open Printf
+module Ast = CicNotationPt
+module Env = CicNotationEnv
+
exception Parse_error of Token.flocation * string
exception Level_not_found of int
-let grammar = Grammar.gcreate CicNotationLexer.notation_lexer
-
-let level1_pattern = Grammar.Entry.create grammar "level1_pattern"
-let level2_pattern = Grammar.Entry.create grammar "level2_pattern"
-let level3_term = Grammar.Entry.create grammar "level3_term"
-let l2_pattern = Grammar.Entry.create grammar "l2_pattern"
-let notation = Grammar.Entry.create grammar "notation" (* level1 <-> level 2 *)
-let interpretation =
- Grammar.Entry.create grammar "interpretation" (* level2 <-> level 3 *)
+let level1_pattern_grammar =
+ Grammar.gcreate CicNotationLexer.level1_pattern_lexer
+let level2_ast_grammar = Grammar.gcreate CicNotationLexer.level2_ast_lexer
+let level2_meta_grammar = Grammar.gcreate CicNotationLexer.level2_meta_lexer
-let return_term loc term = ()
+let min_precedence = 0
+let max_precedence = 100
-let loc_of_floc = function
- | { Lexing.pos_cnum = loc_begin }, { Lexing.pos_cnum = loc_end } ->
- (loc_begin, loc_end)
+let level1_pattern =
+ Grammar.Entry.create level1_pattern_grammar "level1_pattern"
+let level2_ast = Grammar.Entry.create level2_ast_grammar "level2_ast"
+let term = Grammar.Entry.create level2_ast_grammar "term"
+let let_defs = Grammar.Entry.create level2_ast_grammar "let_defs"
+let level2_meta = Grammar.Entry.create level2_meta_grammar "level2_meta"
-let fail floc msg =
- let (x, y) = loc_of_floc floc in
- failwith (sprintf "Error at characters %d - %d: %s" x y msg)
+let return_term loc term = ()
let int_of_string s =
try
with Failure _ ->
failwith (sprintf "Lexer failure: string_of_int \"%s\" failed" s)
-open CicNotationPt
+(** {2 Grammar extension} *)
-let boxify = function
- | [ a ] -> a
- | l -> Layout (Box (H, l))
+let gram_symbol s = Gramext.Stoken ("SYMBOL", s)
+let gram_ident s = Gramext.Stoken ("IDENT", s)
+let gram_number s = Gramext.Stoken ("NUMBER", s)
+let gram_keyword s = Gramext.Stoken ("", s)
+let gram_term = Gramext.Sself
-let fold_binder binder pt_names body =
- let fold_cluster binder names ty body =
- List.fold_right
- (fun name body -> Binder (binder, (Cic.Name name, ty), body))
- names body
+let gram_of_literal =
+ function
+ | `Symbol s -> gram_symbol s
+ | `Keyword s -> gram_keyword s
+ | `Number s -> gram_number s
+
+type binding =
+ | NoBinding
+ | Binding of string * Env.value_type
+ | Env of (string * Env.value_type) list
+
+let make_action action bindings =
+ let rec aux (vl : CicNotationEnv.t) =
+ function
+ [] -> Gramext.action (fun (loc: Ast.location) -> action vl loc)
+ | NoBinding :: tl -> Gramext.action (fun _ -> aux vl tl)
+ (* LUCA: DEFCON 5 BEGIN *)
+ | Binding (name, Env.TermType) :: tl ->
+ Gramext.action
+ (fun (v:Ast.term) ->
+ aux ((name, (Env.TermType, Env.TermValue v))::vl) tl)
+ | Binding (name, Env.StringType) :: tl ->
+ Gramext.action
+ (fun (v:string) ->
+ aux ((name, (Env.StringType, Env.StringValue v)) :: vl) tl)
+ | Binding (name, Env.NumType) :: tl ->
+ Gramext.action
+ (fun (v:string) ->
+ aux ((name, (Env.NumType, Env.NumValue v)) :: vl) tl)
+ | Binding (name, Env.OptType t) :: tl ->
+ Gramext.action
+ (fun (v:'a option) ->
+ aux ((name, (Env.OptType t, Env.OptValue v)) :: vl) tl)
+ | Binding (name, Env.ListType t) :: tl ->
+ Gramext.action
+ (fun (v:'a list) ->
+ aux ((name, (Env.ListType t, Env.ListValue v)) :: vl) tl)
+ | Env _ :: tl ->
+ Gramext.action (fun (v:CicNotationEnv.t) -> aux (v @ vl) tl)
+ (* LUCA: DEFCON 5 END *)
+ in
+ aux [] (List.rev bindings)
+
+let flatten_opt =
+ let rec aux acc =
+ function
+ [] -> List.rev acc
+ | NoBinding :: tl -> aux acc tl
+ | Env names :: tl -> aux (List.rev names @ acc) tl
+ | Binding (name, ty) :: tl -> aux ((name, ty) :: acc) tl
+ in
+ aux []
+
+ (* given a level 1 pattern computes the new RHS of "term" grammar entry *)
+let extract_term_production pattern =
+ let rec aux = function
+ | Ast.AttributedTerm (_, t) -> aux t
+ | Ast.Literal l -> aux_literal l
+ | Ast.Layout l -> aux_layout l
+ | Ast.Magic m -> aux_magic m
+ | Ast.Variable v -> aux_variable v
+ | t ->
+ prerr_endline (CicNotationPp.pp_term t);
+ assert false
+ and aux_literal =
+ function
+ | `Symbol s -> [NoBinding, gram_symbol s]
+ | `Keyword s ->
+ (* assumption: s will be registered as a keyword with the lexer *)
+ [NoBinding, gram_keyword s]
+ | `Number s -> [NoBinding, gram_number s]
+ and aux_layout = function
+ | Ast.Sub (p1, p2) -> aux p1 @ [NoBinding, gram_symbol "\\sub"] @ aux p2
+ | Ast.Sup (p1, p2) -> aux p1 @ [NoBinding, gram_symbol "\\sup"] @ aux p2
+ | Ast.Below (p1, p2) -> aux p1 @ [NoBinding, gram_symbol "\\below"] @ aux p2
+ | Ast.Above (p1, p2) -> aux p1 @ [NoBinding, gram_symbol "\\above"] @ aux p2
+ | Ast.Frac (p1, p2) -> aux p1 @ [NoBinding, gram_symbol "\\frac"] @ aux p2
+ | Ast.Atop (p1, p2) -> aux p1 @ [NoBinding, gram_symbol "\\atop"] @ aux p2
+ | Ast.Over (p1, p2) -> aux p1 @ [NoBinding, gram_symbol "\\over"] @ aux p2
+ | Ast.Root (p1, p2) ->
+ [NoBinding, gram_symbol "\\root"] @ aux p2
+ @ [NoBinding, gram_symbol "\\of"] @ aux p1
+ | Ast.Sqrt p -> [NoBinding, gram_symbol "\\sqrt"] @ aux p
+ | Ast.Break -> []
+ | Ast.Box (_, pl) -> List.flatten (List.map aux pl)
+ | Ast.Group pl -> List.flatten (List.map aux pl)
+ and aux_magic magic =
+ match magic with
+ | Ast.Opt p ->
+ let p_bindings, p_atoms, p_names, p_action = inner_pattern p in
+ let action (env_opt : CicNotationEnv.t option) (loc : Ast.location) =
+ match env_opt with
+ | Some env -> List.map Env.opt_binding_some env
+ | None -> List.map Env.opt_binding_of_name p_names
+ in
+ [ Env (List.map Env.opt_declaration p_names),
+ Gramext.srules
+ [ [ Gramext.Sopt (Gramext.srules [ p_atoms, p_action ]) ],
+ Gramext.action action ] ]
+ | Ast.List0 (p, _)
+ | Ast.List1 (p, _) ->
+ let p_bindings, p_atoms, p_names, p_action = inner_pattern p in
+(* let env0 = List.map list_binding_of_name p_names in
+ let grow_env_entry env n v =
+ List.map
+ (function
+ | (n', (ty, ListValue vl)) as entry ->
+ if n' = n then n', (ty, ListValue (v :: vl)) else entry
+ | _ -> assert false)
+ env
+ in
+ let grow_env env_i env =
+ List.fold_left
+ (fun env (n, (_, v)) -> grow_env_entry env n v)
+ env env_i
+ in *)
+ let action (env_list : CicNotationEnv.t list) (loc : Ast.location) =
+ CicNotationEnv.coalesce_env p_names env_list
+ in
+ let gram_of_list s =
+ match magic with
+ | Ast.List0 (_, None) -> Gramext.Slist0 s
+ | Ast.List1 (_, None) -> Gramext.Slist1 s
+ | Ast.List0 (_, Some l) -> Gramext.Slist0sep (s, gram_of_literal l)
+ | Ast.List1 (_, Some l) -> Gramext.Slist1sep (s, gram_of_literal l)
+ | _ -> assert false
+ in
+ [ Env (List.map Env.list_declaration p_names),
+ Gramext.srules
+ [ [ gram_of_list (Gramext.srules [ p_atoms, p_action ]) ],
+ Gramext.action action ] ]
+ | _ -> assert false
+ and aux_variable =
+ function
+ | Ast.NumVar s -> [Binding (s, Env.NumType), gram_number ""]
+ | Ast.TermVar s -> [Binding (s, Env.TermType), gram_term]
+ | Ast.IdentVar s -> [Binding (s, Env.StringType), gram_ident ""]
+ | Ast.Ascription (p, s) -> assert false (* TODO *)
+ | Ast.FreshVar _ -> assert false
+ and inner_pattern p =
+ let p_bindings, p_atoms = List.split (aux p) in
+ let p_names = flatten_opt p_bindings in
+ let action =
+ make_action (fun (env : CicNotationEnv.t) (loc : Ast.location) -> env)
+ p_bindings
+ in
+ p_bindings, p_atoms, p_names, action
+ in
+ aux pattern
+
+let level_of precedence associativity =
+ if precedence < min_precedence || precedence > max_precedence then
+ raise (Level_not_found precedence);
+ let assoc_string =
+ match associativity with
+ | Gramext.NonA -> "N"
+ | Gramext.LeftA -> "L"
+ | Gramext.RightA -> "R"
in
+ string_of_int precedence ^ assoc_string
+
+type rule_id = Token.t Gramext.g_symbol list
+
+ (* mapping: rule_id -> owned keywords. (rule_id, string list) Hashtbl.t *)
+let owned_keywords = Hashtbl.create 23
+
+let extend level1_pattern ~precedence ~associativity action =
+ let p_bindings, p_atoms =
+ List.split (extract_term_production level1_pattern)
+ in
+ let level = level_of precedence associativity in
+ let p_names = flatten_opt p_bindings in
+ let _ =
+ Grammar.extend
+ [ Grammar.Entry.obj (term: 'a Grammar.Entry.e),
+ Some (Gramext.Level level),
+ [ None,
+ Some associativity,
+ [ p_atoms,
+ (make_action
+ (fun (env: CicNotationEnv.t) (loc: Ast.location) ->
+ (action env loc))
+ p_bindings) ]]]
+ in
+ let keywords = CicNotationUtil.keywords_of_term level1_pattern in
+ let rule_id = p_atoms in
+ List.iter CicNotationLexer.add_level2_ast_keyword keywords;
+ Hashtbl.add owned_keywords rule_id keywords; (* keywords may be [] *)
+ rule_id
+
+let delete rule_id =
+ let atoms = rule_id in
+ (try
+ let keywords = Hashtbl.find owned_keywords rule_id in
+ List.iter CicNotationLexer.remove_level2_ast_keyword keywords
+ with Not_found -> assert false);
+ Grammar.delete_rule term atoms
+
+(** {2 Grammar} *)
+
+let parse_level1_pattern_ref = ref (fun _ -> assert false)
+let parse_level2_ast_ref = ref (fun _ -> assert false)
+let parse_level2_meta_ref = ref (fun _ -> assert false)
+
+let fold_cluster binder terms ty body =
+ List.fold_right
+ (fun term body -> Ast.Binder (binder, (term, ty), body))
+ terms body (* terms are names: either Ident or FreshVar *)
+
+let fold_binder binder pt_names body =
List.fold_right
(fun (names, ty) body -> fold_cluster binder names ty body)
pt_names body
-let return_term loc term = AttributedTerm (`Loc loc, term)
+let return_term loc term = Ast.AttributedTerm (`Loc loc, term)
+
+ (* create empty precedence level for "term" *)
+let _ =
+ let dummy_action =
+ Gramext.action (fun _ ->
+ failwith "internal error, lexer generated a dummy token")
+ in
+ (* Needed since campl4 on "delete_rule" remove the precedence level if it gets
+ * empty after the deletion. The lexer never generate the Stoken below. *)
+ let dummy_prod = [ [ Gramext.Stoken ("DUMMY", "") ], dummy_action ] in
+ let mk_level_list first last =
+ let rec aux acc = function
+ | i when i < first -> acc
+ | i ->
+ aux
+ ((Some (string_of_int i ^ "N"), Some Gramext.NonA, dummy_prod)
+ :: (Some (string_of_int i ^ "L"), Some Gramext.LeftA, dummy_prod)
+ :: (Some (string_of_int i ^ "R"), Some Gramext.RightA, dummy_prod)
+ :: acc)
+ (i - 1)
+ in
+ aux [] last
+ in
+ Grammar.extend
+ [ Grammar.Entry.obj (term: 'a Grammar.Entry.e),
+ None,
+ mk_level_list min_precedence max_precedence ]
-EXTEND
- GLOBAL: level1_pattern level2_pattern level3_term
- l2_pattern
- notation interpretation;
(* {{{ Grammar for concrete syntax patterns, notation level 1 *)
- level1_pattern: [ [ p = l1_pattern; EOI -> boxify p ] ];
- l1_pattern: [ [ p = LIST0 l1_simple_pattern -> p ] ];
+EXTEND
+ GLOBAL: level1_pattern;
+
+ level1_pattern: [ [ p = l1_pattern; EOI -> CicNotationUtil.boxify p ] ];
+ l1_pattern: [ [ p = LIST1 l1_simple_pattern -> p ] ];
literal: [
[ s = SYMBOL -> `Symbol s
- | k = KEYWORD -> `Keyword k
+ | k = QKEYWORD -> `Keyword k
| n = NUMBER -> `Number n
]
];
- sep: [ [ SYMBOL "\\SEP"; sep = literal -> sep ] ];
-(* row_sep: [ [ SYMBOL "\\ROWSEP"; sep = literal -> sep ] ];
- field_sep: [ [ SYMBOL "\\FIELDSEP"; sep = literal -> sep ] ]; *)
+ sep: [ [ "sep"; sep = literal -> sep ] ];
+(* row_sep: [ [ "rowsep"; sep = literal -> sep ] ];
+ field_sep: [ [ "fieldsep"; sep = literal -> sep ] ]; *)
l1_magic_pattern: [
- [ SYMBOL "\\LIST0"; p = l1_simple_pattern; sep = OPT sep -> List0 (p, sep)
- | SYMBOL "\\LIST1"; p = l1_simple_pattern; sep = OPT sep -> List1 (p, sep)
- | SYMBOL "\\OPT"; p = l1_simple_pattern -> Opt p
+ [ "list0"; p = l1_simple_pattern; sep = OPT sep -> Ast.List0 (p, sep)
+ | "list1"; p = l1_simple_pattern; sep = OPT sep -> Ast.List1 (p, sep)
+ | "opt"; p = l1_simple_pattern -> Ast.Opt p
]
];
l1_pattern_variable: [
- [ id = IDENT -> TermVar id
- | SYMBOL "\\TERM"; id = IDENT -> TermVar id
- | SYMBOL "\\NUM"; id = IDENT -> NumVar id
- | SYMBOL "\\IDENT"; id = IDENT -> IdentVar id
+ [ "term"; id = IDENT -> Ast.TermVar id
+ | "number"; id = IDENT -> Ast.NumVar id
+ | "ident"; id = IDENT -> Ast.IdentVar id
]
];
l1_simple_pattern:
[ "layout" LEFTA
- [ p1 = SELF; SYMBOL "\\SUB"; p2 = SELF ->
- return_term loc (Layout (Sub (p1, p2)))
- | p1 = SELF; SYMBOL "\\SUP"; p2 = SELF ->
- return_term loc (Layout (Sup (p1, p2)))
- | p1 = SELF; SYMBOL "\\BELOW"; p2 = SELF ->
- return_term loc (Layout (Below (p1, p2)))
- | p1 = SELF; SYMBOL "\\ABOVE"; p2 = SELF ->
- return_term loc (Layout (Above (p1, p2)))
- | SYMBOL "["; p1 = l1_pattern; SYMBOL "\\OVER"; p2 = l1_pattern;
- SYMBOL "]" ->
- return_term loc (Layout (Over (boxify p1, boxify p2)))
- | SYMBOL "["; p1 = l1_pattern; SYMBOL "\\ATOP"; p2 = l1_pattern;
- SYMBOL "]" ->
- return_term loc (Layout (Atop (boxify p1, boxify p2)))
-(* | SYMBOL "\\ARRAY"; p = SELF; csep = OPT field_sep; rsep = OPT row_sep ->
+ [ p1 = SELF; SYMBOL "\\sub"; p2 = SELF ->
+ return_term loc (Ast.Layout (Ast.Sub (p1, p2)))
+ | p1 = SELF; SYMBOL "\\sup"; p2 = SELF ->
+ return_term loc (Ast.Layout (Ast.Sup (p1, p2)))
+ | p1 = SELF; SYMBOL "\\below"; p2 = SELF ->
+ return_term loc (Ast.Layout (Ast.Below (p1, p2)))
+ | p1 = SELF; SYMBOL "\\above"; p2 = SELF ->
+ return_term loc (Ast.Layout (Ast.Above (p1, p2)))
+ | p1 = SELF; SYMBOL "\\over"; p2 = SELF ->
+ return_term loc (Ast.Layout (Ast.Over (p1, p2)))
+ | p1 = SELF; SYMBOL "\\atop"; p2 = SELF ->
+ return_term loc (Ast.Layout (Ast.Atop (p1, p2)))
+(* | "array"; p = SELF; csep = OPT field_sep; rsep = OPT row_sep ->
return_term loc (Array (p, csep, rsep)) *)
- | SYMBOL "\\FRAC"; p1 = SELF; p2 = SELF ->
- return_term loc (Layout (Frac (p1, p2)))
- | SYMBOL "\\SQRT"; p = SELF -> return_term loc (Layout (Sqrt p))
- | SYMBOL "\\ROOT"; index = l1_pattern; SYMBOL "\\OF"; arg = SELF ->
- return_term loc (Layout (Root (arg, Layout (Box (H, index)))))
- | SYMBOL "\\HBOX"; SYMBOL "["; p = l1_pattern; SYMBOL "]" ->
- return_term loc (Layout (Box (H, p)))
- | SYMBOL "\\VBOX"; SYMBOL "["; p = l1_pattern; SYMBOL "]" ->
- return_term loc (Layout (Box (V, p)))
- | SYMBOL "\\BREAK" -> return_term loc (Layout Break)
- | SYMBOL "["; p = l1_pattern; SYMBOL "]" ->
- return_term loc (boxify p)
- | SYMBOL "["; p = l1_pattern; SYMBOL "\\AS"; id = IDENT; SYMBOL "]" ->
- return_term loc (Variable (Ascription (Layout (Box (H, p)), id)))
+ | SYMBOL "\\frac"; p1 = SELF; p2 = SELF ->
+ return_term loc (Ast.Layout (Ast.Frac (p1, p2)))
+ | SYMBOL "\\sqrt"; p = SELF -> return_term loc (Ast.Layout (Ast.Sqrt p))
+ | SYMBOL "\\root"; index = SELF; SYMBOL "\\of"; arg = SELF ->
+ return_term loc (Ast.Layout (Ast.Root (arg, index)))
+ | "hbox"; LPAREN; p = l1_pattern; RPAREN ->
+ return_term loc (Ast.Layout (Ast.Box ((Ast.H, false, false), p)))
+ | "vbox"; LPAREN; p = l1_pattern; RPAREN ->
+ return_term loc (Ast.Layout (Ast.Box ((Ast.V, false, false), p)))
+ | "hvbox"; LPAREN; p = l1_pattern; RPAREN ->
+ return_term loc (Ast.Layout (Ast.Box ((Ast.HV, false, false), p)))
+ | "hovbox"; LPAREN; p = l1_pattern; RPAREN ->
+ return_term loc (Ast.Layout (Ast.Box ((Ast.HOV, false, false), p)))
+ | "break" -> return_term loc (Ast.Layout Ast.Break)
+(* | SYMBOL "\\SPACE" -> return_term loc (Layout Space) *)
+ | LPAREN; p = l1_pattern; RPAREN ->
+ return_term loc (CicNotationUtil.group p)
]
| "simple" NONA
- [ m = l1_magic_pattern -> return_term loc (Magic m)
- | v = l1_pattern_variable -> return_term loc (Variable v)
- | l = literal -> return_term loc (Literal l)
+ [ i = IDENT -> return_term loc (Ast.Variable (Ast.TermVar i))
+ | m = l1_magic_pattern -> return_term loc (Ast.Magic m)
+ | v = l1_pattern_variable -> return_term loc (Ast.Variable v)
+ | l = literal -> return_term loc (Ast.Literal l)
]
];
+ END
(* }}} *)
+
+(* {{{ Grammar for ast magics, notation level 2 *)
+EXTEND
+ GLOBAL: level2_meta;
+ l2_variable: [
+ [ "term"; id = IDENT -> Ast.TermVar id
+ | "number"; id = IDENT -> Ast.NumVar id
+ | "ident"; id = IDENT -> Ast.IdentVar id
+ | "fresh"; id = IDENT -> Ast.FreshVar id
+ | "anonymous" -> Ast.TermVar "_"
+ | id = IDENT -> Ast.TermVar id
+ ]
+ ];
+ l2_magic: [
+ [ "fold"; kind = [ "left" -> `Left | "right" -> `Right ];
+ base = level2_meta; "rec"; id = IDENT; recursive = level2_meta ->
+ Ast.Fold (kind, base, [id], recursive)
+ | "default"; some = level2_meta; none = level2_meta ->
+ Ast.Default (some, none)
+ | "if"; p_test = level2_meta;
+ "then"; p_true = level2_meta;
+ "else"; p_false = level2_meta ->
+ Ast.If (p_test, p_true, p_false)
+ | "fail" -> Ast.Fail
+ ]
+ ];
+ level2_meta: [
+ [ magic = l2_magic -> Ast.Magic magic
+ | var = l2_variable -> Ast.Variable var
+ | blob = UNPARSED_AST -> !parse_level2_ast_ref (Stream.of_string blob)
+ ]
+ ];
+END
+(* }}} *)
+
(* {{{ Grammar for ast patterns, notation level 2 *)
- level2_pattern: [ [ p = l2_pattern; EOI -> p ] ];
+EXTEND
+ GLOBAL: level2_ast term let_defs;
+ level2_ast: [ [ p = term -> p ] ];
sort: [
- [ SYMBOL "\\PROP" -> `Prop
- | SYMBOL "\\SET" -> `Set
- | SYMBOL "\\TYPE" -> `Type
+ [ "Prop" -> `Prop
+ | "Set" -> `Set
+ | "Type" -> `Type
+ | "CProp" -> `CProp
]
];
explicit_subst: [
- [ (* TODO explicit substitution *)
+ [ SYMBOL "\\subst"; (* to avoid catching frequent "a [1]" cases *)
+ SYMBOL "[";
+ substs = LIST1 [
+ i = IDENT; SYMBOL <:unicode<Assign>> (* ≔ *); t = term -> (i, t)
+ ] SEP SYMBOL ";";
+ SYMBOL "]" ->
+ substs
]
];
meta_subst: [
- [ (* TODO meta substitution *)
- ]
+ [ s = SYMBOL "_" -> None
+ | p = term -> Some p ]
+ ];
+ meta_substs: [
+ [ SYMBOL "["; substs = LIST0 meta_subst; SYMBOL "]" -> substs ]
];
possibly_typed_name: [
- [ SYMBOL "("; id = IDENT; SYMBOL ":"; typ = l2_pattern; SYMBOL ")" ->
- Cic.Name id, Some typ
- | id = IDENT -> Cic.Name id, None
+ [ LPAREN; id = single_arg; SYMBOL ":"; typ = term; RPAREN ->
+ id, Some typ
+ | arg = single_arg -> arg, None
]
];
match_pattern: [
- [ id = IDENT -> id, []
- | SYMBOL "("; id = IDENT; vars = LIST1 possibly_typed_name; SYMBOL ")" ->
- id, vars
+ [ id = IDENT -> id, None, []
+ | LPAREN; id = IDENT; vars = LIST1 possibly_typed_name; RPAREN ->
+ id, None, vars
]
];
binder: [
| SYMBOL <:unicode<lambda>> (* λ *) -> `Lambda
]
];
- bound_names: [
- [ vars = LIST1 IDENT SEP SYMBOL ",";
- ty = OPT [ SYMBOL ":"; p = l2_pattern -> p ] ->
- [ vars, ty ]
- | clusters = LIST1 [
- SYMBOL "(";
- vars = LIST1 IDENT SEP SYMBOL ",";
- ty = OPT [ SYMBOL ":"; p = l2_pattern -> p ];
- SYMBOL ")" ->
- vars, ty
- ] ->
- clusters
+ arg: [
+ [ LPAREN; names = LIST1 IDENT SEP SYMBOL ",";
+ SYMBOL ":"; ty = term; RPAREN ->
+ List.map (fun n -> Ast.Ident (n, None)) names, Some ty
+ | name = IDENT -> [Ast.Ident (name, None)], None
+ | blob = UNPARSED_META ->
+ let meta = !parse_level2_meta_ref (Stream.of_string blob) in
+ match meta with
+ | Ast.Variable (Ast.FreshVar _) -> [meta], None
+ | Ast.Variable (Ast.TermVar "_") -> [Ast.Ident ("_", None)], None
+ | _ -> failwith "Invalid bound name."
+ ]
+ ];
+ single_arg: [
+ [ name = IDENT -> Ast.Ident (name, None)
+ | blob = UNPARSED_META ->
+ let meta = !parse_level2_meta_ref (Stream.of_string blob) in
+ match meta with
+ | Ast.Variable (Ast.FreshVar _) -> meta
+ | Ast.Variable (Ast.TermVar "_") -> Ast.Ident ("_", None)
+ | _ -> failwith "Invalid index name."
]
];
induction_kind: [
- [ IDENT "rec" -> `Inductive
- | IDENT "corec" -> `CoInductive
+ [ "rec" -> `Inductive
+ | "corec" -> `CoInductive
]
];
let_defs: [
[ defs = LIST1 [
- name = IDENT; args = bound_names;
- index_name = OPT [ IDENT "on"; id = IDENT -> id ];
- ty = OPT [ SYMBOL ":" ; p = l2_pattern -> p ];
- SYMBOL <:unicode<def>> (* ≝ *); body = l2_pattern ->
+ name = single_arg;
+ args = LIST1 arg;
+ index_name = OPT [ "on"; id = single_arg -> id ];
+ ty = OPT [ SYMBOL ":" ; p = term -> p ];
+ SYMBOL <:unicode<def>> (* ≝ *); body = term ->
let body = fold_binder `Lambda args body in
let ty =
match ty with
| _ :: tl -> position_of name (p + 1) tl
in
let rec find_arg name n = function
- | [] -> fail loc (sprintf "Argument %s not found" name)
+ | [] ->
+ Ast.fail loc (sprintf "Argument %s not found"
+ (CicNotationPp.pp_term name))
| (l,_) :: tl ->
(match position_of name 0 l with
| None, len -> find_arg name (n + len) tl
let index =
match index_name with
| None -> 0
- | Some name -> find_arg name 0 args
+ | Some index_name -> find_arg index_name 0 args
in
- (Cic.Name name, ty), body, index
- ] SEP IDENT "and" ->
+ (name, ty), body, index
+ ] SEP "and" ->
defs
]
];
- l2_pattern_variable: [
- [ SYMBOL "\\NUM"; id = IDENT -> NumVar id
- | SYMBOL "\\IDENT"; id = IDENT -> IdentVar id
- | SYMBOL "\\FRESH"; id = IDENT -> FreshVar id
+ binder_vars: [
+ [ vars = [
+ l = LIST1 single_arg SEP SYMBOL "," -> l
+ | SYMBOL "_" -> [Ast.Ident ("_", None)] ];
+ typ = OPT [ SYMBOL ":"; t = term -> t ] -> (vars, typ)
+ | LPAREN;
+ vars = [
+ l = LIST1 single_arg SEP SYMBOL "," -> l
+ | SYMBOL "_" -> [Ast.Ident ("_", None)] ];
+ typ = OPT [ SYMBOL ":"; t = term -> t ];
+ RPAREN -> (vars, typ)
]
];
- l2_magic_pattern: [
- [ SYMBOL "\\FOLD";
- kind = [ IDENT "left" -> `Left | IDENT "right" -> `Right ];
- base = l2_pattern;
- SYMBOL "\\LAMBDA"; id = IDENT; recursive = l2_pattern ->
- Fold (kind, base, [id], recursive)
- | SYMBOL "\\DEFAULT"; some = l2_pattern; none = l2_pattern ->
- Default (some, none)
+ term: LEVEL "10N" [ (* let in *)
+ [ "let"; var = possibly_typed_name; SYMBOL <:unicode<def>> (* ≝ *);
+ p1 = term; "in"; p2 = term ->
+ return_term loc (Ast.LetIn (var, p1, p2))
+ | "let"; k = induction_kind; defs = let_defs; "in";
+ body = term ->
+ return_term loc (Ast.LetRec (k, defs, body))
]
];
- l2_pattern:
- [ "0" [ ]
- | "10" NONA (* let in *)
- [ IDENT "let"; var = possibly_typed_name; SYMBOL <:unicode<def>> (* ≝ *);
- p1 = l2_pattern; "in"; p2 = l2_pattern ->
- return_term loc (LetIn (var, p1, p2))
- | IDENT "let"; k = induction_kind; defs = let_defs; IDENT "in";
- body = l2_pattern ->
- return_term loc (LetRec (k, defs, body))
- ]
- | "20" RIGHTA (* binder *)
- [ b = binder; names = bound_names; SYMBOL "."; body = l2_pattern ->
- return_term loc (fold_binder b names body)
+ term: LEVEL "20R" (* binder *)
+ [
+ [ b = binder; (vars, typ) = binder_vars; SYMBOL "."; body = term ->
+ return_term loc (fold_cluster b vars typ body)
]
- | "30" [ ]
- | "40" [ ]
- | "50" [ ]
- | "60" [ ]
- | "70" LEFTA (* apply *)
- [ p1 = l2_pattern; p2 = l2_pattern ->
+ ];
+ term: LEVEL "70L" (* apply *)
+ [
+ [ p1 = term; p2 = term ->
let rec aux = function
- | Appl (hd :: tl)
- | AttributedTerm (_, Appl (hd :: tl)) ->
+ | Ast.Appl (hd :: tl)
+ | Ast.AttributedTerm (_, Ast.Appl (hd :: tl)) ->
aux hd @ tl
| term -> [term]
in
- return_term loc (Appl (aux p1 @ [p2]))
+ return_term loc (Ast.Appl (aux p1 @ [p2]))
]
- | "80" [ ]
- | "90" NONA (* simple *)
- [ id = IDENT -> return_term loc (Ident (id, None))
- | id = IDENT; s = explicit_subst -> return_term loc (Ident (id, Some s))
- | u = URI -> return_term loc (Uri (u, None))
- | n = NUMBER -> prerr_endline "number"; return_term loc (Num (n, 0))
- | IMPLICIT -> return_term loc (Implicit)
- | m = META -> return_term loc (Meta (int_of_string m, []))
- | m = META; s = meta_subst -> return_term loc (Meta (int_of_string m, s))
- | s = sort -> return_term loc (Sort s)
- | outtyp = OPT [ SYMBOL "["; ty = l2_pattern; SYMBOL "]" -> ty ];
- IDENT "match"; t = l2_pattern;
- indty_ident = OPT [ SYMBOL ":"; id = IDENT -> id ];
- IDENT "with"; SYMBOL "[";
+ ];
+ term: LEVEL "90N" (* simple *)
+ [
+ [ id = IDENT -> return_term loc (Ast.Ident (id, None))
+ | id = IDENT; s = explicit_subst ->
+ return_term loc (Ast.Ident (id, Some s))
+ | s = CSYMBOL -> return_term loc (Ast.Symbol (s, 0))
+ | u = URI -> return_term loc (Ast.Uri (u, None))
+ | n = NUMBER -> return_term loc (Ast.Num (n, 0))
+ | IMPLICIT -> return_term loc (Ast.Implicit)
+ | PLACEHOLDER -> return_term loc Ast.UserInput
+ | m = META -> return_term loc (Ast.Meta (int_of_string m, []))
+ | m = META; s = meta_substs ->
+ return_term loc (Ast.Meta (int_of_string m, s))
+ | s = sort -> return_term loc (Ast.Sort s)
+ | outtyp = OPT [ SYMBOL "["; ty = term; SYMBOL "]" -> ty ];
+ "match"; t = term;
+ indty_ident = OPT [ "in"; id = IDENT -> id, None ];
+ "with"; SYMBOL "[";
patterns = LIST0 [
lhs = match_pattern; SYMBOL <:unicode<Rightarrow>> (* ⇒ *);
- rhs = l2_pattern ->
+ rhs = term ->
lhs, rhs
] SEP SYMBOL "|";
SYMBOL "]" ->
- return_term loc (Case (t, indty_ident, outtyp, patterns))
- | SYMBOL "("; p1 = l2_pattern; SYMBOL ":"; p2 = l2_pattern; SYMBOL ")" ->
- return_term loc (Appl [ Symbol ("cast", 0); p1; p2 ])
- | SYMBOL "("; p = l2_pattern; SYMBOL ")" -> p
- | v = l2_pattern_variable -> return_term loc (Variable v)
- | m = l2_magic_pattern -> return_term loc (Magic m)
+ return_term loc (Ast.Case (t, indty_ident, outtyp, patterns))
+ | LPAREN; p1 = term; SYMBOL ":"; p2 = term; RPAREN ->
+ return_term loc (Ast.Cast (p1, p2))
+ | LPAREN; p = term; RPAREN -> p
+ | blob = UNPARSED_META -> !parse_level2_meta_ref (Stream.of_string blob)
]
- | "100" [ ]
];
-(* }}} *)
-(* {{{ Grammar for interpretation, notation level 3 *)
- argument: [
- [ id = IDENT -> IdentArg id
- | SYMBOL <:unicode<eta>> (* η *); SYMBOL "."; a = SELF -> EtaArg (None, a)
- | SYMBOL <:unicode<eta>> (* η *); id = IDENT; SYMBOL "."; a = SELF ->
- EtaArg (Some id, a)
- ]
- ];
- level3_term: [
- [ u = URI -> UriPattern u
- | a = argument -> ArgPattern a
- | SYMBOL "("; terms = LIST1 SELF; SYMBOL ")" ->
- (match terms with
- | [] -> assert false
- | [term] -> term
- | terms -> ApplPattern terms)
- ]
- ];
-(* }}} *)
-(* {{{ Notation glues *)
- associativity: [
- [ IDENT "left"; IDENT "associative" -> `Left
- | IDENT "right"; IDENT "associative" -> `Right
- ]
- ];
- precedence: [ [ IDENT "at"; IDENT "precedence"; n = NUMBER -> n ] ];
- notation: [
- [ IDENT "notation"; p1 = level1_pattern; IDENT "for"; p2 = level2_pattern;
- assoc = OPT associativity; prec = OPT precedence ->
- ()
- ]
- ];
- interpretation: [
- [ IDENT "interpretation"; s = SYMBOL; args = LIST1 argument; IDENT "as";
- t = level3_term ->
- ()
- ]
- ];
-(* }}} *)
END
+(* }}} *)
+
+(** {2 API implementation} *)
let exc_located_wrapper f =
try
| Stdpp.Exc_located (floc, exn) ->
raise (Parse_error (floc, (Printexc.to_string exn)))
-let parse_syntax_pattern stream =
+let parse_level1_pattern stream =
exc_located_wrapper (fun () -> Grammar.Entry.parse level1_pattern stream)
+let parse_level2_ast stream =
+ exc_located_wrapper (fun () -> Grammar.Entry.parse level2_ast stream)
+let parse_level2_meta stream =
+ exc_located_wrapper (fun () -> Grammar.Entry.parse level2_meta stream)
-let parse_ast_pattern stream =
- exc_located_wrapper (fun () -> Grammar.Entry.parse level2_pattern stream)
-
-let parse_interpretation stream =
- exc_located_wrapper (fun () -> Grammar.Entry.parse level3_term stream)
-
-(** {2 Grammar extension} *)
-
-type associativity_kind = [ `Left | `Right | `None ]
-
-let symbol s = Gramext.Stoken ("SYMBOL", s)
-let ident s = Gramext.Stoken ("IDENT", s)
-let number s = Gramext.Stoken ("NUMBER", s)
-let term = Gramext.Sself
-
-type env_type = (string * (value_type * value)) list
-
-type binding =
- | NoBinding
- | Binding of string * value_type
- | Env
-
-let rec pp_value =
- function
- | TermValue _ -> "@TERM@"
- | StringValue s -> sprintf "\"%s\"" s
- | NumValue n -> n
- | OptValue (Some v) -> "Some " ^ pp_value v
- | OptValue None -> "None"
- | ListValue l -> sprintf "[%s]" (String.concat "; " (List.map pp_value l))
-
-let rec pp_value_type =
- function
- | TermType -> "Term"
- | StringType -> "String"
- | NumType -> "Number"
- | OptType t -> "Maybe " ^ pp_value_type t
- | ListType l -> "List " ^ pp_value_type l
-
-let pp_env env =
- String.concat "; "
- (List.map
- (fun (name, (ty, value)) ->
- sprintf "%s : %s = %s" name (pp_value_type ty) (pp_value value))
- env)
-
-let make_action action bindings =
- let rec aux (vl : env_type) =
- function
- [] ->
- prerr_endline "aux: make_action";
- Gramext.action (fun (loc: location) -> action vl loc)
- | NoBinding :: tl ->
- prerr_endline "aux: none";
- Gramext.action (fun _ -> aux vl tl)
- (* LUCA: DEFCON 3 BEGIN *)
- | Binding (name, TermType) :: tl ->
- prerr_endline "aux: term";
- Gramext.action
- (fun (v:term) -> aux ((name, (TermType, (TermValue v)))::vl) tl)
- | Binding (name, StringType) :: tl ->
- prerr_endline "aux: string";
- Gramext.action
- (fun (v:string) ->
- aux ((name, (StringType, (StringValue v))) :: vl) tl)
- | Binding (name, NumType) :: tl ->
- prerr_endline "aux: num";
- Gramext.action
- (fun (v:string) -> aux ((name, (NumType, (NumValue v))) :: vl) tl)
- | Binding (name, OptType t) :: tl ->
- prerr_endline "aux: opt";
- Gramext.action
- (fun (v:'a option) ->
- aux ((name, (OptType t, (OptValue v))) :: vl) tl)
- | Binding (name, ListType t) :: tl ->
- prerr_endline "aux: list";
- Gramext.action
- (fun (v:'a list) ->
- aux ((name, (ListType t, (ListValue v))) :: vl) tl)
- | Env :: tl ->
- prerr_endline "aux: env";
- Gramext.action (fun (v:env_type) -> aux (v @ vl) tl)
- (* LUCA: DEFCON 3 END *)
- in
- aux [] (List.rev bindings)
-
-let flatten_opt =
- let rec aux acc =
- function
- [] -> List.rev acc
- | (NoBinding | Env) :: tl -> aux acc tl
- | Binding (name, ty) :: tl -> aux ((name, ty) :: acc) tl
- in
- aux []
-
- (* given a level 1 pattern computes the new RHS of "term" grammar entry *)
-let extract_term_production pattern =
- let rec aux = function
- | Literal l -> aux_literal l
- | Layout l -> aux_layout l
- | Magic m -> aux_magic m
- | Variable v -> aux_variable v
- | _ -> assert false
- and aux_literal =
- function
- | `Symbol s -> [NoBinding, symbol s]
- | `Keyword s -> [NoBinding, ident s]
- | `Number s -> [NoBinding, number s]
- and aux_layout = function
- | Sub (p1, p2) -> aux p1 @ [NoBinding, symbol "\\SUB"] @ aux p2
- | Sup (p1, p2) -> aux p1 @ [NoBinding, symbol "\\SUP"] @ aux p2
- | Below (p1, p2) -> aux p1 @ [NoBinding, symbol "\\BELOW"] @ aux p2
- | Above (p1, p2) -> aux p1 @ [NoBinding, symbol "\\ABOVE"] @ aux p2
- | Frac (p1, p2) -> aux p1 @ [NoBinding, symbol "\\FRAC"] @ aux p2
- | Atop (p1, p2) -> aux p1 @ [NoBinding, symbol "\\ATOP"] @ aux p2
- | Over (p1, p2) -> aux p1 @ [NoBinding, symbol "\\OVER"] @ aux p2
- | Root (p1, p2) ->
- [NoBinding, symbol "\\ROOT"] @ aux p2 @ [NoBinding, symbol "\\OF"]
- @ aux p1
- | Sqrt p -> [NoBinding, symbol "\\SQRT"] @ aux p
- | Break -> []
- | Box (_, pl) -> List.flatten (List.map aux pl)
- and aux_magic = function
- | Opt p ->
- let p_bindings, p_atoms = List.split (aux p) in
- let p_names = flatten_opt p_bindings in
- [ Env,
- Gramext.srules
- [ [ Gramext.Sopt
- (Gramext.srules
- [ p_atoms,
- (make_action
- (fun (env : env_type) (loc : location) ->
- prerr_endline "inner opt action";
- env)
- p_bindings)])],
- Gramext.action
- (fun (env_opt : env_type option) (loc : location) ->
- Printf.printf "|p_names|=%d\n" (List.length p_names) ;
- flush stdout ;
- match env_opt with
- Some env ->
- Printf.printf "|env|=%d\n" (List.length env) ;
- flush stdout ;
- prerr_endline "opt action (Some _)";
- List.map
- (fun (name, (typ, v)) ->
- (name, (OptType typ, OptValue (Some v))))
- env
- | None ->
- prerr_endline "opt action (None)";
- List.map
- (fun (name, typ) ->
- (name, (OptType typ, OptValue None)))
- p_names) ]]
- | _ -> assert false
- and aux_variable =
- function
- | NumVar s -> [Binding (s, NumType), number ""]
- | TermVar s -> [Binding (s, TermType), term]
- | IdentVar s -> [Binding (s, StringType), ident ""]
- | Ascription (p, s) -> assert false (* TODO *)
- | FreshVar _ -> assert false
- in
- aux pattern
-
-let level_of_int precedence =
- (* TODO "mod" test to be removed as soon as we add all 100 levels *)
- if precedence mod 10 <> 0 || precedence < 0 || precedence > 100 then
- raise (Level_not_found precedence);
- string_of_int precedence
-
-type rule_id = Token.t Gramext.g_symbol list
-
-let extend level1_pattern ?(precedence = 0) ?associativity action =
- let p_bindings, p_atoms =
- List.split (extract_term_production level1_pattern)
- in
- let level = level_of_int precedence in
- let p_names = flatten_opt p_bindings in
- let entry = Grammar.Entry.obj (l2_pattern: 'a Grammar.Entry.e) in
- let _ =
- prerr_endline (string_of_int (List.length p_bindings));
- Grammar.extend
- [ entry, Some (Gramext.Level level),
- [ Some level, (* TODO should we put None here? *)
- associativity,
- [ p_atoms,
- (make_action
- (fun (env: env_type) (loc: location) -> (action env loc))
- p_bindings) ]]]
- in
- p_atoms
+let _ =
+ parse_level1_pattern_ref := parse_level1_pattern;
+ parse_level2_ast_ref := parse_level2_ast;
+ parse_level2_meta_ref := parse_level2_meta
-let delete atoms = Grammar.delete_rule l2_pattern atoms
+(** {2 Debugging} *)
let print_l2_pattern () =
- Grammar.print_entry Format.std_formatter (Grammar.Entry.obj l2_pattern);
+ Grammar.print_entry Format.std_formatter (Grammar.Entry.obj term);
Format.pp_print_flush Format.std_formatter ();
flush stdout