4d5cc091d7
Add with syntax on AST, parsetrees, parsers and printers
315 lines
8.1 KiB
OCaml
315 lines
8.1 KiB
OCaml
%{
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open Signature
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open Names
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open Idents
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open Types
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open Clocks
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open Location
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open Minils
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open Mls_parsetree
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open Mls_utils
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%}
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%token DOT LPAREN RPAREN LBRACE RBRACE COLON SEMICOL
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%token EQUAL EQUALEQUAL BARBAR COMMA BAR LET TEL CONST
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%token <string> CONSTRUCTOR
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%token <string> NAME
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%token <int> INT
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%token <float> FLOAT
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%token <bool> BOOL
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%token TYPE NODE RETURNS VAR OPEN
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%token FBY PRE WHEN
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%token OR STAR NOT
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%token AMPERSAND
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%token AMPERAMPER
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%token RESET
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%token IF THEN ELSE
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%token DOUBLE_LESS DOUBLE_GREATER
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%token ARROW
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%token MERGE
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%token POWER
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%token AROBASE
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%token WITH
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%token DOTDOT
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%token BASE UNDERSCORE ON COLONCOLON
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%token DEFAULT
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%token LBRACKET RBRACKET
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%token MAP FOLD MAPFOLD
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%token <string> PREFIX
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%token <string> INFIX0
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%token <string> INFIX1
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%token <string> INFIX2
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%token <string> SUBTRACTIVE
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%token <string> INFIX3
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%token <string> INFIX4
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%token EOF
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%right AROBASE
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%nonassoc DEFAULT
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%left ELSE
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%left OR
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%left AMPERSAND
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%left INFIX0 EQUAL
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%right INFIX1 EQUALEQUAL BARBAR AMPERAMPER
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%left INFIX2 prefixs
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%left STAR INFIX3
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%left INFIX4
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%left WHEN
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%right FBY
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%right PRE
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%right POWER
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%start program
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%type <Mls_parsetree.program> program
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%%
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/** Tools **/
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%inline slist(S, x) : l=separated_list(S, x) {l}
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%inline snlist(S, x) : l=separated_nonempty_list(S, x) {l}
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%inline tuple(x) : LPAREN h=x COMMA t=snlist(COMMA,x) RPAREN { h::t }
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%inline option(P,x):
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|/* empty */ { None }
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| P v=x { Some(v) }
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qualified(x) :
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| n=x { Modules.qualname n }
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| m=CONSTRUCTOR DOT n=x { { qual = m; name = n } }
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structure(field): LBRACE s=snlist(SEMICOL,field) RBRACE {s}
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localize(x): y=x { y, (Loc($startpos(y),$endpos(y))) }
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program:
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| o=open_modules c=const_decs t=type_decs n=node_decs EOF
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{ mk_program o n t c }
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open_modules: l=list(opens) {l}
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opens: OPEN c=CONSTRUCTOR {c}
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const_decs: c=list(const_dec) {c}
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const_dec:
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| CONST n=qualname COLON t=type_ident EQUAL e=const
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{ mk_const_dec n t e (Loc($startpos,$endpos)) }
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name: n=NAME | LPAREN n=infix RPAREN | LPAREN n=prefix RPAREN { n }
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qualname: n=name { Modules.qualname n }
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field_type : n=qualname COLON t=type_ident { mk_field n t }
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type_ident: qualname { Tid($1) }
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type_decs: t=list(type_dec) {t}
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type_dec:
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| TYPE n=qualname
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{ mk_type_dec Type_abs n (Loc ($startpos,$endpos)) }
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| TYPE n=qualname EQUAL e=snlist(BAR,constructor)
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{ mk_type_dec (Type_enum e) n (Loc ($startpos,$endpos)) }
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| TYPE n=qualname EQUAL s=structure(field_type)
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{ mk_type_dec (Type_struct s) n (Loc ($startpos,$endpos)) }
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node_decs: ns=list(node_dec) {ns}
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node_dec:
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NODE n=qualname p=params(n_param) LPAREN args=args RPAREN
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RETURNS LPAREN out=args RPAREN
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contract=contract vars=loc_vars eqs=equs
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{ mk_node p args out vars eqs
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~loc:(Loc ($startpos,$endpos))
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~contract:contract
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n }
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contract:
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| /* empty */ {None}
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| CONTRACT
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locvars=loc_vars
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eqs=opt_equs
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assume=opt_assume
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enforce=opt_enforce
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withvar=opt_with
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{ Some{ c_local=locvars;
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c_equs=eqs;
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c_assume = assume;
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c_enforce = enforce;
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c_controllables = withvar } }
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;
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opt_assume:
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| /* empty */ { mk_constructor_exp ptrue (Loc($startpos,$endpos)) }
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| ASSUME exp { $2 }
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;
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opt_enforce:
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| /* empty */ { mk_constructor_exp ptrue (Loc($startpos,$endpos)) }
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| ENFORCE exp { $2 }
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;
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opt_with:
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| /* empty */ { [] }
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| WITH LPAREN params RPAREN { $3 }
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;
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args_t: SEMICOL p=args {p}
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args:
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| /* empty */ { [] }
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| h=var t=loption(args_t) {h@t}
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loc_vars_t:
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| /*empty */ { [] }
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| SEMICOL { [] }
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| SEMICOL h=var t=loc_vars_t {h@t}
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loc_vars_h: VAR h=var t=loc_vars_t {h@t}
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loc_vars: l=loption(loc_vars_h) {l}
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ck_base: | UNDERSCORE | BASE {}
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ck:
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| ck_base { Cbase }
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| ck=ck ON c=constructor LPAREN x=NAME RPAREN { Con (ck, c, x) }
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clock_annot:
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| /*empty*/ { Cbase }
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| COLONCOLON c=ck { c }
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var:
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| ns=snlist(COMMA, NAME) COLON t=type_ident c=clock_annot
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{ List.map (fun n -> mk_var_dec n t c (Loc ($startpos,$endpos))) ns }
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opt_equs:
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| /* empty */ { [] }
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| LET e=slist(SEMICOL, equ) TEL { e }
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equs: LET e=slist(SEMICOL, equ) TEL { e }
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equ: p=pat EQUAL e=exp { mk_equation p e (Loc ($startpos,$endpos)) }
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pat:
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| n=NAME {Evarpat n}
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| LPAREN p=snlist(COMMA, pat) RPAREN {Etuplepat p}
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longname: l=qualified(name) {l}
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constructor: /* of type longname */
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| ln=qualified(CONSTRUCTOR) { ln }
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| b=BOOL { if b then Initial.ptrue else Initial.pfalse }
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field:
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| c=constructor { mk_constructor_exp c (Loc($startpos,$endpos))}
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const: c=_const { mk_static_exp ~loc:(Loc ($startpos,$endpos)) c }
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_const:
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| i=INT { Sint i }
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| f=FLOAT { Sfloat f }
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| c=constructor { Sconstructor c }
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exps: LPAREN e=slist(COMMA, exp) RPAREN {e}
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field_exp: longname EQUAL exp { ($1, $3) }
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simple_exp:
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| e=_simple_exp {mk_exp e (Loc ($startpos,$endpos)) }
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_simple_exp:
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| n=NAME { Evar n }
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| s=structure(field_exp) { Estruct s }
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| t=tuple(exp_woc) { mk_call [] Etuple t None }
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| t=tuple(const)
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{Econst (mk_static_exp ~loc:(Loc ($startpos,$endpos)) (Stuple t))}
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| LBRACKET es=slist(COMMA, exp) RBRACKET { mk_call [] Earray es None }
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| LPAREN e=_exp RPAREN { e }
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exp:
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| e=simple_exp { e }
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| e=_exp { mk_exp e (Loc ($startpos,$endpos)) }
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exp_woc:
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| e=simple_exp { e }
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| e=_exp_woc { mk_exp e (Loc ($startpos,$endpos)) }
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_exp:
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| e=_exp_woc {e}
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| c=const { Econst c }
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_exp_woc:
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| v=exp FBY e=exp { Efby(Some(v), e) }
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| PRE exp { Efby(None,$2) }
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| app=funapp a=exps r=reset { Eapp(app, a, r) }
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| e1=exp i_op=infix e2=exp
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{ mk_op_call i_op [e1; e2] }
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| p_op=prefix e=exp %prec prefixs
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{ mk_op_call p_op [e] }
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| IF e1=exp THEN e2=exp ELSE e3=exp
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{ mk_call [] Eifthenelse [e1; e2; e3] None }
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| e=simple_exp DOT f=field
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{ mk_call [f] Efield [e] None }
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| e=exp WHEN c=constructor LPAREN n=name RPAREN { Ewhen(e, c, n) }
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| MERGE n=name h=handlers { Emerge(n, h) }
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| LPAREN r=exp WITH DOT f=field EQUAL nv=exp
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{ mk_call [f] Efield_update [r; nv] None }
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| e=exp POWER p=e_param
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{ mk_call [p] Earray_fill [e] None }
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| e=simple_exp i=indexes(exp) /* not e_params to solve conflicts */
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{ mk_call i Eselect [e] None }
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| e=simple_exp i=indexes(exp) DEFAULT d=exp
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{ mk_call [] Eselect_dyn ([e; d]@i) None }
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| LPAREN e=exp WITH i=indexes(e_param) EQUAL nv=exp
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{ mk_call i Eupdate [e; nv] None }
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| e=simple_exp LBRACKET i1=e_param DOTDOT i2=e_param RBRACKET
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{ mk_call [i1; i2] Eselect_slice [e] None }
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| e1=exp AROBASE e2=exp { mk_call [] Econcat [e1;e2] None }
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| LPAREN f=iterator LPAREN op=funapp RPAREN
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DOUBLE_LESS p=e_param DOUBLE_GREATER
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RPAREN a=exps r=reset { Eiterator(f,op,p,a,r) }
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/* Static indexes [p1][p2]... */
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indexes(param): is=nonempty_list(index(param)) { is }
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index(param): LBRACKET p=param RBRACKET { p }
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/* Merge handlers ( B -> e ) ( C -> ec )... */
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handlers: hs=nonempty_list(handler) { hs }
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handler: LPAREN c=constructor ARROW e=exp RPAREN { c,e }
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iterator:
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| MAP { Imap }
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| FOLD { Ifold }
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| MAPFOLD { Imapfold }
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reset: r=option(RESET,name) { r }
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funapp: ln=longname p=params(e_param) { mk_app p (Enode ln) }
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/* inline so that precendance of POWER is respected in exp */
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%inline e_param: e=exp { e }
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n_param: n=NAME COLON ty=type_ident { mk_param n ty }
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params(param):
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| /*empty*/ { [] }
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| DOUBLE_LESS p=slist(COMMA, param) DOUBLE_GREATER { p }
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/*Inlining is compulsory in order to preserve priorities*/
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%inline infix:
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| op=INFIX0 | op=INFIX1 | op=INFIX2 | op=INFIX3 | op=INFIX4 { op }
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| STAR { "*" }
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| EQUAL { "=" }
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| EQUALEQUAL { "==" }
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| AMPERSAND { "&" } | AMPERAMPER { "&&" }
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| OR { "or" } | BARBAR { "||" }
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%inline prefix:
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| op = PREFIX { op }
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| NOT { "not" }
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| op = SUBTRACTIVE { "~" ^ op } /*TODO test 3 * -2 and co */
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%%
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