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(* ----------------------------------------------------------------------------
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 * SchedMCore - A MultiCore Scheduling Framework
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 * Copyright (C) 2009-2013, ONERA, Toulouse, FRANCE - LIFL, Lille, FRANCE
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 * Copyright (C) 2012-2013, INPT, Toulouse, FRANCE
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 *
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 * This file is part of Prelude
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 *
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 * Prelude is free software; you can redistribute it and/or
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 * modify it under the terms of the GNU Lesser General Public License
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 * as published by the Free Software Foundation ; either version 2 of
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 * the License, or (at your option) any later version.
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 *
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 * Prelude is distributed in the hope that it will be useful, but
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 * WITHOUT ANY WARRANTY ; without even the implied warranty of
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 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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 * Lesser General Public License for more details.
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 *
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 * You should have received a copy of the GNU Lesser General Public
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 * License along with this program ; if not, write to the Free Software
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 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
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 * USA
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 *---------------------------------------------------------------------------- *)
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(* This module is used for the lustre to C compiler *)
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open LustreSpec
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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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module OrdVarDecl:Map.OrderedType with type t=var_decl =
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  struct type t = var_decl;; let compare = compare end
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module ISet = Set.Make(OrdVarDecl)
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type value_t = 
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  | Cst of constant
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  | LocalVar of var_decl
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  | StateVar of var_decl
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  | Fun of ident * value_t list 
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  | Array of value_t list
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  | Access of value_t * value_t
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  | Power of value_t * value_t
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type instr_t =
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  | MLocalAssign of var_decl * value_t
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  | MStateAssign of var_decl * value_t
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  | MReset of ident
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  | MStep of var_decl list * ident * value_t list
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  | MBranch of value_t * (label * instr_t list) list
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let rec pp_val fmt v =
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  match v with
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    | Cst c         -> Printers.pp_const fmt c 
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    | LocalVar v    -> Format.pp_print_string fmt v.var_id
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    | StateVar v    -> Format.pp_print_string fmt v.var_id
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    | Array vl      -> Format.fprintf fmt "[%a]" (Utils.fprintf_list ~sep:", " pp_val)  vl
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    | Access (t, i) -> Format.fprintf fmt "%a[%a]" pp_val t pp_val i
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    | Power (v, n)  -> Format.fprintf fmt "(%a^%a)" pp_val v pp_val n
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    | Fun (n, vl)   -> Format.fprintf fmt "%s (%a)" n (Utils.fprintf_list ~sep:", " pp_val)  vl
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let rec pp_instr fmt i =
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  match i with 
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    | MLocalAssign (i,v) -> Format.fprintf fmt "%s<-l- %a" i.var_id pp_val v
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    | MStateAssign (i,v) -> Format.fprintf fmt "%s<-s- %a" i.var_id pp_val v
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    | MReset i           -> Format.fprintf fmt "reset %s" i
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    | MStep (il, i, vl)  ->
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      Format.fprintf fmt "%a = %s (%a)"
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	(Utils.fprintf_list ~sep:", " (fun fmt v -> Format.pp_print_string fmt v.var_id)) il
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	i      
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	(Utils.fprintf_list ~sep:", " pp_val) vl
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    | MBranch (g,hl)     ->
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      Format.fprintf fmt "@[<v 2>case(%a) {@,%a@,}@]"
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	pp_val g
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	(Utils.fprintf_list ~sep:"@," pp_branch) hl
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and pp_branch fmt (t, h) =
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  Format.fprintf fmt "@[<v 2>%s:@,%a@]" t (Utils.fprintf_list ~sep:"@," pp_instr) h
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type step_t = {
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  step_checks: (Location.t * value_t) list;
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  step_inputs: var_decl list;
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  step_outputs: var_decl list;
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  step_locals: var_decl list;
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  step_instrs: instr_t list;
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  step_asserts: value_t list;
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}
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type static_call = top_decl * (Dimension.dim_expr list)
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type machine_t = {
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  mname: node_desc;
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  mmemory: var_decl list;
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  mcalls: (ident * static_call) list; (* map from stateful/stateless instance to node, no internals *)
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  minstances: (ident * static_call) list; (* sub-map of mcalls, from stateful instance to node *)
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  minit: instr_t list;
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  mstatic: var_decl list; (* static inputs only *)
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  mstep: step_t;
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  mspec: node_annot option;
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  mannot: expr_annot list;
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}
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let pp_step fmt s =
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  Format.fprintf fmt "@[<v>inputs : %a@ outputs: %a@ locals : %a@ checks : %a@ instrs : @[%a@]@ asserts : @[%a@]@]@ "
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    (Utils.fprintf_list ~sep:", " Printers.pp_var) s.step_inputs
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    (Utils.fprintf_list ~sep:", " Printers.pp_var) s.step_outputs
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    (Utils.fprintf_list ~sep:", " Printers.pp_var) s.step_locals
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    (Utils.fprintf_list ~sep:", " (fun fmt (_, c) -> pp_val fmt c)) s.step_checks
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    (Utils.fprintf_list ~sep:"@ " pp_instr) s.step_instrs
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    (Utils.fprintf_list ~sep:", " pp_val) s.step_asserts
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let pp_static_call fmt (node, args) =
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 Format.fprintf fmt "%s<%a>"
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   (node_name node)
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   (Utils.fprintf_list ~sep:", " Dimension.pp_dimension) args
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let pp_machine fmt m =
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  Format.fprintf fmt 
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    "@[<v 2>machine %s@ mem      : %a@ instances: %a@ init     : %a@ step     :@   @[<v 2>%a@]@ @  spec : @[%t@]@  annot : @[%a@]@]@ "
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    m.mname.node_id
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    (Utils.fprintf_list ~sep:", " Printers.pp_var) m.mmemory
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    (Utils.fprintf_list ~sep:", " (fun fmt (o1, o2) -> Format.fprintf fmt "(%s, %a)" o1 pp_static_call o2)) m.minstances
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    (Utils.fprintf_list ~sep:"@ " pp_instr) m.minit
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    pp_step m.mstep
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    (fun fmt -> match m.mspec with | None -> () | Some spec -> Printers.pp_spec fmt spec)
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    (Utils.fprintf_list ~sep:"@ " Printers.pp_expr_annot) m.mannot
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(* Returns the declared stateless status and the computed one. *)
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let get_stateless_status m =
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 (m.mname.node_dec_stateless, Utils.desome m.mname.node_stateless)
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let is_input m id =
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  List.exists (fun o -> o.var_id = id.var_id) m.mstep.step_inputs
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let is_output m id =
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  List.exists (fun o -> o.var_id = id.var_id) m.mstep.step_outputs
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let is_memory m id =
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  List.exists (fun o -> o.var_id = id.var_id) m.mmemory
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let conditional c t e =
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  MBranch(c, [ (tag_true, t); (tag_false, e) ])
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let dummy_var_decl name typ =
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  {
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    var_id = name;
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    var_dec_type = dummy_type_dec;
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    var_dec_clock = dummy_clock_dec;
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    var_dec_const = false;
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    var_type =  typ;
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    var_clock = Clocks.new_ck (Clocks.Cvar Clocks.CSet_all) true;
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    var_loc = Location.dummy_loc
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  }
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let arrow_id = "_arrow"
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let arrow_typ = Types.new_ty Types.Tunivar
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let arrow_desc =
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  {
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    node_id = arrow_id;
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    node_type = Type_predef.type_bin_poly_op;
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    node_clock = Clock_predef.ck_bin_univ;
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    node_inputs= [dummy_var_decl "_in1" arrow_typ; dummy_var_decl "_in2" arrow_typ];
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    node_outputs= [dummy_var_decl "_out" arrow_typ];
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    node_locals= [];
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    node_gencalls = [];
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    node_checks = [];
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    node_asserts = [];
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    node_eqs= [];
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    node_dec_stateless = false;
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    node_stateless = Some false;
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    node_spec = None;
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    node_annot = [];  }
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let arrow_top_decl =
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  {
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    top_decl_desc = Node arrow_desc;
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    top_decl_loc = Location.dummy_loc
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  }
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let arrow_machine =
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  let state = "_first" in
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  let var_state = dummy_var_decl state (Types.new_ty Types.Tbool) in
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  let var_input1 = List.nth arrow_desc.node_inputs 0 in
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  let var_input2 = List.nth arrow_desc.node_inputs 1 in
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  let var_output = List.nth arrow_desc.node_outputs 0 in
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  {
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    mname = arrow_desc;
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    mmemory = [var_state];
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    mcalls = [];
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    minstances = [];
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    minit = [MStateAssign(var_state, Cst (const_of_bool true))];
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    mstatic = [];
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    mstep = {
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      step_inputs = arrow_desc.node_inputs;
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      step_outputs = arrow_desc.node_outputs;
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      step_locals = [];
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      step_checks = [];
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      step_instrs = [conditional (StateVar var_state)
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			         [MStateAssign(var_state, Cst (const_of_bool false));
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                                  MLocalAssign(var_output, LocalVar var_input1)]
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                                 [MLocalAssign(var_output, LocalVar var_input2)] ];
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      step_asserts = [];
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    };
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    mspec = None;
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    mannot = [];
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  }
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let new_instance =
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  let cpt = ref (-1) in
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  fun caller callee tag ->
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    begin
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      let o =
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	if Stateless.check_node callee then
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	  node_name callee
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	else
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	  Printf.sprintf "ni_%d" (incr cpt; !cpt) in
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      let o =
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	if !Options.ansi && is_generic_node callee
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	then Printf.sprintf "%s_inst_%d" o (Utils.position (fun e -> e.expr_tag = tag) caller.node_gencalls)
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	else o in
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      o
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    end
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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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  try (* id is a node var *)
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    let var_id = get_node_var id node in
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    if ISet.exists (fun v -> v.var_id = id) m
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    then StateVar var_id
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    else LocalVar var_id
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  with Not_found -> (* id is a constant *)
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    LocalVar (Corelang.var_decl_of_const (Hashtbl.find Corelang.consts_table id))
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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 (MBranch (translate_ident node args id,
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					    [l, [inst]] ))
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 | _                   -> inst
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let rec join_branches hl1 hl2 =
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 match hl1, hl2 with
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 | []          , _            -> hl2
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 | _           , []           -> hl1
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 | (t1, h1)::q1, (t2, h2)::q2 ->
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   if t1 < t2 then (t1, h1) :: join_branches q1 hl2 else
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   if t1 > t2 then (t2, h2) :: join_branches hl1 q2
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   else (t1, List.fold_right join_guards h1 h2) :: join_branches q1 q2
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and join_guards inst1 insts2 =
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 match inst1, insts2 with
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 | _                   , []                               ->
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   [inst1]
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 | MBranch (x1, hl1), MBranch (x2, hl2) :: q when x1 = x2 ->
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   MBranch (x1, join_branches (sort_handlers hl1) (sort_handlers hl2))
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   :: q
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 | _ -> inst1 :: insts2
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let join_guards_list insts =
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 List.fold_right join_guards insts []
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let find_eq x 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 variable %a in the following equations@.%a@."
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	      Format.pp_print_string x
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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.mem x hd.eq_lhs then hd, accu@tl else aux (hd::accu) tl
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    in
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    aux [] eqs
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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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 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
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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
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 | Expr_merge   (x, _)              -> raise NormalizationError
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 | Expr_appl (id, e, _) when Basic_library.is_internal_fun id ->
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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 | "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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     (Printers.pp_expr Format.err_formatter expr; Format.pp_print_flush Format.err_formatter (); raise NormalizationError)
335
 )
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 | _                   -> raise NormalizationError
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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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  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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			    conditional g [translate_act node args (y, t)]
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                              [translate_act node args (y, e)]
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  | Expr_merge (x, hl)   -> MBranch (translate_ident node args x, List.map (fun (t,  h) -> t, [translate_act node args (y, h)]) hl)
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  | _                    -> 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
353
  | None        -> []
354
  | Some (x, l) -> [control_on_clock node args c (MBranch (translate_ident node args x, [l, [MReset 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_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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     MReset o :: si,
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     Utils.IMap.add o (arrow_top_decl, []) j,
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     d,
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     (control_on_clock node args eq.eq_rhs.expr_clock (MStep ([var_x], o, [c1;c2]))) :: s)
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  | [x], Expr_pre e1 when ISet.mem (get_node_var x node) d     ->
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    let var_x = get_node_var x node in
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    (ISet.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 (MStateAssign (var_x, translate_expr node args e1)) :: s)
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  | [x], Expr_fby (e1, e2) when ISet.mem (get_node_var x node) d ->
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    let var_x = get_node_var x node in
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    (ISet.add var_x m,
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     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 (MStateAssign (var_x, translate_expr node args e2)) :: s)
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384
  | p  , Expr_appl (f, arg, r) when not (Basic_library.is_internal_fun f) ->
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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
388
    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 call_ck = Clocks.new_var true in
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    Clock_calculus.unify_imported_clock (Some call_ck) eq.eq_rhs.expr_clock;
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    (m,
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     (if Stateless.check_node node_f then si else MReset o :: si),
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     Utils.IMap.add o call_f j,
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     d,
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     reset_instance node args o r eq.eq_rhs.expr_clock @
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       (control_on_clock node args call_ck (MStep (var_p, o, vl))) :: s)
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   (* special treatment depending on the active backend. For horn backend, x = ite (g,t,e)
403
      are preserved. While they are replaced as if g then x = t else x = e in  C or Java
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      backends. *)
405
  | [x], Expr_ite   (c, t, e) 
406
    when (match !Options.output with | "horn" -> true | "C" | "java" | _ -> false)
407
      -> 
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    let var_x = get_node_var x node in
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    (m, 
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     si, 
411
     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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417
  | [x], _                                       -> (
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    let var_x = get_node_var x node in
419 0cbf0839 ploc
    (m, si, j, d, 
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     control_on_clock 
421
       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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  | _                                            ->
428
    begin
429
      Format.eprintf "unsupported equation: %a@?" Printers.pp_node_eq eq;
430
      assert false
431
    end
432
433
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);*)
438
  let split_eqs = Splitting.tuple_split_eq_list nd.node_eqs in
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  let eqs_rev, remainder = 
440
    List.fold_left 
441
      (fun (accu, node_eqs_remainder) v -> 
442
	  if List.exists (fun eq -> List.mem v eq.eq_lhs) accu
443
	  then
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	    (accu, node_eqs_remainder)
445
	  else
446 e8c0f452 xthirioux
	    (*if   List.exists (fun vdecl -> vdecl.var_id = v) nd.node_locals
447 0cbf0839 ploc
	      || List.exists (fun vdecl -> vdecl.var_id = v) nd.node_outputs
448 e8c0f452 xthirioux
	    then*)
449 0cbf0839 ploc
	      let eq_v, remainder = find_eq v node_eqs_remainder in
450
	      eq_v::accu, remainder
451 e8c0f452 xthirioux
	    (* else it is a constant value, checked during typing phase
452 0cbf0839 ploc
	    else	 
453 e8c0f452 xthirioux
	      accu, node_eqs_remainder *)
454 0cbf0839 ploc
      ) 
455
      ([], split_eqs) 
456
      sch 
457
  in
458
  if List.length remainder > 0 then (
459
    Format.eprintf "Equations not used are@.%a@.Full equation set is:@.%a@.@?"
460
	    Printers.pp_node_eqs remainder
461
      	    Printers.pp_node_eqs nd.node_eqs;
462
    assert false )
463
  ;
464
465
  let init_args = ISet.empty, [], Utils.IMap.empty, List.fold_right (fun l -> ISet.add l) nd.node_locals ISet.empty, [] in
466 36454535 ploc
  (* memories, init instructions, node calls, local variables (including memories), step instrs *)
467 0cbf0839 ploc
  let m, init, j, locals, s = translate_eqs nd init_args (List.rev eqs_rev) in
468
  let mmap = Utils.IMap.fold (fun i n res -> (i, n)::res) j [] in
469
  {
470
    mname = nd;
471
    mmemory = ISet.elements m;
472
    mcalls = mmap;
473 5538b7ac xthirioux
    minstances = List.filter (fun (_, (n,_)) -> not (Stateless.check_node n)) mmap;
474 0cbf0839 ploc
    minit = init;
475
    mstatic = List.filter (fun v -> v.var_dec_const) nd.node_inputs;
476
    mstep = {
477
      step_inputs = nd.node_inputs;
478
      step_outputs = nd.node_outputs;
479
      step_locals = ISet.elements (ISet.diff locals m);
480
      step_checks = List.map (fun d -> d.Dimension.dim_loc, translate_expr nd init_args (expr_of_dimension d)) nd.node_checks;
481 29ad4531 ploc
      step_instrs = (
482
	(* special treatment depending on the active backend. For horn backend,
483
	   common branches are not merged while they are in C or Java
484
	   backends. *)
485
	match !Options.output with
486
	| "horn" -> s
487
	| "C" | "java" | _ -> join_guards_list s
488
      );
489 36454535 ploc
      step_asserts = 
490
	let exprl = List.map (fun assert_ -> assert_.assert_expr ) nd.node_asserts in
491
	List.map (translate_expr nd init_args) exprl
492
	;
493 0cbf0839 ploc
    };
494
    mspec = nd.node_spec;
495
    mannot = nd.node_annot;
496
  }
497
498 db1c5c00 ploc
(** takes the global delcarations and the scheduling associated to each node *)
499
let translate_prog decls node_schs =
500 0cbf0839 ploc
  let nodes = get_nodes decls in 
501 db1c5c00 ploc
  List.map 
502
    (fun node -> 
503 9aaee7f9 xthirioux
      let sch = (Utils.IMap.find node.node_id node_schs).Scheduling.schedule in
504 db1c5c00 ploc
      translate_decl node sch 
505
    ) nodes
506 f6923c9e ploc
507
let get_machine_opt name machines =  
508
  List.fold_left 
509
    (fun res m -> 
510
      match res with 
511
      | Some _ -> res 
512
      | None -> if m.mname.node_id = name then Some m else None)
513
    None machines
514
    
515 1837ce98 xthirioux
(* variable substitution for optimizing purposes *)
516
517
(* checks whether an [instr] is skip and can be removed from program *)
518
let rec instr_is_skip instr =
519
  match instr with
520
  | MLocalAssign (i, LocalVar v) when i = v -> true
521
  | MStateAssign (i, StateVar v) when i = v -> true
522
  | MBranch (g, hl) -> List.for_all (fun (_, il) -> instrs_are_skip il) hl
523
  | _               -> false
524
and instrs_are_skip instrs =
525
  List.for_all instr_is_skip instrs
526
527
let rec instr_remove_skip instr cont =
528
  match instr with
529
  | MLocalAssign (i, LocalVar v) when i = v -> cont
530
  | MStateAssign (i, StateVar v) when i = v -> cont
531
  | MBranch (g, hl) -> MBranch (g, List.map (fun (h, il) -> (h, instrs_remove_skip il [])) hl) :: cont
532
  | _               -> instr::cont
533
534
and instrs_remove_skip instrs cont =
535
  List.fold_right instr_remove_skip instrs cont
536
537
let rec value_replace_var fvar value =
538
  match value with
539
  | Cst c -> value
540
  | LocalVar v -> LocalVar (fvar v)
541
  | StateVar v -> value
542
  | Fun (id, args) -> Fun (id, List.map (value_replace_var fvar) args) 
543
  | Array vl -> Array (List.map (value_replace_var fvar) vl)
544
  | Access (t, i) -> Access(value_replace_var fvar t, i)
545
  | Power (v, n) -> Power(value_replace_var fvar v, n)
546
547
let rec instr_replace_var fvar instr =
548
  match instr with
549
  | MLocalAssign (i, v) -> MLocalAssign (fvar i, value_replace_var fvar v)
550
  | MStateAssign (i, v) -> MStateAssign (i, value_replace_var fvar v)
551
  | MReset i            -> instr
552
  | MStep (il, i, vl)   -> MStep (List.map fvar il, i, List.map (value_replace_var fvar) vl)
553
  | MBranch (g, hl)     -> MBranch (value_replace_var fvar g, List.map (fun (h, il) -> (h, instrs_replace_var fvar il)) hl)
554
555
and instrs_replace_var fvar instrs =
556
  List.map (instr_replace_var fvar) instrs
557
558
let step_replace_var fvar step =
559
  { step with
560
    step_checks = List.map (fun (l, v) -> (l, value_replace_var fvar v)) step.step_checks;
561
    step_locals = Utils.remove_duplicates (List.map fvar step.step_locals);
562
    step_instrs = instrs_replace_var fvar step.step_instrs;
563
}
564
565
let rec machine_replace_var fvar m =
566
  { m with
567
    mstep = step_replace_var fvar m.mstep
568
  }
569
570
let machine_reuse_var m reuse =
571
  let reuse_vdecl = Hashtbl.create 23 in
572
  begin
573
    Hashtbl.iter (fun v v' -> Hashtbl.add reuse_vdecl (get_node_var v m.mname) (get_node_var v' m.mname)) reuse;
574
    let fvar v =
575
      try
576
	Hashtbl.find reuse_vdecl v
577
      with Not_found -> v in
578
    machine_replace_var fvar m
579
  end
580
581
let prog_reuse_var prog node_schs =
582
  List.map 
583
    (fun m -> 
584
      machine_reuse_var m (Utils.IMap.find m.mname.node_id node_schs).Scheduling.reuse_table
585
    ) prog
586 0cbf0839 ploc
587
(* Local Variables: *)
588
(* compile-command:"make -C .." *)
589
(* End: *)