package rocq-runtime
The Rocq Prover -- Core Binaries and Tools
Install
dune-project
Dependency
Authors
Maintainers
Sources
rocq-9.1.0.tar.gz
sha256=b236dc44f92e1eeca6877c7ee188a90c2303497fe7beb99df711ed5a7ce0d824
doc/src/extraction_plugin/json.ml.html
Source file json.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 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293open Pp open Util open Names open Table open Miniml open Mlutil open Common let json_str s = qs s let json_int i = int i let json_bool b = if b then str "true" else str "false" let json_global table typ ref = if is_custom ref then json_str (find_custom ref) else json_str (Common.pp_global table typ ref) let json_id id = json_str (Id.to_string id) let json_dict_one (k, v) = json_str k ++ str (": ") ++ v let json_dict_open l = str ("{") ++ fnl () ++ str (" ") ++ hov 0 (prlist_with_sep pr_comma json_dict_one l) let json_dict l = json_dict_open l ++ fnl () ++ str ("}") let json_list l = str ("[") ++ fnl () ++ str (" ") ++ hov 0 (prlist_with_sep pr_comma (fun x -> x) l) ++ fnl () ++ str ("]") let json_listarr a = str ("[") ++ fnl () ++ str (" ") ++ hov 0 (prvect_with_sep pr_comma (fun x -> x) a) ++ fnl () ++ str ("]") let preamble table mod_name comment used_modules usf = (match comment with | None -> mt () | Some s -> str "/* " ++ hov 0 s ++ str " */" ++ fnl ()) ++ json_dict_open [ ("what", json_str "module"); ("name", json_id mod_name); ("need_magic", json_bool (usf.magic)); ("need_dummy", json_bool (usf.mldummy)); ("used_modules", json_list (List.map (fun mf -> json_str (file_of_modfile (State.get_table table) mf)) used_modules)) ] (*s Pretty-printing of types. *) let rec json_type table vl = function | Tmeta _ | Tvar' _ -> assert false | Tvar i -> (try let varid = List.nth vl (pred i) in json_dict [ ("what", json_str "type:var"); ("name", json_id varid) ] with Failure _ -> json_dict [ ("what", json_str "type:varidx"); ("name", json_int i) ]) | Tglob (r, l) -> json_dict [ ("what", json_str "type:glob"); ("name", json_global table Type r); ("args", json_list (List.map (json_type table vl) l)) ] | Tarr (t1,t2) -> json_dict [ ("what", json_str "type:arrow"); ("left", json_type table vl t1); ("right", json_type table vl t2) ] | Tdummy _ -> json_dict [("what", json_str "type:dummy")] | Tunknown -> json_dict [("what", json_str "type:unknown")] | Taxiom -> json_dict [("what", json_str "type:axiom")] (*s Pretty-printing of expressions. *) let rec json_expr table env = function | MLrel n -> json_dict [ ("what", json_str "expr:rel"); ("name", json_id (get_db_name n env)) ] | MLapp (f, args) -> json_dict [ ("what", json_str "expr:apply"); ("func", json_expr table env f); ("args", json_list (List.map (json_expr table env) args)) ] | MLlam _ as a -> let fl, a' = collect_lams a in let fl, env' = push_vars (List.map id_of_mlid fl) env in json_dict [ ("what", json_str "expr:lambda"); ("argnames", json_list (List.map json_id (List.rev fl))); ("body", json_expr table env' a') ] | MLletin (id, a1, a2) -> let i, env' = push_vars [id_of_mlid id] env in json_dict [ ("what", json_str "expr:let"); ("name", json_id (List.hd i)); ("nameval", json_expr table env a1); ("body", json_expr table env' a2) ] | MLglob r -> json_dict [ ("what", json_str "expr:global"); ("name", json_global table Term r) ] | MLcons (_, r, a) -> json_dict [ ("what", json_str "expr:constructor"); ("name", json_global table Cons r); ("args", json_list (List.map (json_expr table env) a)) ] | MLtuple l -> json_dict [ ("what", json_str "expr:tuple"); ("items", json_list (List.map (json_expr table env) l)) ] | MLcase (typ, t, pv) -> json_dict [ ("what", json_str "expr:case"); ("expr", json_expr table env t); ("cases", json_listarr (Array.map (fun x -> json_one_pat table env x) pv)) ] | MLfix (i, ids, defs) -> let ids', env' = push_vars (List.rev (Array.to_list ids)) env in let ids' = Array.of_list (List.rev ids') in json_dict [ ("what", json_str "expr:fix"); ("funcs", json_listarr (Array.map (fun (fi, ti) -> json_dict [ ("what", json_str "fix:item"); ("name", json_id fi); ("body", json_function table env' ti) ]) (Array.map2 (fun a b -> a,b) ids' defs))); ("for", json_int i); ] | MLexn s -> json_dict [ ("what", json_str "expr:exception"); ("msg", json_str s) ] | MLdummy _ -> json_dict [("what", json_str "expr:dummy")] | MLmagic a -> json_dict [ ("what", json_str "expr:coerce"); ("value", json_expr table env a) ] | MLaxiom _ -> json_dict [("what", json_str "expr:axiom")] | MLuint i -> json_dict [ ("what", json_str "expr:int"); ("int", json_str (Uint63.to_string i)) ] | MLfloat f -> json_dict [ ("what", json_str "expr:float"); ("float", json_str (Float64.to_string f)) ] | MLstring s -> json_dict [ ("what", json_str "expr:string"); ("string", json_str (Pstring.to_string s)) ] | MLparray(t,def) -> json_dict [ ("what", json_str "expr:array"); ("elems", json_listarr (Array.map (json_expr table env) t)); ("default", json_expr table env def) ] and json_one_pat table env (ids,p,t) = let ids', env' = push_vars (List.rev_map id_of_mlid ids) env in json_dict [ ("what", json_str "case"); ("pat", json_gen_pat table (List.rev ids') env' p); ("body", json_expr table env' t) ] and json_gen_pat table ids env = function | Pcons (r, l) -> json_cons_pat table r (List.map (json_gen_pat table ids env) l) | Pusual r -> json_cons_pat table r (List.map json_id ids) | Ptuple l -> json_dict [ ("what", json_str "pat:tuple"); ("items", json_list (List.map (json_gen_pat table ids env) l)) ] | Pwild -> json_dict [("what", json_str "pat:wild")] | Prel n -> json_dict [ ("what", json_str "pat:rel"); ("name", json_id (get_db_name n env)) ] and json_cons_pat table r ppl = json_dict [ ("what", json_str "pat:constructor"); ("name", json_global table Cons r); ("argnames", json_list ppl) ] and json_function table env t = let bl, t' = collect_lams t in let bl, env' = push_vars (List.map id_of_mlid bl) env in json_dict [ ("what", json_str "expr:lambda"); ("argnames", json_list (List.map json_id (List.rev bl))); ("body", json_expr table env' t') ] (*s Pretty-printing of inductive types declaration. *) let json_ind table ip pl cv = json_dict [ ("what", json_str "decl:ind"); ("name", json_global table Type ip.ip_typename_ref); ("argnames", json_list (List.map json_id pl)); ("constructors", json_listarr (Array.mapi (fun idx c -> json_dict [ ("name", json_global table Cons ip.ip_consnames_ref.(idx)); ("argtypes", json_list (List.map (json_type table pl) c)) ]) cv)) ] (*s Pretty-printing of a declaration. *) let pp_decl table = function | Dind defs -> prvecti_with_sep pr_comma (fun i p -> if p.ip_logical then str "" else json_ind table p p.ip_vars p.ip_types) defs.ind_packets | Dtype (r, l, t) -> json_dict [ ("what", json_str "decl:type"); ("name", json_global table Type r); ("argnames", json_list (List.map json_id l)); ("value", json_type table l t) ] | Dfix (rv, defs, typs) -> json_dict [ ("what", json_str "decl:fixgroup"); ("fixlist", json_listarr (Array.mapi (fun i r -> json_dict [ ("what", json_str "fixgroup:item"); ("name", json_global table Term rv.(i)); ("type", json_type table [] typs.(i)); ("value", json_function table (empty_env table ()) defs.(i)) ]) rv)) ] | Dterm (r, a, t) -> json_dict [ ("what", json_str "decl:term"); ("name", json_global table Term r); ("type", json_type table [] t); ("value", json_function table (empty_env table ()) a) ] let rec pp_structure_elem table = function | (l,SEdecl d) -> [ pp_decl table d ] | (l,SEmodule m) -> pp_module_expr table m.ml_mod_expr | (l,SEmodtype m) -> [] (* for the moment we simply discard module type *) and pp_module_expr table = function | MEstruct (mp,sel) -> List.concat (List.map (pp_structure_elem table) sel) | MEfunctor _ -> [] (* for the moment we simply discard unapplied functors *) | MEident _ | MEapply _ -> assert false (* should be expansed in extract_env *) let pp_struct table mls = let pp_sel (mp,sel) = State.with_visibility table mp [] begin fun table -> let p = prlist_with_sep pr_comma identity (List.concat (List.map (pp_structure_elem table) sel)) in p end in str "," ++ fnl () ++ str " " ++ qs "declarations" ++ str ": [" ++ fnl () ++ str " " ++ hov 0 (prlist_with_sep pr_comma pp_sel mls) ++ fnl () ++ str " ]" ++ fnl () ++ str "}" ++ fnl () let file_naming state mp = file_of_modfile (State.get_table state) mp let json_descr = { keywords = Id.Set.empty; file_suffix = ".json"; file_naming = file_naming; preamble = preamble; pp_struct = pp_struct; sig_suffix = None; sig_preamble = (fun _ _ _ _ _ -> mt ()); pp_sig = (fun _ _ -> mt ()); pp_decl = pp_decl; }