unstable-doc
only.Expand description
§Validation
An appropriate default parser/validator will be selected for the field’s type. See
value_parser!
for more details.
§Enumerated values
If you have arguments of specific values you want to test for, you can use the
PossibleValuesParser
or Arg::value_parser(["val1", ...])
for short.
This allows you specify the valid values for that argument. If the user does not use one of those specific values, they will receive a graceful exit with error message informing them of the mistake, and what the possible valid values are
use clap::{arg, command};
fn main() {
let matches = command!() // requires `cargo` feature
.arg(
arg!(<MODE>)
.help("What mode to run the program in")
.value_parser(["fast", "slow"]),
)
.get_matches();
// Note, it's safe to call unwrap() because the arg is required
match matches
.get_one::<String>("MODE")
.expect("'MODE' is required and parsing will fail if its missing")
.as_str()
{
"fast" => {
println!("Hare");
}
"slow" => {
println!("Tortoise");
}
_ => unreachable!(),
}
}
$ 04_01_possible --help
A simple to use, efficient, and full-featured Command Line Argument Parser
Usage: 04_01_possible[EXE] <MODE>
Arguments:
<MODE> What mode to run the program in [possible values: fast, slow]
Options:
-h, --help Print help
-V, --version Print version
$ 04_01_possible fast
Hare
$ 04_01_possible slow
Tortoise
$ 04_01_possible medium
? failed
error: invalid value 'medium' for '<MODE>'
[possible values: fast, slow]
For more information, try '--help'.
When enabling the derive
feature, you can use
ValueEnum
to take care of the boiler plate for you, giving the same
results.
use clap::{arg, builder::PossibleValue, command, value_parser, ValueEnum};
#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord)]
enum Mode {
Fast,
Slow,
}
// Can also be derived with feature flag `derive`
impl ValueEnum for Mode {
fn value_variants<'a>() -> &'a [Self] {
&[Mode::Fast, Mode::Slow]
}
fn to_possible_value<'a>(&self) -> Option<PossibleValue> {
Some(match self {
Mode::Fast => PossibleValue::new("fast").help("Run swiftly"),
Mode::Slow => PossibleValue::new("slow").help("Crawl slowly but steadily"),
})
}
}
impl std::fmt::Display for Mode {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
self.to_possible_value()
.expect("no values are skipped")
.get_name()
.fmt(f)
}
}
impl std::str::FromStr for Mode {
type Err = String;
fn from_str(s: &str) -> Result<Self, Self::Err> {
for variant in Self::value_variants() {
if variant.to_possible_value().unwrap().matches(s, false) {
return Ok(*variant);
}
}
Err(format!("invalid variant: {s}"))
}
}
fn main() {
let matches = command!() // requires `cargo` feature
.arg(
arg!(<MODE>)
.help("What mode to run the program in")
.value_parser(value_parser!(Mode)),
)
.get_matches();
// Note, it's safe to call unwrap() because the arg is required
match matches
.get_one::<Mode>("MODE")
.expect("'MODE' is required and parsing will fail if its missing")
{
Mode::Fast => {
println!("Hare");
}
Mode::Slow => {
println!("Tortoise");
}
}
}
$ 04_01_enum --help
A simple to use, efficient, and full-featured Command Line Argument Parser
Usage: 04_01_enum[EXE] <MODE>
Arguments:
<MODE>
What mode to run the program in
Possible values:
- fast: Run swiftly
- slow: Crawl slowly but steadily
Options:
-h, --help
Print help (see a summary with '-h')
-V, --version
Print version
$ 04_01_enum -h
A simple to use, efficient, and full-featured Command Line Argument Parser
Usage: 04_01_enum[EXE] <MODE>
Arguments:
<MODE> What mode to run the program in [possible values: fast, slow]
Options:
-h, --help Print help (see more with '--help')
-V, --version Print version
$ 04_01_enum fast
Hare
$ 04_01_enum slow
Tortoise
$ 04_01_enum medium
? failed
error: invalid value 'medium' for '<MODE>'
[possible values: fast, slow]
For more information, try '--help'.
§Validated values
More generally, you can validate and parse into any data type with Arg::value_parser
.
use clap::{arg, command, value_parser};
fn main() {
let matches = command!() // requires `cargo` feature
.arg(
arg!(<PORT>)
.help("Network port to use")
.value_parser(value_parser!(u16).range(1..)),
)
.get_matches();
// Note, it's safe to call unwrap() because the arg is required
let port: u16 = *matches
.get_one::<u16>("PORT")
.expect("'PORT' is required and parsing will fail if its missing");
println!("PORT = {port}");
}
$ 04_02_parse --help
A simple to use, efficient, and full-featured Command Line Argument Parser
Usage: 04_02_parse[EXE] <PORT>
Arguments:
<PORT> Network port to use
Options:
-h, --help Print help
-V, --version Print version
$ 04_02_parse 22
PORT = 22
$ 04_02_parse foobar
? failed
error: invalid value 'foobar' for '<PORT>': invalid digit found in string
For more information, try '--help'.
$ 04_02_parse_derive 0
? failed
error: invalid value '0' for '<PORT>': 0 is not in 1..=65535
For more information, try '--help'.
A custom parser can be used to improve the error messages or provide additional validation:
use std::ops::RangeInclusive;
use clap::{arg, command};
fn main() {
let matches = command!() // requires `cargo` feature
.arg(
arg!(<PORT>)
.help("Network port to use")
.value_parser(port_in_range),
)
.get_matches();
// Note, it's safe to call unwrap() because the arg is required
let port: u16 = *matches
.get_one::<u16>("PORT")
.expect("'PORT' is required and parsing will fail if its missing");
println!("PORT = {port}");
}
const PORT_RANGE: RangeInclusive<usize> = 1..=65535;
fn port_in_range(s: &str) -> Result<u16, String> {
let port: usize = s
.parse()
.map_err(|_| format!("`{s}` isn't a port number"))?;
if PORT_RANGE.contains(&port) {
Ok(port as u16)
} else {
Err(format!(
"port not in range {}-{}",
PORT_RANGE.start(),
PORT_RANGE.end()
))
}
}
$ 04_02_validate --help
A simple to use, efficient, and full-featured Command Line Argument Parser
Usage: 04_02_validate[EXE] <PORT>
Arguments:
<PORT> Network port to use
Options:
-h, --help Print help
-V, --version Print version
$ 04_02_validate 22
PORT = 22
$ 04_02_validate foobar
? failed
error: invalid value 'foobar' for '<PORT>': `foobar` isn't a port number
For more information, try '--help'.
$ 04_02_validate 0
? failed
error: invalid value '0' for '<PORT>': port not in range 1-65535
For more information, try '--help'.
See Arg::value_parser
for more details.
§Argument Relations
You can declare dependencies or conflicts between Arg
s or even
ArgGroup
s.
ArgGroup
s make it easier to declare relations instead of having to list
each individually, or when you want a rule to apply “any but not all” arguments.
Perhaps the most common use of ArgGroup
s is to require one and only one
argument to be present out of a given set. Imagine that you had multiple arguments, and you
want one of them to be required, but making all of them required isn’t feasible because perhaps
they conflict with each other.
use std::path::PathBuf;
use clap::{arg, command, value_parser, ArgAction, ArgGroup};
fn main() {
// Create application like normal
let matches = command!() // requires `cargo` feature
// Add the version arguments
.arg(arg!(--"set-ver" <VER> "set version manually"))
.arg(arg!(--major "auto inc major").action(ArgAction::SetTrue))
.arg(arg!(--minor "auto inc minor").action(ArgAction::SetTrue))
.arg(arg!(--patch "auto inc patch").action(ArgAction::SetTrue))
// Create a group, make it required, and add the above arguments
.group(
ArgGroup::new("vers")
.required(true)
.args(["set-ver", "major", "minor", "patch"]),
)
// Arguments can also be added to a group individually, these two arguments
// are part of the "input" group which is not required
.arg(
arg!([INPUT_FILE] "some regular input")
.value_parser(value_parser!(PathBuf))
.group("input"),
)
.arg(
arg!(--"spec-in" <SPEC_IN> "some special input argument")
.value_parser(value_parser!(PathBuf))
.group("input"),
)
// Now let's assume we have a -c [config] argument which requires one of
// (but **not** both) the "input" arguments
.arg(
arg!(config: -c <CONFIG>)
.value_parser(value_parser!(PathBuf))
.requires("input"),
)
.get_matches();
// Let's assume the old version 1.2.3
let mut major = 1;
let mut minor = 2;
let mut patch = 3;
// See if --set-ver was used to set the version manually
let version = if let Some(ver) = matches.get_one::<String>("set-ver") {
ver.to_owned()
} else {
// Increment the one requested (in a real program, we'd reset the lower numbers)
let (maj, min, pat) = (
matches.get_flag("major"),
matches.get_flag("minor"),
matches.get_flag("patch"),
);
match (maj, min, pat) {
(true, _, _) => major += 1,
(_, true, _) => minor += 1,
(_, _, true) => patch += 1,
_ => unreachable!(),
};
format!("{major}.{minor}.{patch}")
};
println!("Version: {version}");
// Check for usage of -c
if matches.contains_id("config") {
let input = matches
.get_one::<PathBuf>("INPUT_FILE")
.unwrap_or_else(|| matches.get_one::<PathBuf>("spec-in").unwrap())
.display();
println!(
"Doing work using input {} and config {}",
input,
matches.get_one::<PathBuf>("config").unwrap().display()
);
}
}
$ 04_03_relations --help
A simple to use, efficient, and full-featured Command Line Argument Parser
Usage: 04_03_relations[EXE] [OPTIONS] <--set-ver <VER>|--major|--minor|--patch> [INPUT_FILE]
Arguments:
[INPUT_FILE] some regular input
Options:
--set-ver <VER> set version manually
--major auto inc major
--minor auto inc minor
--patch auto inc patch
--spec-in <SPEC_IN> some special input argument
-c <CONFIG>
-h, --help Print help
-V, --version Print version
$ 04_03_relations
? failed
error: the following required arguments were not provided:
<--set-ver <VER>|--major|--minor|--patch>
Usage: 04_03_relations[EXE] <--set-ver <VER>|--major|--minor|--patch> [INPUT_FILE]
For more information, try '--help'.
$ 04_03_relations --major
Version: 2.2.3
$ 04_03_relations --major --minor
? failed
error: the argument '--major' cannot be used with '--minor'
Usage: 04_03_relations[EXE] <--set-ver <VER>|--major|--minor|--patch> [INPUT_FILE]
For more information, try '--help'.
$ 04_03_relations --major -c config.toml
? failed
error: the following required arguments were not provided:
<INPUT_FILE|--spec-in <SPEC_IN>>
Usage: 04_03_relations[EXE] -c <CONFIG> <--set-ver <VER>|--major|--minor|--patch> <INPUT_FILE|--spec-in <SPEC_IN>>
For more information, try '--help'.
$ 04_03_relations --major -c config.toml --spec-in input.txt
Version: 2.2.3
Doing work using input input.txt and config config.toml
§Custom Validation
As a last resort, you can create custom errors with the basics of clap’s formatting.
use std::path::PathBuf;
use clap::error::ErrorKind;
use clap::{arg, command, value_parser, ArgAction};
fn main() {
// Create application like normal
let mut cmd = command!() // requires `cargo` feature
// Add the version arguments
.arg(arg!(--"set-ver" <VER> "set version manually"))
.arg(arg!(--major "auto inc major").action(ArgAction::SetTrue))
.arg(arg!(--minor "auto inc minor").action(ArgAction::SetTrue))
.arg(arg!(--patch "auto inc patch").action(ArgAction::SetTrue))
// Arguments can also be added to a group individually, these two arguments
// are part of the "input" group which is not required
.arg(arg!([INPUT_FILE] "some regular input").value_parser(value_parser!(PathBuf)))
.arg(
arg!(--"spec-in" <SPEC_IN> "some special input argument")
.value_parser(value_parser!(PathBuf)),
)
// Now let's assume we have a -c [config] argument which requires one of
// (but **not** both) the "input" arguments
.arg(arg!(config: -c <CONFIG>).value_parser(value_parser!(PathBuf)));
let matches = cmd.get_matches_mut();
// Let's assume the old version 1.2.3
let mut major = 1;
let mut minor = 2;
let mut patch = 3;
// See if --set-ver was used to set the version manually
let version = if let Some(ver) = matches.get_one::<String>("set-ver") {
if matches.get_flag("major") || matches.get_flag("minor") || matches.get_flag("patch") {
cmd.error(
ErrorKind::ArgumentConflict,
"Can't do relative and absolute version change",
)
.exit();
}
ver.to_string()
} else {
// Increment the one requested (in a real program, we'd reset the lower numbers)
let (maj, min, pat) = (
matches.get_flag("major"),
matches.get_flag("minor"),
matches.get_flag("patch"),
);
match (maj, min, pat) {
(true, false, false) => major += 1,
(false, true, false) => minor += 1,
(false, false, true) => patch += 1,
_ => {
cmd.error(
ErrorKind::ArgumentConflict,
"Can only modify one version field",
)
.exit();
}
};
format!("{major}.{minor}.{patch}")
};
println!("Version: {version}");
// Check for usage of -c
if matches.contains_id("config") {
let input = matches
.get_one::<PathBuf>("INPUT_FILE")
.or_else(|| matches.get_one::<PathBuf>("spec-in"))
.unwrap_or_else(|| {
cmd.error(
ErrorKind::MissingRequiredArgument,
"INPUT_FILE or --spec-in is required when using --config",
)
.exit()
})
.display();
println!(
"Doing work using input {} and config {}",
input,
matches.get_one::<PathBuf>("config").unwrap().display()
);
}
}
$ 04_04_custom --help
A simple to use, efficient, and full-featured Command Line Argument Parser
Usage: 04_04_custom[EXE] [OPTIONS] [INPUT_FILE]
Arguments:
[INPUT_FILE] some regular input
Options:
--set-ver <VER> set version manually
--major auto inc major
--minor auto inc minor
--patch auto inc patch
--spec-in <SPEC_IN> some special input argument
-c <CONFIG>
-h, --help Print help
-V, --version Print version
$ 04_04_custom
? failed
error: Can only modify one version field
Usage: 04_04_custom[EXE] [OPTIONS] [INPUT_FILE]
For more information, try '--help'.
$ 04_04_custom --major
Version: 2.2.3
$ 04_04_custom --major --minor
? failed
error: Can only modify one version field
Usage: 04_04_custom[EXE] [OPTIONS] [INPUT_FILE]
For more information, try '--help'.
$ 04_04_custom --major -c config.toml
? failed
Version: 2.2.3
error: INPUT_FILE or --spec-in is required when using --config
Usage: 04_04_custom[EXE] [OPTIONS] [INPUT_FILE]
For more information, try '--help'.
$ 04_04_custom --major -c config.toml --spec-in input.txt
Version: 2.2.3
Doing work using input input.txt and config config.toml