[−][src]Struct clap::Arg
The abstract representation of a command line argument. Used to set all the options and relationships that define a valid argument for the program.
There are two methods for constructing Arg
s, using the builder pattern and setting options
manually, or using a usage string which is far less verbose but has fewer options. You can also
use a combination of the two methods to achieve the best of both worlds.
Examples
// Using the traditional builder pattern and setting each option manually let cfg = Arg::with_name("config") .short("c") .long("config") .takes_value(true) .value_name("FILE") .help("Provides a config file to myprog"); // Using a usage string (setting a similar argument to the one above) let input = Arg::from_usage("-i, --input=[FILE] 'Provides an input file to the program'");
Implementations
impl<'a, 'b> Arg<'a, 'b>
[src]
pub fn with_name(n: &'a str) -> Self
[src]
Creates a new instance of Arg
using a unique string name. The name will be used to get
information about whether or not the argument was used at runtime, get values, set
relationships with other args, etc..
NOTE: In the case of arguments that take values (i.e. Arg::takes_value(true)
)
and positional arguments (i.e. those without a preceding -
or --
) the name will also
be displayed when the user prints the usage/help information of the program.
Examples
Arg::with_name("config")
pub fn from_usage(u: &'a str) -> Self
[src]
Creates a new instance of Arg
from a usage string. Allows creation of basic settings
for the Arg
. The syntax is flexible, but there are some rules to follow.
NOTE: Not all settings may be set using the usage string method. Some properties are only available via the builder pattern.
NOTE: Only ASCII values are officially supported in Arg::from_usage
strings. Some
UTF-8 codepoints may work just fine, but this is not guaranteed.
Syntax
Usage strings typically following the form:
[explicit name] [short] [long] [value names] [help string]
This is not a hard rule as the attributes can appear in other orders. There are also several additional sigils which denote additional settings. Below are the details of each portion of the string.
Explicit Name
This is an optional field, if it's omitted the argument will use one of the additional fields as the name using the following priority order:
- Explicit Name (This always takes precedence when present)
- Long
- Short
- Value Name
clap
determines explicit names as the first string of characters between either []
or
<>
where []
has the dual notation of meaning the argument is optional, and <>
meaning
the argument is required.
Explicit names may be followed by:
- The multiple denotation
...
Example explicit names as follows (ename
for an optional argument, and rname
for a
required argument):
[ename] -s, --long 'some flag'
<rname> -r, --longer 'some other flag'
Short
This is set by placing a single character after a leading -
.
Shorts may be followed by
- The multiple denotation
...
- An optional comma
,
which is cosmetic only - Value notation
Example shorts are as follows (-s
, and -r
):
-s, --long 'some flag'
<rname> -r [val], --longer 'some option'
Long
This is set by placing a word (no spaces) after a leading --
.
Shorts may be followed by
- The multiple denotation
...
- Value notation
Example longs are as follows (--some
, and --rapid
):
-s, --some 'some flag'
--rapid=[FILE] 'some option'
Values (Value Notation)
This is set by placing a word(s) between []
or <>
optionally after =
(although this
is cosmetic only and does not affect functionality). If an explicit name has not been
set, using <>
will denote a required argument, and []
will denote an optional argument
Values may be followed by
- The multiple denotation
...
- More Value notation
More than one value will also implicitly set the arguments number of values, i.e. having
two values, --option [val1] [val2]
specifies that in order for option to be satisified it
must receive exactly two values
Example values are as follows (FILE
, and SPEED
):
-s, --some [FILE] 'some option'
--rapid=<SPEED>... 'some required multiple option'
Help String
The help string is denoted between a pair of single quotes ''
and may contain any
characters.
Example help strings are as follows:
-s, --some [FILE] 'some option'
--rapid=<SPEED>... 'some required multiple option'
Additional Sigils
Multiple notation ...
(three consecutive dots/periods) specifies that this argument may
be used multiple times. Do not confuse multiple occurrences (...
) with multiple values.
--option val1 val2
is a single occurrence with multiple values. --flag --flag
is
multiple occurrences (and then you can obviously have instances of both as well)
Examples
App::new("prog") .args(&[ Arg::from_usage("--config <FILE> 'a required file for the configuration and no short'"), Arg::from_usage("-d, --debug... 'turns on debugging information and allows multiples'"), Arg::from_usage("[input] 'an optional input file to use'") ])
pub fn short<S: AsRef<str>>(self, s: S) -> Self
[src]
Sets the short version of the argument without the preceding -
.
By default clap
automatically assigns V
and h
to the auto-generated version
and
help
arguments respectively. You may use the uppercase V
or lowercase h
for your own
arguments, in which case clap
simply will not assign those to the auto-generated
version
or help
arguments.
NOTE: Any leading -
characters will be stripped, and only the first
non -
character will be used as the short
version
Examples
To set short
use a single valid UTF-8 code point. If you supply a leading -
such as
-c
, the -
will be stripped.
Arg::with_name("config") .short("c")
Setting short
allows using the argument via a single hyphen (-
) such as -c
let m = App::new("prog") .arg(Arg::with_name("config") .short("c")) .get_matches_from(vec![ "prog", "-c" ]); assert!(m.is_present("config"));
pub fn long(self, l: &'b str) -> Self
[src]
Sets the long version of the argument without the preceding --
.
By default clap
automatically assigns version
and help
to the auto-generated
version
and help
arguments respectively. You may use the word version
or help
for
the long form of your own arguments, in which case clap
simply will not assign those to
the auto-generated version
or help
arguments.
NOTE: Any leading -
characters will be stripped
Examples
To set long
use a word containing valid UTF-8 codepoints. If you supply a double leading
--
such as --config
they will be stripped. Hyphens in the middle of the word, however,
will not be stripped (i.e. config-file
is allowed)
Arg::with_name("cfg") .long("config")
Setting long
allows using the argument via a double hyphen (--
) such as --config
let m = App::new("prog") .arg(Arg::with_name("cfg") .long("config")) .get_matches_from(vec![ "prog", "--config" ]); assert!(m.is_present("cfg"));
pub fn alias<S: Into<&'b str>>(self, name: S) -> Self
[src]
Allows adding a Arg
alias, which function as "hidden" arguments that
automatically dispatch as if this argument was used. This is more efficient, and easier
than creating multiple hidden arguments as one only needs to check for the existence of
this command, and not all variants.
Examples
let m = App::new("prog") .arg(Arg::with_name("test") .long("test") .alias("alias") .takes_value(true)) .get_matches_from(vec![ "prog", "--alias", "cool" ]); assert!(m.is_present("test")); assert_eq!(m.value_of("test"), Some("cool"));
pub fn aliases(self, names: &[&'b str]) -> Self
[src]
Allows adding Arg
aliases, which function as "hidden" arguments that
automatically dispatch as if this argument was used. This is more efficient, and easier
than creating multiple hidden subcommands as one only needs to check for the existence of
this command, and not all variants.
Examples
let m = App::new("prog") .arg(Arg::with_name("test") .long("test") .aliases(&["do-stuff", "do-tests", "tests"]) .help("the file to add") .required(false)) .get_matches_from(vec![ "prog", "--do-tests" ]); assert!(m.is_present("test"));
pub fn visible_alias<S: Into<&'b str>>(self, name: S) -> Self
[src]
Allows adding a Arg
alias that functions exactly like those defined with
Arg::alias
, except that they are visible inside the help message.
Examples
let m = App::new("prog") .arg(Arg::with_name("test") .visible_alias("something-awesome") .long("test") .takes_value(true)) .get_matches_from(vec![ "prog", "--something-awesome", "coffee" ]); assert!(m.is_present("test")); assert_eq!(m.value_of("test"), Some("coffee"));
pub fn visible_aliases(self, names: &[&'b str]) -> Self
[src]
Allows adding multiple Arg
aliases that functions exactly like those defined
with Arg::aliases
, except that they are visible inside the help message.
Examples
let m = App::new("prog") .arg(Arg::with_name("test") .long("test") .visible_aliases(&["something", "awesome", "cool"])) .get_matches_from(vec![ "prog", "--awesome" ]); assert!(m.is_present("test"));
pub fn help(self, h: &'b str) -> Self
[src]
Sets the short help text of the argument that will be displayed to the user when they print
the help information with -h
. Typically, this is a short (one line) description of the
arg.
NOTE: If only Arg::help
is provided, and not Arg::long_help
but the user requests
--help
clap will still display the contents of help
appropriately
NOTE: Only Arg::help
is used in completion script generation in order to be concise
Examples
Any valid UTF-8 is allowed in the help text. The one exception is when one wishes to include a newline in the help text and have the following text be properly aligned with all the other help text.
Arg::with_name("config") .help("The config file used by the myprog")
Setting help
displays a short message to the side of the argument when the user passes
-h
or --help
(by default).
let m = App::new("prog") .arg(Arg::with_name("cfg") .long("config") .help("Some help text describing the --config arg")) .get_matches_from(vec![ "prog", "--help" ]);
The above example displays
helptest
USAGE:
helptest [FLAGS]
FLAGS:
--config Some help text describing the --config arg
-h, --help Prints help information
-V, --version Prints version information
pub fn long_help(self, h: &'b str) -> Self
[src]
Sets the long help text of the argument that will be displayed to the user when they print
the help information with --help
. Typically this a more detailed (multi-line) message
that describes the arg.
NOTE: If only long_help
is provided, and not Arg::help
but the user requests -h
clap will still display the contents of long_help
appropriately
NOTE: Only Arg::help
is used in completion script generation in order to be concise
Examples
Any valid UTF-8 is allowed in the help text. The one exception is when one wishes to include a newline in the help text and have the following text be properly aligned with all the other help text.
Arg::with_name("config") .long_help( "The config file used by the myprog must be in JSON format with only valid keys and may not contain other nonsense that cannot be read by this program. Obviously I'm going on and on, so I'll stop now.")
Setting help
displays a short message to the side of the argument when the user passes
-h
or --help
(by default).
let m = App::new("prog") .arg(Arg::with_name("cfg") .long("config") .long_help( "The config file used by the myprog must be in JSON format with only valid keys and may not contain other nonsense that cannot be read by this program. Obviously I'm going on and on, so I'll stop now.")) .get_matches_from(vec![ "prog", "--help" ]);
The above example displays
helptest
USAGE:
helptest [FLAGS]
FLAGS:
--config
The config file used by the myprog must be in JSON format
with only valid keys and may not contain other nonsense
that cannot be read by this program. Obviously I'm going on
and on, so I'll stop now.
-h, --help
Prints help information
-V, --version
Prints version information
pub fn last(self, l: bool) -> Self
[src]
Specifies that this arg is the last, or final, positional argument (i.e. has the highest
index) and is only able to be accessed via the --
syntax (i.e. $ prog args -- last_arg
). Even, if no other arguments are left to parse, if the user omits the --
syntax
they will receive an UnknownArgument
error. Setting an argument to .last(true)
also
allows one to access this arg early using the --
syntax. Accessing an arg early, even with
the --
syntax is otherwise not possible.
NOTE: This will change the usage string to look like $ prog [FLAGS] [-- <ARG>]
if
ARG
is marked as .last(true)
.
NOTE: This setting will imply AppSettings::DontCollapseArgsInUsage
because failing
to set this can make the usage string very confusing.
NOTE: This setting only applies to positional arguments, and has no affect on FLAGS / OPTIONS
CAUTION: Setting an argument to .last(true)
and having child subcommands is not
recommended with the exception of also using AppSettings::ArgsNegateSubcommands
(or AppSettings::SubcommandsNegateReqs
if the argument marked .last(true)
is also
marked .required(true)
)
Examples
Arg::with_name("args") .last(true)
Setting Arg::last(true)
ensures the arg has the highest index of all positional args
and requires that the --
syntax be used to access it early.
let res = App::new("prog") .arg(Arg::with_name("first")) .arg(Arg::with_name("second")) .arg(Arg::with_name("third").last(true)) .get_matches_from_safe(vec![ "prog", "one", "--", "three" ]); assert!(res.is_ok()); let m = res.unwrap(); assert_eq!(m.value_of("third"), Some("three")); assert!(m.value_of("second").is_none());
Even if the positional argument marked .last(true)
is the only argument left to parse,
failing to use the --
syntax results in an error.
let res = App::new("prog") .arg(Arg::with_name("first")) .arg(Arg::with_name("second")) .arg(Arg::with_name("third").last(true)) .get_matches_from_safe(vec![ "prog", "one", "two", "three" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::UnknownArgument);
pub fn required(self, r: bool) -> Self
[src]
Sets whether or not the argument is required by default. Required by default means it is
required, when no other conflicting rules have been evaluated. Conflicting rules take
precedence over being required. Default: false
NOTE: Flags (i.e. not positional, or arguments that take values) cannot be required by default. This is simply because if a flag should be required, it should simply be implied as no additional information is required from user. Flags by their very nature are simply yes/no, or true/false.
Examples
Arg::with_name("config") .required(true)
Setting Arg::required(true)
requires that the argument be used at runtime.
let res = App::new("prog") .arg(Arg::with_name("cfg") .required(true) .takes_value(true) .long("config")) .get_matches_from_safe(vec![ "prog", "--config", "file.conf" ]); assert!(res.is_ok());
Setting Arg::required(true)
and not supplying that argument is an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .required(true) .takes_value(true) .long("config")) .get_matches_from_safe(vec![ "prog" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::MissingRequiredArgument);
pub fn require_equals(self, r: bool) -> Self
[src]
Requires that options use the --option=val
syntax (i.e. an equals between the option and
associated value) Default: false
NOTE: This setting also removes the default of allowing empty values and implies
Arg::empty_values(false)
.
Examples
Arg::with_name("config") .long("config") .takes_value(true) .require_equals(true)
Setting Arg::require_equals(true)
requires that the option have an equals sign between
it and the associated value.
let res = App::new("prog") .arg(Arg::with_name("cfg") .require_equals(true) .takes_value(true) .long("config")) .get_matches_from_safe(vec![ "prog", "--config=file.conf" ]); assert!(res.is_ok());
Setting Arg::require_equals(true)
and not supplying the equals will cause an error
unless Arg::empty_values(true)
is set.
let res = App::new("prog") .arg(Arg::with_name("cfg") .require_equals(true) .takes_value(true) .long("config")) .get_matches_from_safe(vec![ "prog", "--config", "file.conf" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::EmptyValue);
pub fn allow_hyphen_values(self, a: bool) -> Self
[src]
Allows values which start with a leading hyphen (-
)
WARNING: Take caution when using this setting combined with Arg::multiple(true)
, as
this becomes ambiguous $ prog --arg -- -- val
. All three --, --, val
will be values
when the user may have thought the second --
would constitute the normal, "Only
positional args follow" idiom. To fix this, consider using Arg::number_of_values(1)
WARNING: When building your CLIs, consider the effects of allowing leading hyphens and
the user passing in a value that matches a valid short. For example prog -opt -F
where
-F
is supposed to be a value, yet -F
is also a valid short for another arg. Care should
should be taken when designing these args. This is compounded by the ability to "stack"
short args. I.e. if -val
is supposed to be a value, but -v
, -a
, and -l
are all valid
shorts.
Examples
Arg::with_name("pattern") .allow_hyphen_values(true)
let m = App::new("prog") .arg(Arg::with_name("pat") .allow_hyphen_values(true) .takes_value(true) .long("pattern")) .get_matches_from(vec![ "prog", "--pattern", "-file" ]); assert_eq!(m.value_of("pat"), Some("-file"));
Not setting Arg::allow_hyphen_values(true)
and supplying a value which starts with a
hyphen is an error.
let res = App::new("prog") .arg(Arg::with_name("pat") .takes_value(true) .long("pattern")) .get_matches_from_safe(vec![ "prog", "--pattern", "-file" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::UnknownArgument);
pub fn required_unless(self, name: &'a str) -> Self
[src]
Sets an arg that override this arg's required setting. (i.e. this arg will be required unless this other argument is present).
Pro Tip: Using Arg::required_unless
implies Arg::required
and is therefore not
mandatory to also set.
Examples
Arg::with_name("config") .required_unless("debug")
Setting Arg::required_unless(name)
requires that the argument be used at runtime
unless name
is present. In the following example, the required argument is not
provided, but it's not an error because the unless
arg has been supplied.
let res = App::new("prog") .arg(Arg::with_name("cfg") .required_unless("dbg") .takes_value(true) .long("config")) .arg(Arg::with_name("dbg") .long("debug")) .get_matches_from_safe(vec![ "prog", "--debug" ]); assert!(res.is_ok());
Setting Arg::required_unless(name)
and not supplying name
or this arg is an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .required_unless("dbg") .takes_value(true) .long("config")) .arg(Arg::with_name("dbg") .long("debug")) .get_matches_from_safe(vec![ "prog" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::MissingRequiredArgument);
pub fn required_unless_all(self, names: &[&'a str]) -> Self
[src]
Sets args that override this arg's required setting. (i.e. this arg will be required unless all these other arguments are present).
NOTE: If you wish for this argument to only be required if one of these args are
present see Arg::required_unless_one
Examples
Arg::with_name("config") .required_unless_all(&["cfg", "dbg"])
Setting Arg::required_unless_all(names)
requires that the argument be used at runtime
unless all the args in names
are present. In the following example, the required
argument is not provided, but it's not an error because all the unless
args have been
supplied.
let res = App::new("prog") .arg(Arg::with_name("cfg") .required_unless_all(&["dbg", "infile"]) .takes_value(true) .long("config")) .arg(Arg::with_name("dbg") .long("debug")) .arg(Arg::with_name("infile") .short("i") .takes_value(true)) .get_matches_from_safe(vec![ "prog", "--debug", "-i", "file" ]); assert!(res.is_ok());
Setting Arg::required_unless_all(names)
and not supplying all of names
or this
arg is an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .required_unless_all(&["dbg", "infile"]) .takes_value(true) .long("config")) .arg(Arg::with_name("dbg") .long("debug")) .arg(Arg::with_name("infile") .short("i") .takes_value(true)) .get_matches_from_safe(vec![ "prog" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::MissingRequiredArgument);
pub fn required_unless_one(self, names: &[&'a str]) -> Self
[src]
Sets args that override this arg's required setting. (i.e. this arg will be required unless at least one of these other arguments are present).
NOTE: If you wish for this argument to only be required if all of these args are
present see Arg::required_unless_all
Examples
Arg::with_name("config") .required_unless_all(&["cfg", "dbg"])
Setting Arg::required_unless_one(names)
requires that the argument be used at runtime
unless at least one of the args in names
are present. In the following example, the
required argument is not provided, but it's not an error because one the unless
args
have been supplied.
let res = App::new("prog") .arg(Arg::with_name("cfg") .required_unless_one(&["dbg", "infile"]) .takes_value(true) .long("config")) .arg(Arg::with_name("dbg") .long("debug")) .arg(Arg::with_name("infile") .short("i") .takes_value(true)) .get_matches_from_safe(vec![ "prog", "--debug" ]); assert!(res.is_ok());
Setting Arg::required_unless_one(names)
and not supplying at least one of names
or this arg is an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .required_unless_one(&["dbg", "infile"]) .takes_value(true) .long("config")) .arg(Arg::with_name("dbg") .long("debug")) .arg(Arg::with_name("infile") .short("i") .takes_value(true)) .get_matches_from_safe(vec![ "prog" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::MissingRequiredArgument);
pub fn conflicts_with(self, name: &'a str) -> Self
[src]
Sets a conflicting argument by name. I.e. when using this argument, the following argument can't be present and vice versa.
NOTE: Conflicting rules take precedence over being required by default. Conflict rules only need to be set for one of the two arguments, they do not need to be set for each.
NOTE: Defining a conflict is two-way, but does not need to defined for both arguments (i.e. if A conflicts with B, defining A.conflicts_with(B) is sufficient. You do not need need to also do B.conflicts_with(A))
Examples
Arg::with_name("config") .conflicts_with("debug")
Setting conflicting argument, and having both arguments present at runtime is an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .conflicts_with("debug") .long("config")) .arg(Arg::with_name("debug") .long("debug")) .get_matches_from_safe(vec![ "prog", "--debug", "--config", "file.conf" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::ArgumentConflict);
pub fn conflicts_with_all(self, names: &[&'a str]) -> Self
[src]
The same as Arg::conflicts_with
but allows specifying multiple two-way conlicts per
argument.
NOTE: Conflicting rules take precedence over being required by default. Conflict rules only need to be set for one of the two arguments, they do not need to be set for each.
NOTE: Defining a conflict is two-way, but does not need to defined for both arguments (i.e. if A conflicts with B, defining A.conflicts_with(B) is sufficient. You do not need need to also do B.conflicts_with(A))
Examples
Arg::with_name("config") .conflicts_with_all(&["debug", "input"])
Setting conflicting argument, and having any of the arguments present at runtime with a conflicting argument is an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .conflicts_with_all(&["debug", "input"]) .long("config")) .arg(Arg::with_name("debug") .long("debug")) .arg(Arg::with_name("input") .index(1)) .get_matches_from_safe(vec![ "prog", "--config", "file.conf", "file.txt" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::ArgumentConflict);
pub fn overrides_with(self, name: &'a str) -> Self
[src]
Sets a overridable argument by name. I.e. this argument and the following argument will override each other in POSIX style (whichever argument was specified at runtime last "wins")
NOTE: When an argument is overridden it is essentially as if it never was used, any conflicts, requirements, etc. are evaluated after all "overrides" have been removed
WARNING: Positional arguments cannot override themselves (or we would never be able to advance to the next positional). If a positional agument lists itself as an override, it is simply ignored.
Examples
let m = App::new("prog") .arg(Arg::from_usage("-f, --flag 'some flag'") .conflicts_with("debug")) .arg(Arg::from_usage("-d, --debug 'other flag'")) .arg(Arg::from_usage("-c, --color 'third flag'") .overrides_with("flag")) .get_matches_from(vec![ "prog", "-f", "-d", "-c"]); // ^~~~~~~~~~~~^~~~~ flag is overridden by color assert!(m.is_present("color")); assert!(m.is_present("debug")); // even though flag conflicts with debug, it's as if flag // was never used because it was overridden with color assert!(!m.is_present("flag"));
Care must be taken when using this setting, and having an arg override with itself. This is common practice when supporting things like shell aliases, config files, etc. However, when combined with multiple values, it can get dicy. Here is how clap handles such situations:
When a flag overrides itself, it's as if the flag was only ever used once (essentially preventing a "Unexpected multiple usage" error):
let m = App::new("posix") .arg(Arg::from_usage("--flag 'some flag'").overrides_with("flag")) .get_matches_from(vec!["posix", "--flag", "--flag"]); assert!(m.is_present("flag")); assert_eq!(m.occurrences_of("flag"), 1);
Making a arg multiple(true)
and override itself is essentially meaningless. Therefore
clap ignores an override of self if it's a flag and it already accepts multiple occurrences.
let m = App::new("posix") .arg(Arg::from_usage("--flag... 'some flag'").overrides_with("flag")) .get_matches_from(vec!["", "--flag", "--flag", "--flag", "--flag"]); assert!(m.is_present("flag")); assert_eq!(m.occurrences_of("flag"), 4);
Now notice with options (which do not set multiple(true)
), it's as if only the last
occurrence happened.
let m = App::new("posix") .arg(Arg::from_usage("--opt [val] 'some option'").overrides_with("opt")) .get_matches_from(vec!["", "--opt=some", "--opt=other"]); assert!(m.is_present("opt")); assert_eq!(m.occurrences_of("opt"), 1); assert_eq!(m.value_of("opt"), Some("other"));
Just like flags, options with multiple(true)
set, will ignore the "override self" setting.
let m = App::new("posix") .arg(Arg::from_usage("--opt [val]... 'some option'") .overrides_with("opt")) .get_matches_from(vec!["", "--opt", "first", "over", "--opt", "other", "val"]); assert!(m.is_present("opt")); assert_eq!(m.occurrences_of("opt"), 2); assert_eq!(m.values_of("opt").unwrap().collect::<Vec<_>>(), &["first", "over", "other", "val"]);
A safe thing to do if you'd like to support an option which supports multiple values, but
also is "overridable" by itself, is to use use_delimiter(false)
and not use
multiple(true)
while telling users to seperate values with a comma (i.e. val1,val2
)
let m = App::new("posix") .arg(Arg::from_usage("--opt [val] 'some option'") .overrides_with("opt") .use_delimiter(false)) .get_matches_from(vec!["", "--opt=some,other", "--opt=one,two"]); assert!(m.is_present("opt")); assert_eq!(m.occurrences_of("opt"), 1); assert_eq!(m.values_of("opt").unwrap().collect::<Vec<_>>(), &["one,two"]);
pub fn overrides_with_all(self, names: &[&'a str]) -> Self
[src]
Sets multiple mutually overridable arguments by name. I.e. this argument and the following argument will override each other in POSIX style (whichever argument was specified at runtime last "wins")
NOTE: When an argument is overridden it is essentially as if it never was used, any conflicts, requirements, etc. are evaluated after all "overrides" have been removed
Examples
let m = App::new("prog") .arg(Arg::from_usage("-f, --flag 'some flag'") .conflicts_with("color")) .arg(Arg::from_usage("-d, --debug 'other flag'")) .arg(Arg::from_usage("-c, --color 'third flag'") .overrides_with_all(&["flag", "debug"])) .get_matches_from(vec![ "prog", "-f", "-d", "-c"]); // ^~~~~~^~~~~~~~~ flag and debug are overridden by color assert!(m.is_present("color")); // even though flag conflicts with color, it's as if flag // and debug were never used because they were overridden // with color assert!(!m.is_present("debug")); assert!(!m.is_present("flag"));
pub fn requires(self, name: &'a str) -> Self
[src]
Sets an argument by name that is required when this one is present I.e. when using this argument, the following argument must be present.
NOTE: Conflicting rules and override rules take precedence over being required
Examples
Arg::with_name("config") .requires("input")
Setting Arg::requires(name)
requires that the argument be used at runtime if the
defining argument is used. If the defining argument isn't used, the other argument isn't
required
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .requires("input") .long("config")) .arg(Arg::with_name("input") .index(1)) .get_matches_from_safe(vec![ "prog" ]); assert!(res.is_ok()); // We didn't use cfg, so input wasn't required
Setting Arg::requires(name)
and not supplying that argument is an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .requires("input") .long("config")) .arg(Arg::with_name("input") .index(1)) .get_matches_from_safe(vec![ "prog", "--config", "file.conf" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::MissingRequiredArgument);
pub fn requires_if(self, val: &'b str, arg: &'a str) -> Self
[src]
Allows a conditional requirement. The requirement will only become valid if this arg's value
equals val
.
NOTE: If using YAML the values should be laid out as follows
requires_if:
- [val, arg]
Examples
Arg::with_name("config") .requires_if("val", "arg")
Setting [Arg::requires_if(val, arg)
] requires that the arg
be used at runtime if the
defining argument's value is equal to val
. If the defining argument is anything other than
val
, the other argument isn't required.
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .requires_if("my.cfg", "other") .long("config")) .arg(Arg::with_name("other")) .get_matches_from_safe(vec![ "prog", "--config", "some.cfg" ]); assert!(res.is_ok()); // We didn't use --config=my.cfg, so other wasn't required
Setting [Arg::requires_if(val, arg)
] and setting the value to val
but not supplying
arg
is an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .requires_if("my.cfg", "input") .long("config")) .arg(Arg::with_name("input")) .get_matches_from_safe(vec![ "prog", "--config", "my.cfg" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::MissingRequiredArgument);
pub fn requires_ifs(self, ifs: &[(&'b str, &'a str)]) -> Self
[src]
Allows multiple conditional requirements. The requirement will only become valid if this arg's value
equals val
.
NOTE: If using YAML the values should be laid out as follows
requires_if:
- [val, arg]
- [val2, arg2]
Examples
Arg::with_name("config") .requires_ifs(&[ ("val", "arg"), ("other_val", "arg2"), ])
Setting [Arg::requires_ifs(&["val", "arg"])
] requires that the arg
be used at runtime if the
defining argument's value is equal to val
. If the defining argument's value is anything other
than val
, arg
isn't required.
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .requires_ifs(&[ ("special.conf", "opt"), ("other.conf", "other"), ]) .long("config")) .arg(Arg::with_name("opt") .long("option") .takes_value(true)) .arg(Arg::with_name("other")) .get_matches_from_safe(vec![ "prog", "--config", "special.conf" ]); assert!(res.is_err()); // We used --config=special.conf so --option <val> is required assert_eq!(res.unwrap_err().kind, ErrorKind::MissingRequiredArgument);
pub fn required_if(self, arg: &'a str, val: &'b str) -> Self
[src]
Allows specifying that an argument is required conditionally. The requirement will only
become valid if the specified arg
's value equals val
.
NOTE: If using YAML the values should be laid out as follows
required_if:
- [arg, val]
Examples
Arg::with_name("config") .required_if("other_arg", "value")
Setting [Arg::required_if(arg, val)
] makes this arg required if the arg
is used at
runtime and it's value is equal to val
. If the arg
's value is anything other than val
,
this argument isn't required.
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .required_if("other", "special") .long("config")) .arg(Arg::with_name("other") .long("other") .takes_value(true)) .get_matches_from_safe(vec![ "prog", "--other", "not-special" ]); assert!(res.is_ok()); // We didn't use --other=special, so "cfg" wasn't required
Setting [Arg::required_if(arg, val)
] and having arg
used with a value of val
but not
using this arg is an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .required_if("other", "special") .long("config")) .arg(Arg::with_name("other") .long("other") .takes_value(true)) .get_matches_from_safe(vec![ "prog", "--other", "special" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::MissingRequiredArgument);
pub fn required_ifs(self, ifs: &[(&'a str, &'b str)]) -> Self
[src]
Allows specifying that an argument is required based on multiple conditions. The
conditions are set up in a (arg, val)
style tuple. The requirement will only become valid
if one of the specified arg
's value equals it's corresponding val
.
NOTE: If using YAML the values should be laid out as follows
required_if:
- [arg, val]
- [arg2, val2]
Examples
Arg::with_name("config") .required_ifs(&[ ("extra", "val"), ("option", "spec") ])
Setting [Arg::required_ifs(&[(arg, val)])
] makes this arg required if any of the arg
s
are used at runtime and it's corresponding value is equal to val
. If the arg
's value is
anything other than val
, this argument isn't required.
let res = App::new("prog") .arg(Arg::with_name("cfg") .required_ifs(&[ ("extra", "val"), ("option", "spec") ]) .takes_value(true) .long("config")) .arg(Arg::with_name("extra") .takes_value(true) .long("extra")) .arg(Arg::with_name("option") .takes_value(true) .long("option")) .get_matches_from_safe(vec![ "prog", "--option", "other" ]); assert!(res.is_ok()); // We didn't use --option=spec, or --extra=val so "cfg" isn't required
Setting [Arg::required_ifs(&[(arg, val)])
] and having any of the arg
s used with it's
value of val
but not using this arg is an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .required_ifs(&[ ("extra", "val"), ("option", "spec") ]) .takes_value(true) .long("config")) .arg(Arg::with_name("extra") .takes_value(true) .long("extra")) .arg(Arg::with_name("option") .takes_value(true) .long("option")) .get_matches_from_safe(vec![ "prog", "--option", "spec" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::MissingRequiredArgument);
pub fn requires_all(self, names: &[&'a str]) -> Self
[src]
Sets multiple arguments by names that are required when this one is present I.e. when using this argument, the following arguments must be present.
NOTE: Conflicting rules and override rules take precedence over being required by default.
Examples
Arg::with_name("config") .requires_all(&["input", "output"])
Setting [Arg::requires_all(&[arg, arg2])
] requires that all the arguments be used at
runtime if the defining argument is used. If the defining argument isn't used, the other
argument isn't required
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .requires("input") .long("config")) .arg(Arg::with_name("input") .index(1)) .arg(Arg::with_name("output") .index(2)) .get_matches_from_safe(vec![ "prog" ]); assert!(res.is_ok()); // We didn't use cfg, so input and output weren't required
Setting [Arg::requires_all(&[arg, arg2])
] and not supplying all the arguments is an
error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .takes_value(true) .requires_all(&["input", "output"]) .long("config")) .arg(Arg::with_name("input") .index(1)) .arg(Arg::with_name("output") .index(2)) .get_matches_from_safe(vec![ "prog", "--config", "file.conf", "in.txt" ]); assert!(res.is_err()); // We didn't use output assert_eq!(res.unwrap_err().kind, ErrorKind::MissingRequiredArgument);
[Arg::requires_all(&[arg, arg2])
]: ./struct.Arg.html#method.requires_all
pub fn takes_value(self, tv: bool) -> Self
[src]
Specifies that the argument takes a value at run time.
NOTE: values for arguments may be specified in any of the following methods
- Using a space such as
-o value
or--option value
- Using an equals and no space such as
-o=value
or--option=value
- Use a short and no space such as
-ovalue
NOTE: By default, args which allow multiple values are delimited by commas, meaning
--option=val1,val2,val3
is three values for the --option
argument. If you wish to
change the delimiter to another character you can use Arg::value_delimiter(char)
,
alternatively you can turn delimiting values OFF by using Arg::use_delimiter(false)
Examples
Arg::with_name("config") .takes_value(true)
let m = App::new("prog") .arg(Arg::with_name("mode") .long("mode") .takes_value(true)) .get_matches_from(vec![ "prog", "--mode", "fast" ]); assert!(m.is_present("mode")); assert_eq!(m.value_of("mode"), Some("fast"));
pub fn hide_possible_values(self, hide: bool) -> Self
[src]
Specifies if the possible values of an argument should be displayed in the help text or
not. Defaults to false
(i.e. show possible values)
This is useful for args with many values, or ones which are explained elsewhere in the help text.
Examples
Arg::with_name("config") .hide_possible_values(true)
let m = App::new("prog") .arg(Arg::with_name("mode") .long("mode") .possible_values(&["fast", "slow"]) .takes_value(true) .hide_possible_values(true));
If we were to run the above program with --help
the [values: fast, slow]
portion of
the help text would be omitted.
pub fn hide_default_value(self, hide: bool) -> Self
[src]
Specifies if the default value of an argument should be displayed in the help text or
not. Defaults to false
(i.e. show default value)
This is useful when default behavior of an arg is explained elsewhere in the help text.
Examples
Arg::with_name("config") .hide_default_value(true)
let m = App::new("connect") .arg(Arg::with_name("host") .long("host") .default_value("localhost") .hide_default_value(true));
If we were to run the above program with --help
the [default: localhost]
portion of
the help text would be omitted.
pub fn index(self, idx: u64) -> Self
[src]
Specifies the index of a positional argument starting at 1.
NOTE: The index refers to position according to other positional argument. It does not define position in the argument list as a whole.
NOTE: If no Arg::short
, or Arg::long
have been defined, you can optionally
leave off the index
method, and the index will be assigned in order of evaluation.
Utilizing the index
method allows for setting indexes out of order
NOTE: When utilized with Arg::multiple(true)
, only the last positional argument
may be defined as multiple (i.e. with the highest index)
Panics
Although not in this method directly, App
will panic!
if indexes are skipped (such
as defining index(1)
and index(3)
but not index(2)
, or a positional argument is
defined as multiple and is not the highest index
Examples
Arg::with_name("config") .index(1)
let m = App::new("prog") .arg(Arg::with_name("mode") .index(1)) .arg(Arg::with_name("debug") .long("debug")) .get_matches_from(vec![ "prog", "--debug", "fast" ]); assert!(m.is_present("mode")); assert_eq!(m.value_of("mode"), Some("fast")); // notice index(1) means "first positional" // *not* first argument
pub fn multiple(self, multi: bool) -> Self
[src]
Specifies that the argument may appear more than once. For flags, this results
in the number of occurrences of the flag being recorded. For example -ddd
or -d -d -d
would count as three occurrences. For options there is a distinct difference in multiple
occurrences vs multiple values.
For example, --opt val1 val2
is one occurrence, but two values. Whereas
--opt val1 --opt val2
is two occurrences.
WARNING:
Setting multiple(true)
for an option with no other details, allows multiple values
and multiple occurrences because it isn't possible to have more occurrences than values
for options. Because multiple values are allowed, --option val1 val2 val3
is perfectly
valid, be careful when designing a CLI where positional arguments are expected after a
option which accepts multiple values, as clap
will continue parsing values until it
reaches the max or specific number of values defined, or another flag or option.
Pro Tip:
It's possible to define an option which allows multiple occurrences, but only one value per
occurrence. To do this use Arg::number_of_values(1)
in coordination with
Arg::multiple(true)
.
WARNING:
When using args with multiple(true)
on options or positionals (i.e. those args that
accept values) and subcommands, one needs to consider the possibility of an argument value
being the same as a valid subcommand. By default clap
will parse the argument in question
as a value only if a value is possible at that moment. Otherwise it will be parsed as a
subcommand. In effect, this means using multiple(true)
with no additional parameters and
a possible value that coincides with a subcommand name, the subcommand cannot be called
unless another argument is passed first.
As an example, consider a CLI with an option --ui-paths=<paths>...
and subcommand signer
The following would be parsed as values to --ui-paths
.
$ program --ui-paths path1 path2 signer
This is because --ui-paths
accepts multiple values. clap
will continue parsing values
until another argument is reached and it knows --ui-paths
is done.
By adding additional parameters to --ui-paths
we can solve this issue. Consider adding
Arg::number_of_values(1)
as discussed above. The following are all valid, and signer
is parsed as both a subcommand and a value in the second case.
$ program --ui-paths path1 signer
$ program --ui-paths path1 --ui-paths signer signer
Examples
Arg::with_name("debug") .short("d") .multiple(true)
An example with flags
let m = App::new("prog") .arg(Arg::with_name("verbose") .multiple(true) .short("v")) .get_matches_from(vec![ "prog", "-v", "-v", "-v" // note, -vvv would have same result ]); assert!(m.is_present("verbose")); assert_eq!(m.occurrences_of("verbose"), 3);
An example with options
let m = App::new("prog") .arg(Arg::with_name("file") .multiple(true) .takes_value(true) .short("F")) .get_matches_from(vec![ "prog", "-F", "file1", "file2", "file3" ]); assert!(m.is_present("file")); assert_eq!(m.occurrences_of("file"), 1); // notice only one occurrence let files: Vec<_> = m.values_of("file").unwrap().collect(); assert_eq!(files, ["file1", "file2", "file3"]);
This is functionally equivalent to the example above
let m = App::new("prog") .arg(Arg::with_name("file") .multiple(true) .takes_value(true) .short("F")) .get_matches_from(vec![ "prog", "-F", "file1", "-F", "file2", "-F", "file3" ]); let files: Vec<_> = m.values_of("file").unwrap().collect(); assert_eq!(files, ["file1", "file2", "file3"]); assert!(m.is_present("file")); assert_eq!(m.occurrences_of("file"), 3); // Notice 3 occurrences let files: Vec<_> = m.values_of("file").unwrap().collect(); assert_eq!(files, ["file1", "file2", "file3"]);
A common mistake is to define an option which allows multiples, and a positional argument
let m = App::new("prog") .arg(Arg::with_name("file") .multiple(true) .takes_value(true) .short("F")) .arg(Arg::with_name("word") .index(1)) .get_matches_from(vec![ "prog", "-F", "file1", "file2", "file3", "word" ]); assert!(m.is_present("file")); let files: Vec<_> = m.values_of("file").unwrap().collect(); assert_eq!(files, ["file1", "file2", "file3", "word"]); // wait...what?! assert!(!m.is_present("word")); // but we clearly used word!
The problem is clap doesn't know when to stop parsing values for "files". This is further
compounded by if we'd said word -F file1 file2
it would have worked fine, so it would
appear to only fail sometimes...not good!
A solution for the example above is to specify that -F
only accepts one value, but is
allowed to appear multiple times
let m = App::new("prog") .arg(Arg::with_name("file") .multiple(true) .takes_value(true) .number_of_values(1) .short("F")) .arg(Arg::with_name("word") .index(1)) .get_matches_from(vec![ "prog", "-F", "file1", "-F", "file2", "-F", "file3", "word" ]); assert!(m.is_present("file")); let files: Vec<_> = m.values_of("file").unwrap().collect(); assert_eq!(files, ["file1", "file2", "file3"]); assert!(m.is_present("word")); assert_eq!(m.value_of("word"), Some("word"));
As a final example, notice if we define Arg::number_of_values(1)
and try to run the
problem example above, it would have been a runtime error with a pretty message to the
user :)
let res = App::new("prog") .arg(Arg::with_name("file") .multiple(true) .takes_value(true) .number_of_values(1) .short("F")) .arg(Arg::with_name("word") .index(1)) .get_matches_from_safe(vec![ "prog", "-F", "file1", "file2", "file3", "word" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::UnknownArgument);
pub fn value_terminator(self, term: &'b str) -> Self
[src]
Specifies a value that stops parsing multiple values of a give argument. By default when
one sets multiple(true)
on an argument, clap will continue parsing values for that
argument until it reaches another valid argument, or one of the other more specific settings
for multiple values is used (such as min_values
, max_values
or
number_of_values
).
NOTE: This setting only applies to options and positional arguments
NOTE: When the terminator is passed in on the command line, it is not stored as one of the values
Examples
Arg::with_name("vals") .takes_value(true) .multiple(true) .value_terminator(";")
The following example uses two arguments, a sequence of commands, and the location in which to perform them
let m = App::new("prog") .arg(Arg::with_name("cmds") .multiple(true) .allow_hyphen_values(true) .value_terminator(";")) .arg(Arg::with_name("location")) .get_matches_from(vec![ "prog", "find", "-type", "f", "-name", "special", ";", "/home/clap" ]); let cmds: Vec<_> = m.values_of("cmds").unwrap().collect(); assert_eq!(&cmds, &["find", "-type", "f", "-name", "special"]); assert_eq!(m.value_of("location"), Some("/home/clap"));
pub fn global(self, g: bool) -> Self
[src]
Specifies that an argument can be matched to all child SubCommand
s.
NOTE: Global arguments only propagate down, not up (to parent commands), however their values once a user uses them will be propagated back up to parents. In effect, this means one should define all global arguments at the top level, however it doesn't matter where the user uses the global argument.
Examples
Arg::with_name("debug") .short("d") .global(true)
For example, assume an application with two subcommands, and you'd like to define a
--verbose
flag that can be called on any of the subcommands and parent, but you don't
want to clutter the source with three duplicate Arg
definitions.
let m = App::new("prog") .arg(Arg::with_name("verb") .long("verbose") .short("v") .global(true)) .subcommand(SubCommand::with_name("test")) .subcommand(SubCommand::with_name("do-stuff")) .get_matches_from(vec![ "prog", "do-stuff", "--verbose" ]); assert_eq!(m.subcommand_name(), Some("do-stuff")); let sub_m = m.subcommand_matches("do-stuff").unwrap(); assert!(sub_m.is_present("verb"));
pub fn empty_values(self, ev: bool) -> Self
[src]
Allows an argument to accept explicitly empty values. An empty value must be specified at
the command line with an explicit ""
, or ''
NOTE: Defaults to true
(Explicitly empty values are allowed)
NOTE: Implicitly sets Arg::takes_value(true)
when set to false
Examples
Arg::with_name("file") .long("file") .empty_values(false)
The default is to allow empty values, such as --option ""
would be an empty value. But
we can change to make empty values become an error.
let res = App::new("prog") .arg(Arg::with_name("cfg") .long("config") .short("v") .empty_values(false)) .get_matches_from_safe(vec![ "prog", "--config=" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::EmptyValue);
pub fn hidden(self, h: bool) -> Self
[src]
Hides an argument from help message output.
NOTE: Implicitly sets Arg::hidden_short_help(true)
and Arg::hidden_long_help(true)
when set to true
NOTE: This does not hide the argument from usage strings on error
Examples
Arg::with_name("debug") .hidden(true)
Setting hidden(true)
will hide the argument when displaying help text
let m = App::new("prog") .arg(Arg::with_name("cfg") .long("config") .hidden(true) .help("Some help text describing the --config arg")) .get_matches_from(vec![ "prog", "--help" ]);
The above example displays
helptest
USAGE:
helptest [FLAGS]
FLAGS:
-h, --help Prints help information
-V, --version Prints version information
pub fn possible_values(self, names: &[&'b str]) -> Self
[src]
Specifies a list of possible values for this argument. At runtime, clap
verifies that
only one of the specified values was used, or fails with an error message.
NOTE: This setting only applies to options and positional arguments
Examples
Arg::with_name("mode") .takes_value(true) .possible_values(&["fast", "slow", "medium"])
let m = App::new("prog") .arg(Arg::with_name("mode") .long("mode") .takes_value(true) .possible_values(&["fast", "slow", "medium"])) .get_matches_from(vec![ "prog", "--mode", "fast" ]); assert!(m.is_present("mode")); assert_eq!(m.value_of("mode"), Some("fast"));
The next example shows a failed parse from using a value which wasn't defined as one of the possible values.
let res = App::new("prog") .arg(Arg::with_name("mode") .long("mode") .takes_value(true) .possible_values(&["fast", "slow", "medium"])) .get_matches_from_safe(vec![ "prog", "--mode", "wrong" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::InvalidValue);
pub fn possible_value(self, name: &'b str) -> Self
[src]
Specifies a possible value for this argument, one at a time. At runtime, clap
verifies
that only one of the specified values was used, or fails with error message.
NOTE: This setting only applies to options and positional arguments
Examples
Arg::with_name("mode") .takes_value(true) .possible_value("fast") .possible_value("slow") .possible_value("medium")
let m = App::new("prog") .arg(Arg::with_name("mode") .long("mode") .takes_value(true) .possible_value("fast") .possible_value("slow") .possible_value("medium")) .get_matches_from(vec![ "prog", "--mode", "fast" ]); assert!(m.is_present("mode")); assert_eq!(m.value_of("mode"), Some("fast"));
The next example shows a failed parse from using a value which wasn't defined as one of the possible values.
let res = App::new("prog") .arg(Arg::with_name("mode") .long("mode") .takes_value(true) .possible_value("fast") .possible_value("slow") .possible_value("medium")) .get_matches_from_safe(vec![ "prog", "--mode", "wrong" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::InvalidValue);
pub fn case_insensitive(self, ci: bool) -> Self
[src]
When used with Arg::possible_values
it allows the argument value to pass validation even if
the case differs from that of the specified possible_value
.
Pro Tip: Use this setting with arg_enum!
Examples
let m = App::new("pv") .arg(Arg::with_name("option") .long("--option") .takes_value(true) .possible_value("test123") .case_insensitive(true)) .get_matches_from(vec![ "pv", "--option", "TeSt123", ]); assert!(m.value_of("option").unwrap().eq_ignore_ascii_case("test123"));
This setting also works when multiple values can be defined:
let m = App::new("pv") .arg(Arg::with_name("option") .short("-o") .long("--option") .takes_value(true) .possible_value("test123") .possible_value("test321") .multiple(true) .case_insensitive(true)) .get_matches_from(vec![ "pv", "--option", "TeSt123", "teST123", "tESt321" ]); let matched_vals = m.values_of("option").unwrap().collect::<Vec<_>>(); assert_eq!(&*matched_vals, &["TeSt123", "teST123", "tESt321"]);
pub fn group(self, name: &'a str) -> Self
[src]
Specifies the name of the ArgGroup
the argument belongs to.
Examples
Arg::with_name("debug") .long("debug") .group("mode")
Multiple arguments can be a member of a single group and then the group checked as if it was one of said arguments.
let m = App::new("prog") .arg(Arg::with_name("debug") .long("debug") .group("mode")) .arg(Arg::with_name("verbose") .long("verbose") .group("mode")) .get_matches_from(vec![ "prog", "--debug" ]); assert!(m.is_present("mode"));
pub fn groups(self, names: &[&'a str]) -> Self
[src]
Specifies the names of multiple ArgGroup
's the argument belongs to.
Examples
Arg::with_name("debug") .long("debug") .groups(&["mode", "verbosity"])
Arguments can be members of multiple groups and then the group checked as if it was one of said arguments.
let m = App::new("prog") .arg(Arg::with_name("debug") .long("debug") .groups(&["mode", "verbosity"])) .arg(Arg::with_name("verbose") .long("verbose") .groups(&["mode", "verbosity"])) .get_matches_from(vec![ "prog", "--debug" ]); assert!(m.is_present("mode")); assert!(m.is_present("verbosity"));
pub fn number_of_values(self, qty: u64) -> Self
[src]
Specifies how many values are required to satisfy this argument. For example, if you had a
-f <file>
argument where you wanted exactly 3 'files' you would set
.number_of_values(3)
, and this argument wouldn't be satisfied unless the user provided
3 and only 3 values.
NOTE: Does not require Arg::multiple(true)
to be set. Setting
Arg::multiple(true)
would allow -f <file> <file> <file> -f <file> <file> <file>
where
as not setting Arg::multiple(true)
would only allow one occurrence of this argument.
Examples
Arg::with_name("file") .short("f") .number_of_values(3)
Not supplying the correct number of values is an error
let res = App::new("prog") .arg(Arg::with_name("file") .takes_value(true) .number_of_values(2) .short("F")) .get_matches_from_safe(vec![ "prog", "-F", "file1" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::WrongNumberOfValues);
pub fn validator<F>(self, f: F) -> Self where
F: Fn(String) -> Result<(), String> + 'static,
[src]
F: Fn(String) -> Result<(), String> + 'static,
Allows one to perform a custom validation on the argument value. You provide a closure
which accepts a String
value, and return a Result
where the Err(String)
is a
message displayed to the user.
NOTE: The error message does not need to contain the error:
portion, only the
message as all errors will appear as
error: Invalid value for '<arg>': <YOUR MESSAGE>
where <arg>
is replaced by the actual
arg, and <YOUR MESSAGE>
is the String
you return as the error.
NOTE: There is a small performance hit for using validators, as they are implemented
with Rc
pointers. And the value to be checked will be allocated an extra time in order
to to be passed to the closure. This performance hit is extremely minimal in the grand
scheme of things.
Examples
fn has_at(v: String) -> Result<(), String> { if v.contains("@") { return Ok(()); } Err(String::from("The value did not contain the required @ sigil")) } let res = App::new("prog") .arg(Arg::with_name("file") .index(1) .validator(has_at)) .get_matches_from_safe(vec![ "prog", "some@file" ]); assert!(res.is_ok()); assert_eq!(res.unwrap().value_of("file"), Some("some@file"));
pub fn validator_os<F>(self, f: F) -> Self where
F: Fn(&OsStr) -> Result<(), OsString> + 'static,
[src]
F: Fn(&OsStr) -> Result<(), OsString> + 'static,
Works identically to Validator but is intended to be used with values that could contain non UTF-8 formatted strings.
Examples
fn has_ampersand(v: &OsStr) -> Result<(), OsString> { if v.as_bytes().iter().any(|b| *b == b'&') { return Ok(()); } Err(OsString::from("The value did not contain the required & sigil")) } let res = App::new("prog") .arg(Arg::with_name("file") .index(1) .validator_os(has_ampersand)) .get_matches_from_safe(vec![ "prog", "Fish & chips" ]); assert!(res.is_ok()); assert_eq!(res.unwrap().value_of("file"), Some("Fish & chips"));
pub fn max_values(self, qty: u64) -> Self
[src]
Specifies the maximum number of values are for this argument. For example, if you had a
-f <file>
argument where you wanted up to 3 'files' you would set .max_values(3)
, and
this argument would be satisfied if the user provided, 1, 2, or 3 values.
NOTE: This does not implicitly set Arg::multiple(true)
. This is because
-o val -o val
is multiple occurrences but a single value and -o val1 val2
is a single
occurrence with multiple values. For positional arguments this does set
Arg::multiple(true)
because there is no way to determine the difference between multiple
occurrences and multiple values.
Examples
Arg::with_name("file") .short("f") .max_values(3)
Supplying less than the maximum number of values is allowed
let res = App::new("prog") .arg(Arg::with_name("file") .takes_value(true) .max_values(3) .short("F")) .get_matches_from_safe(vec![ "prog", "-F", "file1", "file2" ]); assert!(res.is_ok()); let m = res.unwrap(); let files: Vec<_> = m.values_of("file").unwrap().collect(); assert_eq!(files, ["file1", "file2"]);
Supplying more than the maximum number of values is an error
let res = App::new("prog") .arg(Arg::with_name("file") .takes_value(true) .max_values(2) .short("F")) .get_matches_from_safe(vec![ "prog", "-F", "file1", "file2", "file3" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::TooManyValues);
pub fn min_values(self, qty: u64) -> Self
[src]
Specifies the minimum number of values for this argument. For example, if you had a
-f <file>
argument where you wanted at least 2 'files' you would set
.min_values(2)
, and this argument would be satisfied if the user provided, 2 or more
values.
NOTE: This does not implicitly set Arg::multiple(true)
. This is because
-o val -o val
is multiple occurrences but a single value and -o val1 val2
is a single
occurrence with multiple values. For positional arguments this does set
Arg::multiple(true)
because there is no way to determine the difference between multiple
occurrences and multiple values.
Examples
Arg::with_name("file") .short("f") .min_values(3)
Supplying more than the minimum number of values is allowed
let res = App::new("prog") .arg(Arg::with_name("file") .takes_value(true) .min_values(2) .short("F")) .get_matches_from_safe(vec![ "prog", "-F", "file1", "file2", "file3" ]); assert!(res.is_ok()); let m = res.unwrap(); let files: Vec<_> = m.values_of("file").unwrap().collect(); assert_eq!(files, ["file1", "file2", "file3"]);
Supplying less than the minimum number of values is an error
let res = App::new("prog") .arg(Arg::with_name("file") .takes_value(true) .min_values(2) .short("F")) .get_matches_from_safe(vec![ "prog", "-F", "file1" ]); assert!(res.is_err()); assert_eq!(res.unwrap_err().kind, ErrorKind::TooFewValues);
pub fn use_delimiter(self, d: bool) -> Self
[src]
Specifies whether or not an argument should allow grouping of multiple values via a
delimiter. I.e. should --option=val1,val2,val3
be parsed as three values (val1
, val2
,
and val3
) or as a single value (val1,val2,val3
). Defaults to using ,
(comma) as the
value delimiter for all arguments that accept values (options and positional arguments)
NOTE: The default is false
. When set to true
the default Arg::value_delimiter
is the comma ,
.
Examples
The following example shows the default behavior.
let delims = App::new("prog") .arg(Arg::with_name("option") .long("option") .use_delimiter(true) .takes_value(true)) .get_matches_from(vec![ "prog", "--option=val1,val2,val3", ]); assert!(delims.is_present("option")); assert_eq!(delims.occurrences_of("option"), 1); assert_eq!(delims.values_of("option").unwrap().collect::<Vec<_>>(), ["val1", "val2", "val3"]);
The next example shows the difference when turning delimiters off. This is the default behavior
let nodelims = App::new("prog") .arg(Arg::with_name("option") .long("option") .use_delimiter(false) .takes_value(true)) .get_matches_from(vec![ "prog", "--option=val1,val2,val3", ]); assert!(nodelims.is_present("option")); assert_eq!(nodelims.occurrences_of("option"), 1); assert_eq!(nodelims.value_of("option").unwrap(), "val1,val2,val3");
pub fn require_delimiter(self, d: bool) -> Self
[src]
Specifies that multiple values may only be set using the delimiter. This means if an if an option is encountered, and no delimiter is found, it automatically assumed that no additional values for that option follow. This is unlike the default, where it is generally assumed that more values will follow regardless of whether or not a delimiter is used.
NOTE: The default is false
.
NOTE: Setting this to true implies Arg::use_delimiter(true)
NOTE: It's a good idea to inform the user that use of a delimiter is required, either through help text or other means.
Examples
These examples demonstrate what happens when require_delimiter(true)
is used. Notice
everything works in this first example, as we use a delimiter, as expected.
let delims = App::new("prog") .arg(Arg::with_name("opt") .short("o") .takes_value(true) .multiple(true) .require_delimiter(true)) .get_matches_from(vec![ "prog", "-o", "val1,val2,val3", ]); assert!(delims.is_present("opt")); assert_eq!(delims.values_of("opt").unwrap().collect::<Vec<_>>(), ["val1", "val2", "val3"]);
In this next example, we will not use a delimiter. Notice it's now an error.
let res = App::new("prog") .arg(Arg::with_name("opt") .short("o") .takes_value(true) .multiple(true) .require_delimiter(true)) .get_matches_from_safe(vec![ "prog", "-o", "val1", "val2", "val3", ]); assert!(res.is_err()); let err = res.unwrap_err(); assert_eq!(err.kind, ErrorKind::UnknownArgument);
What's happening is -o
is getting val1
, and because delimiters are required yet none
were present, it stops parsing -o
. At this point it reaches val2
and because no
positional arguments have been defined, it's an error of an unexpected argument.
In this final example, we contrast the above with clap
's default behavior where the above
is not an error.
let delims = App::new("prog") .arg(Arg::with_name("opt") .short("o") .takes_value(true) .multiple(true)) .get_matches_from(vec![ "prog", "-o", "val1", "val2", "val3", ]); assert!(delims.is_present("opt")); assert_eq!(delims.values_of("opt").unwrap().collect::<Vec<_>>(), ["val1", "val2", "val3"]);
pub fn value_delimiter(self, d: &str) -> Self
[src]
Specifies the separator to use when values are clumped together, defaults to ,
(comma).
NOTE: implicitly sets Arg::use_delimiter(true)
NOTE: implicitly sets Arg::takes_value(true)
Examples
let m = App::new("prog") .arg(Arg::with_name("config") .short("c") .long("config") .value_delimiter(";")) .get_matches_from(vec![ "prog", "--config=val1;val2;val3" ]); assert_eq!(m.values_of("config").unwrap().collect::<Vec<_>>(), ["val1", "val2", "val3"])
pub fn value_names(self, names: &[&'b str]) -> Self
[src]
Specify multiple names for values of option arguments. These names are cosmetic only, used
for help and usage strings only. The names are not used to access arguments. The values
of the arguments are accessed in numeric order (i.e. if you specify two names one
and
two
one
will be the first matched value, two
will be the second).
This setting can be very helpful when describing the type of input the user should be
using, such as FILE
, INTERFACE
, etc. Although not required, it's somewhat convention to
use all capital letters for the value name.
Pro Tip: It may help to use Arg::next_line_help(true)
if there are long, or
multiple value names in order to not throw off the help text alignment of all options.
NOTE: This implicitly sets Arg::number_of_values
if the number of value names is
greater than one. I.e. be aware that the number of "names" you set for the values, will be
the exact number of values required to satisfy this argument
NOTE: implicitly sets Arg::takes_value(true)
NOTE: Does not require or imply Arg::multiple(true)
.
Examples
Arg::with_name("speed") .short("s") .value_names(&["fast", "slow"])
let m = App::new("prog") .arg(Arg::with_name("io") .long("io-files") .value_names(&["INFILE", "OUTFILE"])) .get_matches_from(vec![ "prog", "--help" ]);
Running the above program produces the following output
valnames
USAGE:
valnames [FLAGS] [OPTIONS]
FLAGS:
-h, --help Prints help information
-V, --version Prints version information
OPTIONS:
--io-files <INFILE> <OUTFILE> Some help text
pub fn value_name(self, name: &'b str) -> Self
[src]
Specifies the name for value of option or positional arguments inside of help
documentation. This name is cosmetic only, the name is not used to access arguments.
This setting can be very helpful when describing the type of input the user should be
using, such as FILE
, INTERFACE
, etc. Although not required, it's somewhat convention to
use all capital letters for the value name.
NOTE: implicitly sets Arg::takes_value(true)
Examples
Arg::with_name("cfg") .long("config") .value_name("FILE")
let m = App::new("prog") .arg(Arg::with_name("config") .long("config") .value_name("FILE")) .get_matches_from(vec![ "prog", "--help" ]);
Running the above program produces the following output
valnames
USAGE:
valnames [FLAGS] [OPTIONS]
FLAGS:
-h, --help Prints help information
-V, --version Prints version information
OPTIONS:
--config <FILE> Some help text
pub fn default_value(self, val: &'a str) -> Self
[src]
Specifies the value of the argument when not specified at runtime.
NOTE: If the user does not use this argument at runtime, ArgMatches::occurrences_of
will return 0
even though the ArgMatches::value_of
will return the default specified.
NOTE: If the user does not use this argument at runtime ArgMatches::is_present
will
still return true
. If you wish to determine whether the argument was used at runtime or
not, consider ArgMatches::occurrences_of
which will return 0
if the argument was not
used at runtime.
NOTE: This setting is perfectly compatible with Arg::default_value_if
but slightly
different. Arg::default_value
only takes affect when the user has not provided this arg
at runtime. Arg::default_value_if
however only takes affect when the user has not provided
a value at runtime and these other conditions are met as well. If you have set
Arg::default_value
and Arg::default_value_if
, and the user did not provide a this
arg at runtime, nor did were the conditions met for Arg::default_value_if
, the
Arg::default_value
will be applied.
NOTE: This implicitly sets Arg::takes_value(true)
.
NOTE: This setting effectively disables AppSettings::ArgRequiredElseHelp
if used in
conjunction as it ensures that some argument will always be present.
Examples
First we use the default value without providing any value at runtime.
let m = App::new("prog") .arg(Arg::with_name("opt") .long("myopt") .default_value("myval")) .get_matches_from(vec![ "prog" ]); assert_eq!(m.value_of("opt"), Some("myval")); assert!(m.is_present("opt")); assert_eq!(m.occurrences_of("opt"), 0);
Next we provide a value at runtime to override the default.
let m = App::new("prog") .arg(Arg::with_name("opt") .long("myopt") .default_value("myval")) .get_matches_from(vec![ "prog", "--myopt=non_default" ]); assert_eq!(m.value_of("opt"), Some("non_default")); assert!(m.is_present("opt")); assert_eq!(m.occurrences_of("opt"), 1);
pub fn default_value_os(self, val: &'a OsStr) -> Self
[src]
Provides a default value in the exact same manner as Arg::default_value
only using OsStr
s instead.
Arg::default_value
: ./struct.Arg.html#method.default_value
OsStr
: https://doc.rust-lang.org/std/ffi/struct.OsStr.html
pub fn default_value_if(
self,
arg: &'a str,
val: Option<&'b str>,
default: &'b str
) -> Self
[src]
self,
arg: &'a str,
val: Option<&'b str>,
default: &'b str
) -> Self
Specifies the value of the argument if arg
has been used at runtime. If val
is set to
None
, arg
only needs to be present. If val
is set to "some-val"
then arg
must be
present at runtime and have the value val
.
NOTE: This setting is perfectly compatible with Arg::default_value
but slightly
different. Arg::default_value
only takes affect when the user has not provided this arg
at runtime. This setting however only takes affect when the user has not provided a value at
runtime and these other conditions are met as well. If you have set Arg::default_value
and Arg::default_value_if
, and the user did not provide a this arg at runtime, nor did
were the conditions met for Arg::default_value_if
, the Arg::default_value
will be
applied.
NOTE: This implicitly sets Arg::takes_value(true)
.
NOTE: If using YAML the values should be laid out as follows (None
can be represented
as null
in YAML)
default_value_if:
- [arg, val, default]
Examples
First we use the default value only if another arg is present at runtime.
let m = App::new("prog") .arg(Arg::with_name("flag") .long("flag")) .arg(Arg::with_name("other") .long("other") .default_value_if("flag", None, "default")) .get_matches_from(vec![ "prog", "--flag" ]); assert_eq!(m.value_of("other"), Some("default"));
Next we run the same test, but without providing --flag
.
let m = App::new("prog") .arg(Arg::with_name("flag") .long("flag")) .arg(Arg::with_name("other") .long("other") .default_value_if("flag", None, "default")) .get_matches_from(vec![ "prog" ]); assert_eq!(m.value_of("other"), None);
Now lets only use the default value if --opt
contains the value special
.
let m = App::new("prog") .arg(Arg::with_name("opt") .takes_value(true) .long("opt")) .arg(Arg::with_name("other") .long("other") .default_value_if("opt", Some("special"), "default")) .get_matches_from(vec![ "prog", "--opt", "special" ]); assert_eq!(m.value_of("other"), Some("default"));
We can run the same test and provide any value other than special
and we won't get a
default value.
let m = App::new("prog") .arg(Arg::with_name("opt") .takes_value(true) .long("opt")) .arg(Arg::with_name("other") .long("other") .default_value_if("opt", Some("special"), "default")) .get_matches_from(vec![ "prog", "--opt", "hahaha" ]); assert_eq!(m.value_of("other"), None);
pub fn default_value_if_os(
self,
arg: &'a str,
val: Option<&'b OsStr>,
default: &'b OsStr
) -> Self
[src]
self,
arg: &'a str,
val: Option<&'b OsStr>,
default: &'b OsStr
) -> Self
Provides a conditional default value in the exact same manner as Arg::default_value_if
only using OsStr
s instead.
Arg::default_value_if
: ./struct.Arg.html#method.default_value_if
OsStr
: https://doc.rust-lang.org/std/ffi/struct.OsStr.html
pub fn default_value_ifs(
self,
ifs: &[(&'a str, Option<&'b str>, &'b str)]
) -> Self
[src]
self,
ifs: &[(&'a str, Option<&'b str>, &'b str)]
) -> Self
Specifies multiple values and conditions in the same manner as Arg::default_value_if
.
The method takes a slice of tuples in the (arg, Option<val>, default)
format.
NOTE: The conditions are stored in order and evaluated in the same order. I.e. the first if multiple conditions are true, the first one found will be applied and the ultimate value.
NOTE: If using YAML the values should be laid out as follows
default_value_if:
- [arg, val, default]
- [arg2, null, default2]
Examples
First we use the default value only if another arg is present at runtime.
let m = App::new("prog") .arg(Arg::with_name("flag") .long("flag")) .arg(Arg::with_name("opt") .long("opt") .takes_value(true)) .arg(Arg::with_name("other") .long("other") .default_value_ifs(&[ ("flag", None, "default"), ("opt", Some("channal"), "chan"), ])) .get_matches_from(vec![ "prog", "--opt", "channal" ]); assert_eq!(m.value_of("other"), Some("chan"));
Next we run the same test, but without providing --flag
.
let m = App::new("prog") .arg(Arg::with_name("flag") .long("flag")) .arg(Arg::with_name("other") .long("other") .default_value_ifs(&[ ("flag", None, "default"), ("opt", Some("channal"), "chan"), ])) .get_matches_from(vec![ "prog" ]); assert_eq!(m.value_of("other"), None);
We can also see that these values are applied in order, and if more than one condition is true, only the first evaluated "wins"
let m = App::new("prog") .arg(Arg::with_name("flag") .long("flag")) .arg(Arg::with_name("opt") .long("opt") .takes_value(true)) .arg(Arg::with_name("other") .long("other") .default_value_ifs(&[ ("flag", None, "default"), ("opt", Some("channal"), "chan"), ])) .get_matches_from(vec![ "prog", "--opt", "channal", "--flag" ]); assert_eq!(m.value_of("other"), Some("default"));
pub fn default_value_ifs_os(
self,
ifs: &[(&'a str, Option<&'b OsStr>, &'b OsStr)]
) -> Self
[src]
self,
ifs: &[(&'a str, Option<&'b OsStr>, &'b OsStr)]
) -> Self
Provides multiple conditional default values in the exact same manner as
Arg::default_value_ifs
only using OsStr
s instead.
Arg::default_value_ifs
: ./struct.Arg.html#method.default_value_ifs
OsStr
: https://doc.rust-lang.org/std/ffi/struct.OsStr.html
pub fn env(self, name: &'a str) -> Self
[src]
Specifies that if the value is not passed in as an argument, that it should be retrieved from the environment, if available. If it is not present in the environment, then default rules will apply.
NOTE: If the user does not use this argument at runtime, ArgMatches::occurrences_of
will return 0
even though the ArgMatches::value_of
will return the default specified.
NOTE: If the user does not use this argument at runtime ArgMatches::is_present
will
return true
if the variable is present in the environment . If you wish to determine whether
the argument was used at runtime or not, consider ArgMatches::occurrences_of
which will
return 0
if the argument was not used at runtime.
NOTE: This implicitly sets Arg::takes_value(true)
.
NOTE: If Arg::multiple(true)
is set then Arg::use_delimiter(true)
should also be
set. Otherwise, only a single argument will be returned from the environment variable. The
default delimiter is ,
and follows all the other delimiter rules.
Examples
In this example, we show the variable coming from the environment:
env::set_var("MY_FLAG", "env"); let m = App::new("prog") .arg(Arg::with_name("flag") .long("flag") .env("MY_FLAG")) .get_matches_from(vec![ "prog" ]); assert_eq!(m.value_of("flag"), Some("env"));
In this example, we show the variable coming from an option on the CLI:
env::set_var("MY_FLAG", "env"); let m = App::new("prog") .arg(Arg::with_name("flag") .long("flag") .env("MY_FLAG")) .get_matches_from(vec![ "prog", "--flag", "opt" ]); assert_eq!(m.value_of("flag"), Some("opt"));
In this example, we show the variable coming from the environment even with the presence of a default:
env::set_var("MY_FLAG", "env"); let m = App::new("prog") .arg(Arg::with_name("flag") .long("flag") .env("MY_FLAG") .default_value("default")) .get_matches_from(vec![ "prog" ]); assert_eq!(m.value_of("flag"), Some("env"));
In this example, we show the use of multiple values in a single environment variable:
env::set_var("MY_FLAG_MULTI", "env1,env2"); let m = App::new("prog") .arg(Arg::with_name("flag") .long("flag") .env("MY_FLAG_MULTI") .multiple(true) .use_delimiter(true)) .get_matches_from(vec![ "prog" ]); assert_eq!(m.values_of("flag").unwrap().collect::<Vec<_>>(), vec!["env1", "env2"]);
pub fn env_os(self, name: &'a OsStr) -> Self
[src]
Specifies that if the value is not passed in as an argument, that it should be retrieved
from the environment if available in the exact same manner as Arg::env
only using
OsStr
s instead.
pub fn hide_env_values(self, hide: bool) -> Self
[src]
@TODO @p2 @docs @release: write docs
pub fn next_line_help(self, nlh: bool) -> Self
[src]
When set to true
the help string will be displayed on the line after the argument and
indented once. This can be helpful for arguments with very long or complex help messages.
This can also be helpful for arguments with very long flag names, or many/long value names.
NOTE: To apply this setting to all arguments consider using
AppSettings::NextLineHelp
Examples
let m = App::new("prog") .arg(Arg::with_name("opt") .long("long-option-flag") .short("o") .takes_value(true) .value_names(&["value1", "value2"]) .help("Some really long help and complex\n\ help that makes more sense to be\n\ on a line after the option") .next_line_help(true)) .get_matches_from(vec![ "prog", "--help" ]);
The above example displays the following help message
nlh
USAGE:
nlh [FLAGS] [OPTIONS]
FLAGS:
-h, --help Prints help information
-V, --version Prints version information
OPTIONS:
-o, --long-option-flag <value1> <value2>
Some really long help and complex
help that makes more sense to be
on a line after the option
pub fn display_order(self, ord: usize) -> Self
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Allows custom ordering of args within the help message. Args with a lower value will be displayed first in the help message. This is helpful when one would like to emphasise frequently used args, or prioritize those towards the top of the list. Duplicate values are allowed. Args with duplicate display orders will be displayed in alphabetical order.
NOTE: The default is 999 for all arguments.
NOTE: This setting is ignored for positional arguments which are always displayed in index order.
Examples
let m = App::new("prog") .arg(Arg::with_name("a") // Typically args are grouped alphabetically by name. // Args without a display_order have a value of 999 and are // displayed alphabetically with all other 999 valued args. .long("long-option") .short("o") .takes_value(true) .help("Some help and text")) .arg(Arg::with_name("b") .long("other-option") .short("O") .takes_value(true) .display_order(1) // In order to force this arg to appear *first* // all we have to do is give it a value lower than 999. // Any other args with a value of 1 will be displayed // alphabetically with this one...then 2 values, then 3, etc. .help("I should be first!")) .get_matches_from(vec![ "prog", "--help" ]);
The above example displays the following help message
cust-ord
USAGE:
cust-ord [FLAGS] [OPTIONS]
FLAGS:
-h, --help Prints help information
-V, --version Prints version information
OPTIONS:
-O, --other-option <b> I should be first!
-o, --long-option <a> Some help and text
pub fn raw(self, raw: bool) -> Self
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Indicates that all parameters passed after this should not be parsed
individually, but rather passed in their entirety. It is worth noting
that setting this requires all values to come after a --
to indicate they
should all be captured. For example:
--foo something -- -v -v -v -b -b -b --baz -q -u -x
Will result in everything after --
to be considered one raw argument. This behavior
may not be exactly what you are expecting and using AppSettings::TrailingVarArg
may be more appropriate.
NOTE: Implicitly sets Arg::multiple(true)
, Arg::allow_hyphen_values(true)
, and
Arg::last(true)
when set to true
pub fn hidden_short_help(self, hide: bool) -> Self
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Hides an argument from short help message output.
NOTE: This does not hide the argument from usage strings on error
NOTE: Setting this option will cause next-line-help output style to be used
when long help (--help
) is called.
Examples
Arg::with_name("debug") .hidden_short_help(true)
Setting hidden_short_help(true)
will hide the argument when displaying short help text
let m = App::new("prog") .arg(Arg::with_name("cfg") .long("config") .hidden_short_help(true) .help("Some help text describing the --config arg")) .get_matches_from(vec![ "prog", "-h" ]);
The above example displays
helptest
USAGE:
helptest [FLAGS]
FLAGS:
-h, --help Prints help information
-V, --version Prints version information
However, when --help is called
let m = App::new("prog") .arg(Arg::with_name("cfg") .long("config") .hidden_short_help(true) .help("Some help text describing the --config arg")) .get_matches_from(vec![ "prog", "--help" ]);
Then the following would be displayed
helptest
USAGE:
helptest [FLAGS]
FLAGS:
--config Some help text describing the --config arg
-h, --help Prints help information
-V, --version Prints version information
pub fn hidden_long_help(self, hide: bool) -> Self
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Hides an argument from long help message output.
NOTE: This does not hide the argument from usage strings on error
NOTE: Setting this option will cause next-line-help output style to be used
when long help (--help
) is called.
Examples
Arg::with_name("debug") .hidden_long_help(true)
Setting hidden_long_help(true)
will hide the argument when displaying long help text
let m = App::new("prog") .arg(Arg::with_name("cfg") .long("config") .hidden_long_help(true) .help("Some help text describing the --config arg")) .get_matches_from(vec![ "prog", "--help" ]);
The above example displays
helptest
USAGE:
helptest [FLAGS]
FLAGS:
-h, --help Prints help information
-V, --version Prints version information
However, when -h is called
let m = App::new("prog") .arg(Arg::with_name("cfg") .long("config") .hidden_long_help(true) .help("Some help text describing the --config arg")) .get_matches_from(vec![ "prog", "-h" ]);
Then the following would be displayed
helptest
USAGE:
helptest [FLAGS]
FLAGS:
--config Some help text describing the --config arg
-h, --help Prints help information
-V, --version Prints version information
pub fn is_set(&self, s: ArgSettings) -> bool
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Checks if one of the ArgSettings
settings is set for the argument.
pub fn set(self, s: ArgSettings) -> Self
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Sets one of the ArgSettings
settings for the argument.
pub fn unset(self, s: ArgSettings) -> Self
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Unsets one of the ArgSettings
settings for the argument.
Trait Implementations
impl<'a, 'b> Clone for Arg<'a, 'b> where
'a: 'b,
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'a: 'b,
impl<'a, 'b> Default for Arg<'a, 'b> where
'a: 'b,
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'a: 'b,
impl<'a, 'b, 'z> From<&'z Arg<'a, 'b>> for Arg<'a, 'b>
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impl<'n, 'e> PartialEq<Arg<'n, 'e>> for Arg<'n, 'e>
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Auto Trait Implementations
impl<'a, 'b> !RefUnwindSafe for Arg<'a, 'b>
impl<'a, 'b> !Send for Arg<'a, 'b>
impl<'a, 'b> !Sync for Arg<'a, 'b>
impl<'a, 'b> Unpin for Arg<'a, 'b>
impl<'a, 'b> !UnwindSafe for Arg<'a, 'b>
Blanket Implementations
impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
impl<T> Borrow<T> for T where
T: ?Sized,
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T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
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T: ?Sized,
fn borrow_mut(&mut self) -> &mut T
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impl<T> From<T> for T
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impl<T, U> Into<U> for T where
U: From<T>,
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U: From<T>,
impl<T> ToOwned for T where
T: Clone,
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T: Clone,
type Owned = T
The resulting type after obtaining ownership.
fn to_owned(&self) -> T
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fn clone_into(&self, target: &mut T)
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impl<T, U> TryFrom<U> for T where
U: Into<T>,
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U: Into<T>,
type Error = Infallible
The type returned in the event of a conversion error.
fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<T, U> TryInto<U> for T where
U: TryFrom<T>,
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U: TryFrom<T>,