mirror of https://github.com/Llewellynvdm/exa.git
250 lines
9.0 KiB
Rust
250 lines
9.0 KiB
Rust
//! Parsing command-line strings into exa options.
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//!
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//! This module imports exa’s configuration types, such as `View` (the details
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//! of displaying multiple files) and `DirAction` (what to do when encountering
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//! a directory), and implements `deduce` methods on them so they can be
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//! configured using command-line options.
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//!
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//!
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//! ## Useless and overridden options
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//!
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//! Let’s say exa was invoked with just one argument: `exa --inode`. The
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//! `--inode` option is used in the details view, where it adds the inode
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//! column to the output. But because the details view is *only* activated with
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//! the `--long` argument, adding `--inode` without it would not have any
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//! effect.
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//!
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//! For a long time, exa’s philosophy was that the user should be warned
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//! whenever they could be mistaken like this. If you tell exa to display the
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//! inode, and it *doesn’t* display the inode, isn’t that more annoying than
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//! having it throw an error back at you?
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//!
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//! However, this doesn’t take into account *configuration*. Say a user wants
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//! to configure exa so that it lists inodes in the details view, but otherwise
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//! functions normally. A common way to do this for command-line programs is to
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//! define a shell alias that specifies the details they want to use every
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//! time. For the inode column, the alias would be:
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//!
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//! `alias exa="exa --inode"`
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//!
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//! Using this alias means that although the inode column will be shown in the
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//! details view, you’re now *only* allowed to use the details view, as any
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//! other view type will result in an error. Oops!
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//!
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//! Another example is when an option is specified twice, such as `exa
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//! --sort=Name --sort=size`. Did the user change their mind about sorting, and
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//! accidentally specify the option twice?
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//!
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//! Again, exa rejected this case, throwing an error back to the user instead
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//! of trying to guess how they want their output sorted. And again, this
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//! doesn’t take into account aliases being used to set defaults. A user who
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//! wants their files to be sorted case-insensitively may configure their shell
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//! with the following:
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//!
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//! `alias exa="exa --sort=Name"`
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//!
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//! Just like the earlier example, the user now can’t use any other sort order,
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//! because exa refuses to guess which one they meant. It’s *more* annoying to
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//! have to go back and edit the command than if there were no error.
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//!
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//! Fortunately, there’s a heuristic for telling which options came from an
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//! alias and which came from the actual command-line: aliased options are
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//! nearer the beginning of the options array, and command-line options are
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//! nearer the end. This means that after the options have been parsed, exa
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//! needs to traverse them *backwards* to find the last-most-specified one.
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//!
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//! For example, invoking exa with `exa --sort=size` when that alias is present
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//! would result in a full command-line of:
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//!
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//! `exa --sort=Name --sort=size`
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//!
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//! `--sort=size` should override `--sort=Name` because it’s closer to the end
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//! of the arguments array. In fact, because there’s no way to tell where the
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//! arguments came from — it’s just a heuristic — this will still work even
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//! if no aliases are being used!
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//!
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//! Finally, this isn’t just useful when options could override each other.
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//! Creating an alias `exal="exa --long --inode --header"` then invoking `exal
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//! --grid --long` shouldn’t complain about `--long` being given twice when
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//! it’s clear what the user wants.
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use std::ffi::{OsStr, OsString};
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use crate::fs::dir_action::DirAction;
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use crate::fs::filter::{FileFilter, GitIgnore};
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use crate::output::{View, Mode, details, grid_details};
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mod dir_action;
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mod filter;
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mod flags;
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mod style;
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mod view;
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mod help;
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use self::help::HelpString;
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mod version;
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use self::version::VersionString;
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mod misfire;
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pub use self::misfire::Misfire;
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pub mod vars;
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pub use self::vars::Vars;
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mod parser;
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use self::parser::MatchedFlags;
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/// These **options** represent a parsed, error-checked versions of the
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/// user’s command-line options.
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#[derive(Debug)]
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pub struct Options {
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/// The action to perform when encountering a directory rather than a
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/// regular file.
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pub dir_action: DirAction,
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/// How to sort and filter files before outputting them.
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pub filter: FileFilter,
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/// The type of output to use (lines, grid, or details).
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pub view: View,
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}
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impl Options {
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/// Parse the given iterator of command-line strings into an Options
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/// struct and a list of free filenames, using the environment variables
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/// for extra options.
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#[allow(unused_results)]
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pub fn parse<'args, I, V>(args: I, vars: &V) -> Result<(Self, Vec<&'args OsStr>), Misfire>
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where I: IntoIterator<Item = &'args OsString>,
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V: Vars
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{
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use crate::options::parser::{Matches, Strictness};
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let strictness = match vars.get(vars::EXA_STRICT) {
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None => Strictness::UseLastArguments,
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Some(ref t) if t.is_empty() => Strictness::UseLastArguments,
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_ => Strictness::ComplainAboutRedundantArguments,
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};
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let Matches { flags, frees } = match flags::ALL_ARGS.parse(args, strictness) {
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Ok(m) => m,
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Err(e) => return Err(Misfire::InvalidOptions(e)),
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};
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HelpString::deduce(&flags).map_err(Misfire::Help)?;
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VersionString::deduce(&flags).map_err(Misfire::Version)?;
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let options = Self::deduce(&flags, vars)?;
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Ok((options, frees))
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}
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/// Whether the View specified in this set of options includes a Git
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/// status column. It’s only worth trying to discover a repository if the
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/// results will end up being displayed.
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pub fn should_scan_for_git(&self) -> bool {
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if self.filter.git_ignore == GitIgnore::CheckAndIgnore {
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return true;
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}
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match self.view.mode {
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Mode::Details(details::Options { table: Some(ref table), .. }) |
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Mode::GridDetails(grid_details::Options { details: details::Options { table: Some(ref table), .. }, .. }) => table.columns.git,
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_ => false,
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}
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}
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/// Determines the complete set of options based on the given command-line
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/// arguments, after they’ve been parsed.
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fn deduce<V: Vars>(matches: &MatchedFlags, vars: &V) -> Result<Self, Misfire> {
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let dir_action = DirAction::deduce(matches)?;
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let filter = FileFilter::deduce(matches)?;
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let view = View::deduce(matches, vars)?;
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Ok(Self { dir_action, view, filter })
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}
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}
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#[cfg(test)]
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pub mod test {
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use super::{Options, Misfire, flags};
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use crate::options::parser::{Arg, MatchedFlags};
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use std::ffi::OsString;
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#[derive(PartialEq, Debug)]
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pub enum Strictnesses {
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Last,
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Complain,
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Both,
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}
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/// This function gets used by the other testing modules.
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/// It can run with one or both strictness values: if told to run with
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/// both, then both should resolve to the same result.
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///
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/// It returns a vector with one or two elements in.
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/// These elements can then be tested with assert_eq or what have you.
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pub fn parse_for_test<T, F>(inputs: &[&str], args: &'static [&'static Arg], strictnesses: Strictnesses, get: F) -> Vec<T>
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where F: Fn(&MatchedFlags) -> T
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{
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use self::Strictnesses::*;
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use crate::options::parser::{Args, Strictness};
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let bits = inputs.into_iter().map(|&o| os(o)).collect::<Vec<OsString>>();
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let mut result = Vec::new();
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if strictnesses == Last || strictnesses == Both {
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let results = Args(args).parse(bits.iter(), Strictness::UseLastArguments);
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result.push(get(&results.unwrap().flags));
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}
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if strictnesses == Complain || strictnesses == Both {
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let results = Args(args).parse(bits.iter(), Strictness::ComplainAboutRedundantArguments);
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result.push(get(&results.unwrap().flags));
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}
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result
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}
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/// Creates an `OSStr` (used in tests)
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#[cfg(test)]
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fn os(input: &str) -> OsString {
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let mut os = OsString::new();
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os.push(input);
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os
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}
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#[test]
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fn files() {
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let args = [ os("this file"), os("that file") ];
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let outs = Options::parse(&args, &None).unwrap().1;
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assert_eq!(outs, vec![ &os("this file"), &os("that file") ])
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}
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#[test]
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fn no_args() {
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let nothing: Vec<OsString> = Vec::new();
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let outs = Options::parse(¬hing, &None).unwrap().1;
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assert!(outs.is_empty()); // Listing the `.` directory is done in main.rs
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}
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#[test]
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fn long_across() {
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let args = [ os("--long"), os("--across") ];
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let opts = Options::parse(&args, &None);
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assert_eq!(opts.unwrap_err(), Misfire::Useless(&flags::ACROSS, true, &flags::LONG))
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}
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#[test]
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fn oneline_across() {
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let args = [ os("--oneline"), os("--across") ];
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let opts = Options::parse(&args, &None);
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assert_eq!(opts.unwrap_err(), Misfire::Useless(&flags::ACROSS, true, &flags::ONE_LINE))
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}
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}
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