%%%------------------------------------------------------------------- %%% @author Juan Jose Comellas %%% @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(rebar_getopt). -author('juanjo@comellas.org'). -export([parse/2, check/2, parse_and_check/2, format_error/2, usage/2, usage/3, usage/4, tokenize/1]). -export([usage_cmd_line/2]). -define(LINE_LENGTH, 75). -define(MIN_USAGE_COMMAND_LINE_OPTION_LENGTH, 25). %% Position of each field in the option specification tuple. -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), (tuple_size(Opt) =:= ?OPT_HELP)). -define(IS_WHITESPACE(Char), ((Char) =:= $\s orelse (Char) =:= $\t orelse (Char) =:= $\n orelse (Char) =:= $\r)). %% Atom indicating the data type that an argument can be converted to. -type arg_type() :: 'atom' | 'binary' | 'boolean' | 'float' | 'integer' | 'string'. %% Data type that an argument can be converted to. -type arg_value() :: atom() | binary() | boolean() | float() | integer() | string(). %% Argument specification. -type arg_spec() :: arg_type() | {arg_type(), arg_value()} | undefined. %% Option type and optional default argument. -type simple_option() :: atom(). -type compound_option() :: {atom(), arg_value()}. -type option() :: simple_option() | compound_option(). %% Command line option specification. -type option_spec() :: { Name :: atom(), Short :: char() | undefined, Long :: string() | undefined, ArgSpec :: arg_spec(), Help :: string() | undefined }. %% Output streams -type output_stream() :: 'standard_io' | 'standard_error'. %% For internal use -type usage_line() :: {OptionText :: string(), HelpText :: string()}. -type usage_line_with_length() :: {OptionLength :: non_neg_integer(), OptionText :: string(), HelpText :: string()}. -export_type([arg_type/0, arg_value/0, arg_spec/0, simple_option/0, compound_option/0, option/0, option_spec/0]). %% @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. Additionally perform check if all required options (the ones %% without default values) are present. The function is a combination of %% two calls: parse/2 and check/2. -spec parse_and_check([option_spec()], string() | [string()]) -> {ok, {[option()], [string()]}} | {error, {Reason :: atom(), Data :: term()}}. parse_and_check(OptSpecList, CmdLine) when is_list(OptSpecList), is_list(CmdLine) -> case parse(OptSpecList, CmdLine) of {ok, {Opts, _}} = Result -> case check(OptSpecList, Opts) of ok -> Result; Error -> Error end; Error -> Error end. %% @doc Check the parsed command line arguments returning ok if all required %% options (i.e. that don't have defaults) are present, and returning %% error otherwise. -spec check([option_spec()], [option()]) -> ok | {error, {Reason :: atom(), Option :: atom()}}. check(OptSpecList, ParsedOpts) when is_list(OptSpecList), is_list(ParsedOpts) -> try RequiredOpts = [Name || {Name, _, _, Arg, _} <- OptSpecList, not is_tuple(Arg) andalso Arg =/= undefined], lists:foreach(fun (Option) -> case proplists:is_defined(Option, ParsedOpts) of true -> ok; false -> throw({error, {missing_required_option, Option}}) end end, RequiredOpts) catch _:Error -> Error end. %% @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. -spec parse([option_spec()], string() | [string()]) -> {ok, {[option()], [string()]}} | {error, {Reason :: atom(), Data :: term()}}. parse(OptSpecList, CmdLine) when is_list(CmdLine) -> try Args = if is_integer(hd(CmdLine)) -> tokenize(CmdLine); true -> CmdLine end, parse(OptSpecList, [], [], 0, Args) catch throw: {error, {_Reason, _Data}} = Error -> Error end. -spec parse([option_spec()], [option()], [string()], integer(), [string()]) -> {ok, {[option()], [string()]}}. %% 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)}}; %% Process long options. parse(OptSpecList, OptAcc, ArgAcc, ArgPos, ["--" ++ OptArg = OptStr | Tail]) -> parse_long_option(OptSpecList, OptAcc, ArgAcc, ArgPos, Tail, OptStr, OptArg); %% Process short options. parse(OptSpecList, OptAcc, ArgAcc, ArgPos, ["-" ++ ([_Char | _] = OptArg) = OptStr | Tail]) -> parse_short_option(OptSpecList, OptAcc, ArgAcc, ArgPos, Tail, OptStr, OptArg); %% 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, add_option_with_arg(OptSpec, Arg, OptAcc), ArgAcc, ArgPos + 1, Tail); 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)}}. %% @doc Format the error code returned by prior call to parse/2 or check/2. -spec format_error([option_spec()], {error, {Reason :: atom(), Data :: term()}} | {Reason :: term(), Data :: term()}) -> string(). format_error(OptSpecList, {error, Reason}) -> format_error(OptSpecList, Reason); format_error(OptSpecList, {missing_required_option, Name}) -> {_Name, Short, Long, _Type, _Help} = lists:keyfind(Name, 1, OptSpecList), lists:flatten(["missing required option: -", [Short], " (", to_string(Long), ")"]); format_error(_OptSpecList, {invalid_option, OptStr}) -> lists:flatten(["invalid option: ", to_string(OptStr)]); format_error(_OptSpecList, {invalid_option_arg, {Name, Arg}}) -> lists:flatten(["option \'", to_string(Name) ++ "\' has invalid argument: ", to_string(Arg)]); format_error(_OptSpecList, {invalid_option_arg, OptStr}) -> lists:flatten(["invalid option argument: ", to_string(OptStr)]); format_error(_OptSpecList, {Reason, Data}) -> lists:flatten([to_string(Reason), " ", to_string(Data)]). %% @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" -spec parse_long_option([option_spec()], [option()], [string()], integer(), [string()], string(), string()) -> {ok, {[option()], [string()]}}. parse_long_option(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_long_option_assigned_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptStr, Long, Arg); Long -> case lists:keyfind(Long, ?OPT_LONG, OptSpecList) of {Name, _Short, Long, undefined, _Help} -> parse(OptSpecList, [Name | OptAcc], ArgAcc, ArgPos, Args); {_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. %% e.g ["--port", "1000"] parse_long_option_next_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptSpec); false -> throw({error, {invalid_option, OptStr}}) end end. %% @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. -spec parse_long_option_assigned_arg([option_spec()], [option()], [string()], integer(), [string()], string(), string(), string()) -> {ok, {[option()], [string()]}}. parse_long_option_assigned_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptStr, Long, Arg) -> case lists:keyfind(Long, ?OPT_LONG, OptSpecList) of {_Name, _Short, Long, ArgSpec, _Help} = OptSpec -> case ArgSpec of undefined -> throw({error, {invalid_option_arg, OptStr}}); _ -> parse(OptSpecList, add_option_with_assigned_arg(OptSpec, Arg, OptAcc), ArgAcc, ArgPos, Args) end; false -> throw({error, {invalid_option, OptStr}}) end. %% @doc Split an option string that may contain an option with its argument %% separated by an equal ('=') character (e.g. "port=1000"). -spec split_assigned_arg(string()) -> {Name :: string(), Arg :: string()} | string(). 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 Retrieve the argument for an option from the next string in the list of %% command-line parameters or set the value of the argument from the argument %% specification (for boolean and integer arguments), if possible. parse_long_option_next_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, {Name, _Short, _Long, ArgSpec, _Help} = OptSpec) -> ArgSpecType = arg_spec_type(ArgSpec), case Args =:= [] orelse is_implicit_arg(ArgSpecType, hd(Args)) of true -> parse(OptSpecList, add_option_with_implicit_arg(OptSpec, OptAcc), ArgAcc, ArgPos, Args); false -> [Arg | Tail] = Args, try parse(OptSpecList, [{Name, to_type(ArgSpecType, Arg)} | OptAcc], ArgAcc, ArgPos, Tail) catch error:_ -> throw({error, {invalid_option_arg, {Name, Arg}}}) end end. %% @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" %% -aaa Multiple repetitions of option 'a' (only valid for options with integer arguments) -spec parse_short_option([option_spec()], [option()], [string()], integer(), [string()], string(), string()) -> {ok, {[option()], [string()]}}. parse_short_option(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptStr, OptArg) -> parse_short_option(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptStr, first, OptArg). parse_short_option(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptStr, OptPos, [Short | Arg]) -> case lists:keyfind(Short, ?OPT_SHORT, OptSpecList) of {Name, Short, _Long, undefined, _Help} -> parse_short_option(OptSpecList, [Name | OptAcc], ArgAcc, ArgPos, Args, OptStr, first, Arg); {_Name, Short, _Long, ArgSpec, _Help} = OptSpec -> %% The option has a specification, so it requires an argument. 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_short_option_next_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, OptSpec, OptPos); _ -> case is_valid_arg(ArgSpec, Arg) of true -> parse(OptSpecList, add_option_with_arg(OptSpec, Arg, OptAcc), ArgAcc, ArgPos, Args); _ -> NewOptAcc = case OptPos of first -> add_option_with_implicit_arg(OptSpec, OptAcc); _ -> add_option_with_implicit_incrementable_arg(OptSpec, OptAcc) end, parse_short_option(OptSpecList, NewOptAcc, ArgAcc, ArgPos, Args, OptStr, next, Arg) end end; false -> throw({error, {invalid_option, OptStr}}) end; parse_short_option(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, _OptStr, _OptPos, []) -> parse(OptSpecList, OptAcc, ArgAcc, ArgPos, Args). %% @doc Retrieve the argument for an option from the next string in the list of %% command-line parameters or set the value of the argument from the argument %% specification (for boolean and integer arguments), if possible. parse_short_option_next_arg(OptSpecList, OptAcc, ArgAcc, ArgPos, Args, {Name, _Short, _Long, ArgSpec, _Help} = OptSpec, OptPos) -> case Args =:= [] orelse is_implicit_arg(ArgSpec, hd(Args)) of true when OptPos =:= first -> parse(OptSpecList, add_option_with_implicit_arg(OptSpec, OptAcc), ArgAcc, ArgPos, Args); true -> parse(OptSpecList, add_option_with_implicit_incrementable_arg(OptSpec, OptAcc), ArgAcc, ArgPos, Args); false -> [Arg | Tail] = Args, try parse(OptSpecList, [{Name, to_type(ArgSpec, Arg)} | OptAcc], ArgAcc, ArgPos, Tail) catch error:_ -> throw({error, {invalid_option_arg, {Name, Arg}}}) end end. %% @doc Find the option for the discrete argument in position specified in the %% Pos argument. -spec find_non_option_arg([option_spec()], integer()) -> {value, option_spec()} | false. 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. %% @doc Append options that were not present in the command line arguments with %% their default arguments. -spec append_default_options([option_spec()], [option()]) -> [option()]. append_default_options([{Name, _Short, _Long, {_Type, DefaultArg}, _Help} | Tail], OptAcc) -> append_default_options(Tail, 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) -> OptAcc. %% @doc Add an option with argument converting it to the data type indicated by the %% argument specification. -spec add_option_with_arg(option_spec(), string(), [option()]) -> [option()]. add_option_with_arg({Name, _Short, _Long, ArgSpec, _Help} = OptSpec, Arg, OptAcc) -> case is_valid_arg(ArgSpec, Arg) of true -> try [{Name, to_type(ArgSpec, Arg)} | OptAcc] catch error:_ -> throw({error, {invalid_option_arg, {Name, Arg}}}) end; false -> add_option_with_implicit_arg(OptSpec, OptAcc) end. %% @doc Add an option with argument that was part of an assignment expression %% (e.g. "--verbose=3") converting it to the data type indicated by the %% argument specification. -spec add_option_with_assigned_arg(option_spec(), string(), [option()]) -> [option()]. add_option_with_assigned_arg({Name, _Short, _Long, ArgSpec, _Help}, Arg, OptAcc) -> try [{Name, to_type(ArgSpec, Arg)} | OptAcc] catch error:_ -> throw({error, {invalid_option_arg, {Name, Arg}}}) end. %% @doc Add an option that required an argument but did not have one. Some data %% types (boolean, integer) allow implicit or assumed arguments. -spec add_option_with_implicit_arg(option_spec(), [option()]) -> [option()]. add_option_with_implicit_arg({Name, _Short, _Long, ArgSpec, _Help}, OptAcc) -> case arg_spec_type(ArgSpec) of boolean -> %% Special case for boolean arguments: if there is no argument we %% set the value to 'true'. [{Name, true} | OptAcc]; integer -> %% Special case for integer arguments: if the option had not been set %% before we set the value to 1. This is needed to support options like %% "-v" to return something like {verbose, 1}. [{Name, 1} | OptAcc]; _ -> throw({error, {missing_option_arg, Name}}) end. %% @doc Add an option with an implicit or assumed argument. -spec add_option_with_implicit_incrementable_arg(option_spec() | arg_spec(), [option()]) -> [option()]. add_option_with_implicit_incrementable_arg({Name, _Short, _Long, ArgSpec, _Help}, OptAcc) -> case arg_spec_type(ArgSpec) of boolean -> %% Special case for boolean arguments: if there is no argument we %% set the value to 'true'. [{Name, true} | OptAcc]; integer -> %% Special case for integer arguments: if the option had not been set %% before we set the value to 1; if not we increment the previous value %% the option had. This is needed to support options like "-vvv" to %% return something like {verbose, 3}. case OptAcc of [{Name, Count} | Tail] -> [{Name, Count + 1} | Tail]; _ -> [{Name, 1} | OptAcc] end; _ -> throw({error, {missing_option_arg, Name}}) end. %% @doc Retrieve the data type form an argument specification. -spec arg_spec_type(arg_spec()) -> arg_type() | undefined. arg_spec_type({Type, _DefaultArg}) -> Type; arg_spec_type(Type) when is_atom(Type) -> Type. %% @doc Convert an argument string to its corresponding data type. -spec to_type(arg_spec() | arg_type(), string()) -> arg_value(). to_type({Type, _DefaultArg}, Arg) -> to_type(Type, Arg); 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(), nonempty_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_non_neg_integer_arg(Arg); is_valid_arg(float, Arg) -> is_non_neg_float_arg(Arg); is_valid_arg(_Type, _Arg) -> true. -spec is_implicit_arg(arg_spec(), nonempty_string()) -> boolean(). is_implicit_arg({Type, _DefaultArg}, Arg) -> is_implicit_arg(Type, Arg); is_implicit_arg(boolean, Arg) -> not is_boolean_arg(Arg); is_implicit_arg(integer, Arg) -> not is_integer_arg(Arg); is_implicit_arg(_Type, _Arg) -> false. -spec is_boolean_arg(string()) -> boolean(). is_boolean_arg(Arg) -> LowerArg = string:to_lower(Arg), is_arg_true(LowerArg) orelse is_arg_false(LowerArg). -spec is_integer_arg(string()) -> boolean(). is_integer_arg("-" ++ Tail) -> is_non_neg_integer_arg(Tail); is_integer_arg(Arg) -> is_non_neg_integer_arg(Arg). -spec is_non_neg_integer_arg(string()) -> boolean(). is_non_neg_integer_arg([Head | Tail]) when Head >= $0, Head =< $9 -> is_non_neg_integer_arg(Tail); is_non_neg_integer_arg([_Head | _Tail]) -> false; is_non_neg_integer_arg([]) -> true. -spec is_non_neg_float_arg(string()) -> boolean(). is_non_neg_float_arg([Head | Tail]) when (Head >= $0 andalso Head =< $9) orelse Head =:= $. -> is_non_neg_float_arg(Tail); is_non_neg_float_arg([_Head | _Tail]) -> false; is_non_neg_float_arg([]) -> true. %% @doc Show a message on standard_error indicating the command line options and %% arguments that are supported by the program. -spec usage([option_spec()], string()) -> ok. usage(OptSpecList, ProgramName) -> usage(OptSpecList, ProgramName, standard_error). %% @doc Show a message on standard_error or standard_io indicating the command line options and %% arguments that are supported by the program. -spec usage([option_spec()], string(), output_stream() | string()) -> ok. usage(OptSpecList, ProgramName, OutputStream) when is_atom(OutputStream) -> io:format(OutputStream, "~s~n~n~s~n", [usage_cmd_line(ProgramName, OptSpecList), usage_options(OptSpecList)]); %% @doc Show a message on standard_error 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) -> usage(OptSpecList, ProgramName, CmdLineTail, standard_error). %% @doc Show a message on standard_error or standard_io 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. -spec usage([option_spec()], ProgramName :: string(), CmdLineTail :: string(), output_stream() | [{string(), string()}]) -> ok. usage(OptSpecList, ProgramName, CmdLineTail, OutputStream) when is_atom(OutputStream) -> io:format(OutputStream, "~s~n~n~s~n", [usage_cmd_line(ProgramName, OptSpecList, CmdLineTail), usage_options(OptSpecList)]); %% @doc Show a message on standard_error 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) -> usage(OptSpecList, ProgramName, CmdLineTail, OptionsTail, standard_error). %% @doc Show a message on standard_error or standard_io 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. -spec usage([option_spec()], ProgramName :: string(), CmdLineTail :: string(), [{OptionName :: string(), Help :: string()}], output_stream()) -> ok. usage(OptSpecList, ProgramName, CmdLineTail, OptionsTail, OutputStream) -> io:format(OutputStream, "~s~n~n~s~n", [usage_cmd_line(ProgramName, OptSpecList, CmdLineTail), usage_options(OptSpecList, OptionsTail)]). -spec usage_cmd_line(ProgramName :: string(), [option_spec()]) -> iolist(). usage_cmd_line(ProgramName, OptSpecList) -> usage_cmd_line(ProgramName, OptSpecList, ""). -spec usage_cmd_line(ProgramName :: string(), [option_spec()], CmdLineTail :: string()) -> iolist(). usage_cmd_line(ProgramName, OptSpecList, CmdLineTail) -> Prefix = "Usage: " ++ ProgramName, PrefixLength = length(Prefix), LineLength = line_length(), %% Only align the command line options after the program name when there is %% enough room to do so (i.e. at least 25 characters). If not, show the %% command line options below the program name with a 2-character indentation. if (LineLength - PrefixLength) > ?MIN_USAGE_COMMAND_LINE_OPTION_LENGTH -> Indentation = lists:duplicate(PrefixLength, $\s), [FirstOptLine | OptLines] = usage_cmd_line_options(LineLength - PrefixLength, OptSpecList, CmdLineTail), IndentedOptLines = [[Indentation | OptLine] || OptLine <- OptLines], [Prefix, FirstOptLine | IndentedOptLines]; true -> IndentedOptLines = [[" " | OptLine] || OptLine <- usage_cmd_line_options(LineLength, OptSpecList, CmdLineTail)], [Prefix, $\n, IndentedOptLines] end. %% @doc Return a list of the lines corresponding to the usage command line %% already wrapped according to the maximum MaxLineLength. -spec usage_cmd_line_options(MaxLineLength :: non_neg_integer(), [option_spec()], CmdLineTail :: string()) -> iolist(). usage_cmd_line_options(MaxLineLength, OptSpecList, CmdLineTail) -> usage_cmd_line_options(MaxLineLength, OptSpecList ++ string:tokens(CmdLineTail, " "), [], 0, []). usage_cmd_line_options(MaxLineLength, [OptSpec | Tail], LineAcc, LineAccLength, Acc) -> Option = [$\s | lists:flatten(usage_cmd_line_option(OptSpec))], OptionLength = length(Option), %% We accumulate the options in LineAcc until its length is over the %% maximum allowed line length. When that happens, we append the line in %% LineAcc to the list with all the lines in the command line (Acc). NewLineAccLength = LineAccLength + OptionLength, if NewLineAccLength < MaxLineLength -> usage_cmd_line_options(MaxLineLength, Tail, [Option | LineAcc], NewLineAccLength, Acc); true -> usage_cmd_line_options(MaxLineLength, Tail, [Option], OptionLength + 1, [lists:reverse([$\n | LineAcc]) | Acc]) end; usage_cmd_line_options(MaxLineLength, [], [_ | _] = LineAcc, _LineAccLength, Acc) -> %% If there was a non-empty line in LineAcc when there are no more options %% to process, we add it to the list of lines to return. usage_cmd_line_options(MaxLineLength, [], [], 0, [lists:reverse(LineAcc) | Acc]); usage_cmd_line_options(_MaxLineLength, [], [], _LineAccLength, Acc) -> lists:reverse(Acc). -spec usage_cmd_line_option(option_spec()) -> string(). usage_cmd_line_option({_Name, Short, _Long, undefined, _Help}) when Short =/= undefined -> %% For options with short form and no argument. [$[, $-, Short, $]]; usage_cmd_line_option({_Name, _Short, Long, undefined, _Help}) when Long =/= undefined -> %% For options with only long form and no argument. [$[, $-, $-, Long, $]]; usage_cmd_line_option({_Name, _Short, _Long, undefined, _Help}) -> []; usage_cmd_line_option({Name, Short, Long, ArgSpec, _Help}) when is_atom(ArgSpec) -> %% For options with no default argument. if %% For options with short form and argument. Short =/= undefined -> [$[, $-, Short, $\s, $<, atom_to_list(Name), $>, $]]; %% For options with only long form and argument. Long =/= undefined -> [$[, $-, $-, Long, $\s, $<, atom_to_list(Name), $>, $]]; %% For options with neither short nor long form and argument. true -> [$[, $<, atom_to_list(Name), $>, $]] end; usage_cmd_line_option({Name, Short, Long, ArgSpec, _Help}) when is_tuple(ArgSpec) -> %% For options with default argument. if %% For options with short form and default argument. Short =/= undefined -> [$[, $-, Short, $\s, $[, $<, atom_to_list(Name), $>, $], $]]; %% For options with only long form and default argument. Long =/= undefined -> [$[, $-, $-, Long, $\s, $[, $<, atom_to_list(Name), $>, $], $]]; %% For options with neither short nor long form and default argument. true -> [$[, $<, atom_to_list(Name), $>, $]] end; usage_cmd_line_option(Option) when is_list(Option) -> %% For custom options that are added to the command line. Option. %% @doc Return a list of help messages to print for each of the options and arguments. -spec usage_options([option_spec()]) -> [string()]. usage_options(OptSpecList) -> usage_options(OptSpecList, []). %% @doc Return a list of usage lines to print for each of the options and arguments. -spec usage_options([option_spec()], [{OptionName :: string(), Help :: string()}]) -> [string()]. usage_options(OptSpecList, CustomHelp) -> %% Add the usage lines corresponding to the option specifications. {MaxOptionLength0, UsageLines0} = add_option_spec_help_lines(OptSpecList, 0, []), %% Add the custom usage lines. {MaxOptionLength, UsageLines} = add_custom_help_lines(CustomHelp, MaxOptionLength0, UsageLines0), MaxLineLength = line_length(), lists:reverse([format_usage_line(MaxOptionLength + 1, MaxLineLength, UsageLine) || UsageLine <- UsageLines]). -spec add_option_spec_help_lines([option_spec()], PrevMaxOptionLength :: non_neg_integer(), [usage_line_with_length()]) -> {MaxOptionLength :: non_neg_integer(), [usage_line_with_length()]}. add_option_spec_help_lines([OptSpec | Tail], PrevMaxOptionLength, Acc) -> OptionText = usage_option_text(OptSpec), HelpText = usage_help_text(OptSpec), {MaxOptionLength, ColsWithLength} = get_max_option_length({OptionText, HelpText}, PrevMaxOptionLength), add_option_spec_help_lines(Tail, MaxOptionLength, [ColsWithLength | Acc]); add_option_spec_help_lines([], MaxOptionLength, Acc) -> {MaxOptionLength, Acc}. -spec add_custom_help_lines([usage_line()], PrevMaxOptionLength :: non_neg_integer(), [usage_line_with_length()]) -> {MaxOptionLength :: non_neg_integer(), [usage_line_with_length()]}. add_custom_help_lines([CustomCols | Tail], PrevMaxOptionLength, Acc) -> {MaxOptionLength, ColsWithLength} = get_max_option_length(CustomCols, PrevMaxOptionLength), add_custom_help_lines(Tail, MaxOptionLength, [ColsWithLength | Acc]); add_custom_help_lines([], MaxOptionLength, Acc) -> {MaxOptionLength, Acc}. -spec usage_option_text(option_spec()) -> string(). usage_option_text({Name, undefined, undefined, _ArgSpec, _Help}) -> %% Neither short nor long form (non-option argument). "<" ++ atom_to_list(Name) ++ ">"; usage_option_text({_Name, Short, undefined, _ArgSpec, _Help}) -> %% Only short form. [$-, Short]; usage_option_text({_Name, undefined, Long, _ArgSpec, _Help}) -> %% Only long form. [$-, $- | Long]; usage_option_text({_Name, Short, Long, _ArgSpec, _Help}) -> %% Both short and long form. [$-, Short, $,, $\s, $-, $- | Long]. -spec usage_help_text(option_spec()) -> string(). usage_help_text({_Name, _Short, _Long, {_ArgType, ArgValue}, [_ | _] = Help}) -> Help ++ " [default: " ++ default_arg_value_to_string(ArgValue) ++ "]"; usage_help_text({_Name, _Short, _Long, _ArgSpec, Help}) -> Help. %% @doc Calculate the maximum width of the column that shows the option's short %% and long form. -spec get_max_option_length(usage_line(), PrevMaxOptionLength :: non_neg_integer()) -> {MaxOptionLength :: non_neg_integer(), usage_line_with_length()}. get_max_option_length({OptionText, HelpText}, PrevMaxOptionLength) -> OptionLength = length(OptionText), {erlang:max(OptionLength, PrevMaxOptionLength), {OptionLength, OptionText, HelpText}}. %% @doc Format the usage line that is shown for the options' usage. Each usage %% line has 2 columns. The first column shows the options in their short %% and long form. The second column shows the wrapped (if necessary) help %% text lines associated with each option. e.g.: %% %% -h, --host Database server host name or IP address; this is the %% hostname of the server where the database is running %% [default: localhost] %% -p, --port Database server port [default: 1000] %% -spec format_usage_line(MaxOptionLength :: non_neg_integer(), MaxLineLength :: non_neg_integer(), usage_line_with_length()) -> iolist(). format_usage_line(MaxOptionLength, MaxLineLength, {OptionLength, OptionText, [_ | _] = HelpText}) when MaxOptionLength < (MaxLineLength div 2) -> %% If the width of the column where the options are shown is smaller than %% half the width of a console line then we show the help text line aligned %% next to its corresponding option, with a separation of at least 2 %% characters. [Head | Tail] = wrap_text_line(MaxLineLength - MaxOptionLength - 3, HelpText), FirstLineIndentation = lists:duplicate(MaxOptionLength - OptionLength + 1, $\s), Indentation = [$\n | lists:duplicate(MaxOptionLength + 3, $\s)], [" ", OptionText, FirstLineIndentation, Head, [[Indentation, Line] || Line <- Tail], $\n]; format_usage_line(_MaxOptionLength, MaxLineLength, {_OptionLength, OptionText, [_ | _] = HelpText}) -> %% If the width of the first column is bigger than the width of a console %% line, we show the help text on the next line with an indentation of 6 %% characters. HelpLines = wrap_text_line(MaxLineLength - 6, HelpText), [" ", OptionText, [["\n ", Line] || Line <- HelpLines], $\n]; format_usage_line(_MaxOptionLength, _MaxLineLength, {_OptionLength, OptionText, _HelpText}) -> [" ", OptionText, $\n]. %% @doc Wrap a text line converting it into several text lines so that the %% length of each one of them is never over Length characters. -spec wrap_text_line(Length :: non_neg_integer(), Text :: string()) -> [string()]. wrap_text_line(Length, Text) -> wrap_text_line(Length, Text, [], 0, []). wrap_text_line(Length, [Char | Tail], Acc, Count, CurrentLineAcc) when Count < Length -> wrap_text_line(Length, Tail, Acc, Count + 1, [Char | CurrentLineAcc]); wrap_text_line(Length, [_ | _] = Help, Acc, Count, CurrentLineAcc) -> %% Look for the first whitespace character in the current (reversed) line %% buffer to get a wrapped line. If there is no whitespace just cut the %% line at the position corresponding to the maximum length. {NextLineAcc, WrappedLine} = case string:cspan(CurrentLineAcc, " \t") of WhitespacePos when WhitespacePos < Count -> lists:split(WhitespacePos, CurrentLineAcc); _ -> {[], CurrentLineAcc} end, wrap_text_line(Length, Help, [lists:reverse(WrappedLine) | Acc], length(NextLineAcc), NextLineAcc); wrap_text_line(_Length, [], Acc, _Count, [_ | _] = CurrentLineAcc) -> %% If there was a non-empty line when we reached the buffer, add it to the accumulator lists:reverse([lists:reverse(CurrentLineAcc) | Acc]); wrap_text_line(_Length, [], Acc, _Count, _CurrentLineAcc) -> lists:reverse(Acc). default_arg_value_to_string(Value) when is_atom(Value) -> atom_to_list(Value); default_arg_value_to_string(Value) when is_binary(Value) -> binary_to_list(Value); default_arg_value_to_string(Value) when is_integer(Value) -> integer_to_list(Value); default_arg_value_to_string(Value) when is_float(Value) -> lists:flatten(io_lib:format("~w", [Value])); default_arg_value_to_string(Value) -> Value. %% @doc Tokenize a command line string with support for single and double %% quoted arguments (needed for arguments that have embedded whitespace). %% The function also supports the expansion of environment variables in %% both the Unix (${VAR}; $VAR) and Windows (%VAR%) formats. It does NOT %% support wildcard expansion of paths. -spec tokenize(CmdLine :: string()) -> [nonempty_string()]. tokenize(CmdLine) -> tokenize(CmdLine, [], []). -spec tokenize(CmdLine :: string(), Acc :: [string()], ArgAcc :: string()) -> [string()]. tokenize([Sep | Tail], Acc, ArgAcc) when ?IS_WHITESPACE(Sep) -> NewAcc = case ArgAcc of [_ | _] -> %% Found separator: add to the list of arguments. [lists:reverse(ArgAcc) | Acc]; [] -> %% Found separator with no accumulated argument; discard it. Acc end, tokenize(Tail, NewAcc, []); tokenize([QuotationMark | Tail], Acc, ArgAcc) when QuotationMark =:= $"; QuotationMark =:= $' -> %% Quoted argument (might contain spaces, tabs, etc.) tokenize_quoted_arg(QuotationMark, Tail, Acc, ArgAcc); tokenize([Char | _Tail] = CmdLine, Acc, ArgAcc) when Char =:= $$; Char =:= $% -> %% Unix and Windows environment variable expansion: ${VAR}; $VAR; %VAR% {NewCmdLine, Var} = expand_env_var(CmdLine), tokenize(NewCmdLine, Acc, lists:reverse(Var, ArgAcc)); tokenize([$\\, Char | Tail], Acc, ArgAcc) -> %% Escaped char. tokenize(Tail, Acc, [Char | ArgAcc]); tokenize([Char | Tail], Acc, ArgAcc) -> tokenize(Tail, Acc, [Char | ArgAcc]); tokenize([], Acc, []) -> lists:reverse(Acc); tokenize([], Acc, ArgAcc) -> lists:reverse([lists:reverse(ArgAcc) | Acc]). -spec tokenize_quoted_arg(QuotationMark :: char(), CmdLine :: string(), Acc :: [string()], ArgAcc :: string()) -> [string()]. tokenize_quoted_arg(QuotationMark, [QuotationMark | Tail], Acc, ArgAcc) -> %% End of quoted argument tokenize(Tail, Acc, ArgAcc); tokenize_quoted_arg(QuotationMark, [$\\, Char | Tail], Acc, ArgAcc) -> %% Escaped char. tokenize_quoted_arg(QuotationMark, Tail, Acc, [Char | ArgAcc]); tokenize_quoted_arg($" = QuotationMark, [Char | _Tail] = CmdLine, Acc, ArgAcc) when Char =:= $$; Char =:= $% -> %% Unix and Windows environment variable expansion (only for double-quoted arguments): ${VAR}; $VAR; %VAR% {NewCmdLine, Var} = expand_env_var(CmdLine), tokenize_quoted_arg(QuotationMark, NewCmdLine, Acc, lists:reverse(Var, ArgAcc)); tokenize_quoted_arg(QuotationMark, [Char | Tail], Acc, ArgAcc) -> tokenize_quoted_arg(QuotationMark, Tail, Acc, [Char | ArgAcc]); tokenize_quoted_arg(_QuotationMark, CmdLine, Acc, ArgAcc) -> tokenize(CmdLine, Acc, ArgAcc). -spec expand_env_var(CmdLine :: nonempty_string()) -> {string(), string()}. expand_env_var(CmdLine) -> case CmdLine of "${" ++ Tail -> expand_env_var("${", $}, Tail, []); "$" ++ Tail -> expand_env_var("$", Tail, []); "%" ++ Tail -> expand_env_var("%", $%, Tail, []) end. -spec expand_env_var(Prefix :: string(), EndMark :: char(), CmdLine :: string(), Acc :: string()) -> {string(), string()}. expand_env_var(Prefix, EndMark, [Char | Tail], Acc) when (Char >= $A andalso Char =< $Z) orelse (Char >= $a andalso Char =< $z) orelse (Char >= $0 andalso Char =< $9) orelse (Char =:= $_) -> expand_env_var(Prefix, EndMark, Tail, [Char | Acc]); expand_env_var(Prefix, EndMark, [EndMark | Tail], Acc) -> {Tail, get_env_var(Prefix, [EndMark], Acc)}; expand_env_var(Prefix, _EndMark, CmdLine, Acc) -> {CmdLine, Prefix ++ lists:reverse(Acc)}. -spec expand_env_var(Prefix :: string(), CmdLine :: string(), Acc :: string()) -> {string(), string()}. expand_env_var(Prefix, [Char | Tail], Acc) when (Char >= $A andalso Char =< $Z) orelse (Char >= $a andalso Char =< $z) orelse (Char >= $0 andalso Char =< $9) orelse (Char =:= $_) -> expand_env_var(Prefix, Tail, [Char | Acc]); expand_env_var(Prefix, CmdLine, Acc) -> {CmdLine, get_env_var(Prefix, "", Acc)}. -spec get_env_var(Prefix :: string(), Suffix :: string(), Acc :: string()) -> string(). get_env_var(Prefix, Suffix, [_ | _] = Acc) -> Name = lists:reverse(Acc), %% Only expand valid/existing variables. case os:getenv(Name) of false -> Prefix ++ Name ++ Suffix; Value -> Value end; get_env_var(Prefix, Suffix, []) -> Prefix ++ Suffix. -spec line_length() -> 0..?LINE_LENGTH. line_length() -> case io:columns() of {ok, Columns} when Columns < ?LINE_LENGTH -> Columns - 1; _ -> ?LINE_LENGTH end. -spec to_string(term()) -> string(). to_string(List) when is_list(List) -> case io_lib:printable_list(List) of true -> List; false -> io_lib:format("~p", [List]) end; to_string(Atom) when is_atom(Atom) -> atom_to_list(Atom); to_string(Value) -> io_lib:format("~p", [Value]).