679 lines
20 KiB
OCaml
679 lines
20 KiB
OCaml
/* The parser definition */
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%{
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open Location
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open Asttypes
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open Longident
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open Parsetree
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let mktyp d =
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{ ptyp_desc = d; ptyp_loc = symbol_loc() }
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let mkpat d =
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{ ppat_desc = d; ppat_loc = symbol_loc() }
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let mkexp d =
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{ pexp_desc = d; pexp_loc = symbol_loc() }
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let mkmty d =
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{ pmty_desc = d; pmty_loc = symbol_loc() }
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let mkmod d =
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{ pmod_desc = d; pmod_loc = symbol_loc() }
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let mkoperator name pos =
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{ pexp_desc = Pexp_ident(Lident name); pexp_loc = rhs_loc pos }
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let mkinfix arg1 name arg2 =
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mkexp(Pexp_apply(mkoperator name 2, [arg1; arg2]))
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let mkuminus name arg =
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match arg.pexp_desc with
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Pexp_constant(Const_int n) ->
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mkexp(Pexp_constant(Const_int(-n)))
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| Pexp_constant(Const_float f) ->
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mkexp(Pexp_constant(Const_float("-" ^ f)))
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| _ ->
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mkexp(Pexp_apply(mkoperator ("~" ^ name) 1, [arg]))
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let rec mklistexp = function
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[] ->
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mkexp(Pexp_construct(Lident "[]", None))
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| e1 :: el ->
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mkexp(Pexp_construct(Lident "::",
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Some(mkexp(Pexp_tuple[e1; mklistexp el]))))
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let rec mklistpat = function
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[] ->
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mkpat(Ppat_construct(Lident "[]", None))
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| p1 :: pl ->
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mkpat(Ppat_construct(Lident "::",
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Some(mkpat(Ppat_tuple[p1; mklistpat pl]))))
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let array_function str name =
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Ldot(Lident str, (if !Clflags.fast then "unsafe_" ^ name else name))
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let rec mkrangepat c1 c2 =
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if c1 > c2 then mkrangepat c2 c1 else
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if c1 = c2 then mkpat(Ppat_constant(Const_char c1)) else
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mkpat(Ppat_or(mkpat(Ppat_constant(Const_char c1)),
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mkrangepat (Char.chr(Char.code c1 + 1)) c2))
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%}
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/* Tokens */
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%token AMPERSAND
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%token AND
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%token AS
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%token BAR
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%token BARRBRACKET
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%token BEGIN
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%token <char> CHAR
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%token COLON
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%token COLONCOLON
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%token COLONEQUAL
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%token COMMA
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%token DO
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%token DONE
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%token DOT
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%token DOTDOT
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%token DOTLBRACKET
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%token DOTLPAREN
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%token DOWNTO
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%token ELSE
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%token END
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%token EOF
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%token EQUAL
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%token EXCEPTION
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%token EXTERNAL
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%token FALSE
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%token <string> FLOAT
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%token FOR
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%token FUN
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%token FUNCTION
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%token FUNCTOR
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%token IF
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%token IN
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%token INCLUDE
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%token <string> INFIXOP1
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%token <string> INFIXOP2
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%token <string> INFIXOP3
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%token <string> INFIXOP4
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%token <int> INT
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%token LBRACE
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%token LBRACKET
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%token LBRACKETBAR
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%token LESSMINUS
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%token LET
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%token <string> LIDENT
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%token LPAREN
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%token MATCH
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%token MINUSGREATER
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%token MODULE
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%token MUTABLE
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%token OF
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%token OPEN
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%token OR
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%token <string> PREFIXOP
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%token QUOTE
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%token RBRACE
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%token RBRACKET
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%token REC
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%token RPAREN
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%token SEMI
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%token SEMISEMI
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%token SHARP
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%token SIG
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%token STAR
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%token <string> STRING
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%token STRUCT
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%token <string> SUBTRACTIVE
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%token THEN
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%token TO
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%token TRUE
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%token TRY
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%token TYPE
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%token <string> UIDENT
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%token UNDERSCORE
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%token VAL
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%token WHEN
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%token WHILE
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%token WITH
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/* Precedences and associativities. Lower precedences come first. */
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%right prec_let /* let ... in ... */
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%right SEMI /* e1; e2 (sequence) */
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%right prec_fun prec_match prec_try /* match ... with ... */
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%right prec_list /* e1; e2 (list, array, record) */
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%right prec_if /* if ... then ... else ... */
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%right COLONEQUAL LESSMINUS /* assignments */
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%left AS /* as in patterns */
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%left BAR /* | in patterns */
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%left COMMA /* , in expressions, patterns, types */
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%right prec_type_arrow /* -> in type expressions */
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%right OR /* or */
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%right AMPERSAND /* & */
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%left INFIXOP1 EQUAL /* = < > etc */
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%right COLONCOLON /* :: */
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%left INFIXOP2 SUBTRACTIVE /* + - */
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%left INFIXOP3 STAR /* * / */
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%right INFIXOP4 /* ** */
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%right prec_unary_minus /* - unary */
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%left prec_appl /* function application */
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%right prec_constr_appl /* constructor application */
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%left DOT DOTLPAREN DOTLBRACKET /* record access, array access */
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%right PREFIXOP /* ! */
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/* Entry points */
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%start implementation /* for implementation files */
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%type <Parsetree.structure> implementation
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%start interface /* for interface files */
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%type <Parsetree.signature> interface
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%start toplevel_phrase /* for interactive use */
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%type <Parsetree.toplevel_phrase> toplevel_phrase
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%%
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/* Entry points */
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implementation:
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structure EOF { List.rev $1 }
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;
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interface:
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signature EOF { List.rev $1 }
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;
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toplevel_phrase:
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structure_item SEMISEMI { Ptop_def[$1] }
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| expr SEMISEMI { Ptop_def[Pstr_eval($1)] }
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| SHARP ident SEMISEMI { Ptop_dir($2, Pdir_none) }
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| SHARP ident STRING SEMISEMI { Ptop_dir($2, Pdir_string $3) }
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| SHARP ident INT SEMISEMI { Ptop_dir($2, Pdir_int $3) }
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| SHARP ident val_longident SEMISEMI { Ptop_dir($2, Pdir_ident $3) }
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| EOF { raise End_of_file }
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;
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/* Module expressions */
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module_expr:
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mod_longident
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{ mkmod(Pmod_ident $1) }
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| STRUCT structure END
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{ mkmod(Pmod_structure(List.rev $2)) }
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| FUNCTOR LPAREN UIDENT COLON module_type RPAREN MINUSGREATER module_expr
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%prec prec_fun
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{ mkmod(Pmod_functor($3, $5, $8)) }
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| module_expr module_expr %prec prec_appl
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{ mkmod(Pmod_apply($1, $2)) }
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| LPAREN module_expr COLON module_type RPAREN
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{ mkmod(Pmod_constraint($2, $4)) }
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| LPAREN module_expr RPAREN
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{ $2 }
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;
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structure:
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/* empty */ { [] }
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| structure structure_item { $2 :: $1 }
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;
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structure_item:
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LET UNDERSCORE EQUAL expr
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{ Pstr_eval $4 }
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| LET rec_flag let_bindings
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{ Pstr_value($2, List.rev $3) }
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| EXTERNAL val_ident COLON core_type EQUAL primitive_declaration
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{ Pstr_primitive($2, {pval_type = $4; pval_prim = $6}) }
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| TYPE type_declarations
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{ Pstr_type(List.rev $2) }
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| EXCEPTION UIDENT constructor_arguments
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{ Pstr_exception($2, $3) }
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| MODULE UIDENT module_binding
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{ Pstr_module($2, $3) }
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| MODULE TYPE ident EQUAL module_type
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{ Pstr_modtype($3, $5) }
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| OPEN mod_longident
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{ Pstr_open($2, rhs_loc 2) }
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;
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module_binding:
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EQUAL module_expr
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{ $2 }
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| COLON module_type EQUAL module_expr
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{ mkmod(Pmod_constraint($4, $2)) }
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| LPAREN UIDENT COLON module_type RPAREN module_binding
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{ mkmod(Pmod_functor($2, $4, $6)) }
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;
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/* Module types */
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module_type:
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mty_longident
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{ mkmty(Pmty_ident $1) }
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| SIG signature END
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{ mkmty(Pmty_signature(List.rev $2)) }
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| FUNCTOR LPAREN UIDENT COLON module_type RPAREN MINUSGREATER module_type
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%prec FUNCTOR
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{ mkmty(Pmty_functor($3, $5, $8)) }
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| module_type WITH type_declarations
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{ mkmty(Pmty_with($1, List.rev $3)) }
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| LPAREN module_type RPAREN
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{ $2 }
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;
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signature:
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/* empty */ { [] }
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| signature signature_item { $2 :: $1 }
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;
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signature_item:
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VAL val_ident COLON core_type
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{ Psig_value($2, {pval_type = $4; pval_prim = []}) }
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| EXTERNAL val_ident COLON core_type EQUAL primitive_declaration
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{ Psig_value($2, {pval_type = $4; pval_prim = $6}) }
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| TYPE type_declarations
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{ Psig_type(List.rev $2) }
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| EXCEPTION UIDENT constructor_arguments
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{ Psig_exception($2, $3) }
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| MODULE UIDENT module_declaration
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{ Psig_module($2, $3) }
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| MODULE TYPE ident
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{ Psig_modtype($3, Pmodtype_abstract) }
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| MODULE TYPE ident EQUAL module_type
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{ Psig_modtype($3, Pmodtype_manifest $5) }
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| OPEN mod_longident
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{ Psig_open($2, rhs_loc 2) }
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| INCLUDE module_type
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{ Psig_include $2 }
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;
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module_declaration:
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COLON module_type
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{ $2 }
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| LPAREN UIDENT COLON module_type RPAREN module_declaration
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{ mkmty(Pmty_functor($2, $4, $6)) }
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;
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/* Core expressions */
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expr:
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simple_expr
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{ $1 }
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| simple_expr simple_expr_list %prec prec_appl
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{ mkexp(Pexp_apply($1, List.rev $2)) }
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| LET rec_flag let_bindings IN expr %prec prec_let
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{ mkexp(Pexp_let($2, List.rev $3, $5)) }
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| FUNCTION match_cases %prec prec_fun
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{ mkexp(Pexp_function(List.rev $2)) }
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| FUN pattern fun_def %prec prec_fun
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{ mkexp(Pexp_function([$2, $3])) }
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| MATCH expr WITH match_cases %prec prec_match
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{ mkexp(Pexp_match($2, List.rev $4)) }
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| TRY expr WITH match_cases %prec prec_try
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{ mkexp(Pexp_try($2, List.rev $4)) }
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| expr_comma_list
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{ mkexp(Pexp_tuple(List.rev $1)) }
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| constr_longident simple_expr %prec prec_constr_appl
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{ mkexp(Pexp_construct($1, Some $2)) }
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| IF expr THEN expr ELSE expr %prec prec_if
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{ mkexp(Pexp_ifthenelse($2, $4, Some $6)) }
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| IF expr THEN expr %prec prec_if
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{ mkexp(Pexp_ifthenelse($2, $4, None)) }
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| expr SEMI expr
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{ mkexp(Pexp_sequence($1, $3)) }
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| WHILE expr DO expr DONE
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{ mkexp(Pexp_while($2, $4)) }
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| FOR val_ident EQUAL expr direction_flag expr DO expr DONE
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{ mkexp(Pexp_for($2, $4, $6, $5, $8)) }
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| expr COLONCOLON expr
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{ mkexp(Pexp_construct(Lident "::", Some(mkexp(Pexp_tuple[$1;$3])))) }
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| expr INFIXOP1 expr
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{ mkinfix $1 $2 $3 }
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| expr INFIXOP2 expr
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{ mkinfix $1 $2 $3 }
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| expr INFIXOP3 expr
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{ mkinfix $1 $2 $3 }
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| expr INFIXOP4 expr
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{ mkinfix $1 $2 $3 }
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| expr SUBTRACTIVE expr
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{ mkinfix $1 $2 $3 }
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| expr STAR expr
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{ mkinfix $1 "*" $3 }
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| expr EQUAL expr
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{ mkinfix $1 "=" $3 }
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| expr OR expr
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{ mkinfix $1 "or" $3 }
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| expr AMPERSAND expr
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{ mkinfix $1 "&" $3 }
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| expr COLONEQUAL expr
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{ mkinfix $1 ":=" $3 }
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| SUBTRACTIVE expr %prec prec_unary_minus
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{ mkuminus $1 $2 }
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| simple_expr DOT label_longident LESSMINUS expr
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{ mkexp(Pexp_setfield($1, $3, $5)) }
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| simple_expr DOTLPAREN expr RPAREN LESSMINUS expr
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{ mkexp(Pexp_apply(mkexp(Pexp_ident(array_function "Array" "set")),
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[$1; $3; $6])) }
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| simple_expr DOTLBRACKET expr RBRACKET LESSMINUS expr
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{ mkexp(Pexp_apply(mkexp(Pexp_ident(array_function "String" "set")),
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[$1; $3; $6])) }
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;
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simple_expr:
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val_longident
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{ mkexp(Pexp_ident $1) }
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| constant
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{ mkexp(Pexp_constant $1) }
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| constr_longident
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{ mkexp(Pexp_construct($1, None)) }
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| LPAREN expr RPAREN
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{ $2 }
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| BEGIN expr END
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{ $2 }
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| LPAREN expr COLON core_type RPAREN
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{ mkexp(Pexp_constraint($2, $4)) }
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| simple_expr DOT label_longident
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{ mkexp(Pexp_field($1, $3)) }
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| simple_expr DOTLPAREN expr RPAREN
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{ mkexp(Pexp_apply(mkexp(Pexp_ident(array_function "Array" "get")),
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[$1; $3])) }
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| simple_expr DOTLBRACKET expr RBRACKET
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{ mkexp(Pexp_apply(mkexp(Pexp_ident(array_function "String" "get")),
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[$1; $3])) }
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| LBRACE lbl_expr_list RBRACE
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{ mkexp(Pexp_record(List.rev $2)) }
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| LBRACKETBAR expr_semi_list BARRBRACKET
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{ mkexp(Pexp_array(List.rev $2)) }
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| LBRACKETBAR BARRBRACKET
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{ mkexp(Pexp_array []) }
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| LBRACKET expr_semi_list RBRACKET
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{ mklistexp(List.rev $2) }
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| PREFIXOP simple_expr
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{ mkexp(Pexp_apply(mkoperator $1 1, [$2])) }
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;
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simple_expr_list:
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simple_expr
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{ [$1] }
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| simple_expr_list simple_expr
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{ $2 :: $1 }
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;
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let_bindings:
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let_binding { [$1] }
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| let_bindings AND let_binding { $3 :: $1 }
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;
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let_binding:
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val_ident fun_binding
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{ ({ppat_desc = Ppat_var $1; ppat_loc = rhs_loc 1}, $2) }
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| let_pattern EQUAL expr
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{ ($1, $3) }
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;
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fun_binding:
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EQUAL expr %prec prec_let
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{ $2 }
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| COLON core_type EQUAL expr %prec prec_let
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{ mkexp(Pexp_constraint($4,$2)) }
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| pattern fun_binding
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{ mkexp(Pexp_function[$1,$2]) }
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;
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match_cases:
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pattern match_action { [$1, $2] }
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| match_cases BAR pattern match_action { ($3, $4) :: $1 }
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;
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fun_def:
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match_action { $1 }
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| pattern fun_def { mkexp(Pexp_function[$1,$2]) }
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;
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match_action:
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MINUSGREATER expr { $2 }
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| WHEN expr MINUSGREATER expr { mkexp(Pexp_when($2, $4)) }
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;
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expr_comma_list:
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expr_comma_list COMMA expr { $3 :: $1 }
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| expr COMMA expr { [$3; $1] }
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;
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lbl_expr_list:
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label_longident EQUAL expr %prec prec_list
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{ [$1,$3] }
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| lbl_expr_list SEMI label_longident EQUAL expr %prec prec_list
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{ ($3, $5) :: $1 }
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;
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expr_semi_list:
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expr %prec prec_list { [$1] }
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| expr_semi_list SEMI expr %prec prec_list { $3 :: $1 }
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;
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/* Patterns */
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pattern:
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val_ident
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{ mkpat(Ppat_var $1) }
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| UNDERSCORE
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{ mkpat(Ppat_any) }
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| pattern AS val_ident
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{ mkpat(Ppat_alias($1, $3)) }
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| signed_constant
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{ mkpat(Ppat_constant $1) }
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| CHAR DOTDOT CHAR
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{ mkrangepat $1 $3 }
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| pattern_comma_list
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{ mkpat(Ppat_tuple(List.rev $1)) }
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| constr_longident
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{ mkpat(Ppat_construct($1, None)) }
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| constr_longident pattern %prec prec_constr_appl
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{ mkpat(Ppat_construct($1, Some $2)) }
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| pattern COLONCOLON pattern
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{ mkpat(Ppat_construct(Lident "::", Some(mkpat(Ppat_tuple[$1;$3])))) }
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| LBRACE lbl_pattern_list RBRACE
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{ mkpat(Ppat_record(List.rev $2)) }
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| LBRACKET pattern_semi_list RBRACKET
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{ mklistpat(List.rev $2) }
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| pattern BAR pattern
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{ mkpat(Ppat_or($1, $3)) }
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| LPAREN pattern RPAREN
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{ $2 }
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| LPAREN pattern COLON core_type RPAREN
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{ mkpat(Ppat_constraint($2, $4)) }
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;
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pattern_comma_list:
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pattern_comma_list COMMA pattern { $3 :: $1 }
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| pattern COMMA pattern { [$3; $1] }
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;
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pattern_semi_list:
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pattern { [$1] }
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| pattern_semi_list SEMI pattern { $3 :: $1 }
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;
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lbl_pattern_list:
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label_longident EQUAL pattern { [($1, $3)] }
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| lbl_pattern_list SEMI label_longident EQUAL pattern { ($3, $5) :: $1 }
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;
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let_pattern:
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constr_longident
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|
{ mkpat(Ppat_construct($1, None)) }
|
|
| constr_longident pattern %prec prec_constr_appl
|
|
{ mkpat(Ppat_construct($1, Some $2)) }
|
|
| LBRACE lbl_pattern_list RBRACE
|
|
{ mkpat(Ppat_record(List.rev $2)) }
|
|
| LBRACKET pattern_semi_list RBRACKET
|
|
{ mklistpat(List.rev $2) }
|
|
| LPAREN pattern RPAREN
|
|
{ $2 }
|
|
| LPAREN pattern COLON core_type RPAREN
|
|
{ mkpat(Ppat_constraint($2, $4)) }
|
|
;
|
|
|
|
/* Primitive declarations */
|
|
|
|
primitive_declaration:
|
|
STRING { [$1] }
|
|
| STRING primitive_declaration { $1 :: $2 }
|
|
;
|
|
|
|
/* Type declarations */
|
|
|
|
type_declarations:
|
|
type_declaration { [$1] }
|
|
| type_declarations AND type_declaration { $3 :: $1 }
|
|
;
|
|
type_declaration:
|
|
type_parameters LIDENT type_kind
|
|
{ ($2, {ptype_params = $1; ptype_kind = $3; ptype_loc = symbol_loc()}) }
|
|
;
|
|
type_kind:
|
|
/*empty*/
|
|
{ Ptype_abstract }
|
|
| EQUAL core_type
|
|
{ Ptype_manifest $2 }
|
|
| EQUAL constructor_declarations
|
|
{ Ptype_variant(List.rev $2) }
|
|
| EQUAL LBRACE label_declarations RBRACE
|
|
{ Ptype_record(List.rev $3) }
|
|
;
|
|
type_parameters:
|
|
/*empty*/ { [] }
|
|
| type_parameter { [$1] }
|
|
| LPAREN type_parameter_list RPAREN { List.rev $2 }
|
|
;
|
|
type_parameter:
|
|
QUOTE ident { $2 }
|
|
;
|
|
type_parameter_list:
|
|
type_parameter { [$1] }
|
|
| type_parameter_list COMMA type_parameter { $3 :: $1 }
|
|
;
|
|
constructor_declarations:
|
|
constructor_declaration { [$1] }
|
|
| constructor_declarations BAR constructor_declaration { $3 :: $1 }
|
|
;
|
|
constructor_declaration:
|
|
constr_ident constructor_arguments { ($1, $2) }
|
|
;
|
|
constructor_arguments:
|
|
/*empty*/ { [] }
|
|
| OF core_type_list { List.rev $2 }
|
|
;
|
|
label_declarations:
|
|
label_declaration { [$1] }
|
|
| label_declarations SEMI label_declaration { $3 :: $1 }
|
|
;
|
|
label_declaration:
|
|
mutable_flag LIDENT COLON core_type { ($2, $1, $4) }
|
|
;
|
|
|
|
/* Core types */
|
|
|
|
core_type:
|
|
simple_core_type
|
|
{ $1 }
|
|
| core_type MINUSGREATER core_type %prec prec_type_arrow
|
|
{ mktyp(Ptyp_arrow($1, $3)) }
|
|
| core_type_tuple
|
|
{ mktyp(Ptyp_tuple(List.rev $1)) }
|
|
;
|
|
simple_core_type:
|
|
QUOTE ident
|
|
{ mktyp(Ptyp_var $2) }
|
|
| type_longident
|
|
{ mktyp(Ptyp_constr($1, [])) }
|
|
| simple_core_type type_longident %prec prec_constr_appl
|
|
{ mktyp(Ptyp_constr($2, [$1])) }
|
|
| LPAREN core_type_comma_list RPAREN type_longident %prec prec_constr_appl
|
|
{ mktyp(Ptyp_constr($4, List.rev $2)) }
|
|
| LPAREN core_type RPAREN
|
|
{ $2 }
|
|
;
|
|
|
|
core_type_tuple:
|
|
simple_core_type STAR simple_core_type
|
|
{ [$3; $1] }
|
|
| core_type_tuple STAR simple_core_type
|
|
{ $3 :: $1 }
|
|
;
|
|
core_type_comma_list:
|
|
core_type COMMA core_type { [$3; $1] }
|
|
| core_type_comma_list COMMA core_type { $3 :: $1 }
|
|
;
|
|
core_type_list:
|
|
simple_core_type { [$1] }
|
|
| core_type_list STAR simple_core_type { $3 :: $1 }
|
|
;
|
|
|
|
/* Constants */
|
|
|
|
constant:
|
|
INT { Const_int $1 }
|
|
| CHAR { Const_char $1 }
|
|
| STRING { Const_string $1 }
|
|
| FLOAT { Const_float $1 }
|
|
;
|
|
signed_constant:
|
|
constant { $1 }
|
|
| SUBTRACTIVE INT { Const_int(- $2) }
|
|
| SUBTRACTIVE FLOAT { Const_float("-" ^ $2) }
|
|
;
|
|
|
|
/* Identifiers and long identifiers */
|
|
|
|
ident:
|
|
UIDENT { $1 }
|
|
| LIDENT { $1 }
|
|
;
|
|
val_ident:
|
|
LIDENT { $1 }
|
|
| LPAREN operator RPAREN { $2 }
|
|
;
|
|
operator:
|
|
PREFIXOP { $1 }
|
|
| INFIXOP1 { $1 }
|
|
| INFIXOP2 { $1 }
|
|
| INFIXOP3 { $1 }
|
|
| INFIXOP4 { $1 }
|
|
| SUBTRACTIVE { $1 }
|
|
| STAR { "*" }
|
|
| EQUAL { "=" }
|
|
| OR { "or" }
|
|
| AMPERSAND { "&" }
|
|
| COLONEQUAL { ":=" }
|
|
;
|
|
constr_ident:
|
|
UIDENT { $1 }
|
|
| LBRACKET RBRACKET { "[]" }
|
|
| LPAREN RPAREN { "()" }
|
|
| COLONCOLON { "::" }
|
|
| FALSE { "false" }
|
|
| TRUE { "true" }
|
|
;
|
|
|
|
val_longident:
|
|
val_ident { Lident $1 }
|
|
| mod_longident DOT val_ident { Ldot($1, $3) }
|
|
;
|
|
constr_longident:
|
|
mod_longident { $1 }
|
|
| LBRACKET RBRACKET { Lident "[]" }
|
|
| LPAREN RPAREN { Lident "()" }
|
|
| FALSE { Lident "false" }
|
|
| TRUE { Lident "true" }
|
|
;
|
|
label_longident:
|
|
LIDENT { Lident $1 }
|
|
| mod_longident DOT LIDENT { Ldot($1, $3) }
|
|
;
|
|
type_longident:
|
|
LIDENT { Lident $1 }
|
|
| mod_longident DOT LIDENT { Ldot($1, $3) }
|
|
;
|
|
mod_longident:
|
|
UIDENT { Lident $1 }
|
|
| mod_longident DOT UIDENT { Ldot($1, $3) }
|
|
;
|
|
mty_longident:
|
|
ident { Lident $1 }
|
|
| mod_longident DOT ident { Ldot($1, $3) }
|
|
;
|
|
|
|
/* Miscellaneous */
|
|
|
|
rec_flag:
|
|
/* empty */ { Nonrecursive }
|
|
| REC { Recursive }
|
|
;
|
|
direction_flag:
|
|
TO { Upto }
|
|
| DOWNTO { Downto }
|
|
;
|
|
mutable_flag:
|
|
/* empty */ { Immutable }
|
|
| MUTABLE { Mutable }
|
|
;
|
|
|
|
%%
|