package lambdapi
Proof assistant for the λΠ-calculus modulo rewriting
Install
Dune Dependency
Authors
Maintainers
Sources
lambdapi-2.6.0.tbz
sha256=d01e5f13db2eaba6e4fe330667149e0059d4886c651ff9d6b672db2dfc9765ed
sha512=33b68c972aca37985ed73c527076198e7d4961c7e27c89cdabfe4d1cff97cd41ccfb85ae9499eb98ad9a0aefd920bc55555df6393fc441ac2429e4d99cddafa8
doc/src/lambdapi.export/rawdk.ml.html
Source file rawdk.ml
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247(** Translate the parser-level AST to Dedukti. *) open Lplib open Base open Extra open Common open Pos open Error open Parsing open Syntax open Format open Core open Eval open Term let raw_ident : string pp = fun ppf s -> Dk.ident ppf s let ident : p_ident pp = fun ppf {elt;_} -> raw_ident ppf elt let qident : p_qident pp = fun ppf {elt=(mp,s);_} -> out ppf "%a%a" Dk.path mp raw_ident s let param_id : p_ident option pp = fun ppf idopt -> match idopt with | Some id -> ident ppf id | None -> out ppf "_" let rec term : p_term pp = fun ppf t -> match t.elt with | P_Meta _ -> assert false | P_Patt(id,ts) -> out ppf "%a%a" param_id id (Option.pp terms) ts; | P_Expl u -> out ppf "(%a)" term u | P_Type -> out ppf "Type" | P_Wild -> out ppf "_" | P_NLit i -> string ppf i | P_Iden(qid,_) -> qident ppf qid | P_Arro(u,v) -> out ppf "%a -> %a" pterm u term v | P_Abst(xs,u) -> out ppf "%a%a" abs xs term u | P_Prod(xs,u) -> out ppf "%a%a" prod xs term u | P_LLet(x,xs,a,u,v) -> out ppf "(%a%a => %a) %a" ident x (Option.pp (let_typ xs)) a term v (let_dfn xs) u | P_Wrap u -> out ppf "(%a)" term u | P_Appl(u,v) -> out ppf "%a %a" term u pterm v and let_typ : p_params list -> p_term pp = fun xs ppf u -> match xs with | [] -> typ ppf u | _ -> out ppf ": (%a%a)" prod xs term u and let_dfn : p_params list -> p_term pp = fun xs ppf u -> match xs with | [] -> pterm ppf u | _ -> out ppf "(%a%a)" abs xs term u and pterm : p_term pp = fun ppf t -> match t.elt with (* doesn't need surrounding parentheses *) | P_Meta _ | P_Patt(_,None) | P_Expl _ | P_Type | P_Wild | P_NLit _ | P_Iden _ | P_Wrap _ -> term ppf t (* add surrounding parentheses *) | P_Patt(_,Some _) | P_Arro _ | P_Abst _ | P_Prod _ | P_LLet _ | P_Appl _ -> out ppf "(%a)" term t and terms : p_term array pp = fun ppf -> Array.iter (out ppf " %a" term) and param : p_term option -> string -> p_ident option pp = fun a sep ppf id -> if sep = "" then match a with | None -> out ppf " %a" param_id id | Some a -> out ppf " (%a%a)" param_id id typ a else out ppf "%a%a%s" param_id id (Option.pp typ) a sep and params : string -> p_params pp = fun sep ppf (ids,a,_) -> match ids, a with | None::_, None -> fatal_no_pos "Cannot translate \"_\" parameters with no type." | Some {pos;_}::_, None -> fatal pos "Cannot translate parameters with no type." | _ -> List.iter (out ppf "%a" (param a sep)) ids and params_list : string -> p_params list pp = fun sep ppf -> List.iter (out ppf "%a" (params sep)) and abs : p_params list pp = fun ppf -> params_list " => " ppf and prod : p_params list pp = fun ppf -> params_list " -> " ppf and arg : p_params list pp = fun ppf -> params_list "" ppf and typ : p_term pp = fun ppf t -> out ppf " : %a" pterm t let bool : bool pp = fun ppf b -> if not b then out ppf "NOT" let assertion : (bool * p_assertion) pp = fun ppf (b,a) -> match a with | P_assert_typing(t,u) -> out ppf "#ASSERT%a %a : %a.@." bool b term t term u | P_assert_conv(t,u) -> out ppf "#ASSERT%a %a == %a.@." bool b pterm t pterm u let strat : Eval.strat pp = fun ppf {strategy; steps} -> match strategy, steps with | NONE, _ | HNF, _ -> assert false | WHNF, None -> out ppf "[WHNF]" | WHNF, Some k -> out ppf "[%d,WHNF]" k | SNF, None -> () | SNF, Some k -> out ppf "[%d]" k let query : p_query pp = fun ppf ({elt;pos} as q) -> match elt with | P_query_verbose _ | P_query_debug _ | P_query_prover _ | P_query_prover_timeout _ | P_query_print _ | P_query_proofterm | P_query_search _ | P_query_flag _ -> out ppf "(;%a;)@." Pretty.query q (*FIXME?*) | P_query_infer(_,{strategy=(SNF|HNF|WHNF);_}) | P_query_normalize(_,{strategy=(NONE|HNF);_}) -> fatal pos "Cannot be translated: %a" Pretty.query q | P_query_assert(b,a) -> assertion ppf (not b,a) | P_query_infer(t,{strategy=NONE;_}) -> out ppf "#INFER %a.@." term t | P_query_normalize(t,s) -> out ppf "#EVAL%a %a.@." strat s term t (*https://github.com/Deducteam/Dedukti/issues/318*) let rec remove_wraps ({elt;_} as t) = match elt with | P_Wrap u -> remove_wraps u | _ -> t let rule : p_rule pp = let varset ppf set = List.pp string ", " ppf (StrSet.elements set) in fun ppf {elt=(l,r);_} -> out ppf "[%a] %a --> %a.@." varset (pvars_lhs l) term (remove_wraps l) term r type modifiers = prop list * expo list * match_strat list * p_modifier_aux list let partition_modifiers (ms:p_modifier list) : modifiers = let ms = List.map (fun {elt;_} -> elt) ms in let ms = List.sort_uniq Stdlib.compare ms in let is_prop elt = match elt with P_prop _ -> true | _ -> false in let props, non_props = List.partition is_prop ms in let props = List.map (function P_prop p -> p | _ -> assert false) props in let is_expo elt = match elt with P_expo _ -> true | _ -> false in let expos, non_expos = List.partition is_expo non_props in let expos = List.map (function P_expo e -> e | _ -> assert false) expos in let is_mstrat elt = match elt with P_mstrat _ -> true | _ -> false in let mstrats, opaqs = List.partition is_mstrat non_expos in let mstrats = List.map (function P_mstrat s -> s | _ -> assert false) mstrats in (* we ignore private symbols *) let expos = List.filter (function Privat -> false | _ -> true) expos in props, expos, mstrats, opaqs (* check Stdlib.compare on modifiers. *) let _ = assert (Stdlib.compare Commu (Assoc true) < 0) ;assert (Stdlib.compare Commu (Assoc false) < 0) let modifiers : p_term option -> p_modifier list pp = fun p_sym_typ ppf ms -> match partition_modifiers ms with | [], [], [], [] -> out ppf "def " | [], [], [], [P_opaq] when p_sym_typ <> None -> out ppf "thm " (*https://github.com/Deducteam/Dedukti/issues/319*) | [Commu;Assoc _], [], [], [] -> out ppf "defac " | [Commu;Assoc _], [Protec], [], [] -> out ppf "private defac " | [Injec], [Protec], [], [] -> out ppf "private injective " | [Injec], [], [], [] -> out ppf "injective " | [], [Protec], [], [] -> out ppf "private " | [Const], [], [], [] -> () | _ -> match ms with | [] -> assert false | {pos;_}::_ -> fatal pos "Cannot translate: %a.@." Pretty.modifiers ms let get_ac_typ : popt -> modifiers -> p_params list -> p_term option -> p_term option = fun pos ms p_sym_arg p_sym_typ -> match ms with | ([Commu;Assoc _], _, _, _) -> begin match p_sym_arg, p_sym_typ with | [], Some {elt=P_Arro(a,{elt=P_Arro(b,_);_});_} when eq_p_term a b -> Some a | _, Some {pos;_} -> fatal pos "Not a type of the form \"a → a → _\"" | _, None -> fatal pos "Type missing" end | _ -> None let command : p_command pp = fun ppf ({elt; pos} as c) -> match elt with | P_query q -> query ppf q | P_require(false,ps) -> List.iter (fun {elt;_} -> out ppf "#REQUIRE %a@." Dk.path elt) ps | P_symbol{p_sym_mod; p_sym_nam=n; p_sym_arg; p_sym_typ; p_sym_trm; p_sym_prf=None; p_sym_def=_;} -> let ms = partition_modifiers p_sym_mod in begin match get_ac_typ pos ms p_sym_arg p_sym_typ with | Some a -> begin match p_sym_trm, p_sym_typ with | Some t, _ -> let dfn ppf = out ppf " := %a" term in out ppf "%a%a [%a]%a.@." (modifiers p_sym_typ) p_sym_mod ident n term a dfn t | None, Some _ -> (*https://github.com/Deducteam/Dedukti/issues/322*) out ppf "%a%a [%a].@." (modifiers p_sym_typ) p_sym_mod ident n term a | _ -> assert false end | None -> begin match p_sym_trm, p_sym_typ with | Some t, _ -> let dfn ppf = out ppf " := %a" term in out ppf "%a%a%a%a%a.@." (modifiers p_sym_typ) p_sym_mod ident n arg p_sym_arg (Option.pp typ) p_sym_typ dfn t | None, Some a -> (*https://github.com/Deducteam/Dedukti/issues/322*) out ppf "%a%a : %a%a.@." (modifiers p_sym_typ) p_sym_mod ident n prod p_sym_arg term a | _ -> assert false end end | P_rules rs -> List.iter (rule ppf) rs | P_builtin _ | P_unif_rule _ | P_coercion _ -> () (*FIXME?*) | P_inductive _ | P_open _ | P_require_as _ | P_notation _ (* FIXME: accept quantifier notations *) | P_opaque _ | P_require(true,_) | P_symbol{p_sym_prf=Some _; _} -> fatal pos "Cannot be translated: %a" Pretty.command c let ast : ast pp = fun ppf -> Stream.iter (command ppf) let print : ast -> unit = ast std_formatter