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baseArg.ml
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baseArg.ml
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(*
Copyright © 2011 MLstate
This file is part of OPA.
OPA is free software: you can redistribute it and/or modify it under the
terms of the GNU Affero General Public License, version 3, as published by
the Free Software Foundation.
OPA 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 Affero General Public License for
more details.
You should have received a copy of the GNU Affero General Public License
along with OPA. If not, see <http://www.gnu.org/licenses/>.
*)
(* depends *)
module String = BaseString
type simple_completion =
| Nothing
| File of string
| Dir
| Oneof of string list
type completion = {params : simple_completion list; stop : bool}
type spec =
| Unit of (unit -> unit)
| Bool of (bool -> unit)
| Set of bool ref
| Clear of bool ref
| String of (string -> unit)
| Set_string of string ref
| Int of (int -> unit)
| Set_int of int ref
| Float of (float -> unit)
| Set_float of float ref
| Tuple of spec list
| Symbol of string list * (string -> unit)
| Rest of (string -> unit)
| Complete of spec * completion
let spec_of_assoc ref_ assoc =
Symbol (List.map fst assoc, (fun s -> ref_ := List.assoc s assoc))
let spec_opt_of_assoc ref_ assoc =
Symbol (List.map fst assoc, (fun s -> ref_ := Some (List.assoc s assoc)))
let spec_of_opt_assoc ref_ default assoc =
Unit (fun () ->
if !Arg.current+1 < Array.length Sys.argv then
let s = Sys.argv.(!Arg.current+1) in
if s <> "" && s.[0] = '-' then
ref_ := default
else (
try
ref_ := List.assoc s assoc;
incr Arg.current;
with Not_found ->
ref_ := default
)
else
ref_ := default
)
let rec convert_spec_to_old_arg = function
| Unit x -> Arg.Unit x
| Bool x -> Arg.Bool x
| Set x -> Arg.Set x
| Clear x -> Arg.Clear x
| String x -> Arg.String x
| Set_string x -> Arg.Set_string x
| Int x -> Arg.Int x
| Set_int x -> Arg.Set_int x
| Float x -> Arg.Float x
| Set_float x -> Arg.Set_float x
| Tuple x -> Arg.Tuple (List.map convert_spec_to_old_arg x)
| Symbol (x,y) -> Arg.Symbol (x,y)
| Rest x -> Arg.Rest x
| Complete (x,_) -> convert_spec_to_old_arg x
let rec convert_spec_from_old_arg = function
| Arg.Unit x -> Unit x
| Arg.Bool x -> Bool x
| Arg.Set x -> Set x
| Arg.Clear x -> Clear x
| Arg.String x -> String x
| Arg.Set_string x -> Set_string x
| Arg.Int x -> Int x
| Arg.Set_int x -> Set_int x
| Arg.Float x -> Float x
| Arg.Set_float x -> Set_float x
| Arg.Tuple x -> Tuple (List.map convert_spec_from_old_arg x)
| Arg.Symbol (x,y) -> Symbol (x,y)
| Arg.Rest x -> Rest x
let convert_from_old_arg_one (x,spec,y) = (x,convert_spec_from_old_arg spec,y)
let convert_to_old_arg_one (x,spec,y) = (x,convert_spec_to_old_arg spec,y)
let convert_to_old_arg l = List.map convert_to_old_arg_one l
let convert_from_old_arg l = List.map convert_from_old_arg_one l
(* stdlib's functions *)
let parse p = Arg.parse (convert_to_old_arg p)
let parse_argv ?current x p = Arg.parse_argv ?current x (convert_to_old_arg p)
let usage p = Arg.usage (convert_to_old_arg p)
let align p = convert_from_old_arg (Arg.align (convert_to_old_arg p))
let current = Arg.current
type key = Arg.key
type doc = Arg.doc
type usage_msg = Arg.usage_msg
type anon_fun = Arg.anon_fun
exception Help = Arg.Help
exception Bad = Arg.Bad
let sort_by_name l = List.stable_sort (fun (x,_,_) (y,_,_) -> compare (x:string) y) l
let sort l = (* also makes names unique *)
let rec aux acc = function
| [] -> List.rev acc
| [x] -> List.rev (x :: acc)
| ((s1,_,_) as v1) :: ((s2,_,_) :: tl2 as tl) ->
if s1 = s2 then (
if (try (Sys.getenv "MLSTATE_TESTING") = "0" with Not_found -> true) then
Printf.eprintf "Internal warning: The option %s is matched several times in the command line parser.\n%!" s1;
(* cannot call omanager from here, nor debugVariables *)
aux acc (v1 :: tl2) (* keeping the first one in the list *)
) else
aux (v1 :: acc) tl in
aux [] (sort_by_name l)
let merge ({params = l1; stop = b1} as left) {params = l2; stop = b2} =
if b1 then left else {params = l1 @ l2; stop = b1 || b2}
let rec convert_spec = function
| Bool _ -> {params = [Oneof ["true";"false"]]; stop = false} (* possibly case insensitive ? *)
| Unit _
| Set _
| Clear _ -> {params = []; stop = false} (* nothing follows *)
| String _
| Set_string _
| Int _
| Set_int _
| Float _
| Set_float _ -> {params = [Nothing]; stop = false} (* no completion possible *)
| Tuple specs ->
let l = List.map convert_spec specs in
List.fold_left merge {params = []; stop = false} l
| Symbol (sl,_) -> {params = [Oneof sl]; stop = false}
| Rest _ -> {params = []; stop = true}
| Complete (_,comp) -> comp
let convert_one (key,spec,_) =
(key, convert_spec spec)
let convert parse =
let completion = List.map convert_one parse in
List.fold_left (fun completion builtin_option ->
if List.mem_assoc builtin_option completion then
completion
else
(builtin_option,{params = []; stop = false}) :: completion) completion ["-help";"--help"]
let stringify_simple_completion = function
| Nothing -> "COMPREPLY=()"
| File pattern -> Printf.sprintf "_filedir %s" pattern
| Dir -> "_filedir -d"
| Oneof sl -> Printf.sprintf "COMPREPLY=($(compgen -W '%s' -- ${cur}))" (String.concat " " sl)
let stringify_completion (k,l) =
if l = [] then
""
else
let main,_ =
List.fold_left (fun (acc,i) sc ->
let acc =
if i = 0 then acc ^ Printf.sprintf "
if [ \"$n\" -eq %d ]; then
%s" (i+1) (stringify_simple_completion sc)
else acc ^ Printf.sprintf "
elif [ \"$n\" -eq %d ]; then
%s" (i+1) (stringify_simple_completion sc) in
acc,(i+1)
) ("",0) l in
Printf.sprintf "
%s)%s
else
did_something=0
fi;;" k main
(* making sure we have only letters in the name, to avoid function containing wierd chars
* (like '/') *)
let remove_illegal_chars s =
"prefix" ^ Str.global_replace (Str.regexp "[^a-zA-Z]") "" s
let stringify ?name ?(names=[]) ?(default=File "*") l =
let one_name,names =
match name,names with
| None, [] -> Sys.argv.(0), [Filename.basename Sys.argv.(0)]
| None, (h :: _ as l) -> h, l
| Some v, l -> v, v :: l in
let one_name = remove_illegal_chars one_name in
let stops = List.map fst (List.filter (fun (_,{params=_; stop = b}) -> b) l) in
let prologue = Printf.sprintf "\
# this file was generated by Base.Arg.add_bash_completion
# do not modify by hand
shopt -s extglob
_%s() {
COMPREPLY=()
local cur=`_get_cword`
" one_name in
let check_stop = Printf.sprintf "
local latest_minus=$COMP_CWORD
local stop=(%s)
for (( i = 0; i < $COMP_CWORD; i ++ )); do
for j in \"${stop[@]}\"; do
[ \"${COMP_WORDS[i]}\" = \"$j\" ] && return 0
done
[[ \"${COMP_WORDS[i]}\" =~ -.* ]] && latest_minus=$i
done
local n=$(( COMP_CWORD - latest_minus ))
" (String.concat " " stops) in
let complete = Printf.sprintf "
local did_something=0
if [ \"$n\" -gt 0 ]; then
did_something=1
case ${COMP_WORDS[latest_minus]} in%s
*) did_something=0;;
esac
fi
" (String.concat "" (List.map (fun (k,{params=l;stop=_}) -> stringify_completion (k,l)) l)) in
let default_completion = Printf.sprintf "
if [ $did_something -eq 0 ]; then
case ${cur} in
-*) COMPREPLY=($(compgen -W '%s' -- ${cur}));;
*) %s;;
esac
fi
" (String.concat " " (List.map fst l))
(stringify_simple_completion default) in
let epilogue = Printf.sprintf "\
}
complete -F _%s -o filenames %s
" one_name (String.concat " " names) in
prologue ^ check_stop ^ complete ^ default_completion ^ epilogue
let generate ?name ?names ?default args =
let completion = convert args in
let s = stringify ?name ?names ?default completion in
let c = open_out "bash_completion" in
output_string c s;
close_out c
let rec add_bash_completion ?name ?names ?default args =
let rec new_args =
("--bash-completion",
Unit (fun () -> generate ?name ?names ?default new_args; exit 0),
" Dumps a bash completion in ./bash_completion") :: args in
new_args
let split s = String.slice_chars " ,;" s