//! A version of the getopt library for use with wide character strings, rewritten in //! Rust. //! //! Note wgetopter expects an mutable array of const strings. It modifies the order of the //! strings, but not their contents. /* Declarations for getopt. Copyright (C) 1989, 90, 91, 92, 93, 94 Free Software Foundation, Inc. This file is part of the GNU C Library. Its master source is NOT part of the C library, however. The master source lives in /gd/gnu/lib. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with the GNU C Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ use crate::wchar::prelude::*; /// Special char used with [`Ordering::ReturnInOrder`]. pub const NON_OPTION_CHAR: char = '\x01'; /// Utility function to quickly return a reference to an empty wstr. fn empty_wstr() -> &'static wstr { Default::default() } /// Describes how to deal with options that follow non-option elements in `argv`. /// /// Note that any arguments passed after `--` will be treated as non-option elements, /// regardless of [Ordering]. #[derive(Debug, Clone, Copy, PartialEq, Eq, Default)] enum Ordering { /// Stop processing options when the first non-option element is encountered. /// Traditionally used by Unix systems. /// /// Indicated by using `+` as the first character in the optstring. RequireOrder, /// The elements in `argv` are reordered so that non-option arguments end up /// at the end. This allows options to be given in any order, even with programs /// that were not written to expect this. #[default] Permute, /// Return both options and non-options in the order. Non-option arguments are /// treated as if they were arguments to an option identified by [NON_OPTION_CHAR]. /// /// Indicated by using `-` as the first character in the optstring. ReturnInOrder, } /// Indicates whether an option takes an argument, and whether that argument /// is optional. #[derive(Debug, Clone, Copy, PartialEq, Eq)] pub enum ArgType { /// The option takes no arguments. NoArgument, /// The option takes a required argument. RequiredArgument, /// The option takes an optional argument. OptionalArgument, } /// Used to describe the properties of a long-named option. #[derive(Debug, Clone, Copy)] pub struct WOption<'a> { /// The long name of the option. pub name: &'a wstr, /// Whether the option takes an argument. pub arg_type: ArgType, /// If the option is found during scanning, this value will be returned to identify it. pub val: char, } /// Helper function to create a `WOption`. pub const fn wopt(name: &wstr, arg_type: ArgType, val: char) -> WOption<'_> { WOption { name, arg_type, val, } } /// Used internally by [Wgetopter::find_matching_long_opt]. See there for further /// details. #[derive(Default)] enum LongOptMatch<'a> { Exact(WOption<'a>, usize), NonExact(WOption<'a>, usize), Ambiguous, #[default] NoMatch, } /// Used internally by [Wgetopter::next_argv]. See there for further details. enum NextArgv { Finished, UnpermutedNonOption, FoundOption, } pub struct WGetopter<'opts, 'args, 'argarray> { /// List of arguments. Will not be resized, but can be modified. pub argv: &'argarray mut [&'args wstr], /// Stores the arg of an argument-taking option, including the pseudo-arguments /// used by [Ordering::ReturnInOrder]. pub woptarg: Option<&'args wstr>, /// Stores the optstring for short-named options. shortopts: &'opts wstr, /// Stores the data for long options. longopts: &'opts [WOption<'opts>], /// The remaining text of the current element, recorded so that we can pick up the /// scan from where we left off. pub remaining_text: &'args wstr, /// Index of the next element in `argv` to be scanned. If the value is `0`, then /// the next call will initialize. When scanning is finished, this marks the index /// of the first non-option element that should be parsed by the caller. // XXX 1003.2 says this must be 1 before any call. pub wopt_index: usize, /// Set when a (short) option is unrecognized. unrecognized_opt: char, /// How to deal with non-option elements following options. ordering: Ordering, /// Used when reordering elements. After scanning is finished, indicates the index /// of the first non-option skipped during parsing. pub first_nonopt: usize, /// Used when reordering elements. After scanning is finished, indicates the index /// after the final non-option skipped during parsing. pub last_nonopt: usize, /// Return `:` if an arg is missing. return_colon: bool, /// Prevents redundant initialization. initialized: bool, } impl<'opts, 'args, 'argarray> WGetopter<'opts, 'args, 'argarray> { pub fn new( shortopts: &'opts wstr, longopts: &'opts [WOption], argv: &'argarray mut [&'args wstr], ) -> Self { Self { argv, woptarg: None, shortopts, longopts, remaining_text: Default::default(), wopt_index: 0, unrecognized_opt: '?', ordering: Ordering::Permute, first_nonopt: 0, last_nonopt: 0, return_colon: false, initialized: false, } } /// Try to get the next option. pub fn next_opt(&mut self) -> Option { assert!( self.wopt_index <= self.argv.len(), "wopt_index is out of range" ); let mut ignored = 0; self.wgetopt_inner(&mut ignored) } // Tries to get the next option, additionally returning the index of the long option // if found. pub fn next_opt_indexed(&mut self) -> Option<(char, Option)> { let mut longopt_index = usize::MAX; let option = self.wgetopt_inner(&mut longopt_index); if longopt_index != usize::MAX { option.map(|c| (c, Some(longopt_index))) } else { option.map(|c| (c, None)) } } /// Swaps two subsequences in `argv`, one which contains all non-options skipped /// during scanning (defined by the range `[first_nonopt, last_nonopt)`), and /// the other containing all options scanned after (defined by the range /// `[last_nonopt, wopt_index)`). /// /// Elements are then swapped between the list so that all options end up /// in the former list, and non-options in the latter. fn exchange(&mut self) { let mut left = self.first_nonopt; let middle = self.last_nonopt; let mut right = self.wopt_index; while right > middle && middle > left { if right - middle > middle - left { // The left segment is the short one. let len = middle - left; // Swap it with the top part of the right segment. for i in 0..len { self.argv.swap(left + i, right - len + i); } // Exclude the moved elements from further swapping. right -= len; } else { // The right segment is the short one. let len = right - middle; // Swap it with the bottom part of the left segment. for i in 0..len { self.argv.swap(left + i, middle + i); } // Exclude the moved elements from further swapping. left += len; } } // Update the indices to indicate the new positions of the non-option // arguments. self.first_nonopt += self.wopt_index - self.last_nonopt; self.last_nonopt = self.wopt_index; } /// Initialize the internal data when the first call is made. fn initialize(&mut self) { // Skip the first element since it's just the program name. self.first_nonopt = 1; self.last_nonopt = 1; self.wopt_index = 1; self.remaining_text = empty_wstr(); let mut optstring = self.shortopts; // Set ordering and strip markers. if optstring.char_at(0) == '-' { self.ordering = Ordering::ReturnInOrder; optstring = &optstring[1..]; } else if optstring.char_at(0) == '+' { self.ordering = Ordering::RequireOrder; optstring = &optstring[1..]; } else { self.ordering = Ordering::Permute; } if optstring.char_at(0) == ':' { self.return_colon = true; optstring = &optstring[1..]; } self.shortopts = optstring; self.initialized = true; } /// Advance to the next element in `argv`. fn next_argv(&mut self) -> NextArgv { let argc = self.argv.len(); if self.ordering == Ordering::Permute { // Permute the args if we've found options following non-options. if self.last_nonopt != self.wopt_index { if self.first_nonopt == self.last_nonopt { self.first_nonopt = self.wopt_index; } else { self.exchange(); } } // Skip any further non-options, adjusting the relevant indices as // needed. while self.wopt_index < argc && (self.argv[self.wopt_index].char_at(0) != '-' || self.argv[self.wopt_index].len() == 1) { self.wopt_index += 1; } self.last_nonopt = self.wopt_index; } // The `--` element prevents any further scanning of options. We skip it like // a null option, then swap with non-options as if were an option, then skip // everything else like a non-option. if self.wopt_index != argc && self.argv[self.wopt_index] == "--" { self.wopt_index += 1; if self.first_nonopt == self.last_nonopt { self.first_nonopt = self.wopt_index; } else if self.last_nonopt != self.wopt_index { self.exchange(); } self.last_nonopt = argc; self.wopt_index = argc; } // If we're done with all the elements, stop scanning and back over any // non-options that were skipped and permuted. if self.wopt_index == argc { // Set `wopt_index` to point at the skipped non-options so that the // caller knows where to begin. if self.first_nonopt != self.last_nonopt { self.wopt_index = self.first_nonopt; } return NextArgv::Finished; } // If we find a non-option and don't permute it, either stop the scan or signal // it to the caller and pass it by. if self.argv[self.wopt_index].char_at(0) != '-' || self.argv[self.wopt_index].len() == 1 { if self.ordering == Ordering::RequireOrder { return NextArgv::Finished; } self.woptarg = Some(self.argv[self.wopt_index]); self.wopt_index += 1; return NextArgv::UnpermutedNonOption; } // We've found an option, so we need to skip the initial punctuation. let skip = if !self.longopts.is_empty() && self.argv[self.wopt_index].char_at(1) == '-' { 2 } else { 1 }; self.remaining_text = self.argv[self.wopt_index][skip..].into(); NextArgv::FoundOption } /// Check for a matching short-named option. fn handle_short_opt(&mut self) -> char { // Look at and handle the next short-named option let mut c = self.remaining_text.char_at(0); self.remaining_text = &self.remaining_text[1..]; let temp = self .shortopts .chars() .position(|sc| sc == c) .map_or(L!(""), |pos| &self.shortopts[pos..]); // Increment `wopt_index' when we run out of text. if self.remaining_text.is_empty() { self.wopt_index += 1; } if temp.is_empty() || c == ':' { self.unrecognized_opt = c; if !self.remaining_text.is_empty() { self.wopt_index += 1; } return '?'; } if temp.char_at(1) != ':' { return c; } if temp.char_at(2) == ':' { // This option accepts an optional argument. if !self.remaining_text.is_empty() { // Consume the remaining text. self.woptarg = Some(self.remaining_text); self.wopt_index += 1; } else { self.woptarg = None; } } else { // This option requires an argument. if !self.remaining_text.is_empty() { // Consume the remaining text. self.woptarg = Some(self.remaining_text); self.wopt_index += 1; } else if self.wopt_index == self.argv.len() { // If there's nothing in `remaining_text` and there's // no following element to consume, then the option // has no argument. self.unrecognized_opt = c; c = if self.return_colon { ':' } else { '?' }; } else { // Consume the next element. self.woptarg = Some(self.argv[self.wopt_index]); self.wopt_index += 1; } } self.remaining_text = empty_wstr(); c } fn update_long_opt( &mut self, opt_found: &WOption, name_end: usize, longopt_index: &mut usize, option_index: usize, ) -> char { self.wopt_index += 1; assert!(matches!(self.remaining_text.char_at(name_end), '\0' | '=')); if self.remaining_text.char_at(name_end) == '=' { if opt_found.arg_type == ArgType::NoArgument { self.remaining_text = empty_wstr(); return '?'; } else { self.woptarg = Some(self.remaining_text[(name_end + 1)..].into()); } } else if opt_found.arg_type == ArgType::RequiredArgument { if self.wopt_index < self.argv.len() { self.woptarg = Some(self.argv[self.wopt_index]); self.wopt_index += 1; } else { self.remaining_text = empty_wstr(); return if self.return_colon { ':' } else { '?' }; } } self.remaining_text = empty_wstr(); *longopt_index = option_index; opt_found.val } /// Find a matching long-named option. fn find_matching_long_opt(&self, name_end: usize) -> LongOptMatch<'opts> { let mut opt = None; let mut index = 0; let mut exact = false; let mut ambiguous = false; // Test all long options for either exact match or abbreviated matches. for (i, potential_match) in self.longopts.iter().enumerate() { // Check if current option is prefix of long opt if potential_match .name .starts_with(&self.remaining_text[..name_end]) { if name_end == potential_match.name.len() { // The option matches the text exactly, so we're finished. opt = Some(*potential_match); index = i; exact = true; break; } else if opt.is_none() { // The option begins with the matching text, but is not // exactly equal. opt = Some(*potential_match); index = i; } else { // There are multiple options that match the text non-exactly. ambiguous = true; } } } opt.map_or(LongOptMatch::NoMatch, |opt| { if exact { LongOptMatch::Exact(opt, index) } else if ambiguous { LongOptMatch::Ambiguous } else { LongOptMatch::NonExact(opt, index) } }) } /// Check for a matching long-named option. fn handle_long_opt(&mut self, longopt_index: &mut usize) -> Option { let name_end = if let Some(index) = self.remaining_text.find(['=']) { index } else { self.remaining_text.len() }; match self.find_matching_long_opt(name_end) { LongOptMatch::Exact(opt, index) | LongOptMatch::NonExact(opt, index) => { return Some(self.update_long_opt(&opt, name_end, longopt_index, index)); } LongOptMatch::Ambiguous => { self.remaining_text = empty_wstr(); self.wopt_index += 1; return Some('?'); } LongOptMatch::NoMatch => {} } // If we can't find a long option, try to interpret it as a short option. // If it isn't a short option either, return an error. if self.argv[self.wopt_index].char_at(1) == '-' || !self .shortopts .as_char_slice() .contains(&self.remaining_text.char_at(0)) { self.remaining_text = empty_wstr(); self.wopt_index += 1; return Some('?'); } None } /// Goes through `argv` to try and find options. /// /// Any element that begins with `-` or `--` and is not just `-` or `--` is an option /// element. The characters of this element (aside from the initial `-` or `--`) are /// option characters. Repeated calls return each option character successively. /// /// Options that begin with `--` are long-named. Long-named options can be abbreviated /// so long as the abbreviation is unique or is an exact match for some defined option. /// /// Arguments to options follow their option name, optionally separated by an `=`. /// /// `longopt_index` contains the index of the most recent long-named option /// found by the most recent call. Returns the next short-named option if /// found. fn wgetopt_inner(&mut self, longopt_index: &mut usize) -> Option { if !self.initialized { self.initialize(); } self.woptarg = None; if self.remaining_text.is_empty() { match self.next_argv() { NextArgv::UnpermutedNonOption => return Some(NON_OPTION_CHAR), NextArgv::Finished => return None, NextArgv::FoundOption => (), } } // We set things up so that `-f` is parsed as a short-named option if there // is a valid option to match it to, otherwise we parse it as a long-named // option. We also make sure that `-fu` is *not* parsed as `-f` with // an arg `u`. if !self.longopts.is_empty() && self.wopt_index < self.argv.len() { let arg = self.argv[self.wopt_index]; let try_long = // matches options like `--foo` arg.char_at(0) == '-' && arg.char_at(1) == '-' // matches options like `-f` if `f` is not a valid shortopt. || !self.shortopts.as_char_slice().contains(&arg.char_at(1)); if try_long { let retval = self.handle_long_opt(longopt_index); if retval.is_some() { return retval; } } } Some(self.handle_short_opt()) } }