic";"Eqdep"] "eq_dep") +let eqdep_intro_ref = lazy (init_reference [ "Logic";"Eqdep"] "eq_dep_intro") + +let jmeq_ind = + lazy (check_required_library ["Coq";"Logic";"JMeq"]; + init_constant ["Logic";"JMeq"] "JMeq") +let jmeq_rec = + lazy (check_required_library ["Coq";"Logic";"JMeq"]; + init_constant ["Logic";"JMeq"] "JMeq_rec") +let jmeq_refl = + lazy (check_required_library ["Coq";"Logic";"JMeq"]; + init_constant ["Logic";"JMeq"] "JMeq_refl") + +let ex_ind = lazy (init_constant ["Init"; "Logic"] "ex") +let ex_intro = lazy (init_reference ["Init"; "Logic"] "ex_intro") + +let proj1 = lazy (init_constant ["Init"; "Logic"] "proj1") +let proj2 = lazy (init_constant ["Init"; "Logic"] "proj2") + +let boolind = lazy (init_constant ["Init"; "Datatypes"] "bool") +let sumboolind = lazy (init_constant ["Init"; "Specif"] "sumbool") +let natind = lazy (init_constant ["Init"; "Datatypes"] "nat") +let intind = lazy (init_constant ["ZArith"; "binint"] "Z") +let existSind = lazy (init_constant ["Init"; "Specif"] "sigS") + +let existS = lazy (build_sigma_type ()) + +let prod = lazy (build_prod ()) + + +(* orders *) +let well_founded = lazy (init_constant ["Init"; "Wf"] "well_founded") +let fix = lazy (init_constant ["Init"; "Wf"] "Fix") +let acc = lazy (init_constant ["Init"; "Wf"] "Acc") +let acc_inv = lazy (init_constant ["Init"; "Wf"] "Acc_inv") + +let extconstr = Constrextern.extern_constr true (Global.env ()) +let extsort s = Constrextern.extern_constr true (Global.env ()) (mkSort s) + +open Pp + +let my_print_constr = Termops.print_constr_env +let my_print_constr_expr = Ppconstr.pr_constr_expr +let my_print_rel_context env ctx = Printer.pr_rel_context env ctx +let my_print_context = Termops.print_rel_context +let my_print_named_context = Termops.print_named_context +let my_print_env = Termops.print_env +let my_print_rawconstr = Printer.pr_rawconstr_env +let my_print_evardefs = Evd.pr_evar_map + +let my_print_tycon_type = Evarutil.pr_tycon_type + +let debug_level = 2 + +let debug_on = true + +let debug n s = + if debug_on then + if !Flags.debug && n >= debug_level then + msgnl s + else () + else () + +let debug_msg n s = + if debug_on then + if !Flags.debug && n >= debug_level then s + else mt () + else mt () + +let trace s = + if debug_on then + if !Flags.debug && debug_level > 0 then msgnl s + else () + else () + +let rec pp_list f = function + [] -> mt() + | x :: y -> f x ++ spc () ++ pp_list f y + +let wf_relations = Hashtbl.create 10 + +let std_relations () = + let add k v = Hashtbl.add wf_relations k v in + add (init_constant ["Init"; "Peano"] "lt") + (lazy (init_constant ["Arith"; "Wf_nat"] "lt_wf")) + +let std_relations = Lazy.lazy_from_fun std_relations + +type binders = Topconstr.local_binder list + +let app_opt c e = + match c with + Some constr -> constr e + | None -> e + +let print_args env args = + Array.fold_right (fun a acc -> my_print_constr env a ++ spc () ++ acc) args (str "") + +let make_existential loc ?(opaque = Define true) env isevars c = + let evar = Evarutil.e_new_evar isevars env ~src:(loc, QuestionMark opaque) c in + let (key, args) = destEvar evar in + (try trace (str "Constructed evar " ++ int key ++ str " applied to args: " ++ + print_args env args ++ str " for type: "++ + my_print_constr env c) with _ -> ()); + evar + +let make_existential_expr loc env c = + let key = Evarutil.new_untyped_evar () in + let evar = Topconstr.CEvar (loc, key, None) in + debug 2 (str "Constructed evar " ++ int key); + evar + +let string_of_hole_kind = function + | ImplicitArg _ -> "ImplicitArg" + | BinderType _ -> "BinderType" + | QuestionMark _ -> "QuestionMark" + | CasesType -> "CasesType" + | InternalHole -> "InternalHole" + | TomatchTypeParameter _ -> "TomatchTypeParameter" + | GoalEvar -> "GoalEvar" + | ImpossibleCase -> "ImpossibleCase" + | MatchingVar _ -> "MatchingVar" + +let evars_of_term evc init c = + let rec evrec acc c = + match kind_of_term c with + | Evar (n, _) when Evd.mem evc n -> Evd.add acc n (Evd.find evc n) + | Evar (n, _) -> assert(false) + | _ -> fold_constr evrec acc c + in + evrec init c + +let non_instanciated_map env evd evm = + List.fold_left + (fun evm (key, evi) -> + let (loc,k) = evar_source key !evd in + debug 2 (str "evar " ++ int key ++ str " has kind " ++ + str (string_of_hole_kind k)); + match k with + | QuestionMark _ -> Evd.add evm key evi + | ImplicitArg (_,_,false) -> Evd.add evm key evi + | _ -> + debug 2 (str " and is an implicit"); + Pretype_errors.error_unsolvable_implicit loc env evm (Evarutil.nf_evar_info evm evi) k None) + Evd.empty (Evarutil.non_instantiated evm) + +let global_kind = Decl_kinds.IsDefinition Decl_kinds.Definition +let goal_kind = Decl_kinds.Global, Decl_kinds.DefinitionBody Decl_kinds.Definition + +let global_proof_kind = Decl_kinds.IsProof Decl_kinds.Lemma +let goal_proof_kind = Decl_kinds.Global, Decl_kinds.Proof Decl_kinds.Lemma + +let global_fix_kind = Decl_kinds.IsDefinition Decl_kinds.Fixpoint +let goal_fix_kind = Decl_kinds.Global, Decl_kinds.DefinitionBody Decl_kinds.Fixpoint + +open Tactics +open Tacticals + +let id x = x +let filter_map f l = + let rec aux acc = function + hd :: tl -> (match f hd with Some t -> aux (t :: acc) tl + | None -> aux acc tl) + | [] -> List.rev acc + in aux [] l + +let build_dependent_sum l = + let rec aux names conttac conttype = function + (n, t) :: ((_ :: _) as tl) -> + let hyptype = substl names t in + trace (spc () ++ str ("treating evar " ^ string_of_id n)); + (try trace (str " assert: " ++ my_print_constr (Global.env ()) hyptype) + with _ -> ()); + let tac = assert_tac (Name n) hyptype in + let conttac = + (fun cont -> + conttac + (tclTHENS tac + ([intros; + (tclTHENSEQ + [constructor_tac false (Some 1) 1 + (Rawterm.ImplicitBindings [mkVar n]); + cont]); + ]))) + in + let conttype = + (fun typ -> + let tex = mkLambda (Name n, t, typ) in + conttype + (mkApp (Lazy.force ex_ind, [| t; tex |]))) + in + aux (mkVar n :: names) conttac conttype tl + | (n, t) :: [] -> + (conttac intros, conttype t) + | [] -> raise (Invalid_argument "build_dependent_sum") + in aux [] id id (List.rev l) + +open Proof_type +open Tacexpr + +let mkProj1 a b c = + mkApp (Lazy.force proj1, [| a; b; c |]) + +let mkProj2 a b c = + mkApp (Lazy.force proj2, [| a; b; c |]) + +let mk_ex_pi1 a b c = + mkApp (Lazy.force ex_pi1, [| a; b; c |]) + +let mk_ex_pi2 a b c = + mkApp (Lazy.force ex_pi2, [| a; b; c |]) + +let mkSubset name typ prop = + mkApp ((Lazy.force sig_).typ, + [| typ; mkLambda (name, typ, prop) |]) + +let mk_eq typ x y = mkApp (Lazy.force eq_ind, [| typ; x ; y |]) +let mk_eq_refl typ x = mkApp (Lazy.force eq_refl, [| typ; x |]) +let mk_JMeq typ x typ' y = mkApp (Lazy.force jmeq_ind, [| typ; x ; typ'; y |]) +let mk_JMeq_refl typ x = mkApp (Lazy.force jmeq_refl, [| typ; x |]) + +let unsafe_fold_right f = function + hd :: tl -> List.fold_right f tl hd + | [] -> raise (Invalid_argument "unsafe_fold_right") + +let mk_conj l = + let conj_typ = Lazy.force and_typ in + unsafe_fold_right + (fun c conj -> + mkApp (conj_typ, [| c ; conj |])) + l + +let mk_not c = + let notc = Lazy.force not_ref in + mkApp (notc, [| c |]) + +let and_tac l hook = + let andc = Coqlib.build_coq_and () in + let rec aux ((accid, goal, tac, extract) as acc) = function + | [] -> (* Singleton *) acc + + | (id, x, elgoal, eltac) :: tl -> + let tac' = tclTHEN simplest_split (tclTHENLIST [tac; eltac]) in + let proj = fun c -> mkProj2 goal elgoal c in + let extract = List.map (fun (id, x, y, f) -> (id, x, y, (fun c -> f (mkProj1 goal elgoal c)))) extract in + aux ((string_of_id id) ^ "_" ^ accid, mkApp (andc, [| goal; elgoal |]), tac', + (id, x, elgoal, proj) :: extract) tl + + in + let and_proof_id, and_goal, and_tac, and_extract = + match l with + | [] -> raise (Invalid_argument "and_tac: empty list of goals") + | (hdid, x, hdg, hdt) :: tl -> + aux (string_of_id hdid, hdg, hdt, [hdid, x, hdg, (fun c -> c)]) tl + in + let and_proofid = id_of_string (and_proof_id ^ "_and_proof") in + Lemmas.start_proof and_proofid goal_kind and_goal + (hook (fun c -> List.map (fun (id, x, t, f) -> (id, x, t, f c)) and_extract)); + trace (str "Started and proof"); + Pfedit.by and_tac; + trace (str "Applied and tac") + + +let destruct_ex ext ex = + let rec aux c acc = + match kind_of_term c with + App (f, args) -> + (match kind_of_term f with + Ind i when i = Term.destInd (Lazy.force ex_ind) && Array.length args = 2 -> + let (dom, rng) = + try (args.(0), args.(1)) + with _ -> assert(false) + in + let pi1 = (mk_ex_pi1 dom rng acc) in + let rng_body = + match kind_of_term rng with + Lambda (_, _, t) -> subst1 pi1 t + | t -> rng + in + pi1 :: aux rng_body (mk_ex_pi2 dom rng acc) + | _ -> [acc]) + | _ -> [acc] + in aux ex ext + +open Rawterm + +let id_of_name = function + Name n -> n + | Anonymous -> raise (Invalid_argument "id_of_name") + +let definition_message id = + Nameops.pr_id id ++ str " is defined" + +let recursive_message v = + match Array.length v with + | 0 -> error "no recursive definition" + | 1 -> (Printer.pr_constant (Global.env ()) v.(0) ++ str " is recursively defined") + | _ -> hov 0 (prvect_with_sep pr_comma (Printer.pr_constant (Global.env ())) v ++ + spc () ++ str "are recursively defined") + +let print_message m = + Flags.if_verbose ppnl m + +(* Solve an obligation using tactics, return the corresponding proof term *) +let solve_by_tac evi t = + let id = id_of_string "H" in + try + Pfedit.start_proof id goal_kind evi.evar_hyps evi.evar_concl + (fun _ _ -> ()); + Pfedit.by (tclCOMPLETE t); + let _,(const,_,_,_) = Pfedit.cook_proof ignore in + Pfedit.delete_current_proof (); + Inductiveops.control_only_guard (Global.env ()) + const.Entries.const_entry_body; + const.Entries.const_entry_body + with e -> + Pfedit.delete_current_proof(); + raise e + +(* let apply_tac t goal = t goal *) + +(* let solve_by_tac evi t = *) +(* let ev = 1 in *) +(* let evm = Evd.add Evd.empty ev evi in *) +(* let goal = {it = evi; sigma = evm } in *) +(* let (res, valid) = apply_tac t goal in *) +(* if res.it = [] then *) +(* let prooftree = valid [] in *) +(* let proofterm, obls = Refiner.extract_open_proof res.sigma prooftree in *) +(* if obls = [] then proofterm *) +(* else raise Exit *) +(* else raise Exit *) + +let rec string_of_list sep f = function + [] -> "" + | x :: [] -> f x + | x :: ((y :: _) as tl) -> f x ^ sep ^ string_of_list sep f tl + +let string_of_intset d = + string_of_list "," string_of_int (Intset.elements d) + +(**********************************************************) +(* Pretty-printing *) +open Printer +open Ppconstr +open Nameops +open Termops +open Evd + +let pr_meta_map evd = + let ml = meta_list evd in + let pr_name = function + Name id -> str"[" ++ pr_id id ++ str"]" + | _ -> mt() in + let pr_meta_binding = function + | (mv,Cltyp (na,b)) -> + hov 0 + (pr_meta mv ++ pr_name na ++ str " : " ++ + print_constr b.rebus ++ fnl ()) + | (mv,Clval(na,b,_)) -> + hov 0 + (pr_meta mv ++ pr_name na ++ str " := " ++ + print_constr (fst b).rebus ++ fnl ()) + in + prlist pr_meta_binding ml + +let pr_idl idl = prlist_with_sep pr_spc pr_id idl + +let pr_evar_info evi = + let phyps = + (*pr_idl (List.rev (ids_of_named_context (evar_context evi))) *) + Printer.pr_named_context (Global.env()) (evar_context evi) + in + let pty = print_constr evi.evar_concl in + let pb = + match evi.evar_body with + | Evar_empty -> mt () + | Evar_defined c -> spc() ++ str"=> " ++ print_constr c + in + hov 2 (str"[" ++ phyps ++ spc () ++ str"|- " ++ pty ++ pb ++ str"]") + +let pr_evar_map sigma = + h 0 + (prlist_with_sep pr_fnl + (fun (ev,evi) -> + h 0 (str(string_of_existential ev)++str"=="++ pr_evar_info evi)) + (to_list sigma)) + +let pr_constraints pbs = + h 0 + (prlist_with_sep pr_fnl (fun (pbty,t1,t2) -> + print_constr t1 ++ spc() ++ + str (match pbty with + | Reduction.CONV -> "==" + | Reduction.CUMUL -> "<=") ++ + spc() ++ print_constr t2) pbs) + +let pr_evar_map evd = + let pp_evm = + let evars = evd in + if evars = empty then mt() else + str"EVARS:"++brk(0,1)++pr_evar_map evars++fnl() in + let pp_met = + if meta_list evd = [] then mt() else + str"METAS:"++brk(0,1)++pr_meta_map evd in + v 0 (pp_evm ++ pp_met) + +let contrib_tactics_path = + make_dirpath (List.map id_of_string ["Tactics";contrib_name;"Coq"]) +let tactics_tac s = + lazy(make_kn (MPfile contrib_tactics_path) (make_dirpath []) (mk_label s)) + +let tactics_call tac args = + TacArg(TacCall(dummy_loc, ArgArg(dummy_loc, Lazy.force (tactics_tac tac)),args)) |