heptagon/compiler/main/heptc.ml
Nicolas Berthier 10bdab4dc6 Exclusively use ocamlfind; source documentation generation.
- Stripped portions of `myocamlbuild{,_config}.ml' that seem useless
  when `-use-ocamlfind' is passed to ocamlbuild.

- Added some code in `myocamlbuild_config.ml' to be able to generate
  documentation by merging interface and implementation files.
2013-11-08 15:50:36 +01:00

166 lines
7.1 KiB
OCaml

(***********************************************************************)
(* *)
(* Heptagon *)
(* *)
(* Gwenael Delaval, LIG/INRIA, UJF *)
(* Leonard Gerard, Parkas, ENS *)
(* Adrien Guatto, Parkas, ENS *)
(* Cedric Pasteur, Parkas, ENS *)
(* Marc Pouzet, Parkas, ENS *)
(* *)
(* 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 <http://www.gnu.org/licenses/> *)
(* *)
(***********************************************************************)
open Misc
open Compiler_utils
open Compiler_options
let compile_interface modname source_f =
(* output file names *)
let output = String.uncapitalize modname in
let epci_f = output ^ ".epci" in
(* input/output channels *)
let source_c, lexbuf = lexbuf_from_file source_f in
let epci_c = open_out_bin epci_f in
let close_all_files () = close_in source_c; close_out epci_c in
try
(* Process the [lexbuf] to an Heptagon AST *)
let p = Hept_parser_scoper.parse_interface modname lexbuf in
if !print_types then Global_printer.print_interface Format.std_formatter;
(* Process the interface *)
let p = Hept_compiler.compile_interface p in
(* Output the .epci *)
output_value epci_c (Modules.current_module ());
(* Translate to Obc *)
let p = Hept2mls.interface p in
(* Generate the sequential code *)
Mls2seq.interface p;
close_all_files ()
with
| x -> close_all_files (); raise x
(* [modname] is the module name, [source_f] is the source file *)
let compile_program modname source_f =
(* output file names *)
let output = String.uncapitalize modname in
let epci_f = output ^ ".epci" in
let mls_f = output ^ ".mls" in
(* input/output channels *)
let source_c, lexbuf = lexbuf_from_file source_f in
let epci_c = open_out_bin epci_f in
let mls_c = open_out mls_f in
let close_all_files () = close_in source_c; close_out epci_c; close_out mls_c in
try
(* Activates passes according to the backend used *)
Mls2seq.load_conf ();
(* Record timing information *)
Compiler_timings.start_compiling modname;
(* Process the [lexbuf] to an Heptagon AST *)
let p = Hept_parser_scoper.parse_program modname lexbuf in
(* Process the Heptagon AST *)
let p = Hept_compiler.compile_program p in
(* Compile Heptagon to MiniLS *)
let p = do_pass "Translation into MiniLS" Hept2mls.program p Mls_compiler.pp in
(* Output the .mls *)
do_silent_pass "MiniLS serialization" (fun () -> Mls_printer.print mls_c p) ();
(* Process the MiniLS AST *)
let p = Mls_compiler.compile_program p in
(* Output the .epci *)
output_value epci_c (Modules.current_module ());
(* Generate the sequential code *)
Mls2seq.program p;
close_all_files ();
Compiler_timings.report_statistics ()
with x -> close_all_files (); raise x
let compile source_f =
let modname = source_f |> Filename.basename |> Filename.chop_extension |> String.capitalize in
let modul = Names.modul_of_string modname in
Initial.initialize modul;
source_f |> Filename.dirname |> add_include;
check_options ();
match Misc.file_extension source_f with
| "ept" -> compile_program modname source_f
| "epi" -> compile_interface modname source_f
| ext -> raise (Arg.Bad ("Unknow file type: " ^ ext ^ " for file: " ^ source_f))
(** [main] function to be launched *)
let main () =
let read_qualname f = Arg.String (fun s -> f (Names.qualname_of_string s)) in
try
Arg.parse
[
"-v",Arg.Set verbose, doc_verbose;
"-version", Arg.Unit show_version, doc_version;
"-i", Arg.Set print_types, doc_print_types;
"-I", Arg.String add_include, doc_include;
"-where", Arg.Unit locate_stdlib, doc_locate_stdlib;
"-stdlib", Arg.String set_stdlib, doc_stdlib;
"-c", Arg.Set create_object_file, doc_object_file;
"-s", Arg.String set_simulation_node, doc_sim;
"-hepts", Arg.Set hepts_simulation, doc_hepts;
"-bool", Arg.Set boolean, doc_boolean;
"-deadcode", Arg.Set deadcode, doc_deadcode;
"-tomato", Arg.Set tomato, doc_tomato;
"-tomanode", read_qualname add_tomato_node, doc_tomato;
"-tomacheck", read_qualname add_tomato_check, "";
"-inline", read_qualname add_inlined_node, doc_inline;
"-flatten", Arg.Set flatten, doc_flatten;
"-assert", Arg.String add_assert, doc_assert;
"-nopervasives", Arg.Unit set_no_pervasives, doc_no_pervasives;
"-target", Arg.String add_target_language, doc_target;
"-targetpath", Arg.String set_target_path, doc_target_path;
"-nocaus", Arg.Clear causality, doc_nocaus;
"-noinit", Arg.Clear init, doc_noinit;
"-fti", Arg.Set full_type_info, doc_full_type_info;
"-statefuli", Arg.Set stateful_info, doc_stateful_info;
"-fname", Arg.Set full_name, doc_full_name;
"-nbvars", Arg.Set nbvars, doc_nbvars;
"-itfusion", Arg.Set do_iterator_fusion, doc_itfusion;
"-strict_ssa", Arg.Unit set_strict_ssa, doc_strict_ssa;
"-nosink", Arg.Set nosink, doc_nosink;
"-memalloc", Arg.Unit do_mem_alloc_and_typing, doc_memalloc;
"-only-memalloc", Arg.Set do_mem_alloc, doc_memalloc_only;
"-only-linear", Arg.Set do_linear_typing, doc_linear_only;
"-old-scheduler", Arg.Set use_old_scheduler, doc_interf_scheduler;
"-unroll", Arg.Set unroll_loops, doc_unroll;
"-O", Arg.Unit do_optim, doc_optim;
"-mall", Arg.Set interf_all, doc_interf_all;
"-time", Arg.Set time_passes, doc_time_passes;
]
compile errmsg;
with
| Errors.Error -> exit 2;;
(** Launch the [main] *)
main ()