use output::Colours; use output::{View, Mode, grid, details}; use output::grid_details::{self, RowThreshold}; use output::table::{TimeTypes, Environment, SizeFormat, Columns, Options as TableOptions}; use output::file_name::{Classify, FileStyle}; use output::time::TimeFormat; use options::{flags, Misfire, Vars}; use options::parser::MatchedFlags; use fs::feature::xattr; use info::filetype::FileExtensions; impl View { /// Determine which view to use and all of that view’s arguments. pub fn deduce(matches: &MatchedFlags, vars: &V) -> Result { let mode = Mode::deduce(matches, vars)?; let colours = Colours::deduce(matches)?; let style = FileStyle::deduce(matches)?; Ok(View { mode, colours, style }) } } impl Mode { /// Determine the mode from the command-line arguments. pub fn deduce(matches: &MatchedFlags, vars: &V) -> Result { use options::misfire::Misfire::*; let long = || { if matches.has(&flags::ACROSS)? && !matches.has(&flags::GRID)? { Err(Useless(&flags::ACROSS, true, &flags::LONG)) } else if matches.has(&flags::ONE_LINE)? { Err(Useless(&flags::ONE_LINE, true, &flags::LONG)) } else { Ok(details::Options { table: Some(TableOptions::deduce(matches)?), header: matches.has(&flags::HEADER)?, xattr: xattr::ENABLED && matches.has(&flags::EXTENDED)?, }) } }; let other_options_scan = || { if let Some(width) = TerminalWidth::deduce(vars)?.width() { if matches.has(&flags::ONE_LINE)? { if matches.has(&flags::ACROSS)? { Err(Useless(&flags::ACROSS, true, &flags::ONE_LINE)) } else { Ok(Mode::Lines) } } else if matches.has(&flags::TREE)? { let details = details::Options { table: None, header: false, xattr: xattr::ENABLED && matches.has(&flags::EXTENDED)?, }; Ok(Mode::Details(details)) } else { let grid = grid::Options { across: matches.has(&flags::ACROSS)?, console_width: width, }; Ok(Mode::Grid(grid)) } } else { // If the terminal width couldn’t be matched for some reason, such // as the program’s stdout being connected to a file, then // fallback to the lines view. if matches.has(&flags::TREE)? { let details = details::Options { table: None, header: false, xattr: xattr::ENABLED && matches.has(&flags::EXTENDED)?, }; Ok(Mode::Details(details)) } else { Ok(Mode::Lines) } } }; if matches.has(&flags::LONG)? { let details = long()?; if matches.has(&flags::GRID)? { let other_options_mode = other_options_scan()?; if let Mode::Grid(grid) = other_options_mode { let row_threshold = RowThreshold::deduce(vars)?; return Ok(Mode::GridDetails(grid_details::Options { grid, details, row_threshold })); } else { return Ok(other_options_mode); } } else { return Ok(Mode::Details(details)); } } // If --long hasn’t been passed, then check if we need to warn the // user about flags that won’t have any effect. if matches.is_strict() { for option in &[ &flags::BINARY, &flags::BYTES, &flags::INODE, &flags::LINKS, &flags::HEADER, &flags::BLOCKS, &flags::TIME, &flags::GROUP ] { if matches.has(option)? { return Err(Useless(*option, false, &flags::LONG)); } } if cfg!(feature="git") && matches.has(&flags::GIT)? { return Err(Useless(&flags::GIT, false, &flags::LONG)); } else if matches.has(&flags::LEVEL)? && !matches.has(&flags::RECURSE)? && !matches.has(&flags::TREE)? { // TODO: I'm not sure if the code even gets this far. // There is an identical check in dir_action return Err(Useless2(&flags::LEVEL, &flags::RECURSE, &flags::TREE)); } } other_options_scan() } } /// The width of the terminal requested by the user. #[derive(PartialEq, Debug)] enum TerminalWidth { /// The user requested this specific number of columns. Set(usize), /// The terminal was found to have this number of columns. Terminal(usize), /// The user didn’t request any particular terminal width. Unset, } impl TerminalWidth { /// Determine a requested terminal width from the command-line arguments. /// /// Returns an error if a requested width doesn’t parse to an integer. fn deduce(vars: &V) -> Result { if let Some(columns) = vars.get("COLUMNS").and_then(|s| s.into_string().ok()) { match columns.parse() { Ok(width) => Ok(TerminalWidth::Set(width)), Err(e) => Err(Misfire::FailedParse(e)), } } else if let Some(width) = *TERM_WIDTH { Ok(TerminalWidth::Terminal(width)) } else { Ok(TerminalWidth::Unset) } } fn width(&self) -> Option { match *self { TerminalWidth::Set(width) | TerminalWidth::Terminal(width) => Some(width), TerminalWidth::Unset => None, } } } impl RowThreshold { /// Determine whether to use a row threshold based on the given /// environment variables. fn deduce(vars: &V) -> Result { if let Some(columns) = vars.get("EXA_GRID_ROWS").and_then(|s| s.into_string().ok()) { match columns.parse() { Ok(rows) => Ok(RowThreshold::MinimumRows(rows)), Err(e) => Err(Misfire::FailedParse(e)), } } else { Ok(RowThreshold::AlwaysGrid) } } } impl TableOptions { fn deduce(matches: &MatchedFlags) -> Result { let env = Environment::load_all(); let time_format = TimeFormat::deduce(matches)?; let size_format = SizeFormat::deduce(matches)?; let extra_columns = Columns::deduce(matches)?; Ok(TableOptions { env, time_format, size_format, extra_columns }) } } impl Columns { fn deduce(matches: &MatchedFlags) -> Result { let time_types = TimeTypes::deduce(matches)?; let git = cfg!(feature="git") && matches.has(&flags::GIT)?; let blocks = matches.has(&flags::BLOCKS)?; let group = matches.has(&flags::GROUP)?; let inode = matches.has(&flags::INODE)?; let links = matches.has(&flags::LINKS)?; Ok(Columns { time_types, git, blocks, group, inode, links }) } } impl SizeFormat { /// Determine which file size to use in the file size column based on /// the user’s options. /// /// The default mode is to use the decimal prefixes, as they are the /// most commonly-understood, and don’t involve trying to parse large /// strings of digits in your head. Changing the format to anything else /// involves the `--binary` or `--bytes` flags, and these conflict with /// each other. fn deduce(matches: &MatchedFlags) -> Result { let flag = matches.has_where(|f| f.matches(&flags::BINARY) || f.matches(&flags::BYTES))?; Ok(match flag { Some(f) if f.matches(&flags::BINARY) => SizeFormat::BinaryBytes, Some(f) if f.matches(&flags::BYTES) => SizeFormat::JustBytes, _ => SizeFormat::DecimalBytes, }) } } const TIME_STYLES: &[&str] = &["default", "long-iso", "full-iso", "iso"]; impl TimeFormat { /// Determine how time should be formatted in timestamp columns. fn deduce(matches: &MatchedFlags) -> Result { pub use output::time::{DefaultFormat, ISOFormat}; let word = match matches.get(&flags::TIME_STYLE)? { Some(w) => w, None => return Ok(TimeFormat::DefaultFormat(DefaultFormat::new())), }; if word == "default" { Ok(TimeFormat::DefaultFormat(DefaultFormat::new())) } else if word == "iso" { Ok(TimeFormat::ISOFormat(ISOFormat::new())) } else if word == "long-iso" { Ok(TimeFormat::LongISO) } else if word == "full-iso" { Ok(TimeFormat::FullISO) } else { Err(Misfire::bad_argument(&flags::TIME_STYLE, word, TIME_STYLES)) } } } static TIMES: &[&str] = &["modified", "accessed", "created"]; impl TimeTypes { /// Determine which of a file’s time fields should be displayed for it /// based on the user’s options. /// /// There are two separate ways to pick which fields to show: with a /// flag (such as `--modified`) or with a parameter (such as /// `--time=modified`). An error is signaled if both ways are used. /// /// It’s valid to show more than one column by passing in more than one /// option, but passing *no* options means that the user just wants to /// see the default set. fn deduce(matches: &MatchedFlags) -> Result { let possible_word = matches.get(&flags::TIME)?; let modified = matches.has(&flags::MODIFIED)?; let created = matches.has(&flags::CREATED)?; let accessed = matches.has(&flags::ACCESSED)?; if let Some(word) = possible_word { if modified { Err(Misfire::Useless(&flags::MODIFIED, true, &flags::TIME)) } else if created { Err(Misfire::Useless(&flags::CREATED, true, &flags::TIME)) } else if accessed { Err(Misfire::Useless(&flags::ACCESSED, true, &flags::TIME)) } else if word == "mod" || word == "modified" { Ok(TimeTypes { accessed: false, modified: true, created: false }) } else if word == "acc" || word == "accessed" { Ok(TimeTypes { accessed: true, modified: false, created: false }) } else if word == "cr" || word == "created" { Ok(TimeTypes { accessed: false, modified: false, created: true }) } else { Err(Misfire::bad_argument(&flags::TIME, word, TIMES)) } } else if modified || created || accessed { Ok(TimeTypes { accessed, modified, created }) } else { Ok(TimeTypes::default()) } } } /// Under what circumstances we should display coloured, rather than plain, /// output to the terminal. /// /// By default, we want to display the colours when stdout can display them. /// Turning them on when output is going to, say, a pipe, would make programs /// such as `grep` or `more` not work properly. So the `Automatic` mode does /// this check and only displays colours when they can be truly appreciated. #[derive(PartialEq, Debug)] enum TerminalColours { /// Display them even when output isn’t going to a terminal. Always, /// Display them when output is going to a terminal, but not otherwise. Automatic, /// Never display them, even when output is going to a terminal. Never, } impl Default for TerminalColours { fn default() -> TerminalColours { TerminalColours::Automatic } } const COLOURS: &[&str] = &["always", "auto", "never"]; impl TerminalColours { /// Determine which terminal colour conditions to use. fn deduce(matches: &MatchedFlags) -> Result { let word = match matches.get_where(|f| f.matches(&flags::COLOR) || f.matches(&flags::COLOUR))? { Some(w) => w, None => return Ok(TerminalColours::default()), }; if word == "always" { Ok(TerminalColours::Always) } else if word == "auto" || word == "automatic" { Ok(TerminalColours::Automatic) } else if word == "never" { Ok(TerminalColours::Never) } else { Err(Misfire::bad_argument(&flags::COLOR, word, COLOURS)) } } } impl Colours { fn deduce(matches: &MatchedFlags) -> Result { use self::TerminalColours::*; let tc = TerminalColours::deduce(matches)?; if tc == Always || (tc == Automatic && TERM_WIDTH.is_some()) { let scale = matches.has(&flags::COLOR_SCALE)? || matches.has(&flags::COLOUR_SCALE)?; Ok(Colours::colourful(scale)) } else { Ok(Colours::plain()) } } } impl FileStyle { fn deduce(matches: &MatchedFlags) -> Result { let classify = Classify::deduce(matches)?; let exts = FileExtensions; Ok(FileStyle { classify, exts }) } } impl Classify { fn deduce(matches: &MatchedFlags) -> Result { let flagged = matches.has(&flags::CLASSIFY)?; Ok(if flagged { Classify::AddFileIndicators } else { Classify::JustFilenames }) } } // Gets, then caches, the width of the terminal that exa is running in. // This gets used multiple times above, with no real guarantee of order, // so it’s easier to just cache it the first time it runs. lazy_static! { static ref TERM_WIDTH: Option = { // All of stdin, stdout, and stderr could not be connected to a // terminal, but we’re only interested in stdout because it’s // where the output goes. use term_size::dimensions_stdout; dimensions_stdout().map(|t| t.0) }; } #[cfg(test)] mod test { use super::*; use std::ffi::OsString; use options::flags; use options::parser::{Flag, Arg}; use options::test::parse_for_test; use options::test::Strictnesses::*; pub fn os(input: &'static str) -> OsString { let mut os = OsString::new(); os.push(input); os } static TEST_ARGS: &[&Arg] = &[ &flags::BINARY, &flags::BYTES, &flags::TIME_STYLE, &flags::TIME, &flags::MODIFIED, &flags::CREATED, &flags::ACCESSED, &flags::COLOR, &flags::COLOUR, &flags::HEADER, &flags::GROUP, &flags::INODE, &flags::GIT, &flags::LINKS, &flags::BLOCKS, &flags::LONG, &flags::LEVEL, &flags::GRID, &flags::ACROSS, &flags::ONE_LINE ]; macro_rules! test { ($name:ident: $type:ident <- $inputs:expr; $stricts:expr => $result:expr) => { /// Macro that writes a test. /// If testing both strictnesses, they’ll both be done in the same function. #[test] fn $name() { for result in parse_for_test($inputs.as_ref(), TEST_ARGS, $stricts, |mf| $type::deduce(mf)) { assert_eq!(result, $result); } } }; ($name:ident: $type:ident <- $inputs:expr; $stricts:expr => err $result:expr) => { /// Special macro for testing Err results. /// This is needed because sometimes the Ok type doesn’t implement PartialEq. #[test] fn $name() { for result in parse_for_test($inputs.as_ref(), TEST_ARGS, $stricts, |mf| $type::deduce(mf)) { assert_eq!(result.unwrap_err(), $result); } } }; ($name:ident: $type:ident <- $inputs:expr; $stricts:expr => like $pat:pat) => { /// More general macro for testing against a pattern. /// Instead of using PartialEq, this just tests if it matches a pat. #[test] fn $name() { for result in parse_for_test($inputs.as_ref(), TEST_ARGS, $stricts, |mf| $type::deduce(mf)) { println!("Testing {:?}", result); match result { $pat => assert!(true), _ => assert!(false), } } } }; ($name:ident: $type:ident <- $inputs:expr, $vars:expr; $stricts:expr => err $result:expr) => { /// Like above, but with $vars. #[test] fn $name() { for result in parse_for_test($inputs.as_ref(), TEST_ARGS, $stricts, |mf| $type::deduce(mf, &$vars)) { assert_eq!(result.unwrap_err(), $result); } } }; ($name:ident: $type:ident <- $inputs:expr, $vars:expr; $stricts:expr => like $pat:pat) => { /// Like further above, but with $vars. #[test] fn $name() { for result in parse_for_test($inputs.as_ref(), TEST_ARGS, $stricts, |mf| $type::deduce(mf, &$vars)) { println!("Testing {:?}", result); match result { $pat => assert!(true), _ => assert!(false), } } } }; } mod size_formats { use super::*; // Default behaviour test!(empty: SizeFormat <- []; Both => Ok(SizeFormat::DecimalBytes)); // Individual flags test!(binary: SizeFormat <- ["--binary"]; Both => Ok(SizeFormat::BinaryBytes)); test!(bytes: SizeFormat <- ["--bytes"]; Both => Ok(SizeFormat::JustBytes)); // Overriding test!(both_1: SizeFormat <- ["--binary", "--binary"]; Last => Ok(SizeFormat::BinaryBytes)); test!(both_2: SizeFormat <- ["--bytes", "--binary"]; Last => Ok(SizeFormat::BinaryBytes)); test!(both_3: SizeFormat <- ["--binary", "--bytes"]; Last => Ok(SizeFormat::JustBytes)); test!(both_4: SizeFormat <- ["--bytes", "--bytes"]; Last => Ok(SizeFormat::JustBytes)); test!(both_5: SizeFormat <- ["--binary", "--binary"]; Complain => err Misfire::Duplicate(Flag::Long("binary"), Flag::Long("binary"))); test!(both_6: SizeFormat <- ["--bytes", "--binary"]; Complain => err Misfire::Duplicate(Flag::Long("bytes"), Flag::Long("binary"))); test!(both_7: SizeFormat <- ["--binary", "--bytes"]; Complain => err Misfire::Duplicate(Flag::Long("binary"), Flag::Long("bytes"))); test!(both_8: SizeFormat <- ["--bytes", "--bytes"]; Complain => err Misfire::Duplicate(Flag::Long("bytes"), Flag::Long("bytes"))); } mod time_formats { use super::*; use std::ffi::OsStr; // These tests use pattern matching because TimeFormat doesn’t // implement PartialEq. // Default behaviour test!(empty: TimeFormat <- []; Both => like Ok(TimeFormat::DefaultFormat(_))); // Individual settings test!(default: TimeFormat <- ["--time-style=default"]; Both => like Ok(TimeFormat::DefaultFormat(_))); test!(iso: TimeFormat <- ["--time-style", "iso"]; Both => like Ok(TimeFormat::ISOFormat(_))); test!(long_iso: TimeFormat <- ["--time-style=long-iso"]; Both => like Ok(TimeFormat::LongISO)); test!(full_iso: TimeFormat <- ["--time-style", "full-iso"]; Both => like Ok(TimeFormat::FullISO)); // Overriding test!(actually: TimeFormat <- ["--time-style=default", "--time-style", "iso"]; Last => like Ok(TimeFormat::ISOFormat(_))); test!(actual_2: TimeFormat <- ["--time-style=default", "--time-style", "iso"]; Complain => err Misfire::Duplicate(Flag::Long("time-style"), Flag::Long("time-style"))); test!(nevermind: TimeFormat <- ["--time-style", "long-iso", "--time-style=full-iso"]; Last => like Ok(TimeFormat::FullISO)); test!(nevermore: TimeFormat <- ["--time-style", "long-iso", "--time-style=full-iso"]; Complain => err Misfire::Duplicate(Flag::Long("time-style"), Flag::Long("time-style"))); // Errors test!(daily: TimeFormat <- ["--time-style=24-hour"]; Both => err Misfire::bad_argument(&flags::TIME_STYLE, OsStr::new("24-hour"), TIME_STYLES)); } mod time_types { use super::*; // Default behaviour test!(empty: TimeTypes <- []; Both => Ok(TimeTypes::default())); // Modified test!(modified: TimeTypes <- ["--modified"]; Both => Ok(TimeTypes { accessed: false, modified: true, created: false })); test!(m: TimeTypes <- ["-m"]; Both => Ok(TimeTypes { accessed: false, modified: true, created: false })); test!(time_mod: TimeTypes <- ["--time=modified"]; Both => Ok(TimeTypes { accessed: false, modified: true, created: false })); test!(time_m: TimeTypes <- ["-tmod"]; Both => Ok(TimeTypes { accessed: false, modified: true, created: false })); // Accessed test!(acc: TimeTypes <- ["--accessed"]; Both => Ok(TimeTypes { accessed: true, modified: false, created: false })); test!(a: TimeTypes <- ["-u"]; Both => Ok(TimeTypes { accessed: true, modified: false, created: false })); test!(time_acc: TimeTypes <- ["--time", "accessed"]; Both => Ok(TimeTypes { accessed: true, modified: false, created: false })); test!(time_a: TimeTypes <- ["-t", "acc"]; Both => Ok(TimeTypes { accessed: true, modified: false, created: false })); // Created test!(cr: TimeTypes <- ["--created"]; Both => Ok(TimeTypes { accessed: false, modified: false, created: true })); test!(c: TimeTypes <- ["-U"]; Both => Ok(TimeTypes { accessed: false, modified: false, created: true })); test!(time_cr: TimeTypes <- ["--time=created"]; Both => Ok(TimeTypes { accessed: false, modified: false, created: true })); test!(time_c: TimeTypes <- ["-tcr"]; Both => Ok(TimeTypes { accessed: false, modified: false, created: true })); // Multiples test!(time_uu: TimeTypes <- ["-uU"]; Both => Ok(TimeTypes { accessed: true, modified: false, created: true })); // Errors test!(time_tea: TimeTypes <- ["--time=tea"]; Both => err Misfire::bad_argument(&flags::TIME, &os("tea"), super::TIMES)); test!(time_ea: TimeTypes <- ["-tea"]; Both => err Misfire::bad_argument(&flags::TIME, &os("ea"), super::TIMES)); // Overriding test!(overridden: TimeTypes <- ["-tcr", "-tmod"]; Last => Ok(TimeTypes { accessed: false, modified: true, created: false })); test!(overridden_2: TimeTypes <- ["-tcr", "-tmod"]; Complain => err Misfire::Duplicate(Flag::Short(b't'), Flag::Short(b't'))); } mod colourses { use super::*; // Default test!(empty: TerminalColours <- []; Both => Ok(TerminalColours::default())); // --colour test!(u_always: TerminalColours <- ["--colour=always"]; Both => Ok(TerminalColours::Always)); test!(u_auto: TerminalColours <- ["--colour", "auto"]; Both => Ok(TerminalColours::Automatic)); test!(u_never: TerminalColours <- ["--colour=never"]; Both => Ok(TerminalColours::Never)); // --color test!(no_u_always: TerminalColours <- ["--color", "always"]; Both => Ok(TerminalColours::Always)); test!(no_u_auto: TerminalColours <- ["--color=auto"]; Both => Ok(TerminalColours::Automatic)); test!(no_u_never: TerminalColours <- ["--color", "never"]; Both => Ok(TerminalColours::Never)); // Errors test!(no_u_error: TerminalColours <- ["--color=upstream"]; Both => err Misfire::bad_argument(&flags::COLOR, &os("upstream"), super::COLOURS)); // the error is for --color test!(u_error: TerminalColours <- ["--colour=lovers"]; Both => err Misfire::bad_argument(&flags::COLOR, &os("lovers"), super::COLOURS)); // and so is this one! // Overriding test!(overridden_1: TerminalColours <- ["--colour=auto", "--colour=never"]; Last => Ok(TerminalColours::Never)); test!(overridden_2: TerminalColours <- ["--color=auto", "--colour=never"]; Last => Ok(TerminalColours::Never)); test!(overridden_3: TerminalColours <- ["--colour=auto", "--color=never"]; Last => Ok(TerminalColours::Never)); test!(overridden_4: TerminalColours <- ["--color=auto", "--color=never"]; Last => Ok(TerminalColours::Never)); test!(overridden_5: TerminalColours <- ["--colour=auto", "--colour=never"]; Complain => err Misfire::Duplicate(Flag::Long("colour"), Flag::Long("colour"))); test!(overridden_6: TerminalColours <- ["--color=auto", "--colour=never"]; Complain => err Misfire::Duplicate(Flag::Long("color"), Flag::Long("colour"))); test!(overridden_7: TerminalColours <- ["--colour=auto", "--color=never"]; Complain => err Misfire::Duplicate(Flag::Long("colour"), Flag::Long("color"))); test!(overridden_8: TerminalColours <- ["--color=auto", "--color=never"]; Complain => err Misfire::Duplicate(Flag::Long("color"), Flag::Long("color"))); } mod views { use super::*; use output::grid::Options as GridOptions; // Default test!(empty: Mode <- [], None; Both => like Ok(Mode::Grid(_))); // Grid views test!(original_g: Mode <- ["-G"], None; Both => like Ok(Mode::Grid(GridOptions { across: false, console_width: _ }))); test!(grid: Mode <- ["--grid"], None; Both => like Ok(Mode::Grid(GridOptions { across: false, console_width: _ }))); test!(across: Mode <- ["--across"], None; Both => like Ok(Mode::Grid(GridOptions { across: true, console_width: _ }))); test!(gracross: Mode <- ["-xG"], None; Both => like Ok(Mode::Grid(GridOptions { across: true, console_width: _ }))); // Lines views test!(lines: Mode <- ["--oneline"], None; Both => like Ok(Mode::Lines)); test!(prima: Mode <- ["-1"], None; Both => like Ok(Mode::Lines)); // Details views test!(long: Mode <- ["--long"], None; Both => like Ok(Mode::Details(_))); test!(ell: Mode <- ["-l"], None; Both => like Ok(Mode::Details(_))); // Grid-details views test!(lid: Mode <- ["--long", "--grid"], None; Both => like Ok(Mode::GridDetails(_))); test!(leg: Mode <- ["-lG"], None; Both => like Ok(Mode::GridDetails(_))); // Options that do nothing without --long test!(just_header: Mode <- ["--header"], None; Last => like Ok(Mode::Grid(_))); test!(just_group: Mode <- ["--group"], None; Last => like Ok(Mode::Grid(_))); test!(just_inode: Mode <- ["--inode"], None; Last => like Ok(Mode::Grid(_))); test!(just_links: Mode <- ["--links"], None; Last => like Ok(Mode::Grid(_))); test!(just_blocks: Mode <- ["--blocks"], None; Last => like Ok(Mode::Grid(_))); test!(just_binary: Mode <- ["--binary"], None; Last => like Ok(Mode::Grid(_))); test!(just_bytes: Mode <- ["--bytes"], None; Last => like Ok(Mode::Grid(_))); #[cfg(feature="git")] test!(just_git: Mode <- ["--git"], None; Last => like Ok(Mode::Grid(_))); test!(just_header_2: Mode <- ["--header"], None; Complain => err Misfire::Useless(&flags::HEADER, false, &flags::LONG)); test!(just_group_2: Mode <- ["--group"], None; Complain => err Misfire::Useless(&flags::GROUP, false, &flags::LONG)); test!(just_inode_2: Mode <- ["--inode"], None; Complain => err Misfire::Useless(&flags::INODE, false, &flags::LONG)); test!(just_links_2: Mode <- ["--links"], None; Complain => err Misfire::Useless(&flags::LINKS, false, &flags::LONG)); test!(just_blocks_2: Mode <- ["--blocks"], None; Complain => err Misfire::Useless(&flags::BLOCKS, false, &flags::LONG)); test!(just_binary_2: Mode <- ["--binary"], None; Complain => err Misfire::Useless(&flags::BINARY, false, &flags::LONG)); test!(just_bytes_2: Mode <- ["--bytes"], None; Complain => err Misfire::Useless(&flags::BYTES, false, &flags::LONG)); #[cfg(feature="git")] test!(just_git_2: Mode <- ["--git"], None; Complain => err Misfire::Useless(&flags::GIT, false, &flags::LONG)); } }