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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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open Lustre_types

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open Machine_code_types

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open Machine_code_common

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open Corelang

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open Clocks

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open Causality

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exception NormalizationError

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(* translate_<foo> : node > context > <foo> > machine code/expression *)

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(* the context contains m : state aka memory variables *)

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(* si : initialization instructions *)

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(* j : node aka machine instances *)

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(* d : local variables *)

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(* s : step instructions *)

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let translate_ident node (m, si, j, d, s) id =

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(* Format.eprintf "trnaslating ident: %s@." id; *)

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try (* id is a node var *)

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let var_id = get_node_var id node in

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if VSet.exists (fun v > v.var_id = id) m

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then (

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(* Format.eprintf "a STATE VAR@."; *)

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mk_val (StateVar var_id) var_id.var_type

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)

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else (

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(* Format.eprintf "a LOCAL VAR@."; *)

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mk_val (LocalVar var_id) var_id.var_type

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)

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with Not_found >

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try (* id is a constant *)

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let vdecl = (Corelang.var_decl_of_const (const_of_top (Hashtbl.find Corelang.consts_table id))) in

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mk_val (LocalVar vdecl) vdecl.var_type

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with Not_found >

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(* id is a tag *)

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(* DONE construire une liste des enum declarés et alors chercher dedans la liste

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qui contient id *)

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try

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let typ = (typedef_of_top (Hashtbl.find Corelang.tag_table id)).tydef_id in

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mk_val (Cst (Const_tag id)) (Type_predef.type_const typ)

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with Not_found > (Format.eprintf "internal error: Machine_code.translate_ident %s" id;

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assert false)

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let rec control_on_clock node ((m, si, j, d, s) as args) ck inst =

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match (Clocks.repr ck).cdesc with

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 Con (ck1, cr, l) >

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let id = Clocks.const_of_carrier cr in

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control_on_clock node args ck1 (mkinstr

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(* TODO il faudrait prendre le lustre

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associé à instr et rajouter print_ck_suffix

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ck) de clocks.ml *)

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(MBranch (translate_ident node args id,

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[l, [inst]] )))

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 _ > inst

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(* specialize predefined (polymorphic) operators

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wrt their instances, so that the C semantics

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is preserved *)

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let specialize_to_c expr =

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match expr.expr_desc with

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 Expr_appl (id, e, r) >

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if List.exists (fun e > Types.is_bool_type e.expr_type) (expr_list_of_expr e)

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then let id =

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match id with

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 "=" > "equi"

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 "!=" > "xor"

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 _ > id in

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{ expr with expr_desc = Expr_appl (id, e, r) }

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else expr

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 _ > expr

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let specialize_op expr =

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match !Options.output with

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 "C" > specialize_to_c expr

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 _ > expr

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let rec translate_expr node ((m, si, j, d, s) as args) expr =

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let expr = specialize_op expr in

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let value_desc =

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match expr.expr_desc with

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 Expr_const v > Cst v

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 Expr_ident x > (translate_ident node args x).value_desc

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 Expr_array el > Array (List.map (translate_expr node args) el)

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 Expr_access (t, i) > Access (translate_expr node args t, translate_expr node args (expr_of_dimension i))

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 Expr_power (e, n) > Power (translate_expr node args e, translate_expr node args (expr_of_dimension n))

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 Expr_tuple _

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 Expr_arrow _

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 Expr_fby _

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 Expr_pre _ > (Printers.pp_expr Format.err_formatter expr; Format.pp_print_flush Format.err_formatter (); raise NormalizationError)

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 Expr_when (e1, _, _) > (translate_expr node args e1).value_desc

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 Expr_merge (x, _) > raise NormalizationError

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 Expr_appl (id, e, _) when Basic_library.is_expr_internal_fun expr >

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let nd = node_from_name id in

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Fun (node_name nd, List.map (translate_expr node args) (expr_list_of_expr e))

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 Expr_ite (g,t,e) > (

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(* special treatment depending on the active backend. For horn backend, ite

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are preserved in expression. While they are removed for C or Java

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backends. *)

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match !Options.output with

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 "horn" >

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Fun ("ite", [translate_expr node args g; translate_expr node args t; translate_expr node args e])

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 "C"  "java"  _ >

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(Format.eprintf "Normalization error for backend %s: %a@."

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!Options.output

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Printers.pp_expr expr;

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raise NormalizationError)

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)

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 _ > raise NormalizationError

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in

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mk_val value_desc expr.expr_type

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let translate_guard node args expr =

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match expr.expr_desc with

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 Expr_ident x > translate_ident node args x

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 _ > (Format.eprintf "internal error: translate_guard %s %a@." node.node_id Printers.pp_expr expr;assert false)

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let rec translate_act node ((m, si, j, d, s) as args) (y, expr) =

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let eq = Corelang.mkeq Location.dummy_loc ([y.var_id], expr) in

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match expr.expr_desc with

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 Expr_ite (c, t, e) > let g = translate_guard node args c in

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mk_conditional ?lustre_eq:(Some eq) g

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[translate_act node args (y, t)]

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[translate_act node args (y, e)]

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 Expr_merge (x, hl) > mkinstr ?lustre_eq:(Some eq) (MBranch (translate_ident node args x,

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List.map (fun (t, h) > t, [translate_act node args (y, h)]) hl))

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 _ > mkinstr ?lustre_eq:(Some eq) (MLocalAssign (y, translate_expr node args expr))

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let reset_instance node args i r c =

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match r with

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 None > []

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 Some r > let g = translate_guard node args r in

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[control_on_clock node args c (mk_conditional g [mkinstr (MReset i)] [mkinstr (MNoReset i)])]

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let translate_eq node ((m, si, j, d, s) as args) eq =

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(* Format.eprintf "translate_eq %a with clock %a@." Printers.pp_node_eq eq Clocks.print_ck eq.eq_rhs.expr_clock; *)

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match eq.eq_lhs, eq.eq_rhs.expr_desc with

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 [x], Expr_arrow (e1, e2) >

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let var_x = get_node_var x node in

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let o = new_instance node Arrow.arrow_top_decl eq.eq_rhs.expr_tag in

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let c1 = translate_expr node args e1 in

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let c2 = translate_expr node args e2 in

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(m,

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mkinstr (MReset o) :: si,

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Utils.IMap.add o (Arrow.arrow_top_decl, []) j,

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d,

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(control_on_clock node args eq.eq_rhs.expr_clock (mkinstr ?lustre_eq:(Some eq) (MStep ([var_x], o, [c1;c2])))) :: s)

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 [x], Expr_pre e1 when VSet.mem (get_node_var x node) d >

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let var_x = get_node_var x node in

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(VSet.add var_x m,

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si,

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j,

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d,

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control_on_clock node args eq.eq_rhs.expr_clock (mkinstr ?lustre_eq:(Some eq) (MStateAssign (var_x, translate_expr node args e1))) :: s)

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 [x], Expr_fby (e1, e2) when VSet.mem (get_node_var x node) d >

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let var_x = get_node_var x node in

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(VSet.add var_x m,

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mkinstr ?lustre_eq:(Some eq) (MStateAssign (var_x, translate_expr node args e1)) :: si,

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j,

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d,

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control_on_clock node args eq.eq_rhs.expr_clock (mkinstr ?lustre_eq:(Some eq) (MStateAssign (var_x, translate_expr node args e2))) :: s)

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 p , Expr_appl (f, arg, r) when not (Basic_library.is_expr_internal_fun eq.eq_rhs) >

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let var_p = List.map (fun v > get_node_var v node) p in

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let el = expr_list_of_expr arg in

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let vl = List.map (translate_expr node args) el in

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let node_f = node_from_name f in

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let call_f =

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node_f,

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NodeDep.filter_static_inputs (node_inputs node_f) el in

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let o = new_instance node node_f eq.eq_rhs.expr_tag in

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let env_cks = List.fold_right (fun arg cks > arg.expr_clock :: cks) el [eq.eq_rhs.expr_clock] in

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let call_ck = Clock_calculus.compute_root_clock (Clock_predef.ck_tuple env_cks) in

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(*Clocks.new_var true in

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Clock_calculus.unify_imported_clock (Some call_ck) eq.eq_rhs.expr_clock eq.eq_rhs.expr_loc;

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Format.eprintf "call %a: %a: %a@," Printers.pp_expr eq.eq_rhs Clocks.print_ck (Clock_predef.ck_tuple env_cks) Clocks.print_ck call_ck;*)

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(m,

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(if Stateless.check_node node_f then si else mkinstr (MReset o) :: si),

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Utils.IMap.add o call_f j,

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d,

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(if Stateless.check_node node_f

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then []

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else reset_instance node args o r call_ck) @

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(control_on_clock node args call_ck (mkinstr ?lustre_eq:(Some eq) (MStep (var_p, o, vl)))) :: s)

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(*

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(* special treatment depending on the active backend. For horn backend, x = ite (g,t,e)

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are preserved. While they are replaced as if g then x = t else x = e in C or Java

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backends. *)

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 [x], Expr_ite (c, t, e)

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when (match !Options.output with  "horn" > true  "C"  "java"  _ > false)

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>

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let var_x = get_node_var x node in

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(m,

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si,

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j,

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d,

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(control_on_clock node args eq.eq_rhs.expr_clock

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(MLocalAssign (var_x, translate_expr node args eq.eq_rhs))::s)

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)

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*)

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 [x], _ > (

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let var_x = get_node_var x node in

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(m, si, j, d,

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control_on_clock

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node

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args

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eq.eq_rhs.expr_clock

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(translate_act node args (var_x, eq.eq_rhs)) :: s

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)

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)

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 _ >

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begin

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Format.eprintf "internal error: Machine_code.translate_eq %a@?" Printers.pp_node_eq eq;

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assert false

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end

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let find_eq xl eqs =

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let rec aux accu eqs =

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match eqs with

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 [] >

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begin

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Format.eprintf "Looking for variables %a in the following equations@.%a@."

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(Utils.fprintf_list ~sep:" , " (fun fmt v > Format.fprintf fmt "%s" v)) xl

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Printers.pp_node_eqs eqs;

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assert false

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end

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 hd::tl >

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if List.exists (fun x > List.mem x hd.eq_lhs) xl then hd, accu@tl else aux (hd::accu) tl

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in

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aux [] eqs

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(* Sort the set of equations of node [nd] according

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to the computed schedule [sch]

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*)

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let sort_equations_from_schedule nd sch =

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(* Format.eprintf "%s schedule: %a@." *)

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(* nd.node_id *)

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(* (Utils.fprintf_list ~sep:" ; " Scheduling.pp_eq_schedule) sch; *)

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let eqs, auts = get_node_eqs nd in

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assert (auts = []); (* Automata should be expanded by now *)

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let split_eqs = Splitting.tuple_split_eq_list eqs in

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let eqs_rev, remainder =

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List.fold_left

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(fun (accu, node_eqs_remainder) vl >

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if List.exists (fun eq > List.exists (fun v > List.mem v eq.eq_lhs) vl) accu

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then

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(accu, node_eqs_remainder)

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else

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let eq_v, remainder = find_eq vl node_eqs_remainder in

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eq_v::accu, remainder

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)

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([], split_eqs)

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sch

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in

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begin

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if List.length remainder > 0 then (

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let eqs, auts = get_node_eqs nd in

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assert (auts = []); (* Automata should be expanded by now *)

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Format.eprintf "Equations not used are@.%a@.Full equation set is:@.%a@.@?"

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Printers.pp_node_eqs remainder

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Printers.pp_node_eqs eqs;

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assert false);

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List.rev eqs_rev

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end

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let constant_equations nd =

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List.fold_right (fun vdecl eqs >

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if vdecl.var_dec_const

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then

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{ eq_lhs = [vdecl.var_id];

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eq_rhs = Utils.desome vdecl.var_dec_value;

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eq_loc = vdecl.var_loc

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} :: eqs

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else eqs)

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nd.node_locals []

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let translate_eqs node args eqs =

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List.fold_right (fun eq args > translate_eq node args eq) eqs args;;

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let translate_decl nd sch =

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(*Log.report ~level:1 (fun fmt > Printers.pp_node fmt nd);*)

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let sorted_eqs = sort_equations_from_schedule nd sch in

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let constant_eqs = constant_equations nd in

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(* In case of non functional backend (eg. C), additional local variables have

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to be declared for each assert *)

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let new_locals, assert_instrs, nd_node_asserts =

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let exprl = List.map (fun assert_ > assert_.assert_expr ) nd.node_asserts in

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if Backends.is_functional () then

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[], [], exprl

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else (* Each assert(e) is associated to a fresh variable v and declared as

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v=e; assert (v); *)

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let _, vars, eql, assertl =

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List.fold_left (fun (i, vars, eqlist, assertlist) expr >

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let loc = expr.expr_loc in

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let var_id = nd.node_id ^ "_assert_" ^ string_of_int i in

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let assert_var =

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mkvar_decl

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loc

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~orig:false (* fresh var *)

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(var_id,

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mktyp loc Tydec_bool,

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mkclock loc Ckdec_any,

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false, (* not a constant *)

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None, (* no default value *)

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Some nd.node_id

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)

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in

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assert_var.var_type < Type_predef.type_bool (* Types.new_ty (Types.Tbool) *);

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let eq = mkeq loc ([var_id], expr) in

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(i+1, assert_var::vars, eq::eqlist, {expr with expr_desc = Expr_ident var_id}::assertlist)

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) (1, [], [], []) exprl

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in

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vars, eql, assertl

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in

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let locals_list = nd.node_locals @ new_locals in

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let nd = { nd with node_locals = locals_list } in

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let init_args = VSet.empty, [], Utils.IMap.empty, List.fold_right (fun l > VSet.add l) locals_list VSet.empty, [] in

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(* memories, init instructions, node calls, local variables (including memories), step instrs *)

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let m0, init0, j0, locals0, s0 = translate_eqs nd init_args constant_eqs in

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assert (VSet.is_empty m0);

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assert (init0 = []);

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assert (Utils.IMap.is_empty j0);

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let m, init, j, locals, s as context_with_asserts = translate_eqs nd (m0, init0, j0, locals0, []) (assert_instrs@sorted_eqs) in

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let mmap = Utils.IMap.fold (fun i n res > (i, n)::res) j [] in

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{

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mname = nd;

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mmemory = VSet.elements m;

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mcalls = mmap;

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minstances = List.filter (fun (_, (n,_)) > not (Stateless.check_node n)) mmap;

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minit = init;

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mconst = s0;

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mstatic = List.filter (fun v > v.var_dec_const) nd.node_inputs;

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mstep = {

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step_inputs = nd.node_inputs;

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step_outputs = nd.node_outputs;

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step_locals = VSet.elements (VSet.diff locals m);

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step_checks = List.map (fun d > d.Dimension.dim_loc, translate_expr nd init_args (expr_of_dimension d)) nd.node_checks;

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step_instrs = (

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(* special treatment depending on the active backend. For horn backend,

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common branches are not merged while they are in C or Java

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backends. *)

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(*match !Options.output with

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 "horn" > s

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 "C"  "java"  _ >*)

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if !Backends.join_guards then

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join_guards_list s

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else

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s

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);

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step_asserts = List.map (translate_expr nd context_with_asserts) nd_node_asserts;

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};

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mspec = nd.node_spec;

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mannot = nd.node_annot;

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}

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(** takes the global declarations and the scheduling associated to each node *)

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let translate_prog decls node_schs =

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let nodes = get_nodes decls in

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List.map

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(fun decl >

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let node = node_of_top decl in

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let sch = (Utils.IMap.find node.node_id node_schs).Scheduling.schedule in

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translate_decl node sch

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) nodes

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(* Local Variables: *)

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(* compilecommand:"make C .." *)

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(* End: *)
