rebar/src/getopt.erl

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%%%-------------------------------------------------------------------
%%% @author Juan Jose Comellas <juanjo@comellas.org>
%%% @copyright (C) 2009 Juan Jose Comellas
%%% @doc Parses command line options with a format similar to that of GNU getopt.
%%% @end
%%%
%%% This source file is subject to the New BSD License. You should have received
%%% a copy of the New BSD license with this software. If not, it can be
%%% retrieved from: http://www.opensource.org/licenses/bsd-license.php
%%%-------------------------------------------------------------------
-module(getopt).
-author('juanjo@comellas.org').
-export([parse/2, usage/2, usage/3, usage/4]).
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-define(TAB_LENGTH, 8).
%% Indentation of the help messages in number of tabs.
-define(INDENTATION, 3).
%% Position of each field in the option specification tuple.
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-define(OPT_NAME, 1).
-define(OPT_SHORT, 2).
-define(OPT_LONG, 3).
-define(OPT_ARG, 4).
-define(OPT_HELP, 5).
-define(IS_OPT_SPEC(Opt), (is_tuple(Opt) andalso (size(Opt) =:= ?OPT_HELP))).
%% @type arg_type() = 'atom' | 'binary' | 'bool' | 'float' | 'integer' | 'string'.
%% Atom indicating the data type that an argument can be converted to.
-type arg_type() :: 'atom' | 'binary' | 'boolean' | 'float' | 'integer' | 'string'.
%% @type arg_value() = atom() | binary() | bool() | float() | integer() | string().
%% Data type that an argument can be converted to.
-type arg_value() :: atom() | binary() | boolean() | float() | integer() | string().
%% @type arg_spec() = arg_type() | {arg_type(), arg_value()} | undefined.
%% Argument specification.
-type arg_spec() :: arg_type() | {arg_type(), arg_value()} | undefined.
%% @type option() = atom() | {atom(), arg_value()}. Option type and optional default argument.
-type option() :: atom() | {atom(), arg_value()}.
%% @type option_spec() = #option{}. Command line option specification.
-type option_spec() :: {
Name :: atom(),
Short :: char() | undefined,
Long :: string() | undefined,
ArgSpec :: arg_spec(),
Help :: string() | undefined
}.
-spec parse([option_spec()], string() | [string()]) -> {ok, {[option()], [string()]}} | {error, {Reason :: atom(), Data :: any()}}.
%%--------------------------------------------------------------------
%% @spec parse(OptSpecList::[option_spec()], Args::string() | [string()]) -> [option()].
%% @doc Parse the command line options and arguments returning a list of tuples
%% and/or atoms using the Erlang convention for sending options to a
%% function.
%%--------------------------------------------------------------------
parse(OptSpecList, CmdLine) ->
try
Args = if
is_integer(hd(CmdLine)) ->
string:tokens(CmdLine, " \t\n");
true ->
CmdLine
end,
parse(OptSpecList, [], [], 0, Args)
catch
throw: {error, {_Reason, _Data}} = Error ->
Error
end.
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-spec parse([option_spec()], [option()], [string()], integer(), [string()]) ->
{ok, {[option()], [string()]}} | {error, {Reason :: atom(), Data:: any()}}.
%% Process the option terminator.
parse(OptSpecList, OptAcc, ArgAcc, _ArgPos, ["--" | Tail]) ->
% Any argument present after the terminator is not considered an option.
{ok, {lists:reverse(append_default_options(OptSpecList, OptAcc)), lists:reverse(ArgAcc, Tail)}};
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%% Process long options.
parse(OptSpecList, OptAcc, ArgAcc, ArgPos, [[$-, $- | OptArg] = OptStr | Tail]) ->
parse_option_long(OptSpecList, OptAcc, ArgAcc, ArgPos, Tail, OptStr, OptArg);
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%% Process short options.
parse(OptSpecList, OptAcc, ArgAcc, ArgPos, [[$- | [_Char | _] = OptArg] = OptStr | Tail]) ->
parse_option_short(OptSpecList, OptAcc, ArgAcc, ArgPos, Tail, OptStr, OptArg);
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%% Process non-option arguments.
parse(OptSpecList, OptAcc, ArgAcc, ArgPos, [Arg | Tail]) ->
case find_non_option_arg(OptSpecList, ArgPos) of
{value, OptSpec} when ?IS_OPT_SPEC(OptSpec) ->
parse(OptSpecList, [convert_option_arg(OptSpec, Arg) | OptAcc],
ArgAcc, ArgPos + 1, Tail);
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false ->
parse(OptSpecList, OptAcc, [Arg | ArgAcc], ArgPos, Tail)
end;
parse(OptSpecList, OptAcc, ArgAcc, _ArgPos, []) ->
% Once we have completed gathering the options we add the ones that were
% not present but had default arguments in the specification.
{ok, {lists:reverse(append_default_options(OptSpecList, OptAcc)), lists:reverse(ArgAcc)}}.
-spec parse_option_long([option_spec()], [option()], [string()], integer(), [string()], string(), string()) ->
{ok, {[option()], [string()]}} | {error, {Reason :: atom(), Data:: any()}}.
%% @doc Parse a long option, add it to the option accumulator and continue
%% parsing the rest of the arguments recursively.
%% A long option can have the following syntax:
%% --foo Single option 'foo', no argument
%% --foo=bar Single option 'foo', argument "bar"
%% --foo bar Single option 'foo', argument "bar"
parse_option_long(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptStr, OptArg) ->
case split_assigned_arg(OptArg) of
{Long, Arg} ->
% Get option that has its argument within the same string
% separated by an equal ('=') character (e.g. "--port=1000").
parse_option_assigned_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptStr, Long, Arg);
Long ->
case lists:keysearch(Long, ?OPT_LONG, OptSpecList) of
{value, {Name, _Short, Long, undefined, _Help}} ->
parse(OptSpecList, [Name | OptAcc], ArgAcc, ArgPos, Args);
{value, {_Name, _Short, Long, _ArgSpec, _Help} = OptSpec} ->
% The option argument string is empty, but the option requires
% an argument, so we look into the next string in the list.
parse_option_next_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptSpec);
false ->
throw({error, {invalid_option, OptStr}})
end
end.
-spec parse_option_assigned_arg([option_spec()], [option()], [string()], integer(),
[string()], string(), string(), string()) ->
{ok, {[option()], [string()]}} | {error, {Reason :: atom(), Data:: any()}}.
%% @doc Parse an option where the argument is 'assigned' in the same string using
%% the '=' character, add it to the option accumulator and continue parsing the
%% rest of the arguments recursively. This syntax is only valid for long options.
parse_option_assigned_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptStr, Long, Arg) ->
case lists:keysearch(Long, ?OPT_LONG, OptSpecList) of
{value, {_Name, _Short, Long, ArgSpec, _Help} = OptSpec} ->
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case ArgSpec of
undefined ->
throw({error, {invalid_option_arg, OptStr}});
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_ ->
parse(OptSpecList, [convert_option_arg(OptSpec, Arg) | OptAcc], ArgAcc, ArgPos, Args)
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end;
false ->
throw({error, {invalid_option, OptStr}})
end.
-spec split_assigned_arg(string()) -> {Name :: string(), Arg :: string()} | string().
%% @doc Split an option string that may contain an option with its argument
%% separated by an equal ('=') character (e.g. "port=1000").
split_assigned_arg(OptStr) ->
split_assigned_arg(OptStr, OptStr, []).
split_assigned_arg(_OptStr, [$= | Tail], Acc) ->
{lists:reverse(Acc), Tail};
split_assigned_arg(OptStr, [Char | Tail], Acc) ->
split_assigned_arg(OptStr, Tail, [Char | Acc]);
split_assigned_arg(OptStr, [], _Acc) ->
OptStr.
%% @doc Parse a short option, add it to the option accumulator and continue
%% parsing the rest of the arguments recursively.
%% A short option can have the following syntax:
%% -a Single option 'a', no argument or implicit boolean argument
%% -a foo Single option 'a', argument "foo"
%% -afoo Single option 'a', argument "foo"
%% -abc Multiple options: 'a'; 'b'; 'c'
%% -bcafoo Multiple options: 'b'; 'c'; 'a' with argument "foo"
-spec parse_option_short([option_spec()], [option()], [string()], integer(), [string()], string(), string()) ->
{ok, {[option()], [string()]}} | {error, {Reason :: atom(), Data:: any()}}.
parse_option_short(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptStr, [Short | Arg]) ->
case lists:keysearch(Short, ?OPT_SHORT, OptSpecList) of
{value, {Name, Short, _Long, undefined, _Help}} ->
parse_option_short(OptSpecList, [Name | OptAcc], ArgAcc, ArgPos, Args, OptStr, Arg);
{value, {_Name, Short, _Long, ArgSpec, _Help} = OptSpec} ->
case Arg of
[] ->
% The option argument string is empty, but the option requires
% an argument, so we look into the next string in the list.
parse_option_next_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptSpec);
_ ->
case is_valid_arg(ArgSpec, Arg) of
true ->
parse(OptSpecList, [convert_option_arg(OptSpec, Arg) | OptAcc], ArgAcc, ArgPos, Args);
_ ->
parse_option_short(OptSpecList, [convert_option_no_arg(OptSpec) | OptAcc], ArgAcc, ArgPos, Args, OptStr, Arg)
end
end;
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false ->
throw({error, {invalid_option, OptStr}})
end;
parse_option_short(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, _OptStr, []) ->
parse(OptSpecList, OptAcc, ArgAcc, ArgPos, Args).
%% @doc Retrieve the argument for an option from the next string in the list of
%% command-line parameters.
parse_option_next_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, [Arg | Tail] = Args, {Name, _Short, _Long, ArgSpec, _Help} = OptSpec) ->
% Special case for booleans: when the next string is an option we assume
% the value is 'true'.
case (arg_spec_type(ArgSpec) =:= boolean) andalso not is_boolean_arg(Arg) of
true ->
parse(OptSpecList, [{Name, true} | OptAcc], ArgAcc, ArgPos, Args);
_ ->
parse(OptSpecList, [convert_option_arg(OptSpec, Arg) | OptAcc], ArgAcc, ArgPos, Tail)
end;
parse_option_next_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, [] = Args, {Name, _Short, _Long, ArgSpec, _Help}) ->
% Special case for booleans: when the next string is missing we assume the
% value is 'true'.
case arg_spec_type(ArgSpec) of
boolean ->
parse(OptSpecList, [{Name, true} | OptAcc], ArgAcc, ArgPos, Args);
_ ->
throw({error, {missing_option_arg, Name}})
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end.
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-spec find_non_option_arg([option_spec()], integer()) -> {value, option_spec()} | false.
%% @doc Find the option for the discrete argument in position specified in the
%% Pos argument.
find_non_option_arg([{_Name, undefined, undefined, _ArgSpec, _Help} = OptSpec | _Tail], 0) ->
{value, OptSpec};
find_non_option_arg([{_Name, undefined, undefined, _ArgSpec, _Help} | Tail], Pos) ->
find_non_option_arg(Tail, Pos - 1);
find_non_option_arg([_Head | Tail], Pos) ->
find_non_option_arg(Tail, Pos);
find_non_option_arg([], _Pos) ->
false.
-spec append_default_options([option_spec()], [option()]) -> [option()].
%% @doc Append options that were not present in the command line arguments with
%% their default arguments.
append_default_options([{Name, _Short, _Long, {_Type, DefaultArg}, _Help} | Tail], OptAcc) ->
append_default_options(Tail,
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case lists:keymember(Name, 1, OptAcc) of
false ->
[{Name, DefaultArg} | OptAcc];
_ ->
OptAcc
end);
%% For options with no default argument.
append_default_options([_Head | Tail], OptAcc) ->
append_default_options(Tail, OptAcc);
append_default_options([], OptAcc) ->
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OptAcc.
-spec convert_option_no_arg(option_spec()) -> option().
convert_option_no_arg({Name, _Short, _Long, ArgSpec, _Help}) ->
case ArgSpec of
% Special case for booleans: if there is no argument we assume
% the value is 'true'.
{boolean, _DefaultValue} ->
{Name, true};
boolean ->
{Name, true};
_ ->
throw({error, {missing_option_arg, Name}})
end.
-spec convert_option_arg(option_spec(), string()) -> option().
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%% @doc Convert the argument passed in the command line to the data type
%% indicated by the argument specification.
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convert_option_arg({Name, _Short, _Long, ArgSpec, _Help}, Arg) ->
try
{Name, to_type(arg_spec_type(ArgSpec), Arg)}
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catch
error:_ ->
throw({error, {invalid_option_arg, {Name, Arg}}})
end.
-spec arg_spec_type(arg_spec()) -> arg_type() | undefined.
%% @doc Retrieve the data type form an argument specification.
arg_spec_type({Type, _DefaultArg}) ->
Type;
arg_spec_type(Type) when is_atom(Type) ->
Type.
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-spec to_type(atom(), string()) -> arg_value().
%% @doc Convert an argument string to its corresponding data type.
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to_type(binary, Arg) ->
list_to_binary(Arg);
to_type(atom, Arg) ->
list_to_atom(Arg);
to_type(integer, Arg) ->
list_to_integer(Arg);
to_type(float, Arg) ->
list_to_float(Arg);
to_type(boolean, Arg) ->
LowerArg = string:to_lower(Arg),
case is_arg_true(LowerArg) of
true ->
true;
_ ->
case is_arg_false(LowerArg) of
true ->
false;
false ->
erlang:error(badarg)
end
end;
to_type(_Type, Arg) ->
Arg.
-spec is_arg_true(string()) -> boolean().
is_arg_true(Arg) ->
(Arg =:= "true") orelse (Arg =:= "t") orelse
(Arg =:= "yes") orelse (Arg =:= "y") orelse
(Arg =:= "on") orelse (Arg =:= "enabled") orelse
(Arg =:= "1").
-spec is_arg_false(string()) -> boolean().
is_arg_false(Arg) ->
(Arg =:= "false") orelse (Arg =:= "f") orelse
(Arg =:= "no") orelse (Arg =:= "n") orelse
(Arg =:= "off") orelse (Arg =:= "disabled") orelse
(Arg =:= "0").
-spec is_valid_arg(arg_spec() | arg_type(), string()) -> boolean().
is_valid_arg({Type, _DefaultArg}, Arg) ->
is_valid_arg(Type, Arg);
is_valid_arg(boolean, Arg) ->
is_boolean_arg(Arg);
is_valid_arg(integer, Arg) ->
is_integer_arg(Arg);
is_valid_arg(float, Arg) ->
is_float_arg(Arg);
is_valid_arg(_Type, _Arg) ->
true.
-spec is_boolean_arg(string()) -> boolean().
is_boolean_arg(Arg) ->
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LowerArg = string:to_lower(Arg),
is_arg_true(LowerArg) orelse is_arg_false(LowerArg).
-spec is_integer_arg(string()) -> boolean().
is_integer_arg([Head | Tail]) when Head >= $0, Head =< $9 ->
is_integer_arg(Tail);
is_integer_arg([_Head | _Tail]) ->
false;
is_integer_arg([]) ->
true.
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-spec is_float_arg(string()) -> boolean().
is_float_arg([Head | Tail]) when (Head >= $0 andalso Head =< $9) orelse Head =:= $. ->
is_float_arg(Tail);
is_float_arg([_Head | _Tail]) ->
false;
is_float_arg([]) ->
true.
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-spec usage([option_spec()], string()) -> ok.
%%--------------------------------------------------------------------
%% @spec usage(OptSpecList :: [option_spec()], ProgramName :: string()) -> ok.
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%% @doc Show a message on stdout indicating the command line options and
%% arguments that are supported by the program.
%%--------------------------------------------------------------------
usage(OptSpecList, ProgramName) ->
io:format("Usage: ~s~s~n~n~s~n",
[ProgramName, usage_cmd_line(OptSpecList), usage_options(OptSpecList)]).
-spec usage([option_spec()], string(), string()) -> ok.
%%--------------------------------------------------------------------
%% @spec usage(OptSpecList :: [option_spec()], ProgramName :: string(), CmdLineTail :: string()) -> ok.
%% @doc Show a message on stdout indicating the command line options and
%% arguments that are supported by the program. The CmdLineTail argument
%% is a string that is added to the end of the usage command line.
%%--------------------------------------------------------------------
usage(OptSpecList, ProgramName, CmdLineTail) ->
io:format("Usage: ~s~s ~s~n~n~s~n",
[ProgramName, usage_cmd_line(OptSpecList), CmdLineTail, usage_options(OptSpecList)]).
-spec usage([option_spec()], string(), string(), [{string(), string()}]) -> ok.
%%--------------------------------------------------------------------
%% @spec usage(OptSpecList :: [option_spec()], ProgramName :: string(),
%% CmdLineTail :: string(), OptionsTail :: [{string(), string()}]) -> ok.
%% @doc Show a message on stdout indicating the command line options and
%% arguments that are supported by the program. The CmdLineTail and OptionsTail
%% arguments are a string that is added to the end of the usage command line
%% and a list of tuples that are added to the end of the options' help lines.
%%--------------------------------------------------------------------
usage(OptSpecList, ProgramName, CmdLineTail, OptionsTail) ->
UsageOptions = lists:foldl(
fun ({Prefix, Help}, Acc) ->
add_option_help(Prefix, Help, Acc)
end, usage_options_reverse(OptSpecList, []), OptionsTail),
io:format("Usage: ~s~s ~s~n~n~s~n",
[ProgramName, usage_cmd_line(OptSpecList), CmdLineTail,
lists:flatten(lists:reverse(UsageOptions))]).
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-spec usage_cmd_line([option_spec()]) -> string().
%% @doc Return a string with the syntax for the command line options and
%% arguments.
usage_cmd_line(OptSpecList) ->
usage_cmd_line(OptSpecList, []).
usage_cmd_line([{Name, Short, Long, ArgSpec, _Help} | Tail], Acc) ->
CmdLine =
case ArgSpec of
undefined ->
if
% For options with short form and no argument.
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Short =/= undefined ->
[$\s, $[, $-, Short, $]];
% For options with only long form and no argument.
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Long =/= undefined ->
[$\s, $[, $-, $-, Long, $]];
true ->
[]
end;
_ ->
if
% For options with short form and argument.
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Short =/= undefined ->
[$\s, $[, $-, Short, $\s, $<, atom_to_list(Name), $>, $]];
% For options with only long form and argument.
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Long =/= undefined ->
[$\s, $[, $-, $-, Long, $\s, $<, atom_to_list(Name), $>, $]];
% For options with neither short nor long form and argument.
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true ->
[$\s, $<, atom_to_list(Name), $>]
end
end,
usage_cmd_line(Tail, [CmdLine | Acc]);
usage_cmd_line([], Acc) ->
lists:flatten(lists:reverse(Acc)).
-spec usage_options([option_spec()]) -> string().
%% @doc Return a string with the help message for each of the options and
%% arguments.
usage_options(OptSpecList) ->
lists:flatten(lists:reverse(usage_options_reverse(OptSpecList, []))).
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usage_options_reverse([{Name, Short, Long, _ArgSpec, Help} | Tail], Acc) ->
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Prefix =
case Long of
undefined ->
case Short of
% Neither short nor long form (non-option argument).
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undefined ->
[$<, atom_to_list(Name), $>];
% Only short form.
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_ ->
[$-, Short]
end;
_ ->
case Short of
% Only long form.
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undefined ->
[$-, $-, Long];
% Both short and long form.
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_ ->
[$-, Short, $,, $\s, $-, $-, Long]
end
end,
usage_options_reverse(Tail, add_option_help(Prefix, Help, Acc));
usage_options_reverse([], Acc) ->
Acc.
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-spec add_option_help(Prefix :: string(), Help :: string(), Acc :: string()) -> string().
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%% @doc Add the help message corresponding to an option specification to a list
%% with the correct indentation.
add_option_help(Prefix, Help, Acc) when is_list(Help), Help =/= [] ->
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FlatPrefix = lists:flatten(Prefix),
case ((?INDENTATION * ?TAB_LENGTH) - 2 - length(FlatPrefix)) of
TabSize when TabSize > 0 ->
Tab = lists:duplicate(ceiling(TabSize / ?TAB_LENGTH), $\t),
[[$\s, $\s, FlatPrefix, Tab, Help, $\n] | Acc];
_ ->
% The indentation for the option description is 3 tabs (i.e. 24 characters)
% IMPORTANT: Change the number of tabs below if you change the
% value of the INDENTATION macro.
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[[$\t, $\t, $\t, Help, $\n], [$\s, $\s, FlatPrefix, $\n] | Acc]
end;
add_option_help(_Opt, _Prefix, Acc) ->
Acc.
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-spec ceiling(float()) -> integer().
%% @doc Return the smallest integral value not less than the argument.
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ceiling(X) ->
T = erlang:trunc(X),
case (X - T) of
% Neg when Neg < 0 ->
% T;
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Pos when Pos > 0 ->
T + 1;
_ ->
T
end.