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lustrec / src / parser_lustre.mly @ d4c98bae

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/********************************************************************/
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/*                                                                  */
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/*  The LustreC compiler toolset   /  The LustreC Development Team  */
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/*  Copyright 2012 -    --   ONERA - CNRS - INPT                    */
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/*                                                                  */
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/*  LustreC is free software, distributed WITHOUT ANY WARRANTY      */
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/*  under the terms of the GNU Lesser General Public License        */
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/*  version 2.1.                                                    */
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/*                                                                  */
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/********************************************************************/
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%{
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open Utils
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open Lustre_types
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open Corelang
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open Dimension
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open Parse
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let get_loc () = Location.symbol_rloc ()
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let mkident x = x, get_loc ()
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let mktyp x = mktyp (get_loc ()) x
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let mkclock x = mkclock (get_loc ()) x
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let mkvar_decl x loc = mkvar_decl loc ~orig:true x
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let mkexpr x = mkexpr (get_loc ()) x
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let mkeexpr x = mkeexpr (get_loc ()) x 
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let mkeq x = mkeq (get_loc ()) x
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let mkassert x = mkassert (get_loc ()) x
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let mktop_decl itf x = mktop_decl (get_loc ()) (Location.get_module ()) itf x
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let mkpredef_call x = mkpredef_call (get_loc ()) x
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(*let mkpredef_unary_call x = mkpredef_unary_call (get_loc ()) x*)
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let mkdim_int i = mkdim_int (get_loc ()) i
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let mkdim_bool b = mkdim_bool (get_loc ()) b
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let mkdim_ident id = mkdim_ident (get_loc ()) id
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let mkdim_appl f args = mkdim_appl (get_loc ()) f args
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let mkdim_ite i t e = mkdim_ite (get_loc ()) i t e
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let mkannots annots = { annots = annots; annot_loc = get_loc () }
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let node_stack : ident list ref = ref []
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let debug_calls () = Format.eprintf "call stack: %a@.@?" (Utils.fprintf_list ~sep:", " Format.pp_print_string) !node_stack
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let push_node nd =  node_stack:= nd :: !node_stack
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let pop_node () = try node_stack := List.tl !node_stack with _ -> assert false
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let get_current_node () = try List.hd !node_stack with _ -> assert false
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let rec fby expr n init =
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  if n<=1 then
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    mkexpr (Expr_arrow (init, mkexpr (Expr_pre expr)))
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  else
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    mkexpr (Expr_arrow (init, mkexpr (Expr_pre (fby expr (n-1) init))))
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%}
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%token <int> INT
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%token <Num.num * int * string> REAL
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%token <string> STRING
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%token AUTOMATON STATE UNTIL UNLESS RESTART RESUME LAST
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%token STATELESS ASSERT OPEN QUOTE FUNCTION
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%token <string> IDENT
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%token <string> UIDENT
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%token TRUE FALSE
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%token <Lustre_types.expr_annot> ANNOT
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%token <Lustre_types.node_annot> NODESPEC
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%token LBRACKET RBRACKET LCUR RCUR LPAR RPAR SCOL COL COMMA COLCOL 
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%token AMPERAMPER BARBAR NOT POWER
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%token IF THEN ELSE
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%token UCLOCK DCLOCK PHCLOCK TAIL
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%token MERGE FBY WHEN WHENNOT EVERY
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%token NODE LET TEL RETURNS VAR IMPORTED SENSOR ACTUATOR WCET TYPE CONST
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%token STRUCT ENUM
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%token TINT TREAL TBOOL TCLOCK
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%token RATE DUE
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%token EQ LT GT LTE GTE NEQ
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%token AND OR XOR IMPL
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%token MULT DIV MOD
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%token MINUS PLUS UMINUS
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%token PRE ARROW
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%token REQUIRES ENSURES OBSERVER
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%token INVARIANT BEHAVIOR ASSUMES CCODE MATLAB
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%token EXISTS FORALL
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%token PROTOTYPE LIB
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%token EOF
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%nonassoc prec_exists prec_forall
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%nonassoc COMMA
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%nonassoc EVERY
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%left MERGE IF
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%nonassoc ELSE
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%right ARROW FBY
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%left WHEN WHENNOT UCLOCK DCLOCK PHCLOCK
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%right COLCOL
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%right IMPL
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%left OR XOR BARBAR
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%left AND AMPERAMPER
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%left NOT
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%nonassoc INT
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%nonassoc EQ LT GT LTE GTE NEQ
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%left MINUS PLUS
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%left MULT DIV MOD
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%left UMINUS
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%left POWER
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%left PRE LAST
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%nonassoc RBRACKET
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%nonassoc LBRACKET
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%start prog
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%type <Lustre_types.top_decl list> prog
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%start header
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%type <Lustre_types.top_decl list> header
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%start lustre_annot
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%type <Lustre_types.expr_annot> lustre_annot
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%start lustre_spec
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%type <Lustre_types.node_annot> lustre_spec
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%start signed_const
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%type <Lustre_types.constant> signed_const
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%start expr
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%type <Lustre_types.expr> expr
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%start stmt_list
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%type <Lustre_types.statement list * Lustre_types.assert_t list * Lustre_types.expr_annot list > stmt_list
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%start vdecl_list
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%type <Lustre_types.var_decl list> vdecl_list
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%%
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module_ident:
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  UIDENT { $1 }
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| IDENT  { $1 }
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tag_ident:
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  UIDENT  { $1 }
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| TRUE    { tag_true }
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| FALSE   { tag_false }
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node_ident:
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  UIDENT { $1 }
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| IDENT  { $1 }
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node_ident_decl:
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 node_ident { push_node $1; $1 }
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vdecl_ident:
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  UIDENT { mkident $1 }
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| IDENT  { mkident $1 }
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const_ident:
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  UIDENT { $1 }
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| IDENT  { $1 }
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type_ident:
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  IDENT { $1 }
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prog:
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 open_list typ_def_prog top_decl_list EOF { $1 @ $2 @ (List.rev $3) }
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typ_def_prog:
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 typ_def_list { $1 false }
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header:
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 open_list typ_def_header top_decl_header_list EOF { $1 @ $2 @ (List.rev $3) }
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typ_def_header:
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 typ_def_list { $1 true }
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open_list:
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  { [] }
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| open_lusi open_list { $1 :: $2 }
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open_lusi:
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| OPEN QUOTE module_ident QUOTE { mktop_decl false (Open (true, $3))}
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| OPEN LT module_ident GT { mktop_decl false (Open (false, $3)) }
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top_decl_list:
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   {[]}
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| top_decl_list top_decl {$2@$1}
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top_decl_header_list:
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   { [] }
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| top_decl_header_list top_decl_header { $2@$1 }
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state_annot:
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  FUNCTION { true }
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| NODE { false }
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top_decl_header:
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| CONST cdecl_list { List.rev ($2 true) }
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| nodespec_list state_annot node_ident LPAR vdecl_list SCOL_opt RPAR RETURNS LPAR vdecl_list SCOL_opt RPAR  prototype_opt in_lib_list SCOL
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    {let nd = mktop_decl true (ImportedNode
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				 {nodei_id = $3;
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				  nodei_type = Types.new_var ();
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				  nodei_clock = Clocks.new_var true;
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				  nodei_inputs = List.rev $5;
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				  nodei_outputs = List.rev $10;
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				  nodei_stateless = $2;
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				  nodei_spec = $1;
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				  nodei_prototype = $13;
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				  nodei_in_lib = $14;})
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     in
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     (*add_imported_node $3 nd;*) [nd] }
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prototype_opt:
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 { None }
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| PROTOTYPE node_ident { Some $2}
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in_lib_list:
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{ [] }
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| LIB module_ident in_lib_list { $2::$3 } 
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top_decl:
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| CONST cdecl_list { List.rev ($2 false) }
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| nodespec_list state_annot node_ident_decl LPAR vdecl_list SCOL_opt RPAR RETURNS LPAR vdecl_list SCOL_opt RPAR SCOL_opt locals LET stmt_list TEL 
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    {
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     let stmts, asserts, annots = $16 in
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      (* Declaring eqs annots *)
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      List.iter (fun ann -> 
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	List.iter (fun (key, _) -> 
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	  Annotations.add_node_ann $3 key
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	) ann.annots
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      ) annots;
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     (* Building the node *)
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     let nd = mktop_decl false (Node
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				  {node_id = $3;
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				   node_type = Types.new_var ();
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				   node_clock = Clocks.new_var true;
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				   node_inputs = List.rev $5;
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				   node_outputs = List.rev $10;
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				   node_locals = List.rev $14;
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				   node_gencalls = [];
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				   node_checks = [];
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				   node_asserts = asserts; 
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				   node_stmts = stmts;
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				   node_dec_stateless = $2;
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				   node_stateless = None;
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				   node_spec = $1;
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				   node_annot = annots})
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     in
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     pop_node ();
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     (*add_node $3 nd;*) [nd] }
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nodespec_list:
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 { None }
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| NODESPEC nodespec_list { 
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  (function 
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  | None    -> (fun s1 -> Some s1) 
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  | Some s2 -> (fun s1 -> Some (merge_node_annot s1 s2))) $2 $1 }
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typ_def_list:
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    /* empty */             { (fun itf -> []) }
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| typ_def SCOL typ_def_list { (fun itf -> let ty1 = ($1 itf) in ty1 :: ($3 itf)) }
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typ_def:
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  TYPE type_ident EQ typ_def_rhs { (fun itf ->
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			       let typ = mktop_decl itf (TypeDef { tydef_id = $2;
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								   tydef_desc = $4
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							})
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			       in (*add_type itf $2 typ;*) typ) }
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typ_def_rhs:
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  typeconst                   { $1 }
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| ENUM LCUR tag_list RCUR     { Tydec_enum (List.rev $3) }
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| STRUCT LCUR field_list RCUR { Tydec_struct (List.rev $3) }
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array_typ_decl:
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 %prec POWER                { fun typ -> typ }
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 | POWER dim array_typ_decl { fun typ -> $3 (Tydec_array ($2, typ)) }
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typeconst:
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  TINT array_typ_decl   { $2 Tydec_int }
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| TBOOL array_typ_decl  { $2 Tydec_bool  }
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| TREAL array_typ_decl  { $2 Tydec_real  }
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/* | TFLOAT array_typ_decl { $2 Tydec_float } */
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| type_ident array_typ_decl  { $2 (Tydec_const $1) }
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| TBOOL TCLOCK          { Tydec_clock Tydec_bool }
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| IDENT TCLOCK          { Tydec_clock (Tydec_const $1) }
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tag_list:
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  UIDENT                { $1 :: [] }
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| tag_list COMMA UIDENT { $3 :: $1 }
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field_list:                           { [] }
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| field_list IDENT COL typeconst SCOL { ($2, $4) :: $1 }
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stmt_list:
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  { [], [], [] }
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| eq stmt_list {let eql, assertl, annotl = $2 in ((Eq $1)::eql), assertl, annotl}
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| assert_ stmt_list {let eql, assertl, annotl = $2 in eql, ($1::assertl), annotl}
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| ANNOT stmt_list {let eql, assertl, annotl = $2 in eql, assertl, $1::annotl}
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| automaton stmt_list {let eql, assertl, annotl = $2 in ((Aut $1)::eql), assertl, annotl}
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automaton:
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 AUTOMATON type_ident handler_list { Automata.mkautomata (get_loc ()) $2 $3 }
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handler_list:
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     { [] }
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| handler handler_list { $1::$2 }
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handler:
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 STATE UIDENT COL unless_list locals LET stmt_list TEL until_list { Automata.mkhandler (get_loc ()) $2 $4 $9 $5 $7 }
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unless_list:
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    { [] }
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| unless unless_list { $1::$2 }
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until_list:
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    { [] }
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| until until_list { $1::$2 }
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unless:
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  UNLESS expr RESTART UIDENT { (get_loc (), $2, true, $4)  }
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| UNLESS expr RESUME UIDENT  { (get_loc (), $2, false, $4) }
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until:
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  UNTIL expr RESTART UIDENT { (get_loc (), $2, true, $4)  }
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| UNTIL expr RESUME UIDENT  { (get_loc (), $2, false, $4) }
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assert_:
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| ASSERT expr SCOL {mkassert ($2)}
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eq:
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       ident_list      EQ expr SCOL {mkeq (List.rev (List.map fst $1), $3)}
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| LPAR ident_list RPAR EQ expr SCOL {mkeq (List.rev (List.map fst $2), $5)}
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lustre_spec:
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| contract EOF { $1 }
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contract:
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requires ensures behaviors { { requires = $1; ensures = $2; behaviors = $3; spec_loc = get_loc () } }
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requires:
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{ [] }
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| REQUIRES qexpr SCOL requires { $2::$4 }
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ensures:
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{ [] }
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| ENSURES qexpr SCOL ensures { $2 :: $4 }
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| OBSERVER node_ident LPAR tuple_expr RPAR SCOL ensures { 
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  mkeexpr (mkexpr ((Expr_appl ($2, mkexpr (Expr_tuple $4), None)))) :: $7
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}
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behaviors:
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{ [] }
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| BEHAVIOR IDENT COL assumes ensures behaviors { ($2,$4,$5,get_loc ())::$6 }
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assumes:
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{ [] }
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| ASSUMES qexpr SCOL assumes { $2::$4 } 
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/* WARNING: UNUSED RULES */
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tuple_qexpr:
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| qexpr COMMA qexpr {[$3;$1]}
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| tuple_qexpr COMMA qexpr {$3::$1}
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qexpr:
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| expr { mkeexpr $1 }
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  /* Quantifiers */
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| EXISTS vdecl SCOL qexpr %prec prec_exists { extend_eexpr [Exists, $2] $4 } 
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| FORALL vdecl SCOL qexpr %prec prec_forall { extend_eexpr [Forall, $2] $4 }
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tuple_expr:
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    expr COMMA expr {[$3;$1]}
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| tuple_expr COMMA expr {$3::$1}
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// Same as tuple expr but accepting lists with single element
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array_expr:
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  expr {[$1]}
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| expr COMMA array_expr {$1::$3}
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dim_list:
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  dim RBRACKET { fun base -> mkexpr (Expr_access (base, $1)) }
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| dim RBRACKET LBRACKET dim_list { fun base -> $4 (mkexpr (Expr_access (base, $1))) }
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expr:
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/* constants */
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  INT {mkexpr (Expr_const (Const_int $1))}
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| REAL {let c,e,s = $1 in mkexpr (Expr_const (Const_real (c,e,s)))}
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| STRING {mkexpr (Expr_const (Const_string $1))}
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/* | FLOAT {mkexpr (Expr_const (Const_float $1))}*/
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/* Idents or type enum tags */
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| IDENT { mkexpr (Expr_ident $1) }
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| tag_ident { mkexpr (Expr_ident $1) (*(Expr_const (Const_tag $1))*) }
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| LPAR ANNOT expr RPAR
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    {update_expr_annot (get_current_node ()) $3 $2}
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| LPAR expr RPAR
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    {$2}
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| LPAR tuple_expr RPAR
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    {mkexpr (Expr_tuple (List.rev $2))}
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/* Array expressions */
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| LBRACKET array_expr RBRACKET { mkexpr (Expr_array $2) }
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| expr POWER dim { mkexpr (Expr_power ($1, $3)) }
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| expr LBRACKET dim_list { $3 $1 }
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/* Temporal operators */
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| PRE expr 
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    {mkexpr (Expr_pre $2)}
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| expr ARROW expr 
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    {mkexpr (Expr_arrow ($1,$3))}
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| expr FBY expr 
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    {(*mkexpr (Expr_fby ($1,$3))*)
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      mkexpr (Expr_arrow ($1, mkexpr (Expr_pre $3)))}
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| expr WHEN vdecl_ident
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    {mkexpr (Expr_when ($1,fst $3,tag_true))}
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| expr WHENNOT vdecl_ident
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    {mkexpr (Expr_when ($1,fst $3,tag_false))}
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| expr WHEN tag_ident LPAR vdecl_ident RPAR
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    {mkexpr (Expr_when ($1, fst $5, $3))}
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| MERGE vdecl_ident handler_expr_list
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    {mkexpr (Expr_merge (fst $2,$3))}
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/* Applications */
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| node_ident LPAR expr RPAR
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    {mkexpr (Expr_appl ($1, $3, None))}
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| node_ident LPAR expr RPAR EVERY expr
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    {mkexpr (Expr_appl ($1, $3, Some $6))}
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| node_ident LPAR tuple_expr RPAR
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    {
427
      let id=$1 in
428
      let args=List.rev $3 in
429
      match id, args with
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      | "fbyn", [expr;n;init] ->
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	let n = match n.expr_desc with
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	  | Expr_const (Const_int n) -> n
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	  | _ -> assert false
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	in
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	fby expr n init
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      | _ -> mkexpr (Expr_appl ($1, mkexpr (Expr_tuple args), None))
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    }
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| node_ident LPAR tuple_expr RPAR EVERY expr
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    {
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      let id=$1 in
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      let args=List.rev $3 in
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      let clock=$6 in
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      if id="fby" then
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	assert false (* TODO Ca veut dire quoi fby (e,n,init) every c *)
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      else
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	mkexpr (Expr_appl (id, mkexpr (Expr_tuple args), Some clock)) 
447
    }
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/* Boolean expr */
450
| expr AND expr 
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    {mkpredef_call "&&" [$1;$3]}
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| expr AMPERAMPER expr 
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    {mkpredef_call "&&" [$1;$3]}
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| expr OR expr 
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    {mkpredef_call "||" [$1;$3]}
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| expr BARBAR expr 
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    {mkpredef_call "||" [$1;$3]}
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| expr XOR expr 
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    {mkpredef_call "xor" [$1;$3]}
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| NOT expr 
461
    {mkpredef_call "not" [$2]}
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| expr IMPL expr 
463
    {mkpredef_call "impl" [$1;$3]}
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465
/* Comparison expr */
466
| expr EQ expr 
467
    {mkpredef_call "=" [$1;$3]}
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| expr LT expr 
469
    {mkpredef_call "<" [$1;$3]}
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| expr LTE expr 
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    {mkpredef_call "<=" [$1;$3]}
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| expr GT expr 
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    {mkpredef_call ">" [$1;$3]}
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| expr GTE  expr 
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    {mkpredef_call ">=" [$1;$3]}
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| expr NEQ expr 
477
    {mkpredef_call "!=" [$1;$3]}
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/* Arithmetic expr */
480
| expr PLUS expr 
481
    {mkpredef_call "+" [$1;$3]}
482
| expr MINUS expr 
483
    {mkpredef_call "-" [$1;$3]}
484
| expr MULT expr 
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    {mkpredef_call "*" [$1;$3]}
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| expr DIV expr 
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    {mkpredef_call "/" [$1;$3]}
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| MINUS expr %prec UMINUS
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  {mkpredef_call "uminus" [$2]}
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| expr MOD expr 
491
    {mkpredef_call "mod" [$1;$3]}
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493
/* If */
494
| IF expr THEN expr ELSE expr
495
    {mkexpr (Expr_ite ($2, $4, $6))}
496
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handler_expr_list:
498
   { [] }
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| handler_expr handler_expr_list { $1 :: $2 }
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handler_expr:
502
 LPAR tag_ident ARROW expr RPAR { ($2, $4) }
503
504
signed_const_array:
505
| signed_const { [$1] }
506
| signed_const COMMA signed_const_array { $1 :: $3 }
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signed_const_struct:
509
| IDENT EQ signed_const { [ ($1, $3) ] }
510
| IDENT EQ signed_const COMMA signed_const_struct { ($1, $3) :: $5 }
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signed_const:
513
  INT {Const_int $1}
514 53206908 xthirioux
| REAL {let c,e,s =$1 in Const_real (c,e,s)}
515
/* | FLOAT {Const_float $1} */
516 70e1006b xthirioux
| tag_ident {Const_tag $1}
517
| MINUS INT {Const_int (-1 * $2)}
518 53206908 xthirioux
| MINUS REAL {let c,e,s = $2 in Const_real (Num.minus_num c, e, "-" ^ s)}
519
/* | MINUS FLOAT {Const_float (-1. *. $2)} */
520 70e1006b xthirioux
| LCUR signed_const_struct RCUR { Const_struct $2 }
521
| LBRACKET signed_const_array RBRACKET { Const_array $2 }
522
523
dim:
524
   INT { mkdim_int $1 }
525
| LPAR dim RPAR { $2 }
526
| UIDENT { mkdim_ident $1 }
527
| IDENT { mkdim_ident $1 }
528
| dim AND dim 
529
    {mkdim_appl "&&" [$1;$3]}
530
| dim AMPERAMPER dim 
531
    {mkdim_appl "&&" [$1;$3]}
532
| dim OR dim 
533
    {mkdim_appl "||" [$1;$3]}
534
| dim BARBAR dim 
535
    {mkdim_appl "||" [$1;$3]}
536
| dim XOR dim 
537
    {mkdim_appl "xor" [$1;$3]}
538
| NOT dim 
539
    {mkdim_appl "not" [$2]}
540
| dim IMPL dim 
541
    {mkdim_appl "impl" [$1;$3]}
542
543
/* Comparison dim */
544
| dim EQ dim 
545
    {mkdim_appl "=" [$1;$3]}
546
| dim LT dim 
547
    {mkdim_appl "<" [$1;$3]}
548
| dim LTE dim 
549
    {mkdim_appl "<=" [$1;$3]}
550
| dim GT dim 
551
    {mkdim_appl ">" [$1;$3]}
552
| dim GTE  dim 
553
    {mkdim_appl ">=" [$1;$3]}
554
| dim NEQ dim 
555
    {mkdim_appl "!=" [$1;$3]}
556
557
/* Arithmetic dim */
558
| dim PLUS dim 
559
    {mkdim_appl "+" [$1;$3]}
560
| dim MINUS dim 
561
    {mkdim_appl "-" [$1;$3]}
562
| dim MULT dim 
563
    {mkdim_appl "*" [$1;$3]}
564
| dim DIV dim 
565
    {mkdim_appl "/" [$1;$3]}
566
| MINUS dim %prec UMINUS
567
  {mkdim_appl "uminus" [$2]}
568
| dim MOD dim 
569
    {mkdim_appl "mod" [$1;$3]}
570
/* If */
571
| IF dim THEN dim ELSE dim
572
    {mkdim_ite $2 $4 $6}
573
574
locals:
575
  {[]}
576 01d48bb0 xthirioux
| VAR local_vdecl_list SCOL {$2}
577 70e1006b xthirioux
578
vdecl_list:
579 01d48bb0 xthirioux
  vdecl {$1}
580 70e1006b xthirioux
| vdecl_list SCOL vdecl {$3 @ $1}
581
582
vdecl:
583 01d48bb0 xthirioux
  ident_list COL typeconst clock 
584 66359a5e ploc
    { List.map (fun (id, loc) -> mkvar_decl (id, mktyp $3, $4, false, None, None) loc) $1 }
585 01d48bb0 xthirioux
| CONST ident_list /* static parameters don't have clocks */
586 66359a5e ploc
    { List.map (fun (id, loc) -> mkvar_decl (id, mktyp Tydec_any, mkclock Ckdec_any, true, None, None) loc) $2 }
587 01d48bb0 xthirioux
| CONST ident_list COL typeconst /* static parameters don't have clocks */
588 66359a5e ploc
    { List.map (fun (id, loc) -> mkvar_decl (id, mktyp $4, mkclock Ckdec_any, true, None, None) loc) $2 }
589 01d48bb0 xthirioux
590
local_vdecl_list:
591
  local_vdecl {$1}
592
| local_vdecl_list SCOL local_vdecl {$3 @ $1}
593 70e1006b xthirioux
594 01d48bb0 xthirioux
local_vdecl:
595
/* Useless no ?*/    ident_list
596 66359a5e ploc
    { List.map (fun (id, loc) -> mkvar_decl (id, mktyp Tydec_any, mkclock Ckdec_any, false, None, None) loc) $1 }
597 70e1006b xthirioux
| ident_list COL typeconst clock 
598 66359a5e ploc
    { List.map (fun (id, loc) -> mkvar_decl (id, mktyp $3, $4, false, None, None) loc) $1 }
599 01d48bb0 xthirioux
| CONST vdecl_ident EQ expr /* static parameters don't have clocks */
600 66359a5e ploc
    { let (id, loc) = $2 in [ mkvar_decl (id, mktyp Tydec_any, mkclock Ckdec_any, true, Some $4, None) loc] }
601 01d48bb0 xthirioux
| CONST vdecl_ident COL typeconst EQ expr /* static parameters don't have clocks */
602 66359a5e ploc
    { let (id, loc) = $2 in [ mkvar_decl (id, mktyp $4, mkclock Ckdec_any, true, Some $6, None) loc] }
603 70e1006b xthirioux
604
cdecl_list:
605
  cdecl SCOL { (fun itf -> [$1 itf]) }
606
| cdecl cdecl_list SCOL { (fun itf -> let c1 = ($1 itf) in c1::($2 itf)) }
607
608
cdecl:
609
    const_ident EQ signed_const {
610
      (fun itf -> 
611
       let c = mktop_decl itf (Const {
612
				   const_id = $1;
613
				   const_loc = Location.symbol_rloc ();
614
				   const_type = Types.new_var ();
615
				   const_value = $3})
616
       in
617
       (*add_const itf $1 c;*) c)
618
    }
619
620
clock:
621
    {mkclock Ckdec_any}
622
| when_list
623
    {mkclock (Ckdec_bool (List.rev $1))}
624
625
when_cond:
626
  WHEN IDENT {($2, tag_true)}
627
| WHENNOT IDENT {($2, tag_false)}
628
| WHEN tag_ident LPAR IDENT RPAR {($4, $2)}
629
630
when_list:
631
    when_cond {[$1]}
632
| when_list when_cond {$2::$1}
633
634
ident_list:
635
  vdecl_ident {[$1]}
636
| ident_list COMMA vdecl_ident {$3::$1}
637
638
SCOL_opt:
639
    SCOL {} | {}
640
641
642
lustre_annot:
643
lustre_annot_list EOF { { annots = $1; annot_loc = get_loc () } }
644
645
lustre_annot_list:
646
  { [] } 
647
| kwd COL qexpr SCOL lustre_annot_list { ($1,$3)::$5 }
648
| IDENT COL qexpr SCOL lustre_annot_list { ([$1],$3)::$5 }
649
| INVARIANT COL qexpr SCOL lustre_annot_list{ (["invariant"],$3)::$5 }
650
| OBSERVER COL qexpr SCOL lustre_annot_list { (["observer"],$3)::$5 }
651 85da3a4b ploc
| CCODE COL qexpr SCOL lustre_annot_list{ (["c_code"],$3)::$5 }
652
| MATLAB COL qexpr SCOL lustre_annot_list{ (["matlab"],$3)::$5 }
653
654 70e1006b xthirioux
655
kwd:
656
DIV { [] }
657
| DIV IDENT kwd { $2::$3}
658
659
%%
660
(* Local Variables: *)
661
(* compile-command:"make -C .." *)
662
(* End: *)
663
664