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|
// Copyright 2017 The Chromium OS Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//! Handles argument parsing.
//!
//! # Example
//!
//! ```
//! # use crosvm::argument::{Argument, Error, print_help, set_arguments};
//! # let args: std::slice::Iter<String> = [].iter();
//! let arguments = &[
//! Argument::positional("FILES", "files to operate on"),
//! Argument::short_value('p', "program", "PROGRAM", "Program to apply to each file"),
//! Argument::short_value('c', "cpus", "N", "Number of CPUs to use. (default: 1)"),
//! Argument::flag("unmount", "Unmount the root"),
//! Argument::short_flag('h', "help", "Print help message."),
//! ];
//!
//! let match_res = set_arguments(args, arguments, |name, value| {
//! match name {
//! "" => println!("positional arg! {}", value.unwrap()),
//! "program" => println!("gonna use program {}", value.unwrap()),
//! "cpus" => {
//! let v: u32 = value.unwrap().parse().map_err(|_| {
//! Error::InvalidValue {
//! value: value.unwrap().to_owned(),
//! expected: String::from("this value for `cpus` needs to be integer"),
//! }
//! })?;
//! }
//! "unmount" => println!("gonna unmount"),
//! "help" => return Err(Error::PrintHelp),
//! _ => unreachable!(),
//! }
//! unreachable!();
//! });
//!
//! match match_res {
//! Ok(_) => println!("running with settings"),
//! Err(Error::PrintHelp) => print_help("best_program", "FILES", arguments),
//! Err(e) => println!("{}", e),
//! }
//! ```
use std::fmt::{self, Display};
use std::result;
/// An error with argument parsing.
#[derive(Debug)]
pub enum Error {
/// There was a syntax error with the argument.
Syntax(String),
/// The argument's name is unused.
UnknownArgument(String),
/// The argument was required.
ExpectedArgument(String),
/// The argument's given value is invalid.
InvalidValue { value: String, expected: String },
/// The argument was already given and none more are expected.
TooManyArguments(String),
/// The argument expects a value.
ExpectedValue(String),
/// The argument does not expect a value.
UnexpectedValue(String),
/// The help information was requested
PrintHelp,
}
impl Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
use self::Error::*;
match self {
Syntax(s) => write!(f, "syntax error: {}", s),
UnknownArgument(s) => write!(f, "unknown argument: {}", s),
ExpectedArgument(s) => write!(f, "expected argument: {}", s),
InvalidValue { value, expected } => {
write!(f, "invalid value {:?}: {}", value, expected)
}
TooManyArguments(s) => write!(f, "too many arguments: {}", s),
ExpectedValue(s) => write!(f, "expected parameter value: {}", s),
UnexpectedValue(s) => write!(f, "unexpected parameter value: {}", s),
PrintHelp => write!(f, "help was requested"),
}
}
}
/// Result of a argument parsing.
pub type Result<T> = result::Result<T, Error>;
#[derive(Debug, PartialEq)]
pub enum ArgumentValueMode {
/// Specifies that an argument requires a value and that an error should be generated if
/// no value is provided during parsing.
Required,
/// Specifies that an argument does not allow a value and that an error should be returned
/// if a value is provided during parsing.
Disallowed,
/// Specifies that an argument may have a value during parsing but is not required to.
Optional,
}
/// Information about an argument expected from the command line.
///
/// # Examples
///
/// To indicate a flag style argument:
///
/// ```
/// # use crosvm::argument::Argument;
/// Argument::short_flag('f', "flag", "enable awesome mode");
/// ```
///
/// To indicate a parameter style argument that expects a value:
///
/// ```
/// # use crosvm::argument::Argument;
/// // "VALUE" and "NETMASK" are placeholder values displayed in the help message for these
/// // arguments.
/// Argument::short_value('v', "val", "VALUE", "how much do you value this usage information");
/// Argument::value("netmask", "NETMASK", "hides your netface");
/// ```
///
/// To indicate an argument with no short version:
///
/// ```
/// # use crosvm::argument::Argument;
/// Argument::flag("verbose", "this option is hard to type quickly");
/// ```
///
/// To indicate a positional argument:
///
/// ```
/// # use crosvm::argument::Argument;
/// Argument::positional("VALUES", "these are positional arguments");
/// ```
pub struct Argument {
/// The name of the value to display in the usage information.
pub value: Option<&'static str>,
/// Specifies how values should be handled for this this argument.
pub value_mode: ArgumentValueMode,
/// Optional single character shortened argument name.
pub short: Option<char>,
/// The long name of this argument.
pub long: &'static str,
/// Helpful usage information for this argument to display to the user.
pub help: &'static str,
}
impl Argument {
pub fn positional(value: &'static str, help: &'static str) -> Argument {
Argument {
value: Some(value),
value_mode: ArgumentValueMode::Required,
short: None,
long: "",
help,
}
}
pub fn value(long: &'static str, value: &'static str, help: &'static str) -> Argument {
Argument {
value: Some(value),
value_mode: ArgumentValueMode::Required,
short: None,
long,
help,
}
}
pub fn short_value(
short: char,
long: &'static str,
value: &'static str,
help: &'static str,
) -> Argument {
Argument {
value: Some(value),
value_mode: ArgumentValueMode::Required,
short: Some(short),
long,
help,
}
}
pub fn flag(long: &'static str, help: &'static str) -> Argument {
Argument {
value: None,
value_mode: ArgumentValueMode::Disallowed,
short: None,
long,
help,
}
}
pub fn short_flag(short: char, long: &'static str, help: &'static str) -> Argument {
Argument {
value: None,
value_mode: ArgumentValueMode::Disallowed,
short: Some(short),
long,
help,
}
}
pub fn flag_or_value(long: &'static str, value: &'static str, help: &'static str) -> Argument {
Argument {
value: Some(value),
value_mode: ArgumentValueMode::Optional,
short: None,
long,
help,
}
}
}
fn parse_arguments<I, R, F>(args: I, mut f: F) -> Result<()>
where
I: Iterator<Item = R>,
R: AsRef<str>,
F: FnMut(&str, Option<&str>) -> Result<()>,
{
enum State {
// Initial state at the start and after finishing a single argument/value.
Top,
// The remaining arguments are all positional.
Positional,
// The next string is the value for the argument `name`.
Value { name: String },
}
let mut s = State::Top;
for arg in args {
let arg = arg.as_ref();
loop {
let mut arg_consumed = true;
s = match s {
State::Top => {
if arg == "--" {
State::Positional
} else if arg.starts_with("--") {
let param = arg.trim_start_matches('-');
if param.contains('=') {
let mut iter = param.splitn(2, '=');
let name = iter.next().unwrap();
let value = iter.next().unwrap();
if name.is_empty() {
return Err(Error::Syntax(
"expected parameter name before `=`".to_owned(),
));
}
if value.is_empty() {
return Err(Error::Syntax(
"expected parameter value after `=`".to_owned(),
));
}
f(name, Some(value))?;
State::Top
} else {
State::Value {
name: param.to_owned(),
}
}
} else if arg.starts_with('-') {
if arg.len() == 1 {
return Err(Error::Syntax(
"expected argument short name after `-`".to_owned(),
));
}
let name = &arg[1..2];
let value = if arg.len() > 2 { Some(&arg[2..]) } else { None };
if let Err(e) = f(name, value) {
if let Error::ExpectedValue(_) = e {
State::Value {
name: name.to_owned(),
}
} else {
return Err(e);
}
} else {
State::Top
}
} else {
f("", Some(&arg))?;
State::Positional
}
}
State::Positional => {
f("", Some(&arg))?;
State::Positional
}
State::Value { name } => {
if arg.starts_with('-') {
arg_consumed = false;
f(&name, None)?;
} else if let Err(e) = f(&name, Some(&arg)) {
arg_consumed = false;
f(&name, None).map_err(|_| e)?;
}
State::Top
}
};
if arg_consumed {
break;
}
}
}
// If we ran out of arguments while parsing the last parameter, which may be either a
// value parameter or a flag, try to parse it as a flag. This will produce "missing value"
// error if the parameter is in fact a value parameter, which is the desired outcome.
match s {
State::Value { name } => f(&name, None),
_ => Ok(()),
}
}
/// Parses the given `args` against the list of know arguments `arg_list` and calls `f` with each
/// present argument and value if required.
///
/// This function guarantees that only valid long argument names from `arg_list` are sent to the
/// callback `f`. It is also guaranteed that if an arg requires a value (i.e.
/// `arg.value.is_some()`), the value will be `Some` in the callbacks arguments. If the callback
/// returns `Err`, this function will end parsing and return that `Err`.
///
/// See the [module level](index.html) example for a usage example.
pub fn set_arguments<I, R, F>(args: I, arg_list: &[Argument], mut f: F) -> Result<()>
where
I: Iterator<Item = R>,
R: AsRef<str>,
F: FnMut(&str, Option<&str>) -> Result<()>,
{
parse_arguments(args, |name, value| {
let mut matches = None;
for arg in arg_list {
if let Some(short) = arg.short {
if name.len() == 1 && name.starts_with(short) {
if value.is_some() != arg.value.is_some() {
return Err(Error::ExpectedValue(short.to_string()));
}
matches = Some(arg.long);
}
}
if matches.is_none() && arg.long == name {
if value.is_none() && arg.value_mode == ArgumentValueMode::Required {
return Err(Error::ExpectedValue(arg.long.to_owned()));
}
if value.is_some() && arg.value_mode == ArgumentValueMode::Disallowed {
return Err(Error::UnexpectedValue(arg.long.to_owned()));
}
matches = Some(arg.long);
}
}
match matches {
Some(long) => f(long, value),
None => Err(Error::UnknownArgument(name.to_owned())),
}
})
}
/// Prints command line usage information to stdout.
///
/// Usage information is printed according to the help fields in `args` with a leading usage line.
/// The usage line is of the format "`program_name` \[ARGUMENTS\] `required_arg`".
pub fn print_help(program_name: &str, required_arg: &str, args: &[Argument]) {
println!(
"Usage: {} {}{}\n",
program_name,
if args.is_empty() { "" } else { "[ARGUMENTS] " },
required_arg
);
if args.is_empty() {
return;
}
println!("Argument{}:", if args.len() > 1 { "s" } else { "" });
for arg in args {
match arg.short {
Some(s) => print!(" -{}, ", s),
None => print!(" "),
}
if arg.long.is_empty() {
print!(" ");
} else {
print!("--");
}
print!("{:<12}", arg.long);
if let Some(v) = arg.value {
if arg.long.is_empty() {
print!(" ");
} else {
print!("=");
}
print!("{:<10}", v);
} else {
print!("{:<11}", "");
}
println!("{}", arg.help);
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn request_help() {
let arguments = [Argument::short_flag('h', "help", "Print help message.")];
let match_res = set_arguments(["-h"].iter(), &arguments[..], |name, _| {
match name {
"help" => return Err(Error::PrintHelp),
_ => unreachable!(),
};
});
match match_res {
Err(Error::PrintHelp) => {}
_ => unreachable!(),
}
}
#[test]
fn mixed_args() {
let arguments = [
Argument::positional("FILES", "files to operate on"),
Argument::short_value('p', "program", "PROGRAM", "Program to apply to each file"),
Argument::short_value('c', "cpus", "N", "Number of CPUs to use. (default: 1)"),
Argument::flag("unmount", "Unmount the root"),
Argument::short_flag('h', "help", "Print help message."),
];
let mut unmount = false;
let match_res = set_arguments(
["--cpus", "3", "--program", "hello", "--unmount", "file"].iter(),
&arguments[..],
|name, value| {
match name {
"" => assert_eq!(value.unwrap(), "file"),
"program" => assert_eq!(value.unwrap(), "hello"),
"cpus" => {
let c: u32 = value.unwrap().parse().map_err(|_| Error::InvalidValue {
value: value.unwrap().to_owned(),
expected: String::from("this value for `cpus` needs to be integer"),
})?;
assert_eq!(c, 3);
}
"unmount" => unmount = true,
"help" => return Err(Error::PrintHelp),
_ => unreachable!(),
};
Ok(())
},
);
assert!(match_res.is_ok());
assert!(unmount);
}
#[test]
fn name_value_pair() {
let arguments = [Argument::short_value(
'c',
"cpus",
"N",
"Number of CPUs to use. (default: 1)",
)];
let match_res = set_arguments(
["-c", "5", "--cpus", "5", "-c5", "--cpus=5"].iter(),
&arguments[..],
|name, value| {
assert_eq!(name, "cpus");
assert_eq!(value, Some("5"));
Ok(())
},
);
assert!(match_res.is_ok());
let not_match_res = set_arguments(
["-c", "5", "--cpus"].iter(),
&arguments[..],
|name, value| {
assert_eq!(name, "cpus");
assert_eq!(value, Some("5"));
Ok(())
},
);
assert!(not_match_res.is_err());
}
#[test]
fn flag_or_value() {
let run_case = |args| -> Option<String> {
let arguments = [
Argument::positional("FILES", "files to operate on"),
Argument::flag_or_value("gpu", "[2D|3D]", "Enable or configure gpu"),
Argument::flag("foo", "Enable foo."),
Argument::value("bar", "stuff", "Configure bar."),
];
let mut gpu_value: Option<String> = None;
let match_res =
set_arguments(args, &arguments[..], |name: &str, value: Option<&str>| {
match name {
"" => assert_eq!(value.unwrap(), "file1"),
"foo" => assert!(value.is_none()),
"bar" => assert_eq!(value.unwrap(), "stuff"),
"gpu" => match value {
Some(v) => match v {
"2D" | "3D" => {
gpu_value = Some(v.to_string());
}
_ => {
return Err(Error::InvalidValue {
value: v.to_string(),
expected: String::from("2D or 3D"),
})
}
},
None => {
gpu_value = None;
}
},
_ => unreachable!(),
};
Ok(())
});
assert!(match_res.is_ok());
gpu_value
};
// Used as flag and followed by positional
assert_eq!(run_case(["--gpu", "file1"].iter()), None);
// Used as flag and followed by flag
assert_eq!(run_case(["--gpu", "--foo", "file1",].iter()), None);
// Used as flag and followed by value
assert_eq!(run_case(["--gpu", "--bar=stuff", "file1"].iter()), None);
// Used as value and followed by positional
assert_eq!(run_case(["--gpu=2D", "file1"].iter()).unwrap(), "2D");
// Used as value and followed by flag
assert_eq!(run_case(["--gpu=2D", "--foo"].iter()).unwrap(), "2D");
// Used as value and followed by value
assert_eq!(
run_case(["--gpu=2D", "--bar=stuff", "file1"].iter()).unwrap(),
"2D"
);
}
}
|