(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* <:patt< [] >> | GramNonTerminal(loc',_,_,Some p)::l -> let p = Names.string_of_id p in <:patt< [ $lid:p$ :: $make_patt l$ ] >> | _::l -> make_patt l let rec make_when loc = function | [] -> <:expr< True >> | GramNonTerminal(loc',t,_,Some p)::l -> let p = Names.string_of_id p in let l = make_when loc l in let loc = join_loc loc' loc in let t = mlexpr_of_argtype loc' t in <:expr< Genarg.genarg_tag $lid:p$ = $t$ && $l$ >> | _::l -> make_when loc l let rec make_let e = function | [] -> e | GramNonTerminal(loc,t,_,Some p)::l -> let p = Names.string_of_id p in let loc = join_loc loc (MLast.loc_of_expr e) in let e = make_let e l in let v = <:expr< Genarg.out_gen $make_wit loc t$ $lid:p$ >> in <:expr< let $lid:p$ = $v$ in $e$ >> | _::l -> make_let e l let rec extract_signature = function | [] -> [] | GramNonTerminal (_,t,_,_) :: l -> t :: extract_signature l | _::l -> extract_signature l let check_unicity s l = let l' = List.map (fun (l,_) -> extract_signature l) l in if not (Util.list_distinct l') then Pp.warning_with !Pp_control.err_ft ("Two distinct rules of tactic entry "^s^" have the same\n"^ "non-terminals in the same order: put them in distinct tactic entries") let make_clause (pt,e) = (make_patt pt, vala (Some (make_when (MLast.loc_of_expr e) pt)), make_let e pt) let make_fun_clauses loc s l = check_unicity s l; Compat.make_fun loc (List.map make_clause l) let rec make_args = function | [] -> <:expr< [] >> | GramNonTerminal(loc,t,_,Some p)::l -> let p = Names.string_of_id p in <:expr< [ Genarg.in_gen $make_wit loc t$ $lid:p$ :: $make_args l$ ] >> | _::l -> make_args l let rec make_eval_tactic e = function | [] -> e | GramNonTerminal(loc,tag,_,Some p)::l when is_tactic_genarg tag -> let p = Names.string_of_id p in let loc = join_loc loc (MLast.loc_of_expr e) in let e = make_eval_tactic e l in <:expr< let $lid:p$ = $lid:p$ in $e$ >> | _::l -> make_eval_tactic e l let rec make_fun e = function | [] -> e | GramNonTerminal(loc,_,_,Some p)::l -> let p = Names.string_of_id p in <:expr< fun $lid:p$ -> $make_fun e l$ >> | _::l -> make_fun e l let mlexpr_terminals_of_grammar_tactic_prod_item_expr = function | GramTerminal s -> <:expr< Some $mlexpr_of_string s$ >> | GramNonTerminal (loc,nt,_,sopt) -> <:expr< None >> let make_prod_item = function | GramTerminal s -> <:expr< Egrammar.GramTerminal $str:s$ >> | GramNonTerminal (loc,nt,g,sopt) -> <:expr< Egrammar.GramNonTerminal $default_loc$ $mlexpr_of_argtype loc nt$ $mlexpr_of_prod_entry_key g$ $mlexpr_of_option mlexpr_of_ident sopt$ >> let mlexpr_of_clause = mlexpr_of_list (fun (a,b) -> mlexpr_of_list make_prod_item a) let rec make_tags loc = function | [] -> <:expr< [] >> | GramNonTerminal(loc',t,_,Some p)::l -> let l = make_tags loc l in let loc = join_loc loc' loc in let t = mlexpr_of_argtype loc' t in <:expr< [ $t$ :: $l$ ] >> | _::l -> make_tags loc l let make_one_printing_rule se (pt,e) = let level = mlexpr_of_int 0 in (* only level 0 supported here *) let loc = MLast.loc_of_expr e in let prods = mlexpr_of_list mlexpr_terminals_of_grammar_tactic_prod_item_expr pt in <:expr< ($se$, $make_tags loc pt$, ($level$, $prods$)) >> let make_printing_rule se = mlexpr_of_list (make_one_printing_rule se) let rec contains_epsilon = function | List0ArgType _ -> true | List1ArgType t -> contains_epsilon t | OptArgType _ -> true | PairArgType(t1,t2) -> contains_epsilon t1 && contains_epsilon t2 | ExtraArgType("hintbases") -> true | _ -> false let is_atomic = function | GramTerminal s :: l when List.for_all (function GramTerminal _ -> false | GramNonTerminal(_,t,_,_) -> contains_epsilon t) l -> [s] | _ -> [] let declare_tactic loc s cl = let se = mlexpr_of_string s in let pp = make_printing_rule se cl in let gl = mlexpr_of_clause cl in let hide_tac (p,e) = (* reste a definir les fonctions cachees avec des noms frais *) let stac = "h_"^s in let e = make_fun <:expr< Refiner.abstract_extended_tactic $mlexpr_of_string s$ $make_args p$ $make_eval_tactic e p$ >> p in <:str_item< value $lid:stac$ = $e$ >> in let hidden = if List.length cl = 1 then List.map hide_tac cl else [] in let atomic_tactics = mlexpr_of_list mlexpr_of_string (List.flatten (List.map (fun (al,_) -> is_atomic al) cl)) in declare_str_items loc (hidden @ [ <:str_item< do { try let _=Tacinterp.add_tactic $se$ $make_fun_clauses loc s cl$ in List.iter (fun s -> Tacinterp.add_primitive_tactic s (Tacexpr.TacAtom($default_loc$, Tacexpr.TacExtend($default_loc$,s,[])))) $atomic_tactics$ with e -> Pp.pp (Cerrors.explain_exn e); Egrammar.extend_tactic_grammar $se$ $gl$; List.iter Pptactic.declare_extra_tactic_pprule $pp$; } >> ]) open Pcaml open PcamlSig EXTEND GLOBAL: str_item; str_item: [ [ "TACTIC"; "EXTEND"; s = tac_name; OPT "|"; l = LIST1 tacrule SEP "|"; "END" -> declare_tactic loc s l ] ] ; tacrule: [ [ "["; l = LIST1 tacargs; "]"; "->"; "["; e = Pcaml.expr; "]" -> if match List.hd l with GramNonTerminal _ -> true | _ -> false then (* En attendant la syntaxe de tacticielles *) failwith "Tactic syntax must start with an identifier"; (l,e) ] ] ; tacargs: [ [ e = LIDENT; "("; s = LIDENT; ")" -> let t, g = interp_entry_name false None e "" in GramNonTerminal (loc, t, g, Some (Names.id_of_string s)) | e = LIDENT; "("; s = LIDENT; ","; sep = STRING; ")" -> let t, g = interp_entry_name false None e sep in GramNonTerminal (loc, t, g, Some (Names.id_of_string s)) | s = STRING -> if s = "" then Util.user_err_loc (loc,"",Pp.str "Empty terminal."); GramTerminal s ] ] ; tac_name: [ [ s = LIDENT -> s | s = UIDENT -> s ] ] ; END