catala/compiler/driver.ml

291 lines
13 KiB
OCaml

(* This file is part of the Catala compiler, a specification language for tax and social benefits
computation rules. Copyright (C) 2020 Inria, contributors: Denis Merigoux
<denis.merigoux@inria.fr>, Emile Rolley <emile.rolley@tuta.io>
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License
is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express
or implied. See the License for the specific language governing permissions and limitations under
the License. *)
module Cli = Utils.Cli
module Errors = Utils.Errors
module Pos = Utils.Pos
(** Associates a {!type: Cli.backend_lang} with its string represtation. *)
let languages = [ ("en", Cli.En); ("fr", Cli.Fr); ("pl", Cli.Pl) ]
(** Associates a file extension with its corresponding {!type: Cli.frontend_lang} string
representation. *)
let extensions = [ (".catala_fr", "fr"); (".catala_en", "en"); (".catala_pl", "pl") ]
(** Entry function for the executable. Returns a negative number in case of error. Usage:
[driver source_file debug dcalc unstyled wrap_weaved_output backend language max_prec_digits trace optimize scope_to_execute output_file]*)
let driver (source_file : Pos.input_file) (debug : bool) (unstyled : bool)
(wrap_weaved_output : bool) (avoid_exceptions : bool) (backend : string)
(language : string option) (max_prec_digits : int option) (trace : bool) (optimize : bool)
(ex_scope : string option) (output_file : string option) : int =
try
Cli.debug_flag := debug;
Cli.style_flag := not unstyled;
Cli.trace_flag := trace;
Cli.optimize_flag := optimize;
Cli.debug_print "Reading files...";
let filename = ref "" in
(match source_file with FileName f -> filename := f | Contents c -> Cli.contents := c);
(match max_prec_digits with None -> () | Some i -> Cli.max_prec_digits := i);
let l =
match language with
| Some l -> l
| None -> (
(* Try to infer the language from the intput file extension. *)
let ext = Filename.extension !filename in
if ext = "" then
Errors.raise_error
(Printf.sprintf
"No file extension found for the file '%s'. (Try to add one or to specify the -l \
flag)"
!filename);
try List.assoc ext extensions with Not_found -> ext)
in
let language =
try List.assoc l languages
with Not_found ->
Errors.raise_error
(Printf.sprintf "The selected language (%s) is not supported by Catala" l)
in
Cli.locale_lang := language;
let backend =
let backend = String.lowercase_ascii backend in
if backend = "makefile" then Cli.Makefile
else if backend = "latex" then Cli.Latex
else if backend = "html" then Cli.Html
else if backend = "interpret" then Cli.Run
else if backend = "ocaml" then Cli.OCaml
else if backend = "dcalc" then Cli.Dcalc
else if backend = "scopelang" then Cli.Scopelang
else if backend = "python" then Cli.Python
else
Errors.raise_error
(Printf.sprintf "The selected backend (%s) is not supported by Catala" backend)
in
let prgm = Surface.Parser_driver.parse_top_level_file source_file language in
let prgm = Surface.Fill_positions.fill_pos_with_legislative_info prgm in
match backend with
| Cli.Makefile ->
let backend_extensions_list = [ ".tex" ] in
let source_file =
match source_file with
| FileName f -> f
| Contents _ ->
Errors.raise_error "The Makefile backend does not work if the input is not a file"
in
let output_file =
match output_file with
| Some f -> f
| None -> Filename.remove_extension source_file ^ ".d"
in
Cli.debug_print (Format.asprintf "Writing list of dependencies to %s..." output_file);
let oc = open_out output_file in
Printf.fprintf oc "%s:\\\n%s\n%s:"
(String.concat "\\\n"
(output_file
:: List.map
(fun ext -> Filename.remove_extension source_file ^ ext)
backend_extensions_list))
(String.concat "\\\n" prgm.program_source_files)
(String.concat "\\\n" prgm.program_source_files);
0
| Cli.Latex | Cli.Html ->
let source_file =
match source_file with
| FileName f -> f
| Contents _ ->
Errors.raise_error
"The literate programming backends do not work if the input is not a file"
in
Cli.debug_print
(Printf.sprintf "Weaving literate program into %s"
(match backend with
| Cli.Latex -> "LaTeX"
| Cli.Html -> "HTML"
| _ -> assert false (* should not happen *)));
let output_file =
match output_file with
| Some f -> f
| None -> (
Filename.remove_extension source_file
^
match backend with Cli.Latex -> ".tex" | Cli.Html -> ".html" | _ -> assert false
(* should not happen *))
in
let oc = open_out output_file in
let weave_output =
match backend with
| Cli.Latex -> Literate.Latex.ast_to_latex language
| Cli.Html -> Literate.Html.ast_to_html language
| _ -> assert false
(* should not happen *)
in
Cli.debug_print (Printf.sprintf "Writing to %s" output_file);
let fmt = Format.formatter_of_out_channel oc in
if wrap_weaved_output then
match backend with
| Cli.Latex ->
Literate.Latex.wrap_latex prgm.Surface.Ast.program_source_files language fmt
(fun fmt -> weave_output fmt prgm)
| Cli.Html ->
Literate.Html.wrap_html prgm.Surface.Ast.program_source_files language fmt (fun fmt ->
weave_output fmt prgm)
| _ -> assert false (* should not happen *)
else weave_output fmt prgm;
close_out oc;
0
| _ -> (
Cli.debug_print "Name resolution...";
let ctxt = Surface.Name_resolution.form_context prgm in
let scope_uid =
match (ex_scope, backend) with
| None, Cli.Run -> Errors.raise_error "No scope was provided for execution."
| None, _ ->
snd
(try Desugared.Ast.IdentMap.choose ctxt.scope_idmap
with Not_found ->
Errors.raise_error (Printf.sprintf "There isn't any scope inside the program."))
| Some name, _ -> (
match Desugared.Ast.IdentMap.find_opt name ctxt.scope_idmap with
| None ->
Errors.raise_error
(Printf.sprintf "There is no scope \"%s\" inside the program." name)
| Some uid -> uid)
in
Cli.debug_print "Desugaring...";
let prgm = Surface.Desugaring.desugar_program ctxt prgm in
Cli.debug_print "Collecting rules...";
let prgm = Desugared.Desugared_to_scope.translate_program prgm in
if backend = Cli.Scopelang then begin
let fmt, at_end =
match output_file with
| Some f ->
let oc = open_out f in
(Format.formatter_of_out_channel oc, fun _ -> close_out oc)
| None -> (Format.std_formatter, fun _ -> ())
in
if Option.is_some ex_scope then
Format.fprintf fmt "%a\n" Scopelang.Print.format_scope
(scope_uid, Scopelang.Ast.ScopeMap.find scope_uid prgm.program_scopes)
else Format.fprintf fmt "%a\n" Scopelang.Print.format_program prgm;
at_end ();
exit 0
end;
Cli.debug_print "Translating to default calculus...";
let prgm, type_ordering = Scopelang.Scope_to_dcalc.translate_program prgm in
let prgrm_dcalc_expr = Bindlib.unbox (Dcalc.Ast.build_whole_program_expr prgm scope_uid) in
if backend = Cli.Dcalc then begin
let fmt, at_end =
match output_file with
| Some f ->
let oc = open_out f in
(Format.formatter_of_out_channel oc, fun _ -> close_out oc)
| None -> (Format.std_formatter, fun _ -> ())
in
if Option.is_some ex_scope then
Format.fprintf fmt "%a\n"
(Dcalc.Print.format_scope prgm.decl_ctx)
(let _, _, s = List.find (fun (name, _, _) -> name = scope_uid) prgm.scopes in
(scope_uid, s))
else Format.fprintf fmt "%a\n" (Dcalc.Print.format_expr prgm.decl_ctx) prgrm_dcalc_expr;
at_end ();
exit 0
end;
Cli.debug_print "Typechecking...";
let _typ = Dcalc.Typing.infer_type prgm.decl_ctx prgrm_dcalc_expr in
(* Cli.debug_print (Format.asprintf "Typechecking results :@\n%a" (Dcalc.Print.format_typ
prgm.decl_ctx) typ); *)
match backend with
| Cli.Run ->
Cli.debug_print "Starting interpretation...";
let results = Dcalc.Interpreter.interpret_program prgm.decl_ctx prgrm_dcalc_expr in
let out_regex = Re.Pcre.regexp "\\_out$" in
let results =
List.map
(fun ((v1, v1_pos), e1) ->
let v1 = Re.Pcre.substitute ~rex:out_regex ~subst:(fun _ -> "") v1 in
((v1, v1_pos), e1))
results
in
let results =
List.sort (fun ((v1, _), _) ((v2, _), _) -> String.compare v1 v2) results
in
Cli.debug_print "End of interpretation";
Cli.result_print
(Format.asprintf "Computation successful!%s"
(if List.length results > 0 then " Results:" else ""));
List.iter
(fun ((var, _), result) ->
Cli.result_print
(Format.asprintf "@[<hov 2>%s@ =@ %a@]" var
(Dcalc.Print.format_expr prgm.decl_ctx)
result))
results;
0
| Cli.OCaml | Cli.Python ->
Cli.debug_print "Compiling program into lambda calculus...";
let prgm =
if avoid_exceptions then Lcalc.Compile_without_exceptions.translate_program prgm
else Lcalc.Compile_with_exceptions.translate_program prgm
in
let prgm =
if optimize then begin
Cli.debug_print "Optimizing lambda calculus...";
Lcalc.Optimizations.optimize_program prgm
end
else prgm
in
let source_file =
match source_file with
| FileName f -> f
| Contents _ ->
Errors.raise_error "This backend does not work if the input is not a file"
in
let output_file (extension : string) : string =
match output_file with
| Some f -> f
| None -> Filename.remove_extension source_file ^ extension
in
(match backend with
| Cli.OCaml ->
let output_file = output_file ".ml" in
Cli.debug_print (Printf.sprintf "Writing to %s..." output_file);
let oc = open_out output_file in
let fmt = Format.formatter_of_out_channel oc in
Cli.debug_print "Compiling program into OCaml...";
Lcalc.To_ocaml.format_program fmt prgm type_ordering;
close_out oc
| Cli.Python ->
let prgm = Scalc.Compile_from_lambda.translate_program prgm in
let output_file = output_file ".py" in
Cli.debug_print "Compiling program into Python...";
Cli.debug_print (Printf.sprintf "Writing to %s..." output_file);
let oc = open_out output_file in
let fmt = Format.formatter_of_out_channel oc in
Scalc.To_python.format_program fmt prgm type_ordering;
close_out oc
| _ -> assert false (* should not happen *));
0
| _ -> assert false
(* should not happen *))
with Errors.StructuredError (msg, pos) ->
Cli.error_print (Errors.print_structured_error msg pos);
-1
let main () =
let return_code = Cmdliner.Term.eval (Cli.catala_t (fun f -> driver (FileName f)), Cli.info) in
match return_code with
| `Ok 0 -> Cmdliner.Term.exit (`Ok 0)
| _ -> Cmdliner.Term.exit (`Error `Term)