// Copyright 2012 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 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. /*! Cross-platform file path handling */ use cmp::Eq; use libc; use option::{None, Option, Some}; use str; use to_str::ToStr; use ascii::{AsciiCast, AsciiStr}; #[deriving(Clone, Eq)] pub struct WindowsPath { host: Option<~str>, device: Option<~str>, is_absolute: bool, components: ~[~str], } pub fn WindowsPath(s: &str) -> WindowsPath { GenericPath::from_str(s) } #[deriving(Clone, Eq)] pub struct PosixPath { is_absolute: bool, components: ~[~str], } pub fn PosixPath(s: &str) -> PosixPath { GenericPath::from_str(s) } pub trait GenericPath { fn from_str(&str) -> Self; fn dirname(&self) -> ~str; fn filename(&self) -> Option<~str>; fn filestem(&self) -> Option<~str>; fn filetype(&self) -> Option<~str>; fn with_dirname(&self, (&str)) -> Self; fn with_filename(&self, (&str)) -> Self; fn with_filestem(&self, (&str)) -> Self; fn with_filetype(&self, (&str)) -> Self; fn dir_path(&self) -> Self; fn file_path(&self) -> Self; fn push(&self, (&str)) -> Self; fn push_rel(&self, (&Self)) -> Self; fn push_many(&self, (&[~str])) -> Self; fn pop(&self) -> Self; fn unsafe_join(&self, (&Self)) -> Self; fn is_restricted(&self) -> bool; fn normalize(&self) -> Self; fn is_absolute(&self) -> bool; } #[cfg(windows)] pub type Path = WindowsPath; #[cfg(windows)] pub fn Path(s: &str) -> Path { WindowsPath(s) } #[cfg(unix)] pub type Path = PosixPath; #[cfg(unix)] pub fn Path(s: &str) -> Path { PosixPath(s) } #[cfg(target_os = "linux")] #[cfg(target_os = "android")] mod stat { #[cfg(target_arch = "x86")] #[cfg(target_arch = "arm")] #[cfg(target_arch = "mips")] pub mod arch { use libc; pub fn default_stat() -> libc::stat { libc::stat { st_dev: 0, __pad1: 0, st_ino: 0, st_mode: 0, st_nlink: 0, st_uid: 0, st_gid: 0, st_rdev: 0, __pad2: 0, st_size: 0, st_blksize: 0, st_blocks: 0, st_atime: 0, st_atime_nsec: 0, st_mtime: 0, st_mtime_nsec: 0, st_ctime: 0, st_ctime_nsec: 0, __unused4: 0, __unused5: 0, } } } #[cfg(target_arch = "x86_64")] pub mod arch { use libc; pub fn default_stat() -> libc::stat { libc::stat { st_dev: 0, st_ino: 0, st_nlink: 0, st_mode: 0, st_uid: 0, st_gid: 0, __pad0: 0, st_rdev: 0, st_size: 0, st_blksize: 0, st_blocks: 0, st_atime: 0, st_atime_nsec: 0, st_mtime: 0, st_mtime_nsec: 0, st_ctime: 0, st_ctime_nsec: 0, __unused: [0, 0, 0], } } } } #[cfg(target_os = "freebsd")] mod stat { #[cfg(target_arch = "x86_64")] pub mod arch { use libc; pub fn default_stat() -> libc::stat { libc::stat { st_dev: 0, st_ino: 0, st_mode: 0, st_nlink: 0, st_uid: 0, st_gid: 0, st_rdev: 0, st_atime: 0, st_atime_nsec: 0, st_mtime: 0, st_mtime_nsec: 0, st_ctime: 0, st_ctime_nsec: 0, st_size: 0, st_blocks: 0, st_blksize: 0, st_flags: 0, st_gen: 0, st_lspare: 0, st_birthtime: 0, st_birthtime_nsec: 0, __unused: [0, 0], } } } } #[cfg(target_os = "macos")] mod stat { pub mod arch { use libc; pub fn default_stat() -> libc::stat { libc::stat { st_dev: 0, st_mode: 0, st_nlink: 0, st_ino: 0, st_uid: 0, st_gid: 0, st_rdev: 0, st_atime: 0, st_atime_nsec: 0, st_mtime: 0, st_mtime_nsec: 0, st_ctime: 0, st_ctime_nsec: 0, st_birthtime: 0, st_birthtime_nsec: 0, st_size: 0, st_blocks: 0, st_blksize: 0, st_flags: 0, st_gen: 0, st_lspare: 0, st_qspare: [0, 0], } } } } #[cfg(target_os = "win32")] mod stat { pub mod arch { use libc; pub fn default_stat() -> libc::stat { libc::stat { st_dev: 0, st_ino: 0, st_mode: 0, st_nlink: 0, st_uid: 0, st_gid: 0, st_rdev: 0, st_size: 0, st_atime: 0, st_mtime: 0, st_ctime: 0, } } } } pub impl Path { fn stat(&self) -> Option { unsafe { do str::as_c_str(self.to_str()) |buf| { let mut st = stat::arch::default_stat(); let r = libc::stat(buf, &mut st); if r == 0 { Some(st) } else { None } } } } #[cfg(unix)] fn lstat(&self) -> Option { unsafe { do str::as_c_str(self.to_str()) |buf| { let mut st = stat::arch::default_stat(); let r = libc::lstat(buf, &mut st); if r == 0 { Some(st) } else { None } } } } fn exists(&self) -> bool { match self.stat() { None => false, Some(_) => true, } } fn get_size(&self) -> Option { match self.stat() { None => None, Some(ref st) => Some(st.st_size as i64), } } fn get_mode(&self) -> Option { match self.stat() { None => None, Some(ref st) => Some(st.st_mode as uint), } } } #[cfg(target_os = "freebsd")] #[cfg(target_os = "linux")] #[cfg(target_os = "macos")] pub impl Path { fn get_atime(&self) -> Option<(i64, int)> { match self.stat() { None => None, Some(ref st) => { Some((st.st_atime as i64, st.st_atime_nsec as int)) } } } fn get_mtime(&self) -> Option<(i64, int)> { match self.stat() { None => None, Some(ref st) => { Some((st.st_mtime as i64, st.st_mtime_nsec as int)) } } } fn get_ctime(&self) -> Option<(i64, int)> { match self.stat() { None => None, Some(ref st) => { Some((st.st_ctime as i64, st.st_ctime_nsec as int)) } } } } #[cfg(target_os = "freebsd")] #[cfg(target_os = "macos")] pub impl Path { fn get_birthtime(&self) -> Option<(i64, int)> { match self.stat() { None => None, Some(ref st) => { Some((st.st_birthtime as i64, st.st_birthtime_nsec as int)) } } } } #[cfg(target_os = "win32")] pub impl Path { fn get_atime(&self) -> Option<(i64, int)> { match self.stat() { None => None, Some(ref st) => { Some((st.st_atime as i64, 0)) } } } fn get_mtime(&self) -> Option<(i64, int)> { match self.stat() { None => None, Some(ref st) => { Some((st.st_mtime as i64, 0)) } } } fn get_ctime(&self) -> Option<(i64, int)> { match self.stat() { None => None, Some(ref st) => { Some((st.st_ctime as i64, 0)) } } } } impl ToStr for PosixPath { fn to_str(&self) -> ~str { let mut s = ~""; if self.is_absolute { s += "/"; } s + str::connect(self.components, "/") } } // FIXME (#3227): when default methods in traits are working, de-duplicate // PosixPath and WindowsPath, most of their methods are common. impl GenericPath for PosixPath { fn from_str(s: &str) -> PosixPath { let mut components = ~[]; for str::each_split_nonempty(s, |c| c == '/') |s| { components.push(s.to_owned()) } let is_absolute = (s.len() != 0 && s[0] == '/' as u8); return PosixPath { is_absolute: is_absolute, components: components } } fn dirname(&self) -> ~str { let s = self.dir_path().to_str(); if s.len() == 0 { ~"." } else { s } } fn filename(&self) -> Option<~str> { match self.components.len() { 0 => None, n => Some(copy self.components[n - 1]) } } fn filestem(&self) -> Option<~str> { match self.filename() { None => None, Some(ref f) => { match str::rfind_char(*f, '.') { Some(p) => Some(f.slice(0, p).to_owned()), None => Some(copy *f) } } } } fn filetype(&self) -> Option<~str> { match self.filename() { None => None, Some(ref f) => { match str::rfind_char(*f, '.') { Some(p) if p < f.len() => Some(f.slice(p, f.len()).to_owned()), _ => None } } } } fn with_dirname(&self, d: &str) -> PosixPath { let dpath = PosixPath(d); match self.filename() { Some(ref f) => dpath.push(*f), None => dpath } } fn with_filename(&self, f: &str) -> PosixPath { assert!(! str::any(f, |c| windows::is_sep(c as u8))); self.dir_path().push(f) } fn with_filestem(&self, s: &str) -> PosixPath { match self.filetype() { None => self.with_filename(s), Some(ref t) => self.with_filename(str::from_slice(s) + *t) } } fn with_filetype(&self, t: &str) -> PosixPath { if t.len() == 0 { match self.filestem() { None => copy *self, Some(ref s) => self.with_filename(*s) } } else { let t = ~"." + str::from_slice(t); match self.filestem() { None => self.with_filename(t), Some(ref s) => self.with_filename(*s + t) } } } fn dir_path(&self) -> PosixPath { if self.components.len() != 0 { self.pop() } else { copy *self } } fn file_path(&self) -> PosixPath { let cs = match self.filename() { None => ~[], Some(ref f) => ~[copy *f] }; return PosixPath { is_absolute: false, components: cs } } fn push_rel(&self, other: &PosixPath) -> PosixPath { assert!(!other.is_absolute); self.push_many(other.components) } fn unsafe_join(&self, other: &PosixPath) -> PosixPath { if other.is_absolute { PosixPath { is_absolute: true, components: copy other.components } } else { self.push_rel(other) } } fn is_restricted(&self) -> bool { false } fn push_many(&self, cs: &[~str]) -> PosixPath { let mut v = copy self.components; for cs.each |e| { let mut ss = ~[]; for str::each_split_nonempty(*e, |c| windows::is_sep(c as u8)) |s| { ss.push(s.to_owned()) } v.push_all_move(ss); } PosixPath { is_absolute: self.is_absolute, components: v } } fn push(&self, s: &str) -> PosixPath { let mut v = copy self.components; let mut ss = ~[]; for str::each_split_nonempty(s, |c| windows::is_sep(c as u8)) |s| { ss.push(s.to_owned()) } v.push_all_move(ss); PosixPath { components: v, ..copy *self } } fn pop(&self) -> PosixPath { let mut cs = copy self.components; if cs.len() != 0 { cs.pop(); } return PosixPath { is_absolute: self.is_absolute, components: cs } //..self } } fn normalize(&self) -> PosixPath { return PosixPath { is_absolute: self.is_absolute, components: normalize(self.components) // ..self } } fn is_absolute(&self) -> bool { self.is_absolute } } impl ToStr for WindowsPath { fn to_str(&self) -> ~str { let mut s = ~""; match self.host { Some(ref h) => { s += "\\\\"; s += *h; } None => { } } match self.device { Some(ref d) => { s += *d; s += ":"; } None => { } } if self.is_absolute { s += "\\"; } s + str::connect(self.components, "\\") } } impl GenericPath for WindowsPath { fn from_str(s: &str) -> WindowsPath { let host; let device; let rest; match windows::extract_drive_prefix(s) { Some((ref d, ref r)) => { host = None; device = Some(copy *d); rest = copy *r; } None => { match windows::extract_unc_prefix(s) { Some((ref h, ref r)) => { host = Some(copy *h); device = None; rest = copy *r; } None => { host = None; device = None; rest = str::from_slice(s); } } } } let mut components = ~[]; for str::each_split_nonempty(rest, |c| windows::is_sep(c as u8)) |s| { components.push(s.to_owned()) } let is_absolute = (rest.len() != 0 && windows::is_sep(rest[0])); return WindowsPath { host: host, device: device, is_absolute: is_absolute, components: components } } fn dirname(&self) -> ~str { let s = self.dir_path().to_str(); if s.len() == 0 { ~"." } else { s } } fn filename(&self) -> Option<~str> { match self.components.len() { 0 => None, n => Some(copy self.components[n - 1]) } } fn filestem(&self) -> Option<~str> { match self.filename() { None => None, Some(ref f) => { match str::rfind_char(*f, '.') { Some(p) => Some(f.slice(0, p).to_owned()), None => Some(copy *f) } } } } fn filetype(&self) -> Option<~str> { match self.filename() { None => None, Some(ref f) => { match str::rfind_char(*f, '.') { Some(p) if p < f.len() => Some(f.slice(p, f.len()).to_owned()), _ => None } } } } fn with_dirname(&self, d: &str) -> WindowsPath { let dpath = WindowsPath(d); match self.filename() { Some(ref f) => dpath.push(*f), None => dpath } } fn with_filename(&self, f: &str) -> WindowsPath { assert!(! str::any(f, |c| windows::is_sep(c as u8))); self.dir_path().push(f) } fn with_filestem(&self, s: &str) -> WindowsPath { match self.filetype() { None => self.with_filename(s), Some(ref t) => self.with_filename(str::from_slice(s) + *t) } } fn with_filetype(&self, t: &str) -> WindowsPath { if t.len() == 0 { match self.filestem() { None => copy *self, Some(ref s) => self.with_filename(*s) } } else { let t = ~"." + str::from_slice(t); match self.filestem() { None => self.with_filename(t), Some(ref s) => self.with_filename(*s + t) } } } fn dir_path(&self) -> WindowsPath { if self.components.len() != 0 { self.pop() } else { copy *self } } fn file_path(&self) -> WindowsPath { let cs = match self.filename() { None => ~[], Some(ref f) => ~[copy *f] }; return WindowsPath { host: None, device: None, is_absolute: false, components: cs } } fn push_rel(&self, other: &WindowsPath) -> WindowsPath { assert!(!other.is_absolute); self.push_many(other.components) } fn unsafe_join(&self, other: &WindowsPath) -> WindowsPath { /* rhs not absolute is simple push */ if !other.is_absolute { return self.push_many(other.components); } /* if rhs has a host set, then the whole thing wins */ match other.host { Some(copy host) => { return WindowsPath { host: Some(host), device: copy other.device, is_absolute: true, components: copy other.components }; } _ => {} } /* if rhs has a device set, then a part wins */ match other.device { Some(copy device) => { return WindowsPath { host: None, device: Some(device), is_absolute: true, components: copy other.components }; } _ => {} } /* fallback: host and device of lhs win, but the whole path of the right */ WindowsPath { host: copy self.host, device: copy self.device, is_absolute: self.is_absolute || other.is_absolute, components: copy other.components } } fn is_restricted(&self) -> bool { match self.filestem() { Some(stem) => { // FIXME: #4318 Instead of to_ascii and to_str_ascii, could use // to_ascii_consume and to_str_consume to not do a unnecessary copy. match stem.to_ascii().to_lower().to_str_ascii() { ~"con" | ~"aux" | ~"com1" | ~"com2" | ~"com3" | ~"com4" | ~"lpt1" | ~"lpt2" | ~"lpt3" | ~"prn" | ~"nul" => true, _ => false } }, None => false } } fn push_many(&self, cs: &[~str]) -> WindowsPath { let mut v = copy self.components; for cs.each |e| { let mut ss = ~[]; for str::each_split_nonempty(*e, |c| windows::is_sep(c as u8)) |s| { ss.push(s.to_owned()) } v.push_all_move(ss); } // tedious, but as-is, we can't use ..self return WindowsPath { host: copy self.host, device: copy self.device, is_absolute: self.is_absolute, components: v } } fn push(&self, s: &str) -> WindowsPath { let mut v = copy self.components; let mut ss = ~[]; for str::each_split_nonempty(s, |c| windows::is_sep(c as u8)) |s| { ss.push(s.to_owned()) } v.push_all_move(ss); return WindowsPath { components: v, ..copy *self } } fn pop(&self) -> WindowsPath { let mut cs = copy self.components; if cs.len() != 0 { cs.pop(); } return WindowsPath { host: copy self.host, device: copy self.device, is_absolute: self.is_absolute, components: cs } } fn normalize(&self) -> WindowsPath { return WindowsPath { host: copy self.host, device: match self.device { None => None, // FIXME: #4318 Instead of to_ascii and to_str_ascii, could use // to_ascii_consume and to_str_consume to not do a unnecessary copy. Some(ref device) => Some(device.to_ascii().to_upper().to_str_ascii()) }, is_absolute: self.is_absolute, components: normalize(self.components) } } fn is_absolute(&self) -> bool { self.is_absolute } } pub fn normalize(components: &[~str]) -> ~[~str] { let mut cs = ~[]; for components.each |c| { if *c == ~"." && components.len() > 1 { loop; } if *c == ~"" { loop; } if *c == ~".." && cs.len() != 0 { cs.pop(); loop; } cs.push(copy *c); } cs } // Various windows helpers, and tests for the impl. pub mod windows { use libc; use option::{None, Option, Some}; #[inline(always)] pub fn is_sep(u: u8) -> bool { u == '/' as u8 || u == '\\' as u8 } pub fn extract_unc_prefix(s: &str) -> Option<(~str,~str)> { if (s.len() > 1 && (s[0] == '\\' as u8 || s[0] == '/' as u8) && s[0] == s[1]) { let mut i = 2; while i < s.len() { if is_sep(s[i]) { let pre = s.slice(2, i).to_owned(); let rest = s.slice(i, s.len()).to_owned(); return Some((pre, rest)); } i += 1; } } None } pub fn extract_drive_prefix(s: &str) -> Option<(~str,~str)> { unsafe { if (s.len() > 1 && libc::isalpha(s[0] as libc::c_int) != 0 && s[1] == ':' as u8) { let rest = if s.len() == 2 { ~"" } else { s.slice(2, s.len()).to_owned() }; return Some((s.slice(0,1).to_owned(), rest)); } None } } } #[cfg(test)] mod tests { use option::{None, Some}; use path::{PosixPath, WindowsPath, windows}; use str; #[test] fn test_double_slash_collapsing() { let path = PosixPath("tmp/"); let path = path.push("/hmm"); let path = path.normalize(); assert!(~"tmp/hmm" == path.to_str()); let path = WindowsPath("tmp/"); let path = path.push("/hmm"); let path = path.normalize(); assert!(~"tmp\\hmm" == path.to_str()); } #[test] fn test_filetype_foo_bar() { let wp = PosixPath("foo.bar"); assert!(wp.filetype() == Some(~".bar")); let wp = WindowsPath("foo.bar"); assert!(wp.filetype() == Some(~".bar")); } #[test] fn test_filetype_foo() { let wp = PosixPath("foo"); assert!(wp.filetype() == None); let wp = WindowsPath("foo"); assert!(wp.filetype() == None); } #[test] fn test_posix_paths() { fn t(wp: &PosixPath, s: &str) { let ss = wp.to_str(); let sss = str::from_slice(s); if (ss != sss) { debug!("got %s", ss); debug!("expected %s", sss); assert!(ss == sss); } } t(&(PosixPath("hi")), "hi"); t(&(PosixPath("/lib")), "/lib"); t(&(PosixPath("hi/there")), "hi/there"); t(&(PosixPath("hi/there.txt")), "hi/there.txt"); t(&(PosixPath("hi/there.txt")), "hi/there.txt"); t(&(PosixPath("hi/there.txt") .with_filetype("")), "hi/there"); t(&(PosixPath("/a/b/c/there.txt") .with_dirname("hi")), "hi/there.txt"); t(&(PosixPath("hi/there.txt") .with_dirname(".")), "./there.txt"); t(&(PosixPath("a/b/c") .push("..")), "a/b/c/.."); t(&(PosixPath("there.txt") .with_filetype("o")), "there.o"); t(&(PosixPath("hi/there.txt") .with_filetype("o")), "hi/there.o"); t(&(PosixPath("hi/there.txt") .with_filetype("o") .with_dirname("/usr/lib")), "/usr/lib/there.o"); t(&(PosixPath("hi/there.txt") .with_filetype("o") .with_dirname("/usr/lib/")), "/usr/lib/there.o"); t(&(PosixPath("hi/there.txt") .with_filetype("o") .with_dirname("/usr//lib//")), "/usr/lib/there.o"); t(&(PosixPath("/usr/bin/rust") .push_many([~"lib", ~"thingy.so"]) .with_filestem("librustc")), "/usr/bin/rust/lib/librustc.so"); } #[test] fn test_normalize() { fn t(wp: &PosixPath, s: &str) { let ss = wp.to_str(); let sss = str::from_slice(s); if (ss != sss) { debug!("got %s", ss); debug!("expected %s", sss); assert!(ss == sss); } } t(&(PosixPath("hi/there.txt") .with_dirname(".").normalize()), "there.txt"); t(&(PosixPath("a/b/../c/././/../foo.txt/").normalize()), "a/foo.txt"); t(&(PosixPath("a/b/c") .push("..").normalize()), "a/b"); } #[test] fn test_extract_unc_prefixes() { assert!(windows::extract_unc_prefix("\\\\").is_none()); assert!(windows::extract_unc_prefix("//").is_none()); assert!(windows::extract_unc_prefix("\\\\hi").is_none()); assert!(windows::extract_unc_prefix("//hi").is_none()); assert!(windows::extract_unc_prefix("\\\\hi\\") == Some((~"hi", ~"\\"))); assert!(windows::extract_unc_prefix("//hi\\") == Some((~"hi", ~"\\"))); assert!(windows::extract_unc_prefix("\\\\hi\\there") == Some((~"hi", ~"\\there"))); assert!(windows::extract_unc_prefix("//hi/there") == Some((~"hi", ~"/there"))); assert!(windows::extract_unc_prefix( "\\\\hi\\there\\friends.txt") == Some((~"hi", ~"\\there\\friends.txt"))); assert!(windows::extract_unc_prefix( "//hi\\there\\friends.txt") == Some((~"hi", ~"\\there\\friends.txt"))); } #[test] fn test_extract_drive_prefixes() { assert!(windows::extract_drive_prefix("c").is_none()); assert!(windows::extract_drive_prefix("c:") == Some((~"c", ~""))); assert!(windows::extract_drive_prefix("d:") == Some((~"d", ~""))); assert!(windows::extract_drive_prefix("z:") == Some((~"z", ~""))); assert!(windows::extract_drive_prefix("c:\\hi") == Some((~"c", ~"\\hi"))); assert!(windows::extract_drive_prefix("d:hi") == Some((~"d", ~"hi"))); assert!(windows::extract_drive_prefix("c:hi\\there.txt") == Some((~"c", ~"hi\\there.txt"))); assert!(windows::extract_drive_prefix("c:\\hi\\there.txt") == Some((~"c", ~"\\hi\\there.txt"))); } #[test] fn test_windows_paths() { fn t(wp: &WindowsPath, s: &str) { let ss = wp.to_str(); let sss = str::from_slice(s); if (ss != sss) { debug!("got %s", ss); debug!("expected %s", sss); assert!(ss == sss); } } t(&(WindowsPath("hi")), "hi"); t(&(WindowsPath("hi/there")), "hi\\there"); t(&(WindowsPath("hi/there.txt")), "hi\\there.txt"); t(&(WindowsPath("there.txt") .with_filetype("o")), "there.o"); t(&(WindowsPath("hi/there.txt") .with_filetype("o")), "hi\\there.o"); t(&(WindowsPath("hi/there.txt") .with_filetype("o") .with_dirname("c:\\program files A")), "c:\\program files A\\there.o"); t(&(WindowsPath("hi/there.txt") .with_filetype("o") .with_dirname("c:\\program files B\\")), "c:\\program files B\\there.o"); t(&(WindowsPath("hi/there.txt") .with_filetype("o") .with_dirname("c:\\program files C\\/")), "c:\\program files C\\there.o"); t(&(WindowsPath("c:\\program files (x86)\\rust") .push_many([~"lib", ~"thingy.dll"]) .with_filename("librustc.dll")), "c:\\program files (x86)\\rust\\lib\\librustc.dll"); t(&(WindowsPath("\\\\computer\\share") .unsafe_join(&WindowsPath("\\a"))), "\\\\computer\\a"); t(&(WindowsPath("//computer/share") .unsafe_join(&WindowsPath("\\a"))), "\\\\computer\\a"); t(&(WindowsPath("//computer/share") .unsafe_join(&WindowsPath("\\\\computer\\share"))), "\\\\computer\\share"); t(&(WindowsPath("C:/whatever") .unsafe_join(&WindowsPath("//computer/share/a/b"))), "\\\\computer\\share\\a\\b"); t(&(WindowsPath("C:") .unsafe_join(&WindowsPath("D:/foo"))), "D:\\foo"); t(&(WindowsPath("C:") .unsafe_join(&WindowsPath("B"))), "C:B"); t(&(WindowsPath("C:") .unsafe_join(&WindowsPath("/foo"))), "C:\\foo"); t(&(WindowsPath("C:\\") .unsafe_join(&WindowsPath("\\bar"))), "C:\\bar"); t(&(WindowsPath("") .unsafe_join(&WindowsPath(""))), ""); t(&(WindowsPath("") .unsafe_join(&WindowsPath("a"))), "a"); t(&(WindowsPath("") .unsafe_join(&WindowsPath("C:\\a"))), "C:\\a"); t(&(WindowsPath("c:\\foo") .normalize()), "C:\\foo"); } #[test] fn test_windows_path_restrictions() { assert!(WindowsPath("hi").is_restricted() == false); assert!(WindowsPath("C:\\NUL").is_restricted() == true); assert!(WindowsPath("C:\\COM1.TXT").is_restricted() == true); assert!(WindowsPath("c:\\prn.exe").is_restricted() == true); } }