catala/compiler/catala_utils/cli.ml
Louis Gesbert deb12d2c4a Bump version to 0.8.0
Changelog:
---

A lot has been going on, with more than 530 patches and 70 PRs merged since
0.7.0 last summer. In summary:

- Quite a lot of syntax improvements and changes. Checkout the latest
  [cheat-sheet](https://catalalang.github.io/catala/syntax.pdf) for an overview

- Allow local `let ... equals ... in ...` definitions

- Better error messages and positions throughout

- Added the ability to directly call a scope and retrieve its outputs, like a
  function

- Added disambiguation, allowing to access structure fields without specifying
  the structure type each time

- Added automated resolution of operators, allowing e.g. to write just `+` in
  place of all the type-specific operators `+.`, `+$`, `+@`, `+^`, etc.

- More consistent priority for operators. It is no longer allowed to write `a
  and b or c` without parenthesis.

- Added and changed some operators (`date + duration` now allowed either way,
  `int / int` now returns a decimal, added `duration / duration`)

- Added the ability to have variables and functions defined at
  top-level (outside of any scope). See annex A of the tutorial for details.

- Added support for functions with multiple arguments

- Some big refactors in the compiler, allowing much better code sharing between
  the different passes, and making it much easier to extend. Also added the
  possibility to run the type-checker earlier, etc.

- Countless bug-fixes

- Improvements to our proof backend with Z3

- A tool to automatically synchronise with the upstream French law from
  Legifrance
2023-03-08 18:07:53 +01:00

500 lines
14 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. *)
type backend_lang = En | Fr | Pl
type backend_option_builtin =
[ `Latex
| `Makefile
| `Html
| `Interpret
| `Typecheck
| `OCaml
| `Python
| `Scalc
| `Lcalc
| `Dcalc
| `Scopelang
| `Proof ]
type 'a backend_option = [ backend_option_builtin | `Plugin of 'a ]
let backend_option_to_string = function
| `Interpret -> "Interpret"
| `Makefile -> "Makefile"
| `OCaml -> "Ocaml"
| `Scopelang -> "Scopelang"
| `Dcalc -> "Dcalc"
| `Latex -> "Latex"
| `Proof -> "Proof"
| `Html -> "Html"
| `Python -> "Python"
| `Typecheck -> "Typecheck"
| `Scalc -> "Scalc"
| `Lcalc -> "Lcalc"
| `Plugin s -> s
let backend_option_of_string backend =
match String.lowercase_ascii backend with
| "interpret" -> `Interpret
| "makefile" -> `Makefile
| "ocaml" -> `OCaml
| "scopelang" -> `Scopelang
| "dcalc" -> `Dcalc
| "latex" -> `Latex
| "proof" -> `Proof
| "html" -> `Html
| "python" -> `Python
| "typecheck" -> `Typecheck
| "scalc" -> `Scalc
| "lcalc" -> `Lcalc
| s -> `Plugin s
(** Source files to be compiled *)
let source_files : string list ref = ref []
let locale_lang : backend_lang ref = ref En
let contents : string ref = ref ""
(** Prints debug information *)
let debug_flag = ref false
(* Styles the terminal output *)
let style_flag = ref true
(* Max number of digits to show for decimal results *)
let max_prec_digits = ref 20
let trace_flag = ref false
let optimize_flag = ref false
let disable_counterexamples = ref false
let avoid_exceptions_flag = ref false
open Cmdliner
let file =
Arg.(
required
& pos 1 (some file) None
& info [] ~docv:"FILE" ~doc:"Catala master file to be compiled.")
let debug =
Arg.(value & flag & info ["debug"; "d"] ~doc:"Prints debug information.")
type when_enum = Auto | Always | Never
let when_opt = Arg.enum ["auto", Auto; "always", Always; "never", Never]
let color =
Arg.(
value
& opt ~vopt:Always when_opt Auto
& info ["color"]
~doc:
"Allow output of colored and styled text. If set to $(i,auto), \
enabled when the standard output is to a terminal.")
let unstyled =
Arg.(
value
& flag
& info ["unstyled"; "u"]
~doc:
"Removes styling (colors, etc.) from terminal output. Equivalent to \
$(b,--color=never)")
let optimize =
Arg.(value & flag & info ["optimize"; "O"] ~doc:"Run compiler optimizations.")
let trace_opt =
Arg.(
value
& flag
& info ["trace"; "t"]
~doc:
"Displays a trace of the interpreter's computation or generates \
logging instructions in translate programs.")
let avoid_exceptions =
Arg.(
value
& flag
& info ["avoid_exceptions"]
~doc:"Compiles the default calculus without exceptions")
let closure_conversion =
Arg.(
value
& flag
& info ["closure_conversion"]
~doc:"Performs closure conversion on the lambda calculus")
let wrap_weaved_output =
Arg.(
value
& flag
& info ["wrap"; "w"]
~doc:"Wraps literate programming output with a minimal preamble.")
let print_only_law =
Arg.(
value
& flag
& info ["print_only_law"]
~doc:
"In literate programming output, skip all code and metadata sections \
and print only the text of the law.")
let backend =
Arg.(
required
& pos 0 (some string) None
& info [] ~docv:"COMMAND"
~doc:
"Backend selection (see the list of commands for available options).")
let plugins_dirs =
let doc = "Set the given directory to be searched for backend plugins." in
let env = Cmd.Env.info "CATALA_PLUGINS" ~doc in
let default =
let ( / ) = Filename.concat in
[
Filename.dirname Sys.executable_name
/ Filename.parent_dir_name
/ "lib"
/ "catala"
/ "plugins";
]
in
Arg.(value & opt_all dir default & info ["plugin-dir"] ~docv:"DIR" ~env ~doc)
let language =
Arg.(
value
& opt (some string) None
& info ["l"; "language"] ~docv:"LANG"
~doc:"Input language among: en, fr, pl.")
let max_prec_digits_opt =
Arg.(
value
& opt (some int) None
& info
["p"; "max_digits_printed"]
~docv:"DIGITS"
~doc:
"Maximum number of significant digits printed for decimal results \
(default 20).")
let disable_counterexamples_opt =
Arg.(
value
& flag
& info
["disable_counterexamples"]
~doc:
"Disables the search for counterexamples in proof mode. Useful when \
you want a deterministic output from the Catala compiler, since \
provers can have some randomness in them.")
let ex_scope =
Arg.(
value
& opt (some string) None
& info ["s"; "scope"] ~docv:"SCOPE" ~doc:"Scope to be focused on.")
let output =
Arg.(
value
& opt (some string) None
& info ["output"; "o"] ~docv:"OUTPUT"
~doc:
"$(i, OUTPUT) is the file that will contain the output of the \
compiler. Defaults to $(i,FILE).$(i,EXT) where $(i,EXT) depends on \
the chosen backend. Use $(b,-o -) for stdout.")
type options = {
debug : bool;
color : when_enum;
wrap_weaved_output : bool;
avoid_exceptions : bool;
backend : string;
plugins_dirs : string list;
language : string option;
max_prec_digits : int option;
trace : bool;
disable_counterexamples : bool;
optimize : bool;
ex_scope : string option;
output_file : string option;
closure_conversion : bool;
print_only_law : bool;
}
let options =
let make
debug
color
unstyled
wrap_weaved_output
avoid_exceptions
closure_conversion
backend
plugins_dirs
language
max_prec_digits
trace
disable_counterexamples
optimize
ex_scope
output_file
print_only_law : options =
{
debug;
color = (if unstyled then Never else color);
wrap_weaved_output;
avoid_exceptions;
backend;
plugins_dirs;
language;
max_prec_digits;
trace;
disable_counterexamples;
optimize;
ex_scope;
output_file;
closure_conversion;
print_only_law;
}
in
Term.(
const make
$ debug
$ color
$ unstyled
$ wrap_weaved_output
$ avoid_exceptions
$ closure_conversion
$ backend
$ plugins_dirs
$ language
$ max_prec_digits_opt
$ trace_opt
$ disable_counterexamples_opt
$ optimize
$ ex_scope
$ output
$ print_only_law)
let catala_t f = Term.(const f $ file $ options)
let set_option_globals options : unit =
debug_flag := options.debug;
(style_flag :=
match options.color with
| Always -> true
| Never -> false
| Auto -> Unix.isatty Unix.stdout);
trace_flag := options.trace;
optimize_flag := options.optimize;
disable_counterexamples := options.disable_counterexamples;
avoid_exceptions_flag := options.avoid_exceptions
let version = "0.8.0"
let info =
let doc =
"Compiler for Catala, a specification language for tax and social benefits \
computation rules."
in
let man =
[
`S Manpage.s_description;
`P
"Catala is a domain-specific language for deriving \
faithful-by-construction algorithms from legislative texts.";
`S Manpage.s_commands;
`I
( "$(b,Intepret)",
"Runs the interpreter on the Catala program, executing the scope \
specified by the $(b,-s) option assuming no additional external \
inputs." );
`I
( "$(b,Typecheck)",
"Parses and typechecks a Catala program, without interpreting it." );
`I
( "$(b,Proof)",
"Generates and proves verification conditions about the well-behaved \
execution of the Catala program." );
`I ("$(b,OCaml)", "Generates an OCaml translation of the Catala program.");
`I ("$(b,Python)", "Generates a Python translation of the Catala program.");
`I
( "$(b,LaTeX)",
"Weaves a LaTeX literate programming output of the Catala program." );
`I
( "$(b,HTML)",
"Weaves an HTML literate programming output of the Catala program." );
`I
( "$(b,Makefile)",
"Generates a Makefile-compatible list of the file dependencies of a \
Catala program." );
`I
( "$(b,Scopelang)",
"Prints a debugging verbatim of the scope language intermediate \
representation of the Catala program. Use the $(b,-s) option to \
restrict the output to a particular scope." );
`I
( "$(b,Dcalc)",
"Prints a debugging verbatim of the default calculus intermediate \
representation of the Catala program. Use the $(b,-s) option to \
restrict the output to a particular scope." );
`I
( "$(b,Lcalc)",
"Prints a debugging verbatim of the lambda calculus intermediate \
representation of the Catala program. Use the $(b,-s) option to \
restrict the output to a particular scope." );
`I
( "$(b,Scalc)",
"Prints a debugging verbatim of the statement calculus intermediate \
representation of the Catala program. Use the $(b,-s) option to \
restrict the output to a particular scope." );
`S Manpage.s_authors;
`P "The authors are listed by alphabetical order.";
`P "Nicolas Chataing <nicolas.chataing@ens.fr>";
`P "Alain Delaët-Tixeuil <alain.delaet--tixeuil@inria.fr>";
`P "Aymeric Fromherz <aymeric.fromherz@inria.fr>";
`P "Louis Gesbert <louis.gesbert@ocamlpro.com>";
`P "Denis Merigoux <denis.merigoux@inria.fr>";
`P "Emile Rolley <erolley@tutamail.com>";
`S Manpage.s_examples;
`Pre "catala Interpret -s Foo file.catala_en";
`Pre "catala Ocaml -o target/file.ml file.catala_en";
`S Manpage.s_bugs;
`P
"Please file bug reports at https://github.com/CatalaLang/catala/issues";
]
in
let exits = Cmd.Exit.defaults @ [Cmd.Exit.info ~doc:"on error." 1] in
Cmd.info "catala" ~version ~doc ~exits ~man
(**{1 Terminal formatting}*)
(**{2 Markers}*)
let time : float ref = ref (Unix.gettimeofday ())
let with_style
(styles : ANSITerminal.style list)
(str : ('a, unit, string) format) =
if !style_flag then ANSITerminal.sprintf styles str else Printf.sprintf str
let format_with_style (styles : ANSITerminal.style list) fmt (str : string) =
if !style_flag then
Format.pp_print_as fmt (String.length str)
(ANSITerminal.sprintf styles "%s" str)
else Format.pp_print_string fmt str
let call_unstyled f =
let prev = !style_flag in
style_flag := false;
let res = f () in
style_flag := prev;
res
let time_marker () =
let new_time = Unix.gettimeofday () in
let old_time = !time in
time := new_time;
let delta = (new_time -. old_time) *. 1000. in
if delta > 50. then
Printf.printf "%s"
(with_style
[ANSITerminal.Bold; ANSITerminal.black]
"[TIME] %.0f ms\n" delta)
(** Prints [\[DEBUG\]] in purple on the terminal standard output *)
let debug_marker () =
time_marker ();
with_style [ANSITerminal.Bold; ANSITerminal.magenta] "[DEBUG] "
(** Prints [\[ERROR\]] in red on the terminal error output *)
let error_marker () =
with_style [ANSITerminal.Bold; ANSITerminal.red] "[ERROR] "
(** Prints [\[WARNING\]] in yellow on the terminal standard output *)
let warning_marker () =
with_style [ANSITerminal.Bold; ANSITerminal.yellow] "[WARNING] "
(** Prints [\[RESULT\]] in green on the terminal standard output *)
let result_marker () =
with_style [ANSITerminal.Bold; ANSITerminal.green] "[RESULT] "
(** Prints [\[LOG\]] in red on the terminal error output *)
let log_marker () = with_style [ANSITerminal.Bold; ANSITerminal.black] "[LOG] "
(**{2 Printers}*)
(** All the printers below print their argument after the correct marker *)
let concat_with_line_depending_prefix_and_suffix
(prefix : int -> string)
(suffix : int -> string)
(ss : string list) =
match ss with
| [] -> prefix 0
| _ :: _ ->
let len = List.length ss in
let suffix i = if i < len - 1 then suffix i else "" in
String.concat ""
@@ List.concat
@@ List.mapi
(fun i s -> [prefix i; (if s = "" then "" else " "); s; suffix i])
ss
(** The int argument of the prefix corresponds to the line number, starting at 0 *)
let add_prefix_to_each_line (s : string) (prefix : int -> string) =
concat_with_line_depending_prefix_and_suffix
(fun i -> prefix i)
(fun _ -> "\n")
(String.split_on_char '\n' s)
let debug_print (format : ('a, out_channel, unit) format) =
if !debug_flag then Printf.printf ("%s" ^^ format ^^ "\n%!") (debug_marker ())
else Printf.ifprintf stdout format
let debug_format (format : ('a, Format.formatter, unit) format) =
if !debug_flag then
Format.printf ("%s@[<hov>" ^^ format ^^ "@]@.") (debug_marker ())
else Format.ifprintf Format.std_formatter format
let error_print (format : ('a, out_channel, unit) format) =
Printf.eprintf ("%s" ^^ format ^^ "\n%!") (error_marker ())
let warning_print (format : ('a, out_channel, unit) format) =
Printf.printf ("%s" ^^ format ^^ "\n%!") (warning_marker ())
let result_print (format : ('a, out_channel, unit) format) =
Printf.printf ("%s" ^^ format ^^ "\n%!") (result_marker ())
let result_format (format : ('a, Format.formatter, unit) format) =
Format.printf ("%s" ^^ format ^^ "\n%!") (result_marker ())
let log_print (format : ('a, out_channel, unit) format) =
Printf.printf ("%s" ^^ format ^^ "\n%!") (log_marker ())
let log_format (format : ('a, Format.formatter, unit) format) =
Format.printf ("%s@[<hov>" ^^ format ^^ "@]@.") (log_marker ())