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Diffstat (limited to 'src/libstd/old_path/windows.rs')
| -rw-r--r-- | src/libstd/old_path/windows.rs | 2329 |
1 files changed, 2329 insertions, 0 deletions
diff --git a/src/libstd/old_path/windows.rs b/src/libstd/old_path/windows.rs new file mode 100644 index 00000000000..2e25403220d --- /dev/null +++ b/src/libstd/old_path/windows.rs @@ -0,0 +1,2329 @@ +// Copyright 2013-2014 The Rust Project Developers. See the COPYRIGHT +// file at the top-level directory of this distribution and at +// http://rust-lang.org/COPYRIGHT. +// +// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. +// +// ignore-lexer-test FIXME #15883 + +//! Windows file path handling + +use self::PathPrefix::*; + +use ascii::AsciiExt; +use char::CharExt; +use clone::Clone; +use cmp::{Ordering, Eq, Ord, PartialEq, PartialOrd}; +use fmt; +use hash; +use old_io::Writer; +use iter::{AdditiveIterator, Extend}; +use iter::{Iterator, IteratorExt, Map, repeat}; +use mem; +use option::Option::{self, Some, None}; +use result::Result::{self, Ok, Err}; +use slice::{SliceExt, SliceConcatExt}; +use str::{SplitTerminator, FromStr, StrExt}; +use string::{String, ToString}; +use vec::Vec; + +use super::{contains_nul, BytesContainer, GenericPath, GenericPathUnsafe}; + +/// Iterator that yields successive components of a Path as &str +/// +/// Each component is yielded as Option<&str> for compatibility with PosixPath, but +/// every component in WindowsPath is guaranteed to be Some. +pub type StrComponents<'a> = + Map<SplitTerminator<'a, char>, fn(&'a str) -> Option<&'a str>>; + +/// Iterator that yields successive components of a Path as &[u8] +pub type Components<'a> = + Map<StrComponents<'a>, fn(Option<&str>) -> &[u8]>; + +/// Represents a Windows path +// Notes for Windows path impl: +// The MAX_PATH is 260, but 253 is the practical limit due to some API bugs +// See http://msdn.microsoft.com/en-us/library/windows/desktop/aa365247.aspx for good information +// about windows paths. +// That same page puts a bunch of restrictions on allowed characters in a path. +// `\foo.txt` means "relative to current drive", but will not be considered to be absolute here +// as `∃P | P.join("\foo.txt") != "\foo.txt"`. +// `C:` is interesting, that means "the current directory on drive C". +// Long absolute paths need to have \\?\ prefix (or, for UNC, \\?\UNC\). I think that can be +// ignored for now, though, and only added in a hypothetical .to_pwstr() function. +// However, if a path is parsed that has \\?\, this needs to be preserved as it disables the +// processing of "." and ".." components and / as a separator. +// Experimentally, \\?\foo is not the same thing as \foo. +// Also, \\foo is not valid either (certainly not equivalent to \foo). +// Similarly, C:\\Users is not equivalent to C:\Users, although C:\Users\\foo is equivalent +// to C:\Users\foo. In fact the command prompt treats C:\\foo\bar as UNC path. But it might be +// best to just ignore that and normalize it to C:\foo\bar. +// +// Based on all this, I think the right approach is to do the following: +// * Require valid utf-8 paths. Windows API may use WCHARs, but we don't, and utf-8 is convertible +// to UTF-16 anyway (though does Windows use UTF-16 or UCS-2? Not sure). +// * Parse the prefixes \\?\UNC\, \\?\, and \\.\ explicitly. +// * If \\?\UNC\, treat following two path components as server\share. Don't error for missing +// server\share. +// * If \\?\, parse disk from following component, if present. Don't error for missing disk. +// * If \\.\, treat rest of path as just regular components. I don't know how . and .. are handled +// here, they probably aren't, but I'm not going to worry about that. +// * Else if starts with \\, treat following two components as server\share. Don't error for missing +// server\share. +// * Otherwise, attempt to parse drive from start of path. +// +// The only error condition imposed here is valid utf-8. All other invalid paths are simply +// preserved by the data structure; let the Windows API error out on them. +#[derive(Clone)] +pub struct Path { + repr: String, // assumed to never be empty + prefix: Option<PathPrefix>, + sepidx: Option<uint> // index of the final separator in the non-prefix portion of repr +} + +#[stable(feature = "rust1", since = "1.0.0")] +impl fmt::Debug for Path { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + fmt::Debug::fmt(&self.display(), f) + } +} + +impl PartialEq for Path { + #[inline] + fn eq(&self, other: &Path) -> bool { + self.repr == other.repr + } +} + +impl Eq for Path {} + +impl PartialOrd for Path { + fn partial_cmp(&self, other: &Path) -> Option<Ordering> { + Some(self.cmp(other)) + } +} + +impl Ord for Path { + fn cmp(&self, other: &Path) -> Ordering { + self.repr.cmp(&other.repr) + } +} + +impl FromStr for Path { + type Err = ParsePathError; + fn from_str(s: &str) -> Result<Path, ParsePathError> { + match Path::new_opt(s) { + Some(p) => Ok(p), + None => Err(ParsePathError), + } + } +} + +/// Value indicating that a path could not be parsed from a string. +#[derive(Debug, Clone, PartialEq, Copy)] +pub struct ParsePathError; + +impl<S: hash::Writer + hash::Hasher> hash::Hash<S> for Path { + #[cfg(not(test))] + #[inline] + fn hash(&self, state: &mut S) { + self.repr.hash(state) + } + + #[cfg(test)] + #[inline] + fn hash(&self, _: &mut S) { + // No-op because the `hash` implementation will be wrong. + } +} + +impl BytesContainer for Path { + #[inline] + fn container_as_bytes<'a>(&'a self) -> &'a [u8] { + self.as_vec() + } + #[inline] + fn container_as_str<'a>(&'a self) -> Option<&'a str> { + self.as_str() + } + #[inline] + fn is_str(_: Option<&Path>) -> bool { true } +} + +impl GenericPathUnsafe for Path { + /// See `GenericPathUnsafe::from_vec_unchecked`. + /// + /// # Panics + /// + /// Panics if not valid UTF-8. + #[inline] + unsafe fn new_unchecked<T: BytesContainer>(path: T) -> Path { + let (prefix, path) = Path::normalize_(path.container_as_str().unwrap()); + assert!(!path.is_empty()); + let mut ret = Path{ repr: path, prefix: prefix, sepidx: None }; + ret.update_sepidx(); + ret + } + + /// See `GenericPathUnsafe::set_filename_unchecked`. + /// + /// # Panics + /// + /// Panics if not valid UTF-8. + unsafe fn set_filename_unchecked<T: BytesContainer>(&mut self, filename: T) { + let filename = filename.container_as_str().unwrap(); + match self.sepidx_or_prefix_len() { + None if ".." == self.repr => { + let mut s = String::with_capacity(3 + filename.len()); + s.push_str(".."); + s.push(SEP); + s.push_str(filename); + self.update_normalized(&s[]); + } + None => { + self.update_normalized(filename); + } + Some((_,idxa,end)) if &self.repr[idxa..end] == ".." => { + let mut s = String::with_capacity(end + 1 + filename.len()); + s.push_str(&self.repr[..end]); + s.push(SEP); + s.push_str(filename); + self.update_normalized(&s[]); + } + Some((idxb,idxa,_)) if self.prefix == Some(DiskPrefix) && idxa == self.prefix_len() => { + let mut s = String::with_capacity(idxb + filename.len()); + s.push_str(&self.repr[..idxb]); + s.push_str(filename); + self.update_normalized(&s[]); + } + Some((idxb,_,_)) => { + let mut s = String::with_capacity(idxb + 1 + filename.len()); + s.push_str(&self.repr[..idxb]); + s.push(SEP); + s.push_str(filename); + self.update_normalized(&s[]); + } + } + } + + /// See `GenericPathUnsafe::push_unchecked`. + /// + /// Concatenating two Windows Paths is rather complicated. + /// For the most part, it will behave as expected, except in the case of + /// pushing a volume-relative path, e.g. `C:foo.txt`. Because we have no + /// concept of per-volume cwds like Windows does, we can't behave exactly + /// like Windows will. Instead, if the receiver is an absolute path on + /// the same volume as the new path, it will be treated as the cwd that + /// the new path is relative to. Otherwise, the new path will be treated + /// as if it were absolute and will replace the receiver outright. + unsafe fn push_unchecked<T: BytesContainer>(&mut self, path: T) { + let path = path.container_as_str().unwrap(); + fn is_vol_abs(path: &str, prefix: Option<PathPrefix>) -> bool { + // assume prefix is Some(DiskPrefix) + let rest = &path[prefix_len(prefix)..]; + !rest.is_empty() && rest.as_bytes()[0].is_ascii() && is_sep(rest.as_bytes()[0] as char) + } + fn shares_volume(me: &Path, path: &str) -> bool { + // path is assumed to have a prefix of Some(DiskPrefix) + let repr = &me.repr[]; + match me.prefix { + Some(DiskPrefix) => { + repr.as_bytes()[0] == path.as_bytes()[0].to_ascii_uppercase() + } + Some(VerbatimDiskPrefix) => { + repr.as_bytes()[4] == path.as_bytes()[0].to_ascii_uppercase() + } + _ => false + } + } + fn is_sep_(prefix: Option<PathPrefix>, u: u8) -> bool { + if prefix_is_verbatim(prefix) { is_sep_verbatim(u as char) } + else { is_sep(u as char) } + } + + fn replace_path(me: &mut Path, path: &str, prefix: Option<PathPrefix>) { + let newpath = Path::normalize__(path, prefix); + me.repr = match newpath { + Some(p) => p, + None => String::from_str(path) + }; + me.prefix = prefix; + me.update_sepidx(); + } + fn append_path(me: &mut Path, path: &str) { + // appends a path that has no prefix + // if me is verbatim, we need to pre-normalize the new path + let path_ = if is_verbatim(me) { Path::normalize__(path, None) } + else { None }; + let pathlen = path_.as_ref().map_or(path.len(), |p| p.len()); + let mut s = String::with_capacity(me.repr.len() + 1 + pathlen); + s.push_str(&me.repr[]); + let plen = me.prefix_len(); + // if me is "C:" we don't want to add a path separator + match me.prefix { + Some(DiskPrefix) if me.repr.len() == plen => (), + _ if !(me.repr.len() > plen && me.repr.as_bytes()[me.repr.len()-1] == SEP_BYTE) => { + s.push(SEP); + } + _ => () + } + match path_ { + None => s.push_str(path), + Some(p) => s.push_str(&p[]), + }; + me.update_normalized(&s[]) + } + + if !path.is_empty() { + let prefix = parse_prefix(path); + match prefix { + Some(DiskPrefix) if !is_vol_abs(path, prefix) && shares_volume(self, path) => { + // cwd-relative path, self is on the same volume + append_path(self, &path[prefix_len(prefix)..]); + } + Some(_) => { + // absolute path, or cwd-relative and self is not same volume + replace_path(self, path, prefix); + } + None if !path.is_empty() && is_sep_(self.prefix, path.as_bytes()[0]) => { + // volume-relative path + if self.prefix.is_some() { + // truncate self down to the prefix, then append + let n = self.prefix_len(); + self.repr.truncate(n); + append_path(self, path); + } else { + // we have no prefix, so nothing to be relative to + replace_path(self, path, prefix); + } + } + None => { + // relative path + append_path(self, path); + } + } + } + } +} + +impl GenericPath for Path { + #[inline] + fn new_opt<T: BytesContainer>(path: T) -> Option<Path> { + match path.container_as_str() { + None => None, + Some(ref s) => { + if contains_nul(s) { + None + } else { + Some(unsafe { GenericPathUnsafe::new_unchecked(*s) }) + } + } + } + } + + /// See `GenericPath::as_str` for info. + /// Always returns a `Some` value. + #[inline] + fn as_str<'a>(&'a self) -> Option<&'a str> { + Some(&self.repr[]) + } + + #[inline] + fn as_vec<'a>(&'a self) -> &'a [u8] { + self.repr.as_bytes() + } + + #[inline] + fn into_vec(self) -> Vec<u8> { + self.repr.into_bytes() + } + + #[inline] + fn dirname<'a>(&'a self) -> &'a [u8] { + self.dirname_str().unwrap().as_bytes() + } + + /// See `GenericPath::dirname_str` for info. + /// Always returns a `Some` value. + fn dirname_str<'a>(&'a self) -> Option<&'a str> { + Some(match self.sepidx_or_prefix_len() { + None if ".." == self.repr => &self.repr[], + None => ".", + Some((_,idxa,end)) if &self.repr[idxa..end] == ".." => { + &self.repr[] + } + Some((idxb,_,end)) if &self.repr[idxb..end] == "\\" => { + &self.repr[] + } + Some((0,idxa,_)) => &self.repr[..idxa], + Some((idxb,idxa,_)) => { + match self.prefix { + Some(DiskPrefix) | Some(VerbatimDiskPrefix) if idxb == self.prefix_len() => { + &self.repr[..idxa] + } + _ => &self.repr[..idxb] + } + } + }) + } + + #[inline] + fn filename<'a>(&'a self) -> Option<&'a [u8]> { + self.filename_str().map(|x| x.as_bytes()) + } + + /// See `GenericPath::filename_str` for info. + /// Always returns a `Some` value if `filename` returns a `Some` value. + fn filename_str<'a>(&'a self) -> Option<&'a str> { + let repr = &self.repr[]; + match self.sepidx_or_prefix_len() { + None if "." == repr || ".." == repr => None, + None => Some(repr), + Some((_,idxa,end)) if &repr[idxa..end] == ".." => None, + Some((_,idxa,end)) if idxa == end => None, + Some((_,idxa,end)) => Some(&repr[idxa..end]) + } + } + + /// See `GenericPath::filestem_str` for info. + /// Always returns a `Some` value if `filestem` returns a `Some` value. + #[inline] + fn filestem_str<'a>(&'a self) -> Option<&'a str> { + // filestem() returns a byte vector that's guaranteed valid UTF-8 + self.filestem().map(|t| unsafe { mem::transmute(t) }) + } + + #[inline] + fn extension_str<'a>(&'a self) -> Option<&'a str> { + // extension() returns a byte vector that's guaranteed valid UTF-8 + self.extension().map(|t| unsafe { mem::transmute(t) }) + } + + fn dir_path(&self) -> Path { + unsafe { GenericPathUnsafe::new_unchecked(self.dirname_str().unwrap()) } + } + + #[inline] + fn pop(&mut self) -> bool { + match self.sepidx_or_prefix_len() { + None if "." == self.repr => false, + None => { + self.repr = String::from_str("."); + self.sepidx = None; + true + } + Some((idxb,idxa,end)) if idxb == idxa && idxb == end => false, + Some((idxb,_,end)) if &self.repr[idxb..end] == "\\" => false, + Some((idxb,idxa,_)) => { + let trunc = match self.prefix { + Some(DiskPrefix) | Some(VerbatimDiskPrefix) | None => { + let plen = self.prefix_len(); + if idxb == plen { idxa } else { idxb } + } + _ => idxb + }; + self.repr.truncate(trunc); + self.update_sepidx(); + true + } + } + } + + fn root_path(&self) -> Option<Path> { + if self.prefix.is_some() { + Some(Path::new(match self.prefix { + Some(DiskPrefix) if self.is_absolute() => { + &self.repr[..self.prefix_len()+1] + } + Some(VerbatimDiskPrefix) => { + &self.repr[..self.prefix_len()+1] + } + _ => &self.repr[..self.prefix_len()] + })) + } else if is_vol_relative(self) { + Some(Path::new(&self.repr[..1])) + } else { + None + } + } + + /// See `GenericPath::is_absolute` for info. + /// + /// A Windows Path is considered absolute only if it has a non-volume prefix, + /// or if it has a volume prefix and the path starts with '\'. + /// A path of `\foo` is not considered absolute because it's actually + /// relative to the "current volume". A separate method `Path::is_vol_relative` + /// is provided to indicate this case. Similarly a path of `C:foo` is not + /// considered absolute because it's relative to the cwd on volume C:. A + /// separate method `Path::is_cwd_relative` is provided to indicate this case. + #[inline] + fn is_absolute(&self) -> bool { + match self.prefix { + Some(DiskPrefix) => { + let rest = &self.repr[self.prefix_len()..]; + rest.len() > 0 && rest.as_bytes()[0] == SEP_BYTE + } + Some(_) => true, + None => false + } + } + + #[inline] + fn is_relative(&self) -> bool { + self.prefix.is_none() && !is_vol_relative(self) + } + + fn is_ancestor_of(&self, other: &Path) -> bool { + if !self.equiv_prefix(other) { + false + } else if self.is_absolute() != other.is_absolute() || + is_vol_relative(self) != is_vol_relative(other) { + false + } else { + let mut ita = self.str_components().map(|x|x.unwrap()); + let mut itb = other.str_components().map(|x|x.unwrap()); + if "." == self.repr { + return itb.next() != Some(".."); + } + loop { + match (ita.next(), itb.next()) { + (None, _) => break, + (Some(a), Some(b)) if a == b => { continue }, + (Some(a), _) if a == ".." => { + // if ita contains only .. components, it's an ancestor + return ita.all(|x| x == ".."); + } + _ => return false + } + } + true + } + } + + fn path_relative_from(&self, base: &Path) -> Option<Path> { + fn comp_requires_verbatim(s: &str) -> bool { + s == "." || s == ".." || s.contains_char(SEP2) + } + + if !self.equiv_prefix(base) { + // prefixes differ + if self.is_absolute() { + Some(self.clone()) + } else if self.prefix == Some(DiskPrefix) && base.prefix == Some(DiskPrefix) { + // both drives, drive letters must differ or they'd be equiv + Some(self.clone()) + } else { + None + } + } else if self.is_absolute() != base.is_absolute() { + if self.is_absolute() { + Some(self.clone()) + } else { + None + } + } else if is_vol_relative(self) != is_vol_relative(base) { + if is_vol_relative(self) { + Some(self.clone()) + } else { + None + } + } else { + let mut ita = self.str_components().map(|x|x.unwrap()); + let mut itb = base.str_components().map(|x|x.unwrap()); + let mut comps = vec![]; + + let a_verb = is_verbatim(self); + let b_verb = is_verbatim(base); + loop { + match (ita.next(), itb.next()) { + (None, None) => break, + (Some(a), None) if a_verb && comp_requires_verbatim(a) => { + return Some(self.clone()) + } + (Some(a), None) => { + comps.push(a); + if !a_verb { + comps.extend(ita.by_ref()); + break; + } + } + (None, _) => comps.push(".."), + (Some(a), Some(b)) if comps.is_empty() && a == b => (), + (Some(a), Some(b)) if !b_verb && b == "." => { + if a_verb && comp_requires_verbatim(a) { + return Some(self.clone()) + } else { comps.push(a) } + } + (Some(_), Some(b)) if !b_verb && b == ".." => return None, + (Some(a), Some(_)) if a_verb && comp_requires_verbatim(a) => { + return Some(self.clone()) + } + (Some(a), Some(_)) => { + comps.push(".."); + for _ in itb.by_ref() { + comps.push(".."); + } + comps.push(a); + if !a_verb { + comps.extend(ita.by_ref()); + break; + } + } + } + } + Some(Path::new(comps.connect("\\"))) + } + } + + fn ends_with_path(&self, child: &Path) -> bool { + if !child.is_relative() { return false; } + let mut selfit = self.str_components().rev(); + let mut childit = child.str_components().rev(); + loop { + match (selfit.next(), childit.next()) { + (Some(a), Some(b)) => if a != b { return false; }, + (Some(_), None) => break, + (None, Some(_)) => return false, + (None, None) => break + } + } + true + } +} + +impl Path { + /// Returns a new `Path` from a `BytesContainer`. + /// + /// # Panics + /// + /// Panics if the vector contains a `NUL`, or if it contains invalid UTF-8. + /// + /// # Example + /// + /// ``` + /// println!("{}", Path::new(r"C:\some\path").display()); + /// ``` + #[inline] + pub fn new<T: BytesContainer>(path: T) -> Path { + GenericPath::new(path) + } + + /// Returns a new `Some(Path)` from a `BytesContainer`. + /// + /// Returns `None` if the vector contains a `NUL`, or if it contains invalid UTF-8. + /// + /// # Example + /// + /// ``` + /// let path = Path::new_opt(r"C:\some\path"); + /// + /// match path { + /// Some(path) => println!("{}", path.display()), + /// None => println!("There was a problem with your path."), + /// } + /// ``` + #[inline] + pub fn new_opt<T: BytesContainer>(path: T) -> Option<Path> { + GenericPath::new_opt(path) + } + + /// Returns an iterator that yields each component of the path in turn as a Option<&str>. + /// Every component is guaranteed to be Some. + /// Does not yield the path prefix (including server/share components in UNC paths). + /// Does not distinguish between volume-relative and relative paths, e.g. + /// \a\b\c and a\b\c. + /// Does not distinguish between absolute and cwd-relative paths, e.g. + /// C:\foo and C:foo. + pub fn str_components<'a>(&'a self) -> StrComponents<'a> { + let repr = &self.repr[]; + let s = match self.prefix { + Some(_) => { + let plen = self.prefix_len(); + if repr.len() > plen && repr.as_bytes()[plen] == SEP_BYTE { + &repr[plen+1..] + } else { &repr[plen..] } + } + None if repr.as_bytes()[0] == SEP_BYTE => &repr[1..], + None => repr + }; + let some: fn(&'a str) -> Option<&'a str> = Some; // coerce to fn ptr + let ret = s.split_terminator(SEP).map(some); + ret + } + + /// Returns an iterator that yields each component of the path in turn as a &[u8]. + /// See str_components() for details. + pub fn components<'a>(&'a self) -> Components<'a> { + fn convert<'a>(x: Option<&'a str>) -> &'a [u8] { + #![inline] + x.unwrap().as_bytes() + } + let convert: for<'b> fn(Option<&'b str>) -> &'b [u8] = convert; // coerce to fn ptr + self.str_components().map(convert) + } + + fn equiv_prefix(&self, other: &Path) -> bool { + let s_repr = &self.repr[]; + let o_repr = &other.repr[]; + match (self.prefix, other.prefix) { + (Some(DiskPrefix), Some(VerbatimDiskPrefix)) => { + self.is_absolute() && + s_repr.as_bytes()[0].to_ascii_lowercase() == + o_repr.as_bytes()[4].to_ascii_lowercase() + } + (Some(VerbatimDiskPrefix), Some(DiskPrefix)) => { + other.is_absolute() && + s_repr.as_bytes()[4].to_ascii_lowercase() == + o_repr.as_bytes()[0].to_ascii_lowercase() + } + (Some(VerbatimDiskPrefix), Some(VerbatimDiskPrefix)) => { + s_repr.as_bytes()[4].to_ascii_lowercase() == + o_repr.as_bytes()[4].to_ascii_lowercase() + } + (Some(UNCPrefix(_,_)), Some(VerbatimUNCPrefix(_,_))) => { + &s_repr[2..self.prefix_len()] == &o_repr[8..other.prefix_len()] + } + (Some(VerbatimUNCPrefix(_,_)), Some(UNCPrefix(_,_))) => { + &s_repr[8..self.prefix_len()] == &o_repr[2..other.prefix_len()] + } + (None, None) => true, + (a, b) if a == b => { + &s_repr[..self.prefix_len()] == &o_repr[..other.prefix_len()] + } + _ => false + } + } + + fn normalize_(s: &str) -> (Option<PathPrefix>, String) { + // make borrowck happy + let (prefix, val) = { + let prefix = parse_prefix(s); + let path = Path::normalize__(s, prefix); + (prefix, path) + }; + (prefix, match val { + None => s.to_string(), + Some(val) => val + }) + } + + fn normalize__(s: &str, prefix: Option<PathPrefix>) -> Option<String> { + if prefix_is_verbatim(prefix) { + // don't do any normalization + match prefix { + Some(VerbatimUNCPrefix(x, 0)) if s.len() == 8 + x => { + // the server component has no trailing '\' + let mut s = String::from_str(s); + s.push(SEP); + Some(s) + } + _ => None + } + } else { + let (is_abs, comps) = normalize_helper(s, prefix); + let mut comps = comps; + match (comps.is_some(),prefix) { + (false, Some(DiskPrefix)) => { + if s.as_bytes()[0] >= b'a' && s.as_bytes()[0] <= b'z' { + comps = Some(vec![]); + } + } + (false, Some(VerbatimDiskPrefix)) => { + if s.as_bytes()[4] >= b'a' && s.as_bytes()[0] <= b'z' { + comps = Some(vec![]); + } + } + _ => () + } + match comps { + None => None, + Some(comps) => { + if prefix.is_some() && comps.is_empty() { + match prefix.unwrap() { + DiskPrefix => { + let len = prefix_len(prefix) + is_abs as uint; + let mut s = String::from_str(&s[..len]); + unsafe { + let v = s.as_mut_vec(); + v[0] = (*v)[0].to_ascii_uppercase(); + } + if is_abs { + // normalize C:/ to C:\ + unsafe { + s.as_mut_vec()[2] = SEP_BYTE; + } + } + Some(s) + } + VerbatimDiskPrefix => { + let len = prefix_len(prefix) + is_abs as uint; + let mut s = String::from_str(&s[..len]); + unsafe { + let v = s.as_mut_vec(); + v[4] = (*v)[4].to_ascii_uppercase(); + } + Some(s) + } + _ => { + let plen = prefix_len(prefix); + if s.len() > plen { + Some(String::from_str(&s[..plen])) + } else { None } + } + } + } else if is_abs && comps.is_empty() { + Some(repeat(SEP).take(1).collect()) + } else { + let prefix_ = &s[..prefix_len(prefix)]; + let n = prefix_.len() + + if is_abs { comps.len() } else { comps.len() - 1} + + comps.iter().map(|v| v.len()).sum(); + let mut s = String::with_capacity(n); + match prefix { + Some(DiskPrefix) => { + s.push(prefix_.as_bytes()[0].to_ascii_uppercase() as char); + s.push(':'); + } + Some(VerbatimDiskPrefix) => { + s.push_str(&prefix_[..4]); + s.push(prefix_.as_bytes()[4].to_ascii_uppercase() as char); + s.push_str(&prefix_[5..]); + } + Some(UNCPrefix(a,b)) => { + s.push_str("\\\\"); + s.push_str(&prefix_[2..a+2]); + s.push(SEP); + s.push_str(&prefix_[3+a..3+a+b]); + } + Some(_) => s.push_str(prefix_), + None => () + } + let mut it = comps.into_iter(); + if !is_abs { + match it.next() { + None => (), + Some(comp) => s.push_str(comp) + } + } + for comp in it { + s.push(SEP); + s.push_str(comp); + } + Some(s) + } + } + } + } + } + + fn update_sepidx(&mut self) { + let s = if self.has_nonsemantic_trailing_slash() { + &self.repr[..self.repr.len()-1] + } else { &self.repr[] }; + let sep_test: fn(char) -> bool = if !prefix_is_verbatim(self.prefix) { + is_sep + } else { + is_sep_verbatim + }; + let idx = s.rfind(sep_test); + let prefixlen = self.prefix_len(); + self.sepidx = idx.and_then(|x| if x < prefixlen { None } else { Some(x) }); + } + + fn prefix_len(&self) -> uint { + prefix_len(self.prefix) + } + + // Returns a tuple (before, after, end) where before is the index of the separator + // and after is the index just after the separator. + // end is the length of the string, normally, or the index of the final character if it is + // a non-semantic trailing separator in a verbatim string. + // If the prefix is considered the separator, before and after are the same. + fn sepidx_or_prefix_len(&self) -> Option<(uint,uint,uint)> { + match self.sepidx { + None => match self.prefix_len() { 0 => None, x => Some((x,x,self.repr.len())) }, + Some(x) => { + if self.has_nonsemantic_trailing_slash() { + Some((x,x+1,self.repr.len()-1)) + } else { Some((x,x+1,self.repr.len())) } + } + } + } + + fn has_nonsemantic_trailing_slash(&self) -> bool { + is_verbatim(self) && self.repr.len() > self.prefix_len()+1 && + self.repr.as_bytes()[self.repr.len()-1] == SEP_BYTE + } + + fn update_normalized(&mut self, s: &str) { + let (prefix, path) = Path::normalize_(s); + self.repr = path; + self.prefix = prefix; + self.update_sepidx(); + } +} + +/// Returns whether the path is considered "volume-relative", which means a path +/// that looks like "\foo". Paths of this form are relative to the current volume, +/// but absolute within that volume. +#[inline] +pub fn is_vol_relative(path: &Path) -> bool { + path.prefix.is_none() && is_sep_byte(&path.repr.as_bytes()[0]) +} + +/// Returns whether the path is considered "cwd-relative", which means a path +/// with a volume prefix that is not absolute. This look like "C:foo.txt". Paths +/// of this form are relative to the cwd on the given volume. +#[inline] +pub fn is_cwd_relative(path: &Path) -> bool { + path.prefix == Some(DiskPrefix) && !path.is_absolute() +} + +/// Returns the PathPrefix for this Path +#[inline] +pub fn prefix(path: &Path) -> Option<PathPrefix> { + path.prefix +} + +/// Returns whether the Path's prefix is a verbatim prefix, i.e. `\\?\` +#[inline] +pub fn is_verbatim(path: &Path) -> bool { + prefix_is_verbatim(path.prefix) +} + +/// Returns the non-verbatim equivalent of the input path, if possible. +/// If the input path is a device namespace path, None is returned. +/// If the input path is not verbatim, it is returned as-is. +/// If the input path is verbatim, but the same path can be expressed as +/// non-verbatim, the non-verbatim version is returned. +/// Otherwise, None is returned. +pub fn make_non_verbatim(path: &Path) -> Option<Path> { + let repr = &path.repr[]; + let new_path = match path.prefix { + Some(VerbatimPrefix(_)) | Some(DeviceNSPrefix(_)) => return None, + Some(UNCPrefix(_,_)) | Some(DiskPrefix) | None => return Some(path.clone()), + Some(VerbatimDiskPrefix) => { + // \\?\D:\ + Path::new(&repr[4..]) + } + Some(VerbatimUNCPrefix(_,_)) => { + // \\?\UNC\server\share + Path::new(format!(r"\{}", &repr[7..])) + } + }; + if new_path.prefix.is_none() { + // \\?\UNC\server is a VerbatimUNCPrefix + // but \\server is nothing + return None; + } + // now ensure normalization didn't change anything + if &repr[path.prefix_len()..] == &new_path.repr[new_path.prefix_len()..] { + Some(new_path) + } else { + None + } +} + +/// The standard path separator character +pub const SEP: char = '\\'; +/// The standard path separator byte +pub const SEP_BYTE: u8 = SEP as u8; + +/// The alternative path separator character +pub const SEP2: char = '/'; +/// The alternative path separator character +pub const SEP2_BYTE: u8 = SEP2 as u8; + +/// Returns whether the given char is a path separator. +/// Allows both the primary separator '\' and the alternative separator '/'. +#[inline] +pub fn is_sep(c: char) -> bool { + c == SEP || c == SEP2 +} + +/// Returns whether the given char is a path separator. +/// Only allows the primary separator '\'; use is_sep to allow '/'. +#[inline] +pub fn is_sep_verbatim(c: char) -> bool { + c == SEP +} + +/// Returns whether the given byte is a path separator. +/// Allows both the primary separator '\' and the alternative separator '/'. +#[inline] +pub fn is_sep_byte(u: &u8) -> bool { + *u == SEP_BYTE || *u == SEP2_BYTE +} + +/// Returns whether the given byte is a path separator. +/// Only allows the primary separator '\'; use is_sep_byte to allow '/'. +#[inline] +pub fn is_sep_byte_verbatim(u: &u8) -> bool { + *u == SEP_BYTE +} + +/// Prefix types for Path +#[derive(Copy, PartialEq, Clone, Debug)] +pub enum PathPrefix { + /// Prefix `\\?\`, uint is the length of the following component + VerbatimPrefix(uint), + /// Prefix `\\?\UNC\`, uints are the lengths of the UNC components + VerbatimUNCPrefix(uint, uint), + /// Prefix `\\?\C:\` (for any alphabetic character) + VerbatimDiskPrefix, + /// Prefix `\\.\`, uint is the length of the following component + DeviceNSPrefix(uint), + /// UNC prefix `\\server\share`, uints are the lengths of the server/share + UNCPrefix(uint, uint), + /// Prefix `C:` for any alphabetic character + DiskPrefix +} + +fn parse_prefix<'a>(mut path: &'a str) -> Option<PathPrefix> { + if path.starts_with("\\\\") { + // \\ + path = &path[2..]; + if path.starts_with("?\\") { + // \\?\ + path = &path[2..]; + if path.starts_with("UNC\\") { + // \\?\UNC\server\share + path = &path[4..]; + let (idx_a, idx_b) = match parse_two_comps(path, is_sep_verbatim) { + Some(x) => x, + None => (path.len(), 0) + }; + return Some(VerbatimUNCPrefix(idx_a, idx_b)); + } else { + // \\?\path + let idx = path.find('\\'); + if idx == Some(2) && path.as_bytes()[1] == b':' { + let c = path.as_bytes()[0]; + if c.is_ascii() && (c as char).is_alphabetic() { + // \\?\C:\ path + return Some(VerbatimDiskPrefix); + } + } + let idx = idx.unwrap_or(path.len()); + return Some(VerbatimPrefix(idx)); + } + } else if path.starts_with(".\\") { + // \\.\path + path = &path[2..]; + let idx = path.find('\\').unwrap_or(path.len()); + return Some(DeviceNSPrefix(idx)); + } + match parse_two_comps(path, is_sep) { + Some((idx_a, idx_b)) if idx_a > 0 && idx_b > 0 => { + // \\server\share + return Some(UNCPrefix(idx_a, idx_b)); + } + _ => () + } + } else if path.len() > 1 && path.as_bytes()[1] == b':' { + // C: + let c = path.as_bytes()[0]; + if c.is_ascii() && (c as char).is_alphabetic() { + return Some(DiskPrefix); + } + } + return None; + + fn parse_two_comps(mut path: &str, f: fn(char) -> bool) -> Option<(uint, uint)> { + let idx_a = match path.find(f) { + None => return None, + Some(x) => x + }; + path = &path[idx_a+1..]; + let idx_b = path.find(f).unwrap_or(path.len()); + Some((idx_a, idx_b)) + } +} + +// None result means the string didn't need normalizing +fn normalize_helper<'a>(s: &'a str, prefix: Option<PathPrefix>) -> (bool, Option<Vec<&'a str>>) { + let f: fn(char) -> bool = if !prefix_is_verbatim(prefix) { + is_sep + } else { + is_sep_verbatim + }; + let is_abs = s.len() > prefix_len(prefix) && f(s.char_at(prefix_len(prefix))); + let s_ = &s[prefix_len(prefix)..]; + let s_ = if is_abs { &s_[1..] } else { s_ }; + + if is_abs && s_.is_empty() { + return (is_abs, match prefix { + Some(DiskPrefix) | None => (if is_sep_verbatim(s.char_at(prefix_len(prefix))) { None } + else { Some(vec![]) }), + Some(_) => Some(vec![]), // need to trim the trailing separator + }); + } + let mut comps: Vec<&'a str> = vec![]; + let mut n_up = 0u; + let mut changed = false; + for comp in s_.split(f) { + if comp.is_empty() { changed = true } + else if comp == "." { changed = true } + else if comp == ".." { + let has_abs_prefix = match prefix { + Some(DiskPrefix) => false, + Some(_) => true, + None => false + }; + if (is_abs || has_abs_prefix) && comps.is_empty() { changed = true } + else if comps.len() == n_up { comps.push(".."); n_up += 1 } + else { comps.pop().unwrap(); changed = true } + } else { comps.push(comp) } + } + if !changed && !prefix_is_verbatim(prefix) { + changed = s.find(is_sep).is_some(); + } + if changed { + if comps.is_empty() && !is_abs && prefix.is_none() { + if s == "." { + return (is_abs, None); + } + comps.push("."); + } + (is_abs, Some(comps)) + } else { + (is_abs, None) + } +} + +fn prefix_is_verbatim(p: Option<PathPrefix>) -> bool { + match p { + Some(VerbatimPrefix(_)) | Some(VerbatimUNCPrefix(_,_)) | Some(VerbatimDiskPrefix) => true, + Some(DeviceNSPrefix(_)) => true, // not really sure, but I think so + _ => false + } +} + +fn prefix_len(p: Option<PathPrefix>) -> uint { + match p { + None => 0, + Some(VerbatimPrefix(x)) => 4 + x, + Some(VerbatimUNCPrefix(x,y)) => 8 + x + 1 + y, + Some(VerbatimDiskPrefix) => 6, + Some(UNCPrefix(x,y)) => 2 + x + 1 + y, + Some(DeviceNSPrefix(x)) => 4 + x, + Some(DiskPrefix) => 2 + } +} + +#[cfg(test)] +mod tests { + use super::PathPrefix::*; + use super::parse_prefix; + use super::*; + + use clone::Clone; + use iter::IteratorExt; + use option::Option::{self, Some, None}; + use old_path::GenericPath; + use slice::{AsSlice, SliceExt}; + use str::Str; + use string::ToString; + use vec::Vec; + + macro_rules! t { + (s: $path:expr, $exp:expr) => ( + { + let path = $path; + assert_eq!(path.as_str(), Some($exp)); + } + ); + (v: $path:expr, $exp:expr) => ( + { + let path = $path; + assert_eq!(path.as_vec(), $exp); + } + ) + } + + #[test] + fn test_parse_prefix() { + macro_rules! t { + ($path:expr, $exp:expr) => ( + { + let path = $path; + let exp = $exp; + let res = parse_prefix(path); + assert_eq!(res, exp); + } + ) + } + + t!("\\\\SERVER\\share\\foo", Some(UNCPrefix(6,5))); + t!("\\\\", None); + t!("\\\\SERVER", None); + t!("\\\\SERVER\\", None); + t!("\\\\SERVER\\\\", None); + t!("\\\\SERVER\\\\foo", None); + t!("\\\\SERVER\\share", Some(UNCPrefix(6,5))); + t!("\\\\SERVER/share/foo", Some(UNCPrefix(6,5))); + t!("\\\\SERVER\\share/foo", Some(UNCPrefix(6,5))); + t!("//SERVER/share/foo", None); + t!("\\\\\\a\\b\\c", None); + t!("\\\\?\\a\\b\\c", Some(VerbatimPrefix(1))); + t!("\\\\?\\a/b/c", Some(VerbatimPrefix(5))); + t!("//?/a/b/c", None); + t!("\\\\.\\a\\b", Some(DeviceNSPrefix(1))); + t!("\\\\.\\a/b", Some(DeviceNSPrefix(3))); + t!("//./a/b", None); + t!("\\\\?\\UNC\\server\\share\\foo", Some(VerbatimUNCPrefix(6,5))); + t!("\\\\?\\UNC\\\\share\\foo", Some(VerbatimUNCPrefix(0,5))); + t!("\\\\?\\UNC\\", Some(VerbatimUNCPrefix(0,0))); + t!("\\\\?\\UNC\\server/share/foo", Some(VerbatimUNCPrefix(16,0))); + t!("\\\\?\\UNC\\server", Some(VerbatimUNCPrefix(6,0))); + t!("\\\\?\\UNC\\server\\", Some(VerbatimUNCPrefix(6,0))); + t!("\\\\?\\UNC/server/share", Some(VerbatimPrefix(16))); + t!("\\\\?\\UNC", Some(VerbatimPrefix(3))); + t!("\\\\?\\C:\\a\\b.txt", Some(VerbatimDiskPrefix)); + t!("\\\\?\\z:\\", Some(VerbatimDiskPrefix)); + t!("\\\\?\\C:", Some(VerbatimPrefix(2))); + t!("\\\\?\\C:a.txt", Some(VerbatimPrefix(7))); + t!("\\\\?\\C:a\\b.txt", Some(VerbatimPrefix(3))); + t!("\\\\?\\C:/a", Some(VerbatimPrefix(4))); + t!("C:\\foo", Some(DiskPrefix)); + t!("z:/foo", Some(DiskPrefix)); + t!("d:", Some(DiskPrefix)); + t!("ab:", None); + t!("ü:\\foo", None); + t!("3:\\foo", None); + t!(" :\\foo", None); + t!("::\\foo", None); + t!("\\\\?\\C:", Some(VerbatimPrefix(2))); + t!("\\\\?\\z:\\", Some(VerbatimDiskPrefix)); + t!("\\\\?\\ab:\\", Some(VerbatimPrefix(3))); + t!("\\\\?\\C:\\a", Some(VerbatimDiskPrefix)); + t!("\\\\?\\C:/a", Some(VerbatimPrefix(4))); + t!("\\\\?\\C:\\a/b", Some(VerbatimDiskPrefix)); + } + + #[test] + fn test_paths() { + let empty: &[u8] = &[]; + t!(v: Path::new(empty), b"."); + t!(v: Path::new(b"\\"), b"\\"); + t!(v: Path::new(b"a\\b\\c"), b"a\\b\\c"); + + t!(s: Path::new(""), "."); + t!(s: Path::new("\\"), "\\"); + t!(s: Path::new("hi"), "hi"); + t!(s: Path::new("hi\\"), "hi"); + t!(s: Path::new("\\lib"), "\\lib"); + t!(s: Path::new("\\lib\\"), "\\lib"); + t!(s: Path::new("hi\\there"), "hi\\there"); + t!(s: Path::new("hi\\there.txt"), "hi\\there.txt"); + t!(s: Path::new("/"), "\\"); + t!(s: Path::new("hi/"), "hi"); + t!(s: Path::new("/lib"), "\\lib"); + t!(s: Path::new("/lib/"), "\\lib"); + t!(s: Path::new("hi/there"), "hi\\there"); + + t!(s: Path::new("hi\\there\\"), "hi\\there"); + t!(s: Path::new("hi\\..\\there"), "there"); + t!(s: Path::new("hi/../there"), "there"); + t!(s: Path::new("..\\hi\\there"), "..\\hi\\there"); + t!(s: Path::new("\\..\\hi\\there"), "\\hi\\there"); + t!(s: Path::new("/../hi/there"), "\\hi\\there"); + t!(s: Path::new("foo\\.."), "."); + t!(s: Path::new("\\foo\\.."), "\\"); + t!(s: Path::new("\\foo\\..\\.."), "\\"); + t!(s: Path::new("\\foo\\..\\..\\bar"), "\\bar"); + t!(s: Path::new("\\.\\hi\\.\\there\\."), "\\hi\\there"); + t!(s: Path::new("\\.\\hi\\.\\there\\.\\.."), "\\hi"); + t!(s: Path::new("foo\\..\\.."), ".."); + t!(s: Path::new("foo\\..\\..\\.."), "..\\.."); + t!(s: Path::new("foo\\..\\..\\bar"), "..\\bar"); + + assert_eq!(Path::new(b"foo\\bar").into_vec(), b"foo\\bar"); + assert_eq!(Path::new(b"\\foo\\..\\..\\bar").into_vec(), b"\\bar"); + + t!(s: Path::new("\\\\a"), "\\a"); + t!(s: Path::new("\\\\a\\"), "\\a"); + t!(s: Path::new("\\\\a\\b"), "\\\\a\\b"); + t!(s: Path::new("\\\\a\\b\\"), "\\\\a\\b"); + t!(s: Path::new("\\\\a\\b/"), "\\\\a\\b"); + t!(s: Path::new("\\\\\\b"), "\\b"); + t!(s: Path::new("\\\\a\\\\b"), "\\a\\b"); + t!(s: Path::new("\\\\a\\b\\c"), "\\\\a\\b\\c"); + t!(s: Path::new("\\\\server\\share/path"), "\\\\server\\share\\path"); + t!(s: Path::new("\\\\server/share/path"), "\\\\server\\share\\path"); + t!(s: Path::new("C:a\\b.txt"), "C:a\\b.txt"); + t!(s: Path::new("C:a/b.txt"), "C:a\\b.txt"); + t!(s: Path::new("z:\\a\\b.txt"), "Z:\\a\\b.txt"); + t!(s: Path::new("z:/a/b.txt"), "Z:\\a\\b.txt"); + t!(s: Path::new("ab:/a/b.txt"), "ab:\\a\\b.txt"); + t!(s: Path::new("C:\\"), "C:\\"); + t!(s: Path::new("C:"), "C:"); + t!(s: Path::new("q:"), "Q:"); + t!(s: Path::new("C:/"), "C:\\"); + t!(s: Path::new("C:\\foo\\.."), "C:\\"); + t!(s: Path::new("C:foo\\.."), "C:"); + t!(s: Path::new("C:\\a\\"), "C:\\a"); + t!(s: Path::new("C:\\a/"), "C:\\a"); + t!(s: Path::new("C:\\a\\b\\"), "C:\\a\\b"); + t!(s: Path::new("C:\\a\\b/"), "C:\\a\\b"); + t!(s: Path::new("C:a\\"), "C:a"); + t!(s: Path::new("C:a/"), "C:a"); + t!(s: Path::new("C:a\\b\\"), "C:a\\b"); + t!(s: Path::new("C:a\\b/"), "C:a\\b"); + t!(s: Path::new("\\\\?\\z:\\a\\b.txt"), "\\\\?\\z:\\a\\b.txt"); + t!(s: Path::new("\\\\?\\C:/a/b.txt"), "\\\\?\\C:/a/b.txt"); + t!(s: Path::new("\\\\?\\C:\\a/b.txt"), "\\\\?\\C:\\a/b.txt"); + t!(s: Path::new("\\\\?\\test\\a\\b.txt"), "\\\\?\\test\\a\\b.txt"); + t!(s: Path::new("\\\\?\\foo\\bar\\"), "\\\\?\\foo\\bar\\"); + t!(s: Path::new("\\\\.\\foo\\bar"), "\\\\.\\foo\\bar"); + t!(s: Path::new("\\\\.\\"), "\\\\.\\"); + t!(s: Path::new("\\\\?\\UNC\\server\\share\\foo"), "\\\\?\\UNC\\server\\share\\foo"); + t!(s: Path::new("\\\\?\\UNC\\server/share"), "\\\\?\\UNC\\server/share\\"); + t!(s: Path::new("\\\\?\\UNC\\server"), "\\\\?\\UNC\\server\\"); + t!(s: Path::new("\\\\?\\UNC\\"), "\\\\?\\UNC\\\\"); + t!(s: Path::new("\\\\?\\UNC"), "\\\\?\\UNC"); + + // I'm not sure whether \\.\foo/bar should normalize to \\.\foo\bar + // as information is sparse and this isn't really googleable. + // I'm going to err on the side of not normalizing it, as this skips the filesystem + t!(s: Path::new("\\\\.\\foo/bar"), "\\\\.\\foo/bar"); + t!(s: Path::new("\\\\.\\foo\\bar"), "\\\\.\\foo\\bar"); + } + + #[test] + fn test_opt_paths() { + assert!(Path::new_opt(b"foo\\bar\0") == None); + assert!(Path::new_opt(b"foo\\bar\x80") == None); + t!(v: Path::new_opt(b"foo\\bar").unwrap(), b"foo\\bar"); + assert!(Path::new_opt("foo\\bar\0") == None); + t!(s: Path::new_opt("foo\\bar").unwrap(), "foo\\bar"); + } + + #[test] + fn test_null_byte() { + use thread::Thread; + let result = Thread::scoped(move|| { + Path::new(b"foo/bar\0") + }).join(); + assert!(result.is_err()); + + let result = Thread::scoped(move|| { + Path::new("test").set_filename(b"f\0o") + }).join(); + assert!(result.is_err()); + + let result = Thread::scoped(move || { + Path::new("test").push(b"f\0o"); + }).join(); + assert!(result.is_err()); + } + + #[test] + #[should_fail] + fn test_not_utf8_panics() { + Path::new(b"hello\x80.txt"); + } + + #[test] + fn test_display_str() { + let path = Path::new("foo"); + assert_eq!(path.display().to_string(), "foo"); + let path = Path::new(b"\\"); + assert_eq!(path.filename_display().to_string(), ""); + + let path = Path::new("foo"); + let mo = path.display().as_cow(); + assert_eq!(mo.as_slice(), "foo"); + let path = Path::new(b"\\"); + let mo = path.filename_display().as_cow(); + assert_eq!(mo.as_slice(), ""); + } + + #[test] + fn test_display() { + macro_rules! t { + ($path:expr, $exp:expr, $expf:expr) => ( + { + let path = Path::new($path); + let f = format!("{}", path.display()); + assert_eq!(f, $exp); + let f = format!("{}", path.filename_display()); + assert_eq!(f, $expf); + } + ) + } + + t!("foo", "foo", "foo"); + t!("foo\\bar", "foo\\bar", "bar"); + t!("\\", "\\", ""); + } + + #[test] + fn test_components() { + macro_rules! t { + (s: $path:expr, $op:ident, $exp:expr) => ( + { + let path = $path; + let path = Path::new(path); + assert_eq!(path.$op(), Some($exp)); + } + ); + (s: $path:expr, $op:ident, $exp:expr, opt) => ( + { + let path = $path; + let path = Path::new(path); + let left = path.$op(); + assert_eq!(left, $exp); + } + ); + (v: $path:expr, $op:ident, $exp:expr) => ( + { + let path = $path; + let path = Path::new(path); + assert_eq!(path.$op(), $exp); + } + ) + } + + t!(v: b"a\\b\\c", filename, Some(b"c")); + t!(s: "a\\b\\c", filename_str, "c"); + t!(s: "\\a\\b\\c", filename_str, "c"); + t!(s: "a", filename_str, "a"); + t!(s: "\\a", filename_str, "a"); + t!(s: ".", filename_str, None, opt); + t!(s: "\\", filename_str, None, opt); + t!(s: "..", filename_str, None, opt); + t!(s: "..\\..", filename_str, None, opt); + t!(s: "c:\\foo.txt", filename_str, "foo.txt"); + t!(s: "C:\\", filename_str, None, opt); + t!(s: "C:", filename_str, None, opt); + t!(s: "\\\\server\\share\\foo.txt", filename_str, "foo.txt"); + t!(s: "\\\\server\\share", filename_str, None, opt); + t!(s: "\\\\server", filename_str, "server"); + t!(s: "\\\\?\\bar\\foo.txt", filename_str, "foo.txt"); + t!(s: "\\\\?\\bar", filename_str, None, opt); + t!(s: "\\\\?\\", filename_str, None, opt); + t!(s: "\\\\?\\UNC\\server\\share\\foo.txt", filename_str, "foo.txt"); + t!(s: "\\\\?\\UNC\\server", filename_str, None, opt); + t!(s: "\\\\?\\UNC\\", filename_str, None, opt); + t!(s: "\\\\?\\C:\\foo.txt", filename_str, "foo.txt"); + t!(s: "\\\\?\\C:\\", filename_str, None, opt); + t!(s: "\\\\?\\C:", filename_str, None, opt); + t!(s: "\\\\?\\foo/bar", filename_str, None, opt); + t!(s: "\\\\?\\C:/foo", filename_str, None, opt); + t!(s: "\\\\.\\foo\\bar", filename_str, "bar"); + t!(s: "\\\\.\\foo", filename_str, None, opt); + t!(s: "\\\\.\\foo/bar", filename_str, None, opt); + t!(s: "\\\\.\\foo\\bar/baz", filename_str, "bar/baz"); + t!(s: "\\\\.\\", filename_str, None, opt); + t!(s: "\\\\?\\a\\b\\", filename_str, "b"); + + t!(v: b"a\\b\\c", dirname, b"a\\b"); + t!(s: "a\\b\\c", dirname_str, "a\\b"); + t!(s: "\\a\\b\\c", dirname_str, "\\a\\b"); + t!(s: "a", dirname_str, "."); + t!(s: "\\a", dirname_str, "\\"); + t!(s: ".", dirname_str, "."); + t!(s: "\\", dirname_str, "\\"); + t!(s: "..", dirname_str, ".."); + t!(s: "..\\..", dirname_str, "..\\.."); + t!(s: "c:\\foo.txt", dirname_str, "C:\\"); + t!(s: "C:\\", dirname_str, "C:\\"); + t!(s: "C:", dirname_str, "C:"); + t!(s: "C:foo.txt", dirname_str, "C:"); + t!(s: "\\\\server\\share\\foo.txt", dirname_str, "\\\\server\\share"); + t!(s: "\\\\server\\share", dirname_str, "\\\\server\\share"); + t!(s: "\\\\server", dirname_str, "\\"); + t!(s: "\\\\?\\bar\\foo.txt", dirname_str, "\\\\?\\bar"); + t!(s: "\\\\?\\bar", dirname_str, "\\\\?\\bar"); + t!(s: "\\\\?\\", dirname_str, "\\\\?\\"); + t!(s: "\\\\?\\UNC\\server\\share\\foo.txt", dirname_str, "\\\\?\\UNC\\server\\share"); + t!(s: "\\\\?\\UNC\\server", dirname_str, "\\\\?\\UNC\\server\\"); + t!(s: "\\\\?\\UNC\\", dirname_str, "\\\\?\\UNC\\\\"); + t!(s: "\\\\?\\C:\\foo.txt", dirname_str, "\\\\?\\C:\\"); + t!(s: "\\\\?\\C:\\", dirname_str, "\\\\?\\C:\\"); + t!(s: "\\\\?\\C:", dirname_str, "\\\\?\\C:"); + t!(s: "\\\\?\\C:/foo/bar", dirname_str, "\\\\?\\C:/foo/bar"); + t!(s: "\\\\?\\foo/bar", dirname_str, "\\\\?\\foo/bar"); + t!(s: "\\\\.\\foo\\bar", dirname_str, "\\\\.\\foo"); + t!(s: "\\\\.\\foo", dirname_str, "\\\\.\\foo"); + t!(s: "\\\\?\\a\\b\\", dirname_str, "\\\\?\\a"); + + t!(v: b"hi\\there.txt", filestem, Some(b"there")); + t!(s: "hi\\there.txt", filestem_str, "there"); + t!(s: "hi\\there", filestem_str, "there"); + t!(s: "there.txt", filestem_str, "there"); + t!(s: "there", filestem_str, "there"); + t!(s: ".", filestem_str, None, opt); + t!(s: "\\", filestem_str, None, opt); + t!(s: "foo\\.bar", filestem_str, ".bar"); + t!(s: ".bar", filestem_str, ".bar"); + t!(s: "..bar", filestem_str, "."); + t!(s: "hi\\there..txt", filestem_str, "there."); + t!(s: "..", filestem_str, None, opt); + t!(s: "..\\..", filestem_str, None, opt); + // filestem is based on filename, so we don't need the full set of prefix tests + + t!(v: b"hi\\there.txt", extension, Some(b"txt")); + t!(v: b"hi\\there", extension, None); + t!(s: "hi\\there.txt", extension_str, Some("txt"), opt); + t!(s: "hi\\there", extension_str, None, opt); + t!(s: "there.txt", extension_str, Some("txt"), opt); + t!(s: "there", extension_str, None, opt); + t!(s: ".", extension_str, None, opt); + t!(s: "\\", extension_str, None, opt); + t!(s: "foo\\.bar", extension_str, None, opt); + t!(s: ".bar", extension_str, None, opt); + t!(s: "..bar", extension_str, Some("bar"), opt); + t!(s: "hi\\there..txt", extension_str, Some("txt"), opt); + t!(s: "..", extension_str, None, opt); + t!(s: "..\\..", extension_str, None, opt); + // extension is based on filename, so we don't need the full set of prefix tests + } + + #[test] + fn test_push() { + macro_rules! t { + (s: $path:expr, $join:expr) => ( + { + let path = $path; + let join = $join; + let mut p1 = Path::new(path); + let p2 = p1.clone(); + p1.push(join); + assert_eq!(p1, p2.join(join)); + } + ) + } + + t!(s: "a\\b\\c", ".."); + t!(s: "\\a\\b\\c", "d"); + t!(s: "a\\b", "c\\d"); + t!(s: "a\\b", "\\c\\d"); + // this is just a sanity-check test. push and join share an implementation, + // so there's no need for the full set of prefix tests + + // we do want to check one odd case though to ensure the prefix is re-parsed + let mut p = Path::new("\\\\?\\C:"); + assert_eq!(prefix(&p), Some(VerbatimPrefix(2))); + p.push("foo"); + assert_eq!(prefix(&p), Some(VerbatimDiskPrefix)); + assert_eq!(p.as_str(), Some("\\\\?\\C:\\foo")); + + // and another with verbatim non-normalized paths + let mut p = Path::new("\\\\?\\C:\\a\\"); + p.push("foo"); + assert_eq!(p.as_str(), Some("\\\\?\\C:\\a\\foo")); + } + + #[test] + fn test_push_path() { + macro_rules! t { + (s: $path:expr, $push:expr, $exp:expr) => ( + { + let mut p = Path::new($path); + let push = Path::new($push); + p.push(&push); + assert_eq!(p.as_str(), Some($exp)); + } + ) + } + + t!(s: "a\\b\\c", "d", "a\\b\\c\\d"); + t!(s: "\\a\\b\\c", "d", "\\a\\b\\c\\d"); + t!(s: "a\\b", "c\\d", "a\\b\\c\\d"); + t!(s: "a\\b", "\\c\\d", "\\c\\d"); + t!(s: "a\\b", ".", "a\\b"); + t!(s: "a\\b", "..\\c", "a\\c"); + t!(s: "a\\b", "C:a.txt", "C:a.txt"); + t!(s: "a\\b", "..\\..\\..\\c", "..\\c"); + t!(s: "a\\b", "C:\\a.txt", "C:\\a.txt"); + t!(s: "C:\\a", "C:\\b.txt", "C:\\b.txt"); + t!(s: "C:\\a\\b\\c", "C:d", "C:\\a\\b\\c\\d"); + t!(s: "C:a\\b\\c", "C:d", "C:a\\b\\c\\d"); + t!(s: "C:a\\b", "..\\..\\..\\c", "C:..\\c"); + t!(s: "C:\\a\\b", "..\\..\\..\\c", "C:\\c"); + t!(s: "C:", r"a\b\c", r"C:a\b\c"); + t!(s: "C:", r"..\a", r"C:..\a"); + t!(s: "\\\\server\\share\\foo", "bar", "\\\\server\\share\\foo\\bar"); + t!(s: "\\\\server\\share\\foo", "..\\..\\bar", "\\\\server\\share\\bar"); + t!(s: "\\\\server\\share\\foo", "C:baz", "C:baz"); + t!(s: "\\\\?\\C:\\a\\b", "C:c\\d", "\\\\?\\C:\\a\\b\\c\\d"); + t!(s: "\\\\?\\C:a\\b", "C:c\\d", "C:c\\d"); + t!(s: "\\\\?\\C:\\a\\b", "C:\\c\\d", "C:\\c\\d"); + t!(s: "\\\\?\\foo\\bar", "baz", "\\\\?\\foo\\bar\\baz"); + t!(s: "\\\\?\\C:\\a\\b", "..\\..\\..\\c", "\\\\?\\C:\\a\\b\\..\\..\\..\\c"); + t!(s: "\\\\?\\foo\\bar", "..\\..\\c", "\\\\?\\foo\\bar\\..\\..\\c"); + t!(s: "\\\\?\\", "foo", "\\\\?\\\\foo"); + t!(s: "\\\\?\\UNC\\server\\share\\foo", "bar", "\\\\?\\UNC\\server\\share\\foo\\bar"); + t!(s: "\\\\?\\UNC\\server\\share", "C:\\a", "C:\\a"); + t!(s: "\\\\?\\UNC\\server\\share", "C:a", "C:a"); + t!(s: "\\\\?\\UNC\\server", "foo", "\\\\?\\UNC\\server\\\\foo"); + t!(s: "C:\\a", "\\\\?\\UNC\\server\\share", "\\\\?\\UNC\\server\\share"); + t!(s: "\\\\.\\foo\\bar", "baz", "\\\\.\\foo\\bar\\baz"); + t!(s: "\\\\.\\foo\\bar", "C:a", "C:a"); + // again, not sure about the following, but I'm assuming \\.\ should be verbatim + t!(s: "\\\\.\\foo", "..\\bar", "\\\\.\\foo\\..\\bar"); + + t!(s: "\\\\?\\C:", "foo", "\\\\?\\C:\\foo"); // this is a weird one + } + + #[test] + fn test_push_many() { + macro_rules! t { + (s: $path:expr, $push:expr, $exp:expr) => ( + { + let mut p = Path::new($path); + p.push_many(&$push); + assert_eq!(p.as_str(), Some($exp)); + } + ); + (v: $path:expr, $push:expr, $exp:expr) => ( + { + let mut p = Path::new($path); + p.push_many(&$push); + assert_eq!(p.as_vec(), $exp); + } + ) + } + + t!(s: "a\\b\\c", ["d", "e"], "a\\b\\c\\d\\e"); + t!(s: "a\\b\\c", ["d", "\\e"], "\\e"); + t!(s: "a\\b\\c", ["d", "\\e", "f"], "\\e\\f"); + t!(s: "a\\b\\c", ["d".to_string(), "e".to_string()], "a\\b\\c\\d\\e"); + t!(v: b"a\\b\\c", [b"d", b"e"], b"a\\b\\c\\d\\e"); + t!(v: b"a\\b\\c", [b"d", b"\\e", b"f"], b"\\e\\f"); + t!(v: b"a\\b\\c", [b"d".to_vec(), b"e".to_vec()], + b"a\\b\\c\\d\\e"); + } + + #[test] + fn test_pop() { + macro_rules! t { + (s: $path:expr, $left:expr, $right:expr) => ( + { + let pstr = $path; + let mut p = Path::new(pstr); + let result = p.pop(); + let left = $left; + assert_eq!(p.as_str(), Some(left)); + assert_eq!(result, $right); + } + ); + (b: $path:expr, $left:expr, $right:expr) => ( + { + let mut p = Path::new($path); + let result = p.pop(); + assert_eq!(p.as_vec(), $left); + assert_eq!(result, $right); + } + ) + } + + t!(s: "a\\b\\c", "a\\b", true); + t!(s: "a", ".", true); + t!(s: ".", ".", false); + t!(s: "\\a", "\\", true); + t!(s: "\\", "\\", false); + t!(b: b"a\\b\\c", b"a\\b", true); + t!(b: b"a", b".", true); + t!(b: b".", b".", false); + t!(b: b"\\a", b"\\", true); + t!(b: b"\\", b"\\", false); + + t!(s: "C:\\a\\b", "C:\\a", true); + t!(s: "C:\\a", "C:\\", true); + t!(s: "C:\\", "C:\\", false); + t!(s: "C:a\\b", "C:a", true); + t!(s: "C:a", "C:", true); + t!(s: "C:", "C:", false); + t!(s: "\\\\server\\share\\a\\b", "\\\\server\\share\\a", true); + t!(s: "\\\\server\\share\\a", "\\\\server\\share", true); + t!(s: "\\\\server\\share", "\\\\server\\share", false); + t!(s: "\\\\?\\a\\b\\c", "\\\\?\\a\\b", true); + t!(s: "\\\\?\\a\\b", "\\\\?\\a", true); + t!(s: "\\\\?\\a", "\\\\?\\a", false); + t!(s: "\\\\?\\C:\\a\\b", "\\\\?\\C:\\a", true); + t!(s: "\\\\?\\C:\\a", "\\\\?\\C:\\", true); + t!(s: "\\\\?\\C:\\", "\\\\?\\C:\\", false); + t!(s: "\\\\?\\UNC\\server\\share\\a\\b", "\\\\?\\UNC\\server\\share\\a", true); + t!(s: "\\\\?\\UNC\\server\\share\\a", "\\\\?\\UNC\\server\\share", true); + t!(s: "\\\\?\\UNC\\server\\share", "\\\\?\\UNC\\server\\share", false); + t!(s: "\\\\.\\a\\b\\c", "\\\\.\\a\\b", true); + t!(s: "\\\\.\\a\\b", "\\\\.\\a", true); + t!(s: "\\\\.\\a", "\\\\.\\a", false); + + t!(s: "\\\\?\\a\\b\\", "\\\\?\\a", true); + } + + #[test] + fn test_root_path() { + assert_eq!(Path::new("a\\b\\c").root_path(), None); + assert_eq!(Path::new("\\a\\b\\c").root_path(), Some(Path::new("\\"))); + assert_eq!(Path::new("C:a").root_path(), Some(Path::new("C:"))); + assert_eq!(Path::new("C:\\a").root_path(), Some(Path::new("C:\\"))); + assert_eq!(Path::new("\\\\a\\b\\c").root_path(), Some(Path::new("\\\\a\\b"))); + assert_eq!(Path::new("\\\\?\\a\\b").root_path(), Some(Path::new("\\\\?\\a"))); + assert_eq!(Path::new("\\\\?\\C:\\a").root_path(), Some(Path::new("\\\\?\\C:\\"))); + assert_eq!(Path::new("\\\\?\\UNC\\a\\b\\c").root_path(), + Some(Path::new("\\\\?\\UNC\\a\\b"))); + assert_eq!(Path::new("\\\\.\\a\\b").root_path(), Some(Path::new("\\\\.\\a"))); + } + + #[test] + fn test_join() { + t!(s: Path::new("a\\b\\c").join(".."), "a\\b"); + t!(s: Path::new("\\a\\b\\c").join("d"), "\\a\\b\\c\\d"); + t!(s: Path::new("a\\b").join("c\\d"), "a\\b\\c\\d"); + t!(s: Path::new("a\\b").join("\\c\\d"), "\\c\\d"); + t!(s: Path::new(".").join("a\\b"), "a\\b"); + t!(s: Path::new("\\").join("a\\b"), "\\a\\b"); + t!(v: Path::new(b"a\\b\\c").join(b".."), b"a\\b"); + t!(v: Path::new(b"\\a\\b\\c").join(b"d"), b"\\a\\b\\c\\d"); + // full join testing is covered under test_push_path, so no need for + // the full set of prefix tests + } + + #[test] + fn test_join_path() { + macro_rules! t { + (s: $path:expr, $join:expr, $exp:expr) => ( + { + let path = Path::new($path); + let join = Path::new($join); + let res = path.join(&join); + assert_eq!(res.as_str(), Some($exp)); + } + ) + } + + t!(s: "a\\b\\c", "..", "a\\b"); + t!(s: "\\a\\b\\c", "d", "\\a\\b\\c\\d"); + t!(s: "a\\b", "c\\d", "a\\b\\c\\d"); + t!(s: "a\\b", "\\c\\d", "\\c\\d"); + t!(s: ".", "a\\b", "a\\b"); + t!(s: "\\", "a\\b", "\\a\\b"); + // join is implemented using push, so there's no need for + // the full set of prefix tests + } + + #[test] + fn test_join_many() { + macro_rules! t { + (s: $path:expr, $join:expr, $exp:expr) => ( + { + let path = Path::new($path); + let res = path.join_many(&$join); + assert_eq!(res.as_str(), Some($exp)); + } + ); + (v: $path:expr, $join:expr, $exp:expr) => ( + { + let path = Path::new($path); + let res = path.join_many(&$join); + assert_eq!(res.as_vec(), $exp); + } + ) + } + + t!(s: "a\\b\\c", ["d", "e"], "a\\b\\c\\d\\e"); + t!(s: "a\\b\\c", ["..", "d"], "a\\b\\d"); + t!(s: "a\\b\\c", ["d", "\\e", "f"], "\\e\\f"); + t!(s: "a\\b\\c", ["d".to_string(), "e".to_string()], "a\\b\\c\\d\\e"); + t!(v: b"a\\b\\c", [b"d", b"e"], b"a\\b\\c\\d\\e"); + t!(v: b"a\\b\\c", [b"d".to_vec(), b"e".to_vec()], + b"a\\b\\c\\d\\e"); + } + + #[test] + fn test_with_helpers() { + macro_rules! t { + (s: $path:expr, $op:ident, $arg:expr, $res:expr) => ( + { + let pstr = $path; + let path = Path::new(pstr); + let arg = $arg; + let res = path.$op(arg); + let exp = Path::new($res); + assert_eq!(res, exp); + } + ) + } + + t!(s: "a\\b\\c", with_filename, "d", "a\\b\\d"); + t!(s: ".", with_filename, "foo", "foo"); + t!(s: "\\a\\b\\c", with_filename, "d", "\\a\\b\\d"); + t!(s: "\\", with_filename, "foo", "\\foo"); + t!(s: "\\a", with_filename, "foo", "\\foo"); + t!(s: "foo", with_filename, "bar", "bar"); + t!(s: "\\", with_filename, "foo\\", "\\foo"); + t!(s: "\\a", with_filename, "foo\\", "\\foo"); + t!(s: "a\\b\\c", with_filename, "", "a\\b"); + t!(s: "a\\b\\c", with_filename, ".", "a\\b"); + t!(s: "a\\b\\c", with_filename, "..", "a"); + t!(s: "\\a", with_filename, "", "\\"); + t!(s: "foo", with_filename, "", "."); + t!(s: "a\\b\\c", with_filename, "d\\e", "a\\b\\d\\e"); + t!(s: "a\\b\\c", with_filename, "\\d", "a\\b\\d"); + t!(s: "..", with_filename, "foo", "..\\foo"); + t!(s: "..\\..", with_filename, "foo", "..\\..\\foo"); + t!(s: "..", with_filename, "", ".."); + t!(s: "..\\..", with_filename, "", "..\\.."); + t!(s: "C:\\foo\\bar", with_filename, "baz", "C:\\foo\\baz"); + t!(s: "C:\\foo", with_filename, "bar", "C:\\bar"); + t!(s: "C:\\", with_filename, "foo", "C:\\foo"); + t!(s: "C:foo\\bar", with_filename, "baz", "C:foo\\baz"); + t!(s: "C:foo", with_filename, "bar", "C:bar"); + t!(s: "C:", with_filename, "foo", "C:foo"); + t!(s: "C:\\foo", with_filename, "", "C:\\"); + t!(s: "C:foo", with_filename, "", "C:"); + t!(s: "C:\\foo\\bar", with_filename, "..", "C:\\"); + t!(s: "C:\\foo", with_filename, "..", "C:\\"); + t!(s: "C:\\", with_filename, "..", "C:\\"); + t!(s: "C:foo\\bar", with_filename, "..", "C:"); + t!(s: "C:foo", with_filename, "..", "C:.."); + t!(s: "C:", with_filename, "..", "C:.."); + t!(s: "\\\\server\\share\\foo", with_filename, "bar", "\\\\server\\share\\bar"); + t!(s: "\\\\server\\share", with_filename, "foo", "\\\\server\\share\\foo"); + t!(s: "\\\\server\\share\\foo", with_filename, "", "\\\\server\\share"); + t!(s: "\\\\server\\share", with_filename, "", "\\\\server\\share"); + t!(s: "\\\\server\\share\\foo", with_filename, "..", "\\\\server\\share"); + t!(s: "\\\\server\\share", with_filename, "..", "\\\\server\\share"); + t!(s: "\\\\?\\C:\\foo\\bar", with_filename, "baz", "\\\\?\\C:\\foo\\baz"); + t!(s: "\\\\?\\C:\\foo", with_filename, "bar", "\\\\?\\C:\\bar"); + t!(s: "\\\\?\\C:\\", with_filename, "foo", "\\\\?\\C:\\foo"); + t!(s: "\\\\?\\C:\\foo", with_filename, "..", "\\\\?\\C:\\.."); + t!(s: "\\\\?\\foo\\bar", with_filename, "baz", "\\\\?\\foo\\baz"); + t!(s: "\\\\?\\foo", with_filename, "bar", "\\\\?\\foo\\bar"); + t!(s: "\\\\?\\", with_filename, "foo", "\\\\?\\\\foo"); + t!(s: "\\\\?\\foo\\bar", with_filename, "..", "\\\\?\\foo\\.."); + t!(s: "\\\\.\\foo\\bar", with_filename, "baz", "\\\\.\\foo\\baz"); + t!(s: "\\\\.\\foo", with_filename, "bar", "\\\\.\\foo\\bar"); + t!(s: "\\\\.\\foo\\bar", with_filename, "..", "\\\\.\\foo\\.."); + + t!(s: "hi\\there.txt", with_extension, "exe", "hi\\there.exe"); + t!(s: "hi\\there.txt", with_extension, "", "hi\\there"); + t!(s: "hi\\there.txt", with_extension, ".", "hi\\there.."); + t!(s: "hi\\there.txt", with_extension, "..", "hi\\there..."); + t!(s: "hi\\there", with_extension, "txt", "hi\\there.txt"); + t!(s: "hi\\there", with_extension, ".", "hi\\there.."); + t!(s: "hi\\there", with_extension, "..", "hi\\there..."); + t!(s: "hi\\there.", with_extension, "txt", "hi\\there.txt"); + t!(s: "hi\\.foo", with_extension, "txt", "hi\\.foo.txt"); + t!(s: "hi\\there.txt", with_extension, ".foo", "hi\\there..foo"); + t!(s: "\\", with_extension, "txt", "\\"); + t!(s: "\\", with_extension, ".", "\\"); + t!(s: "\\", with_extension, "..", "\\"); + t!(s: ".", with_extension, "txt", "."); + // extension setter calls filename setter internally, no need for extended tests + } + + #[test] + fn test_setters() { + macro_rules! t { + (s: $path:expr, $set:ident, $with:ident, $arg:expr) => ( + { + let path = $path; + let arg = $arg; + let mut p1 = Path::new(path); + p1.$set(arg); + let p2 = Path::new(path); + assert_eq!(p1, p2.$with(arg)); + } + ); + (v: $path:expr, $set:ident, $with:ident, $arg:expr) => ( + { + let path = $path; + let arg = $arg; + let mut p1 = Path::new(path); + p1.$set(arg); + let p2 = Path::new(path); + assert_eq!(p1, p2.$with(arg)); + } + ) + } + + t!(v: b"a\\b\\c", set_filename, with_filename, b"d"); + t!(v: b"\\", set_filename, with_filename, b"foo"); + t!(s: "a\\b\\c", set_filename, with_filename, "d"); + t!(s: "\\", set_filename, with_filename, "foo"); + t!(s: ".", set_filename, with_filename, "foo"); + t!(s: "a\\b", set_filename, with_filename, ""); + t!(s: "a", set_filename, with_filename, ""); + + t!(v: b"hi\\there.txt", set_extension, with_extension, b"exe"); + t!(s: "hi\\there.txt", set_extension, with_extension, "exe"); + t!(s: "hi\\there.", set_extension, with_extension, "txt"); + t!(s: "hi\\there", set_extension, with_extension, "txt"); + t!(s: "hi\\there.txt", set_extension, with_extension, ""); + t!(s: "hi\\there", set_extension, with_extension, ""); + t!(s: ".", set_extension, with_extension, "txt"); + + // with_ helpers use the setter internally, so the tests for the with_ helpers + // will suffice. No need for the full set of prefix tests. + } + + #[test] + fn test_getters() { + macro_rules! t { + (s: $path:expr, $filename:expr, $dirname:expr, $filestem:expr, $ext:expr) => ( + { + let path = $path; + assert_eq!(path.filename_str(), $filename); + assert_eq!(path.dirname_str(), $dirname); + assert_eq!(path.filestem_str(), $filestem); + assert_eq!(path.extension_str(), $ext); + } + ); + (v: $path:expr, $filename:expr, $dirname:expr, $filestem:expr, $ext:expr) => ( + { + let path = $path; + assert_eq!(path.filename(), $filename); + assert_eq!(path.dirname(), $dirname); + assert_eq!(path.filestem(), $filestem); + assert_eq!(path.extension(), $ext); + } + ) + } + + t!(v: Path::new(b"a\\b\\c"), Some(b"c"), b"a\\b", Some(b"c"), None); + t!(s: Path::new("a\\b\\c"), Some("c"), Some("a\\b"), Some("c"), None); + t!(s: Path::new("."), None, Some("."), None, None); + t!(s: Path::new("\\"), None, Some("\\"), None, None); + t!(s: Path::new(".."), None, Some(".."), None, None); + t!(s: Path::new("..\\.."), None, Some("..\\.."), None, None); + t!(s: Path::new("hi\\there.txt"), Some("there.txt"), Some("hi"), + Some("there"), Some("txt")); + t!(s: Path::new("hi\\there"), Some("there"), Some("hi"), Some("there"), None); + t!(s: Path::new("hi\\there."), Some("there."), Some("hi"), + Some("there"), Some("")); + t!(s: Path::new("hi\\.there"), Some(".there"), Some("hi"), Some(".there"), None); + t!(s: Path::new("hi\\..there"), Some("..there"), Some("hi"), + Some("."), Some("there")); + + // these are already tested in test_components, so no need for extended tests + } + + #[test] + fn test_dir_path() { + t!(s: Path::new("hi\\there").dir_path(), "hi"); + t!(s: Path::new("hi").dir_path(), "."); + t!(s: Path::new("\\hi").dir_path(), "\\"); + t!(s: Path::new("\\").dir_path(), "\\"); + t!(s: Path::new("..").dir_path(), ".."); + t!(s: Path::new("..\\..").dir_path(), "..\\.."); + + // dir_path is just dirname interpreted as a path. + // No need for extended tests + } + + #[test] + fn test_is_absolute() { + macro_rules! t { + ($path:expr, $abs:expr, $vol:expr, $cwd:expr, $rel:expr) => ( + { + let path = Path::new($path); + let (abs, vol, cwd, rel) = ($abs, $vol, $cwd, $rel); + assert_eq!(path.is_absolute(), abs); + assert_eq!(is_vol_relative(&path), vol); + assert_eq!(is_cwd_relative(&path), cwd); + assert_eq!(path.is_relative(), rel); + } + ) + } + t!("a\\b\\c", false, false, false, true); + t!("\\a\\b\\c", false, true, false, false); + t!("a", false, false, false, true); + t!("\\a", false, true, false, false); + t!(".", false, false, false, true); + t!("\\", false, true, false, false); + t!("..", false, false, false, true); + t!("..\\..", false, false, false, true); + t!("C:a\\b.txt", false, false, true, false); + t!("C:\\a\\b.txt", true, false, false, false); + t!("\\\\server\\share\\a\\b.txt", true, false, false, false); + t!("\\\\?\\a\\b\\c.txt", true, false, false, false); + t!("\\\\?\\C:\\a\\b.txt", true, false, false, false); + t!("\\\\?\\C:a\\b.txt", true, false, false, false); // NB: not equivalent to C:a\b.txt + t!("\\\\?\\UNC\\server\\share\\a\\b.txt", true, false, false, false); + t!("\\\\.\\a\\b", true, false, false, false); + } + + #[test] + fn test_is_ancestor_of() { + macro_rules! t { + (s: $path:expr, $dest:expr, $exp:expr) => ( + { + let path = Path::new($path); + let dest = Path::new($dest); + let exp = $exp; + let res = path.is_ancestor_of(&dest); + assert_eq!(res, exp); + } + ) + } + + t!(s: "a\\b\\c", "a\\b\\c\\d", true); + t!(s: "a\\b\\c", "a\\b\\c", true); + t!(s: "a\\b\\c", "a\\b", false); + t!(s: "\\a\\b\\c", "\\a\\b\\c", true); + t!(s: "\\a\\b", "\\a\\b\\c", true); + t!(s: "\\a\\b\\c\\d", "\\a\\b\\c", false); + t!(s: "\\a\\b", "a\\b\\c", false); + t!(s: "a\\b", "\\a\\b\\c", false); + t!(s: "a\\b\\c", "a\\b\\d", false); + t!(s: "..\\a\\b\\c", "a\\b\\c", false); + t!(s: "a\\b\\c", "..\\a\\b\\c", false); + t!(s: "a\\b\\c", "a\\b\\cd", false); + t!(s: "a\\b\\cd", "a\\b\\c", false); + t!(s: "..\\a\\b", "..\\a\\b\\c", true); + t!(s: ".", "a\\b", true); + t!(s: ".", ".", true); + t!(s: "\\", "\\", true); + t!(s: "\\", "\\a\\b", true); + t!(s: "..", "a\\b", true); + t!(s: "..\\..", "a\\b", true); + t!(s: "foo\\bar", "foobar", false); + t!(s: "foobar", "foo\\bar", false); + + t!(s: "foo", "C:foo", false); + t!(s: "C:foo", "foo", false); + t!(s: "C:foo", "C:foo\\bar", true); + t!(s: "C:foo\\bar", "C:foo", false); + t!(s: "C:\\foo", "C:\\foo\\bar", true); + t!(s: "C:", "C:", true); + t!(s: "C:", "C:\\", false); + t!(s: "C:\\", "C:", false); + t!(s: "C:\\", "C:\\", true); + t!(s: "C:\\foo\\bar", "C:\\foo", false); + t!(s: "C:foo\\bar", "C:foo", false); + t!(s: "C:\\foo", "\\foo", false); + t!(s: "\\foo", "C:\\foo", false); + t!(s: "\\\\server\\share\\foo", "\\\\server\\share\\foo\\bar", true); + t!(s: "\\\\server\\share", "\\\\server\\share\\foo", true); + t!(s: "\\\\server\\share\\foo", "\\\\server\\share", false); + t!(s: "C:\\foo", "\\\\server\\share\\foo", false); + t!(s: "\\\\server\\share\\foo", "C:\\foo", false); + t!(s: "\\\\?\\foo\\bar", "\\\\?\\foo\\bar\\baz", true); + t!(s: "\\\\?\\foo\\bar\\baz", "\\\\?\\foo\\bar", false); + t!(s: "\\\\?\\foo\\bar", "\\foo\\bar\\baz", false); + t!(s: "\\foo\\bar", "\\\\?\\foo\\bar\\baz", false); + t!(s: "\\\\?\\C:\\foo\\bar", "\\\\?\\C:\\foo\\bar\\baz", true); + t!(s: "\\\\?\\C:\\foo\\bar\\baz", "\\\\?\\C:\\foo\\bar", false); + t!(s: "\\\\?\\C:\\", "\\\\?\\C:\\foo", true); + t!(s: "\\\\?\\C:", "\\\\?\\C:\\", false); // this is a weird one + t!(s: "\\\\?\\C:\\", "\\\\?\\C:", false); + t!(s: "\\\\?\\C:\\a", "\\\\?\\c:\\a\\b", true); + t!(s: "\\\\?\\c:\\a", "\\\\?\\C:\\a\\b", true); + t!(s: "\\\\?\\C:\\a", "\\\\?\\D:\\a\\b", false); + t!(s: "\\\\?\\foo", "\\\\?\\foobar", false); + t!(s: "\\\\?\\a\\b", "\\\\?\\a\\b\\c", true); + t!(s: "\\\\?\\a\\b", "\\\\?\\a\\b\\", true); + t!(s: "\\\\?\\a\\b\\", "\\\\?\\a\\b", true); + t!(s: "\\\\?\\a\\b\\c", "\\\\?\\a\\b", false); + t!(s: "\\\\?\\a\\b\\c", "\\\\?\\a\\b\\", false); + t!(s: "\\\\?\\UNC\\a\\b\\c", "\\\\?\\UNC\\a\\b\\c\\d", true); + t!(s: "\\\\?\\UNC\\a\\b\\c\\d", "\\\\?\\UNC\\a\\b\\c", false); + t!(s: "\\\\?\\UNC\\a\\b", "\\\\?\\UNC\\a\\b\\c", true); + t!(s: "\\\\.\\foo\\bar", "\\\\.\\foo\\bar\\baz", true); + t!(s: "\\\\.\\foo\\bar\\baz", "\\\\.\\foo\\bar", false); + t!(s: "\\\\.\\foo", "\\\\.\\foo\\bar", true); + t!(s: "\\\\.\\foo", "\\\\.\\foobar", false); + + t!(s: "\\a\\b", "\\\\?\\a\\b", false); + t!(s: "\\\\?\\a\\b", "\\a\\b", false); + t!(s: "\\a\\b", "\\\\?\\C:\\a\\b", false); + t!(s: "\\\\?\\C:\\a\\b", "\\a\\b", false); + t!(s: "Z:\\a\\b", "\\\\?\\z:\\a\\b", true); + t!(s: "C:\\a\\b", "\\\\?\\D:\\a\\b", false); + t!(s: "a\\b", "\\\\?\\a\\b", false); + t!(s: "\\\\?\\a\\b", "a\\b", false); + t!(s: "C:\\a\\b", "\\\\?\\C:\\a\\b", true); + t!(s: "\\\\?\\C:\\a\\b", "C:\\a\\b", true); + t!(s: "C:a\\b", "\\\\?\\C:\\a\\b", false); + t!(s: "C:a\\b", "\\\\?\\C:a\\b", false); + t!(s: "\\\\?\\C:\\a\\b", "C:a\\b", false); + t!(s: "\\\\?\\C:a\\b", "C:a\\b", false); + t!(s: "C:\\a\\b", "\\\\?\\C:\\a\\b\\", true); + t!(s: "\\\\?\\C:\\a\\b\\", "C:\\a\\b", true); + t!(s: "\\\\a\\b\\c", "\\\\?\\UNC\\a\\b\\c", true); + t!(s: "\\\\?\\UNC\\a\\b\\c", "\\\\a\\b\\c", true); + } + + #[test] + fn test_ends_with_path() { + macro_rules! t { + (s: $path:expr, $child:expr, $exp:expr) => ( + { + let path = Path::new($path); + let child = Path::new($child); + assert_eq!(path.ends_with_path(&child), $exp); + } + ); + } + + t!(s: "a\\b\\c", "c", true); + t!(s: "a\\b\\c", "d", false); + t!(s: "foo\\bar\\quux", "bar", false); + t!(s: "foo\\bar\\quux", "barquux", false); + t!(s: "a\\b\\c", "b\\c", true); + t!(s: "a\\b\\c", "a\\b\\c", true); + t!(s: "a\\b\\c", "foo\\a\\b\\c", false); + t!(s: "\\a\\b\\c", "a\\b\\c", true); + t!(s: "\\a\\b\\c", "\\a\\b\\c", false); // child must be relative + t!(s: "\\a\\b\\c", "foo\\a\\b\\c", false); + t!(s: "a\\b\\c", "", false); + t!(s: "", "", true); + t!(s: "\\a\\b\\c", "d\\e\\f", false); + t!(s: "a\\b\\c", "a\\b", false); + t!(s: "a\\b\\c", "b", false); + t!(s: "C:\\a\\b", "b", true); + t!(s: "C:\\a\\b", "C:b", false); + t!(s: "C:\\a\\b", "C:a\\b", false); + } + + #[test] + fn test_path_relative_from() { + macro_rules! t { + (s: $path:expr, $other:expr, $exp:expr) => ( + { + assert_eq!(Path::new($path).path_relative_from(&Path::new($other)) + .as_ref().and_then(|x| x.as_str()), $exp); + } + ) + } + + t!(s: "a\\b\\c", "a\\b", Some("c")); + t!(s: "a\\b\\c", "a\\b\\d", Some("..\\c")); + t!(s: "a\\b\\c", "a\\b\\c\\d", Some("..")); + t!(s: "a\\b\\c", "a\\b\\c", Some(".")); + t!(s: "a\\b\\c", "a\\b\\c\\d\\e", Some("..\\..")); + t!(s: "a\\b\\c", "a\\d\\e", Some("..\\..\\b\\c")); + t!(s: "a\\b\\c", "d\\e\\f", Some("..\\..\\..\\a\\b\\c")); + t!(s: "a\\b\\c", "\\a\\b\\c", None); + t!(s: "\\a\\b\\c", "a\\b\\c", Some("\\a\\b\\c")); + t!(s: "\\a\\b\\c", "\\a\\b\\c\\d", Some("..")); + t!(s: "\\a\\b\\c", "\\a\\b", Some("c")); + t!(s: "\\a\\b\\c", "\\a\\b\\c\\d\\e", Some("..\\..")); + t!(s: "\\a\\b\\c", "\\a\\d\\e", Some("..\\..\\b\\c")); + t!(s: "\\a\\b\\c", "\\d\\e\\f", Some("..\\..\\..\\a\\b\\c")); + t!(s: "hi\\there.txt", "hi\\there", Some("..\\there.txt")); + t!(s: ".", "a", Some("..")); + t!(s: ".", "a\\b", Some("..\\..")); + t!(s: ".", ".", Some(".")); + t!(s: "a", ".", Some("a")); + t!(s: "a\\b", ".", Some("a\\b")); + t!(s: "..", ".", Some("..")); + t!(s: "a\\b\\c", "a\\b\\c", Some(".")); + t!(s: "\\a\\b\\c", "\\a\\b\\c", Some(".")); + t!(s: "\\", "\\", Some(".")); + t!(s: "\\", ".", Some("\\")); + t!(s: "..\\..\\a", "b", Some("..\\..\\..\\a")); + t!(s: "a", "..\\..\\b", None); + t!(s: "..\\..\\a", "..\\..\\b", Some("..\\a")); + t!(s: "..\\..\\a", "..\\..\\a\\b", Some("..")); + t!(s: "..\\..\\a\\b", "..\\..\\a", Some("b")); + + t!(s: "C:a\\b\\c", "C:a\\b", Some("c")); + t!(s: "C:a\\b", "C:a\\b\\c", Some("..")); + t!(s: "C:" ,"C:a\\b", Some("..\\..")); + t!(s: "C:a\\b", "C:c\\d", Some("..\\..\\a\\b")); + t!(s: "C:a\\b", "D:c\\d", Some("C:a\\b")); + t!(s: "C:a\\b", "C:..\\c", None); + t!(s: "C:..\\a", "C:b\\c", Some("..\\..\\..\\a")); + t!(s: "C:\\a\\b\\c", "C:\\a\\b", Some("c")); + t!(s: "C:\\a\\b", "C:\\a\\b\\c", Some("..")); + t!(s: "C:\\", "C:\\a\\b", Some("..\\..")); + t!(s: "C:\\a\\b", "C:\\c\\d", Some("..\\..\\a\\b")); + t!(s: "C:\\a\\b", "C:a\\b", Some("C:\\a\\b")); + t!(s: "C:a\\b", "C:\\a\\b", None); + t!(s: "\\a\\b", "C:\\a\\b", None); + t!(s: "\\a\\b", "C:a\\b", None); + t!(s: "a\\b", "C:\\a\\b", None); + t!(s: "a\\b", "C:a\\b", None); + + t!(s: "\\\\a\\b\\c", "\\\\a\\b", Some("c")); + t!(s: "\\\\a\\b", "\\\\a\\b\\c", Some("..")); + t!(s: "\\\\a\\b\\c\\e", "\\\\a\\b\\c\\d", Some("..\\e")); + t!(s: "\\\\a\\c\\d", "\\\\a\\b\\d", Some("\\\\a\\c\\d")); + t!(s: "\\\\b\\c\\d", "\\\\a\\c\\d", Some("\\\\b\\c\\d")); + t!(s: "\\\\a\\b\\c", "\\d\\e", Some("\\\\a\\b\\c")); + t!(s: "\\d\\e", "\\\\a\\b\\c", None); + t!(s: "d\\e", "\\\\a\\b\\c", None); + t!(s: "C:\\a\\b\\c", "\\\\a\\b\\c", Some("C:\\a\\b\\c")); + t!(s: "C:\\c", "\\\\a\\b\\c", Some("C:\\c")); + + t!(s: "\\\\?\\a\\b", "\\a\\b", Some("\\\\?\\a\\b")); + t!(s: "\\\\?\\a\\b", "a\\b", Some("\\\\?\\a\\b")); + t!(s: "\\\\?\\a\\b", "\\b", Some("\\\\?\\a\\b")); + t!(s: "\\\\?\\a\\b", "b", Some("\\\\?\\a\\b")); + t!(s: "\\\\?\\a\\b", "\\\\?\\a\\b\\c", Some("..")); + t!(s: "\\\\?\\a\\b\\c", "\\\\?\\a\\b", Some("c")); + t!(s: "\\\\?\\a\\b", "\\\\?\\c\\d", Some("\\\\?\\a\\b")); + t!(s: "\\\\?\\a", "\\\\?\\b", Some("\\\\?\\a")); + + t!(s: "\\\\?\\C:\\a\\b", "\\\\?\\C:\\a", Some("b")); + t!(s: "\\\\?\\C:\\a", "\\\\?\\C:\\a\\b", Some("..")); + t!(s: "\\\\?\\C:\\a", "\\\\?\\C:\\b", Some("..\\a")); + t!(s: "\\\\?\\C:\\a", "\\\\?\\D:\\a", Some("\\\\?\\C:\\a")); + t!(s: "\\\\?\\C:\\a\\b", "\\\\?\\c:\\a", Some("b")); + t!(s: "\\\\?\\C:\\a\\b", "C:\\a", Some("b")); + t!(s: "\\\\?\\C:\\a", "C:\\a\\b", Some("..")); + t!(s: "C:\\a\\b", "\\\\?\\C:\\a", Some("b")); + t!(s: "C:\\a", "\\\\?\\C:\\a\\b", Some("..")); + t!(s: "\\\\?\\C:\\a", "D:\\a", Some("\\\\?\\C:\\a")); + t!(s: "\\\\?\\c:\\a\\b", "C:\\a", Some("b")); + t!(s: "\\\\?\\C:\\a\\b", "C:a\\b", Some("\\\\?\\C:\\a\\b")); + t!(s: "\\\\?\\C:\\a\\.\\b", "C:\\a", Some("\\\\?\\C:\\a\\.\\b")); + t!(s: "\\\\?\\C:\\a\\b/c", "C:\\a", Some("\\\\?\\C:\\a\\b/c")); + t!(s: "\\\\?\\C:\\a\\..\\b", "C:\\a", Some("\\\\?\\C:\\a\\..\\b")); + t!(s: "C:a\\b", "\\\\?\\C:\\a\\b", None); + t!(s: "\\\\?\\C:\\a\\.\\b", "\\\\?\\C:\\a", Some("\\\\?\\C:\\a\\.\\b")); + t!(s: "\\\\?\\C:\\a\\b/c", "\\\\?\\C:\\a", Some("\\\\?\\C:\\a\\b/c")); + t!(s: "\\\\?\\C:\\a\\..\\b", "\\\\?\\C:\\a", Some("\\\\?\\C:\\a\\..\\b")); + t!(s: "\\\\?\\C:\\a\\b\\", "\\\\?\\C:\\a", Some("b")); + t!(s: "\\\\?\\C:\\.\\b", "\\\\?\\C:\\.", Some("b")); + t!(s: "C:\\b", "\\\\?\\C:\\.", Some("..\\b")); + t!(s: "\\\\?\\a\\.\\b\\c", "\\\\?\\a\\.\\b", Some("c")); + t!(s: "\\\\?\\a\\b\\c", "\\\\?\\a\\.\\d", Some("..\\..\\b\\c")); + t!(s: "\\\\?\\a\\..\\b", "\\\\?\\a\\..", Some("b")); + t!(s: "\\\\?\\a\\b\\..", "\\\\?\\a\\b", Some("\\\\?\\a\\b\\..")); + t!(s: "\\\\?\\a\\b\\c", "\\\\?\\a\\..\\b", Some("..\\..\\b\\c")); + + t!(s: "\\\\?\\UNC\\a\\b\\c", "\\\\?\\UNC\\a\\b", Some("c")); + t!(s: "\\\\?\\UNC\\a\\b", "\\\\?\\UNC\\a\\b\\c", Some("..")); + t!(s: "\\\\?\\UNC\\a\\b\\c", "\\\\?\\UNC\\a\\c\\d", Some("\\\\?\\UNC\\a\\b\\c")); + t!(s: "\\\\?\\UNC\\b\\c\\d", "\\\\?\\UNC\\a\\c\\d", Some("\\\\?\\UNC\\b\\c\\d")); + t!(s: "\\\\?\\UNC\\a\\b\\c", "\\\\?\\a\\b\\c", Some("\\\\?\\UNC\\a\\b\\c")); + t!(s: "\\\\?\\UNC\\a\\b\\c", "\\\\?\\C:\\a\\b\\c", Some("\\\\?\\UNC\\a\\b\\c")); + t!(s: "\\\\?\\UNC\\a\\b\\c/d", "\\\\?\\UNC\\a\\b", Some("\\\\?\\UNC\\a\\b\\c/d")); + t!(s: "\\\\?\\UNC\\a\\b\\.", "\\\\?\\UNC\\a\\b", Some("\\\\?\\UNC\\a\\b\\.")); + t!(s: "\\\\?\\UNC\\a\\b\\..", "\\\\?\\UNC\\a\\b", Some("\\\\?\\UNC\\a\\b\\..")); + t!(s: "\\\\?\\UNC\\a\\b\\c", "\\\\a\\b", Some("c")); + t!(s: "\\\\?\\UNC\\a\\b", "\\\\a\\b\\c", Some("..")); + t!(s: "\\\\?\\UNC\\a\\b\\c", "\\\\a\\c\\d", Some("\\\\?\\UNC\\a\\b\\c")); + t!(s: "\\\\?\\UNC\\b\\c\\d", "\\\\a\\c\\d", Some("\\\\?\\UNC\\b\\c\\d")); + t!(s: "\\\\?\\UNC\\a\\b\\.", "\\\\a\\b", Some("\\\\?\\UNC\\a\\b\\.")); + t!(s: "\\\\?\\UNC\\a\\b\\c/d", "\\\\a\\b", Some("\\\\?\\UNC\\a\\b\\c/d")); + t!(s: "\\\\?\\UNC\\a\\b\\..", "\\\\a\\b", Some("\\\\?\\UNC\\a\\b\\..")); + t!(s: "\\\\a\\b\\c", "\\\\?\\UNC\\a\\b", Some("c")); + t!(s: "\\\\a\\b\\c", "\\\\?\\UNC\\a\\c\\d", Some("\\\\a\\b\\c")); + } + + #[test] + fn test_str_components() { + macro_rules! t { + (s: $path:expr, $exp:expr) => ( + { + let path = Path::new($path); + let comps = path.str_components().map(|x|x.unwrap()) + .collect::<Vec<&str>>(); + let exp: &[&str] = &$exp; + assert_eq!(comps, exp); + let comps = path.str_components().rev().map(|x|x.unwrap()) + .collect::<Vec<&str>>(); + let exp = exp.iter().rev().map(|&x|x).collect::<Vec<&str>>(); + assert_eq!(comps, exp); + } + ); + } + + t!(s: b"a\\b\\c", ["a", "b", "c"]); + t!(s: "a\\b\\c", ["a", "b", "c"]); + t!(s: "a\\b\\d", ["a", "b", "d"]); + t!(s: "a\\b\\cd", ["a", "b", "cd"]); + t!(s: "\\a\\b\\c", ["a", "b", "c"]); + t!(s: "a", ["a"]); + t!(s: "\\a", ["a"]); + t!(s: "\\", []); + t!(s: ".", ["."]); + t!(s: "..", [".."]); + t!(s: "..\\..", ["..", ".."]); + t!(s: "..\\..\\foo", ["..", "..", "foo"]); + t!(s: "C:foo\\bar", ["foo", "bar"]); + t!(s: "C:foo", ["foo"]); + t!(s: "C:", []); + t!(s: "C:\\foo\\bar", ["foo", "bar"]); + t!(s: "C:\\foo", ["foo"]); + t!(s: "C:\\", []); + t!(s: "\\\\server\\share\\foo\\bar", ["foo", "bar"]); + t!(s: "\\\\server\\share\\foo", ["foo"]); + t!(s: "\\\\server\\share", []); + t!(s: "\\\\?\\foo\\bar\\baz", ["bar", "baz"]); + t!(s: "\\\\?\\foo\\bar", ["bar"]); + t!(s: "\\\\?\\foo", []); + t!(s: "\\\\?\\", []); + t!(s: "\\\\?\\a\\b", ["b"]); + t!(s: "\\\\?\\a\\b\\", ["b"]); + t!(s: "\\\\?\\foo\\bar\\\\baz", ["bar", "", "baz"]); + t!(s: "\\\\?\\C:\\foo\\bar", ["foo", "bar"]); + t!(s: "\\\\?\\C:\\foo", ["foo"]); + t!(s: "\\\\?\\C:\\", []); + t!(s: "\\\\?\\C:\\foo\\", ["foo"]); + t!(s: "\\\\?\\UNC\\server\\share\\foo\\bar", ["foo", "bar"]); + t!(s: "\\\\?\\UNC\\server\\share\\foo", ["foo"]); + t!(s: "\\\\?\\UNC\\server\\share", []); + t!(s: "\\\\.\\foo\\bar\\baz", ["bar", "baz"]); + t!(s: "\\\\.\\foo\\bar", ["bar"]); + t!(s: "\\\\.\\foo", []); + } + + #[test] + fn test_components_iter() { + macro_rules! t { + (s: $path:expr, $exp:expr) => ( + { + let path = Path::new($path); + let comps = path.components().collect::<Vec<&[u8]>>(); + let exp: &[&[u8]] = &$exp; + assert_eq!(comps, exp); + let comps = path.components().rev().collect::<Vec<&[u8]>>(); + let exp = exp.iter().rev().map(|&x|x).collect::<Vec<&[u8]>>(); + assert_eq!(comps, exp); + } + ) + } + + t!(s: "a\\b\\c", [b"a", b"b", b"c"]); + t!(s: ".", [b"."]); + // since this is really a wrapper around str_components, those tests suffice + } + + #[test] + fn test_make_non_verbatim() { + macro_rules! t { + ($path:expr, $exp:expr) => ( + { + let path = Path::new($path); + let exp: Option<&str> = $exp; + let exp = exp.map(|s| Path::new(s)); + assert_eq!(make_non_verbatim(&path), exp); + } + ) + } + + t!(r"\a\b\c", Some(r"\a\b\c")); + t!(r"a\b\c", Some(r"a\b\c")); + t!(r"C:\a\b\c", Some(r"C:\a\b\c")); + t!(r"C:a\b\c", Some(r"C:a\b\c")); + t!(r"\\server\share\foo", Some(r"\\server\share\foo")); + t!(r"\\.\foo", None); + t!(r"\\?\foo", None); + t!(r"\\?\C:", None); + t!(r"\\?\C:foo", None); + t!(r"\\?\C:\", Some(r"C:\")); + t!(r"\\?\C:\foo", Some(r"C:\foo")); + t!(r"\\?\C:\foo\bar\baz", Some(r"C:\foo\bar\baz")); + t!(r"\\?\C:\foo\.\bar\baz", None); + t!(r"\\?\C:\foo\bar\..\baz", None); + t!(r"\\?\C:\foo\bar\..", None); + t!(r"\\?\UNC\server\share\foo", Some(r"\\server\share\foo")); + t!(r"\\?\UNC\server\share", Some(r"\\server\share")); + t!(r"\\?\UNC\server", None); + t!(r"\\?\UNC\server\", None); + } +} |