(***********************************************************************) (* *) (* Heptagon *) (* *) (* Gwenael Delaval, LIG/INRIA, UJF *) (* Leonard Gerard, Parkas, ENS *) (* Adrien Guatto, Parkas, ENS *) (* Cedric Pasteur, Parkas, ENS *) (* Marc Pouzet, Parkas, ENS *) (* Nicolas Berthier, SUMO, INRIA *) (* *) (* Copyright 2012 ENS, INRIA, UJF *) (* *) (* This file is part of the Heptagon compiler. *) (* *) (* Heptagon is free software: you can redistribute it and/or modify it *) (* under the terms of the GNU General Public License as published by *) (* the Free Software Foundation, either version 3 of the License, or *) (* (at your option) any later version. *) (* *) (* Heptagon is distributed in the hope that it will be useful, *) (* but WITHOUT ANY WARRANTY; without even the implied warranty of *) (* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *) (* GNU General Public License for more details. *) (* *) (* You should have received a copy of the GNU General Public License *) (* along with Heptagon. If not, see *) (* *) (***********************************************************************) open Compiler_utils open Compiler_options open Names let pp p = if !verbose then Mls_printer.print stdout p ;; IFDEF ENABLE_CTRLN THEN (* NB: I localize file name determination logics for CtrlNbac output into this module, because its place is not in CtrlNbacGen... *) (** [gen_n_output_ctrln p] translates the Minils program [p] into Controllable-Nbac format, and then output its nodes separately in files under a specific directory; typically, a node ["n"] in file ["f.ept"] is output into a file called "f_ctrln/n.nbac" *) let gen_n_output_ctrln p = (* Main generation procedure. *) let nodes, p = CtrlNbacGen.gen p in (* Save the controller module. *) Ctrln_utils.save_controller_modul_for p.Minils.p_modname; (* Output Controllable-Nbac contoller. *) ignore (clean_dir (Ctrln_utils.dirname_for_modul p.Minils.p_modname)); List.iter begin fun (node_name, node) -> let oc = open_out (Ctrln_utils.ctrln_for_node node_name) in let fmt = Format.formatter_of_out_channel oc in CtrlNbac.AST.print_node ~print_header:print_header_info fmt node; close_out oc end nodes; p let maybe_ctrln_pass p = let ctrln = List.mem "ctrln" !target_languages in pass "Controllable Nbac generation" ctrln gen_n_output_ctrln p pp ;; ELSE let maybe_ctrln_pass p = p ;; END let compile_program p = (* Clocking *) let p = try pass "Clocking" true Clocking.program p pp with Errors.Error -> comment ~sep:"" "\nInfered clocks :\n"; pp p; comment ~sep:"*** " ("Clocking failed."); if !print_types then Global_printer.print_interface Format.std_formatter; raise Errors.Error in if !print_types then Global_printer.print_interface Format.std_formatter; (* Level clocks *) let p = pass "Level clock" true Level_clock.program p pp in (* Dataglow minimization *) let p = let call_tomato = !tomato || (List.length !tomato_nodes > 0) in let p = pass "Extended value inlining" call_tomato Inline_extvalues.program p pp in pass "Data-flow minimization" call_tomato Tomato.program p pp in (** TODO: re enable when ported to the new AST let p = pass "Automata minimization checks" true Tomato.tomato_checks p pp in *) (* Normalize memories*) let p = pass "Normalize memories" true Normalize_mem.program p pp in (* Scheduling *) let p = if not !Compiler_options.use_old_scheduler then pass "Scheduling (with minimization of interferences)" true Schedule_interf.program p pp else pass "Scheduling" true Schedule.program p pp in let z3z = List.mem "z3z" !target_languages in let ctrln = List.mem "ctrln" !target_languages in let ctrl = z3z || ctrln in if z3z && ctrln then warn "ignoring target `ctrln' (incompatible with target `z3z')."; let p = maybe_ctrln_pass p in let p = pass "Sigali generation" z3z Sigalimain.program p pp in (* Re-scheduling after generation *) let p = if not !Compiler_options.use_old_scheduler then pass "Scheduling (with minimization of interferences)" ctrl Schedule_interf.program p pp else pass "Scheduling" ctrl Schedule.program p pp in (* Memory allocation *) let p = pass "Memory allocation" !do_mem_alloc Interference.program p pp in p