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@ -6,6 +6,13 @@
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\begin{document}
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\title{Presentation of our Lustre-to-C compiler}
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%\subtitle{}
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\date{16 December 2022}
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\author{Benjamin Loison, Arnaud Daby-Seesaram, Antoine Grimod}
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\frame{\titlepage}
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\section{Structure of the compiler}
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\begin{frame}{Main ideas}
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\begin{figure}
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@ -97,35 +104,49 @@
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\section{Passes}
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\begin{frame}{Passes}
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\begin{block}{Classification}
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The passes of our compiler are functions of taking a program and either:
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\begin{block}{Sanity checks}
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\begin{itemize}
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\item returning a program if the pass succeeded
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\item returns nothing otherwise
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\item Check the well-typedness of a program
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\item Check that there are no assignment conflicts in a programs
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\end{itemize}
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\end{block}
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\begin{block}{AST modification}
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\begin{itemize}
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\item Rewrite automata into \texttt{if-then-else} constructs
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\item Linearization of the equations
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\item (no longer required) Push the \texttt{pre} to variables
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\end{itemize}
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We only have one language in our compiler: no intermediary language.
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\end{block}
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\end{frame}
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\subsection{Check}
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\section{Translation to C}
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\begin{frame}
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\begin{block}{Passes}
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The passes can be split into:
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\centerline{\Huge TODO $\boxed{\ddot\smile}$}
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\end{frame}
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\section{Tests}
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\begin{frame}{Tests}
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\begin{block}{testing methods}
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We thought of three testing methods:
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\begin{itemize}
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\item those checking the program validity
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\item those modifying the AST of the program
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\item manual testing of our functionalities
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\item run the sanity-checks-passes after any AST-altering pass
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\item simulation of the nodes (aborted)
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\end{itemize}
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\end{block}
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\end{frame}
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\begin{frame}{Implemented passes}
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\begin{block}{\texttt{pre}-propagation to leaves}
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\end{block}
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\begin{block}{Check: unique initialization for variables}
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\end{block}
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\begin{block}{Linearization of the equations}
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\end{block}
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\section{Possible improvements}
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\begin{frame}{Improvements}
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\begin{itemize}
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\item Increase the expressivity of the accepted programs
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\item Improve the complexity of the different passes
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\begin{itemize}
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\item Group neighbour passes of the same type (node-, expression or
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equation-pass).
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\end{itemize}
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\item \dots{}
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\end{itemize}
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\end{frame}
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\end{document}
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@ -25,7 +25,7 @@ let exec_passes ast main_fn verbose debug passes f =
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let _ =
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(** Usage and argument parsing. *)
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let default_passes = ["pre2vars"; "linearization"; "equations_ordering"] in
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let default_passes = ["automata_validity" ;"automata_translation"; "linearization"; "pre2vars"; "equations_ordering"] in
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let sanity_passes = ["chkvar_init_unicity"; "check_typing"] in
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let usage_msg =
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"Usage: main [-passes p1,...,pn] [-ast] [-verbose] [-debug] \
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@ -67,6 +67,8 @@ let _ =
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[
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("pre2vars", Passes.pre2vars);
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("chkvar_init_unicity", Passes.chkvar_init_unicity);
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("automata_translation", Passes.automata_translation_pass);
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("automata_validity", Passes.check_automata_validity);
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("linearization", Passes.pass_linearization);
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("equations_ordering", Passes.pass_eq_reordering);
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("check_typing", Passes.pass_typing);
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123
src/passes.ml
123
src/passes.ml
@ -137,9 +137,9 @@ let chkvar_init_unicity verbose debug main_fn : t_nodelist -> t_nodelist option
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in
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let add_var_in = add_var 1 in
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let add_var_loc = add_var 0 in
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List.iter add_var_in (snd node.n_inputs);
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List.iter add_var_loc (snd node.n_outputs);
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List.iter add_var_loc (snd node.n_local_vars);
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List.iter add_var_in (snd node.n_inputs);
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(** Usual Equations *)
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incr_eqlist h node.n_equations;
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if check_now h = false
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@ -173,18 +173,100 @@ let rec tpl debug ((pat, exp): t_equation) =
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let pass_linearization verbose debug main_fn =
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let node_lin (node: t_node): t_node option =
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let new_equations = List.flatten
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let rec pre_aux_expression vars expr: t_eqlist * t_varlist * t_expression =
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match expr with
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| EVar _ -> [], vars, expr
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| EMonOp (t, op, e) ->
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begin
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List.map
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(tpl debug)
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node.n_equations
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end in
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match op with
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| MOp_pre ->
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let eqs, vars, e = pre_aux_expression vars e in
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let nvar: string = fresh_var_name vars 6 in
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let nvar = match t with
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| [TInt] -> IVar nvar
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| [TBool] -> BVar nvar
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| [TReal] -> RVar nvar
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| _ -> failwith "Should not happened." in
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let neq_patt: t_varlist = (t, [nvar]) in
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let neq_expr: t_expression = e in
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let vars = varlist_concat (t, [nvar]) vars in
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(neq_patt, neq_expr) :: eqs, vars, EMonOp (t, MOp_pre, EVar (t, nvar))
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| _ ->
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let eqs, vars, e = pre_aux_expression vars e in
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eqs, vars, EMonOp (t, op, e)
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end
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| EBinOp (t, op, e, e') ->
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let eqs, vars, e = pre_aux_expression vars e in
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let eqs', vars, e' = pre_aux_expression vars e' in
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eqs @ eqs', vars, EBinOp (t, op, e, e')
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| ETriOp (t, op, e, e', e'') ->
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let eqs, vars, e = pre_aux_expression vars e in
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let eqs', vars, e' = pre_aux_expression vars e' in
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let eqs'', vars, e'' = pre_aux_expression vars e'' in
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eqs @ eqs' @ eqs'', vars, ETriOp (t, op, e, e', e'')
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| EComp (t, op, e, e') ->
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let eqs, vars, e = pre_aux_expression vars e in
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let eqs', vars, e' = pre_aux_expression vars e' in
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eqs @ eqs', vars, EComp (t, op, e, e')
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| EWhen (t, e, e') ->
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let eqs, vars, e = pre_aux_expression vars e in
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let eqs', vars, e' = pre_aux_expression vars e' in
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eqs @ eqs', vars, EWhen (t, e, e')
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| EReset (t, e, e') ->
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let eqs, vars, e = pre_aux_expression vars e in
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let eqs', vars, e' = pre_aux_expression vars e' in
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eqs @ eqs', vars, EReset (t, e, e')
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| EConst _ -> [], vars, expr
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| ETuple (t, l) ->
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let eqs, vars, l = List.fold_right
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(fun e (eqs, vars, l) ->
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let eqs', vars, e = pre_aux_expression vars e in
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eqs' @ eqs, vars, (e :: l))
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l ([], vars, []) in
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eqs, vars, ETuple (t, l)
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| EApp (t, n, e) ->
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let eqs, vars, e = pre_aux_expression vars e in
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eqs, vars, EApp (t, n, e)
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in
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let rec pre_aux_equation (vars: t_varlist) ((patt, expr): t_equation) =
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let eqs, vars, expr = pre_aux_expression vars expr in
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(patt, expr)::eqs, vars
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in
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let rec tpl ((pat, exp): t_equation) =
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match exp with
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| ETuple (_, hexps :: texps) ->
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debug "An ETuple has been recognized, inlining...";
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let p1, p2 =
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list_select
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(List.length (type_exp hexps))
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(snd pat) in
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let t1 = List.flatten (List.map type_var p1) in
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let t2 = List.flatten (List.map type_var p2) in
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((t1, p1), hexps)
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:: (tpl ((t2, p2),
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ETuple (List.flatten (List.map type_exp texps), texps)))
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| ETuple (_, []) -> []
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| _ -> [(pat, exp)]
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in
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let new_equations = List.flatten
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(List.map
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tpl
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node.n_equations)
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in
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let new_equations, new_locvars =
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List.fold_left
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(fun (eqs, vars) eq ->
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let es, vs = pre_aux_equation vars eq in
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es @ eqs, vars)
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([], node.n_local_vars)
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new_equations
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in
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Some
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{
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n_name = node.n_name;
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n_inputs = node.n_inputs;
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n_outputs = node.n_outputs;
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n_local_vars = node.n_local_vars;
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n_local_vars = new_locvars;
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n_equations = new_equations;
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n_automata = node.n_automata;
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}
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@ -295,6 +377,7 @@ let pass_typing verbose debug main_fn ast =
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else None
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in aux ast
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let check_automata_validity verbos debug main_fn =
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let check_automaton_branch_vars automaton =
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let (init, states) = automaton in
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let left_side = Hashtbl.create 10 in
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@ -317,6 +400,12 @@ let check_automaton_branch_vars automaton =
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if not validity then
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failwith "Automaton branch has different variables assignment in different branches"
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end
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in
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let aux node =
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List.iter check_automaton_branch_vars node.n_automata;
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Some node
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in
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node_pass aux
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let automaton_translation debug automaton =
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let gathered = Hashtbl.create 10 in
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@ -331,7 +420,7 @@ let automaton_translation debug automaton =
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let rec init_state_translation states c = match states with
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| [] -> ()
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| State(name, _, _, _)::q ->
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Hashtbl.replace state_to_int name c; (init_state_translation q c)
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Hashtbl.replace state_to_int name c; (init_state_translation q (c+1))
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in
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let rec find_state name =
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@ -350,14 +439,20 @@ let automaton_translation debug automaton =
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let flatten_state state = match state with
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| State(name, eq, cond, next) ->
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(* Flattening is not possible
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for example a branch where x,y = 1, 2 will be unpacked
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when in another branch x, y = f(z) will not be unpacked
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*)
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(*
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let new_equations = List.flatten
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begin
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List.map
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(tpl debug)
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eq
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end in
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equation_pass name new_equations;
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State(name, new_equations, cond, next)
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*)
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equation_pass name eq;
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State(name, eq, cond, next)
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in
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let rec transition_eq states s =
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@ -399,7 +494,7 @@ let automaton_translation debug automaton =
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let (init, states) = flatten_automaton automaton in
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let s = create_automaton_name () in
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init_state_translation states 1;
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let exp_transition = transition_eq states s in
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let exp_transition = EBinOp([TInt], BOp_arrow, EConst([TInt], CInt(1)), EMonOp([TInt], MOp_pre, transition_eq states s)) in
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let new_equations = [(([TInt], [IVar(s)]), exp_transition)] in
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Hashtbl.fold (fun var explist acc -> (var, translate_var s var explist)::acc) gathered new_equations, IVar(s)
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@ -423,6 +518,10 @@ let automata_trans_pass debug (node:t_node) : t_node option=
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n_outputs = node.n_outputs;
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n_local_vars = (new_ty@ty, vars@loc_vars);
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n_equations = eqs@node.n_equations;
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n_automata = node.n_automata;
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n_automata = []; (* not needed anymore *)
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}
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let automata_translation_pass verbose debug main_fn =
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node_pass (automata_trans_pass debug)
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@ -1,5 +1,4 @@
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node diagonal_int (i: int) returns (o1, o2 : int);
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var i: int;
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let
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(o1, o2) = (i, i);
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tel
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@ -13,9 +12,10 @@ let
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tel
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node auto (i: int) returns (o : int);
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var x, y:int;
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let
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automaton
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| Incr -> do o = (pre o) + 1; done
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| Decr -> do o = (pre o) - 1; done
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| Incr -> do (o,x) = (0 fby o + 1, 2); done
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| Decr -> do (o,x) = diagonal_int(0 fby o); done
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tel
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@ -1,7 +1,4 @@
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node diagonal_int (i: int) returns (o1, o2 : int);
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var y: int;
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node main (i: int) returns (o1: int);
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let
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o2 = y;
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y = i;
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o1 = i;
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o1 = 10 -> pre (20 -> 30);
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tel
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