zig/std/os/path.zig

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const std = @import("../index.zig");
const builtin = @import("builtin");
const Os = builtin.Os;
const debug = std.debug;
const assert = debug.assert;
const mem = std.mem;
const fmt = std.fmt;
const Allocator = mem.Allocator;
const os = std.os;
const math = std.math;
const posix = os.posix;
const windows = os.windows;
const cstr = std.cstr;
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pub const sep_windows = '\\';
pub const sep_posix = '/';
pub const sep = if (is_windows) sep_windows else sep_posix;
pub const delimiter_windows = ';';
pub const delimiter_posix = ':';
pub const delimiter = if (is_windows) delimiter_windows else delimiter_posix;
const is_windows = builtin.os == builtin.Os.windows;
pub fn isSep(byte: u8) bool {
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if (is_windows) {
return byte == '/' or byte == '\\';
} else {
return byte == '/';
}
}
/// Naively combines a series of paths with the native path seperator.
/// Allocates memory for the result, which must be freed by the caller.
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pub fn join(allocator: &Allocator, paths: ...) ![]u8 {
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if (is_windows) {
return joinWindows(allocator, paths);
} else {
return joinPosix(allocator, paths);
}
}
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pub fn joinWindows(allocator: &Allocator, paths: ...) ![]u8 {
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return mem.join(allocator, sep_windows, paths);
}
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pub fn joinPosix(allocator: &Allocator, paths: ...) ![]u8 {
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return mem.join(allocator, sep_posix, paths);
}
test "os.path.join" {
assert(mem.eql(u8, try joinWindows(debug.global_allocator, "c:\\a\\b", "c"), "c:\\a\\b\\c"));
assert(mem.eql(u8, try joinWindows(debug.global_allocator, "c:\\a\\b\\", "c"), "c:\\a\\b\\c"));
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assert(mem.eql(u8, try joinWindows(debug.global_allocator, "c:\\", "a", "b\\", "c"), "c:\\a\\b\\c"));
assert(mem.eql(u8, try joinWindows(debug.global_allocator, "c:\\a\\", "b\\", "c"), "c:\\a\\b\\c"));
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assert(mem.eql(u8, try joinWindows(debug.global_allocator,
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"c:\\home\\andy\\dev\\zig\\build\\lib\\zig\\std", "io.zig"),
"c:\\home\\andy\\dev\\zig\\build\\lib\\zig\\std\\io.zig"));
assert(mem.eql(u8, try joinPosix(debug.global_allocator, "/a/b", "c"), "/a/b/c"));
assert(mem.eql(u8, try joinPosix(debug.global_allocator, "/a/b/", "c"), "/a/b/c"));
assert(mem.eql(u8, try joinPosix(debug.global_allocator, "/", "a", "b/", "c"), "/a/b/c"));
assert(mem.eql(u8, try joinPosix(debug.global_allocator, "/a/", "b/", "c"), "/a/b/c"));
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assert(mem.eql(u8, try joinPosix(debug.global_allocator, "/home/andy/dev/zig/build/lib/zig/std", "io.zig"),
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"/home/andy/dev/zig/build/lib/zig/std/io.zig"));
}
pub fn isAbsolute(path: []const u8) bool {
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if (is_windows) {
return isAbsoluteWindows(path);
} else {
return isAbsolutePosix(path);
}
}
pub fn isAbsoluteWindows(path: []const u8) bool {
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if (path[0] == '/')
return true;
if (path[0] == '\\') {
return true;
}
if (path.len < 3) {
return false;
}
if (path[1] == ':') {
if (path[2] == '/')
return true;
if (path[2] == '\\')
return true;
}
return false;
}
pub fn isAbsolutePosix(path: []const u8) bool {
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return path[0] == sep_posix;
}
test "os.path.isAbsoluteWindows" {
testIsAbsoluteWindows("/", true);
testIsAbsoluteWindows("//", true);
testIsAbsoluteWindows("//server", true);
testIsAbsoluteWindows("//server/file", true);
testIsAbsoluteWindows("\\\\server\\file", true);
testIsAbsoluteWindows("\\\\server", true);
testIsAbsoluteWindows("\\\\", true);
testIsAbsoluteWindows("c", false);
testIsAbsoluteWindows("c:", false);
testIsAbsoluteWindows("c:\\", true);
testIsAbsoluteWindows("c:/", true);
testIsAbsoluteWindows("c://", true);
testIsAbsoluteWindows("C:/Users/", true);
testIsAbsoluteWindows("C:\\Users\\", true);
testIsAbsoluteWindows("C:cwd/another", false);
testIsAbsoluteWindows("C:cwd\\another", false);
testIsAbsoluteWindows("directory/directory", false);
testIsAbsoluteWindows("directory\\directory", false);
testIsAbsoluteWindows("/usr/local", true);
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}
test "os.path.isAbsolutePosix" {
testIsAbsolutePosix("/home/foo", true);
testIsAbsolutePosix("/home/foo/..", true);
testIsAbsolutePosix("bar/", false);
testIsAbsolutePosix("./baz", false);
}
fn testIsAbsoluteWindows(path: []const u8, expected_result: bool) void {
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assert(isAbsoluteWindows(path) == expected_result);
}
fn testIsAbsolutePosix(path: []const u8, expected_result: bool) void {
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assert(isAbsolutePosix(path) == expected_result);
}
pub const WindowsPath = struct {
is_abs: bool,
kind: Kind,
disk_designator: []const u8,
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pub const Kind = enum {
None,
Drive,
NetworkShare,
};
};
pub fn windowsParsePath(path: []const u8) WindowsPath {
if (path.len >= 2 and path[1] == ':') {
return WindowsPath {
.is_abs = isAbsoluteWindows(path),
.kind = WindowsPath.Kind.Drive,
.disk_designator = path[0..2],
};
}
if (path.len >= 1 and (path[0] == '/' or path[0] == '\\') and
(path.len == 1 or (path[1] != '/' and path[1] != '\\')))
{
return WindowsPath {
.is_abs = true,
.kind = WindowsPath.Kind.None,
.disk_designator = path[0..0],
};
}
const relative_path = WindowsPath {
.kind = WindowsPath.Kind.None,
.disk_designator = []u8{},
.is_abs = false,
};
if (path.len < "//a/b".len) {
return relative_path;
}
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// TODO when I combined these together with `inline for` the compiler crashed
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{
const this_sep = '/';
const two_sep = []u8{this_sep, this_sep};
if (mem.startsWith(u8, path, two_sep)) {
if (path[2] == this_sep) {
return relative_path;
}
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var it = mem.split(path, []u8{this_sep});
_ = (it.next() ?? return relative_path);
_ = (it.next() ?? return relative_path);
return WindowsPath {
.is_abs = isAbsoluteWindows(path),
.kind = WindowsPath.Kind.NetworkShare,
.disk_designator = path[0..it.index],
};
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}
}
{
const this_sep = '\\';
const two_sep = []u8{this_sep, this_sep};
if (mem.startsWith(u8, path, two_sep)) {
if (path[2] == this_sep) {
return relative_path;
}
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var it = mem.split(path, []u8{this_sep});
_ = (it.next() ?? return relative_path);
_ = (it.next() ?? return relative_path);
return WindowsPath {
.is_abs = isAbsoluteWindows(path),
.kind = WindowsPath.Kind.NetworkShare,
.disk_designator = path[0..it.index],
};
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}
}
return relative_path;
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}
test "os.path.windowsParsePath" {
{
const parsed = windowsParsePath("//a/b");
assert(parsed.is_abs);
assert(parsed.kind == WindowsPath.Kind.NetworkShare);
assert(mem.eql(u8, parsed.disk_designator, "//a/b"));
}
{
const parsed = windowsParsePath("\\\\a\\b");
assert(parsed.is_abs);
assert(parsed.kind == WindowsPath.Kind.NetworkShare);
assert(mem.eql(u8, parsed.disk_designator, "\\\\a\\b"));
}
{
const parsed = windowsParsePath("\\\\a\\");
assert(!parsed.is_abs);
assert(parsed.kind == WindowsPath.Kind.None);
assert(mem.eql(u8, parsed.disk_designator, ""));
}
{
const parsed = windowsParsePath("/usr/local");
assert(parsed.is_abs);
assert(parsed.kind == WindowsPath.Kind.None);
assert(mem.eql(u8, parsed.disk_designator, ""));
}
{
const parsed = windowsParsePath("c:../");
assert(!parsed.is_abs);
assert(parsed.kind == WindowsPath.Kind.Drive);
assert(mem.eql(u8, parsed.disk_designator, "c:"));
}
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}
pub fn diskDesignator(path: []const u8) []const u8 {
if (is_windows) {
return diskDesignatorWindows(path);
} else {
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return "";
}
}
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pub fn diskDesignatorWindows(path: []const u8) []const u8 {
return windowsParsePath(path).disk_designator;
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}
fn networkShareServersEql(ns1: []const u8, ns2: []const u8) bool {
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const sep1 = ns1[0];
const sep2 = ns2[0];
var it1 = mem.split(ns1, []u8{sep1});
var it2 = mem.split(ns2, []u8{sep2});
// TODO ASCII is wrong, we actually need full unicode support to compare paths.
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return asciiEqlIgnoreCase(??it1.next(), ??it2.next());
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}
fn compareDiskDesignators(kind: WindowsPath.Kind, p1: []const u8, p2: []const u8) bool {
switch (kind) {
WindowsPath.Kind.None => {
assert(p1.len == 0);
assert(p2.len == 0);
return true;
},
WindowsPath.Kind.Drive => {
return asciiUpper(p1[0]) == asciiUpper(p2[0]);
},
WindowsPath.Kind.NetworkShare => {
const sep1 = p1[0];
const sep2 = p2[0];
var it1 = mem.split(p1, []u8{sep1});
var it2 = mem.split(p2, []u8{sep2});
// TODO ASCII is wrong, we actually need full unicode support to compare paths.
return asciiEqlIgnoreCase(??it1.next(), ??it2.next()) and asciiEqlIgnoreCase(??it1.next(), ??it2.next());
},
}
}
fn asciiUpper(byte: u8) u8 {
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return switch (byte) {
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'a' ... 'z' => 'A' + (byte - 'a'),
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else => byte,
};
}
fn asciiEqlIgnoreCase(s1: []const u8, s2: []const u8) bool {
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if (s1.len != s2.len)
return false;
var i: usize = 0;
while (i < s1.len) : (i += 1) {
if (asciiUpper(s1[i]) != asciiUpper(s2[i]))
return false;
}
return true;
}
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/// Converts the command line arguments into a slice and calls `resolveSlice`.
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pub fn resolve(allocator: &Allocator, args: ...) ![]u8 {
var paths: [args.len][]const u8 = undefined;
comptime var arg_i = 0;
inline while (arg_i < args.len) : (arg_i += 1) {
paths[arg_i] = args[arg_i];
}
return resolveSlice(allocator, paths);
}
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/// On Windows, this calls `resolveWindows` and on POSIX it calls `resolvePosix`.
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pub fn resolveSlice(allocator: &Allocator, paths: []const []const u8) ![]u8 {
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if (is_windows) {
return resolveWindows(allocator, paths);
} else {
return resolvePosix(allocator, paths);
}
}
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/// This function is like a series of `cd` statements executed one after another.
/// It resolves "." and "..".
/// The result does not have a trailing path separator.
/// If all paths are relative it uses the current working directory as a starting point.
/// Each drive has its own current working directory.
/// Path separators are canonicalized to '\\' and drives are canonicalized to capital letters.
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pub fn resolveWindows(allocator: &Allocator, paths: []const []const u8) ![]u8 {
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if (paths.len == 0) {
assert(is_windows); // resolveWindows called on non windows can't use getCwd
return os.getCwd(allocator);
}
// determine which disk designator we will result with, if any
var result_drive_buf = "_:";
var result_disk_designator: []const u8 = "";
var have_drive_kind = WindowsPath.Kind.None;
var have_abs_path = false;
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var first_index: usize = 0;
var max_size: usize = 0;
for (paths) |p, i| {
const parsed = windowsParsePath(p);
if (parsed.is_abs) {
have_abs_path = true;
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first_index = i;
max_size = result_disk_designator.len;
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}
switch (parsed.kind) {
WindowsPath.Kind.Drive => {
result_drive_buf[0] = asciiUpper(parsed.disk_designator[0]);
result_disk_designator = result_drive_buf[0..];
have_drive_kind = WindowsPath.Kind.Drive;
},
WindowsPath.Kind.NetworkShare => {
result_disk_designator = parsed.disk_designator;
have_drive_kind = WindowsPath.Kind.NetworkShare;
},
WindowsPath.Kind.None => {},
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}
max_size += p.len + 1;
}
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// if we will result with a disk designator, loop again to determine
// which is the last time the disk designator is absolutely specified, if any
// and count up the max bytes for paths related to this disk designator
if (have_drive_kind != WindowsPath.Kind.None) {
have_abs_path = false;
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first_index = 0;
max_size = result_disk_designator.len;
var correct_disk_designator = false;
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for (paths) |p, i| {
const parsed = windowsParsePath(p);
if (parsed.kind != WindowsPath.Kind.None) {
if (parsed.kind == have_drive_kind) {
correct_disk_designator = compareDiskDesignators(have_drive_kind,
result_disk_designator, parsed.disk_designator);
} else {
continue;
}
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}
if (!correct_disk_designator) {
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continue;
}
if (parsed.is_abs) {
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first_index = i;
max_size = result_disk_designator.len;
have_abs_path = true;
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}
max_size += p.len + 1;
}
}
// Allocate result and fill in the disk designator, calling getCwd if we have to.
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var result: []u8 = undefined;
var result_index: usize = 0;
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if (have_abs_path) {
switch (have_drive_kind) {
WindowsPath.Kind.Drive => {
result = try allocator.alloc(u8, max_size);
mem.copy(u8, result, result_disk_designator);
result_index += result_disk_designator.len;
},
WindowsPath.Kind.NetworkShare => {
result = try allocator.alloc(u8, max_size);
var it = mem.split(paths[first_index], "/\\");
const server_name = ??it.next();
const other_name = ??it.next();
result[result_index] = '\\';
result_index += 1;
result[result_index] = '\\';
result_index += 1;
mem.copy(u8, result[result_index..], server_name);
result_index += server_name.len;
result[result_index] = '\\';
result_index += 1;
mem.copy(u8, result[result_index..], other_name);
result_index += other_name.len;
result_disk_designator = result[0..result_index];
},
WindowsPath.Kind.None => {
assert(is_windows); // resolveWindows called on non windows can't use getCwd
const cwd = try os.getCwd(allocator);
defer allocator.free(cwd);
const parsed_cwd = windowsParsePath(cwd);
result = try allocator.alloc(u8, max_size + parsed_cwd.disk_designator.len + 1);
mem.copy(u8, result, parsed_cwd.disk_designator);
result_index += parsed_cwd.disk_designator.len;
result_disk_designator = result[0..parsed_cwd.disk_designator.len];
if (parsed_cwd.kind == WindowsPath.Kind.Drive) {
result[0] = asciiUpper(result[0]);
}
have_drive_kind = parsed_cwd.kind;
},
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}
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} else {
assert(is_windows); // resolveWindows called on non windows can't use getCwd
// TODO call get cwd for the result_disk_designator instead of the global one
const cwd = try os.getCwd(allocator);
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defer allocator.free(cwd);
result = try allocator.alloc(u8, max_size + cwd.len + 1);
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mem.copy(u8, result, cwd);
result_index += cwd.len;
const parsed_cwd = windowsParsePath(result[0..result_index]);
result_disk_designator = parsed_cwd.disk_designator;
if (parsed_cwd.kind == WindowsPath.Kind.Drive) {
result[0] = asciiUpper(result[0]);
}
have_drive_kind = parsed_cwd.kind;
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}
errdefer allocator.free(result);
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// Now we know the disk designator to use, if any, and what kind it is. And our result
// is big enough to append all the paths to.
var correct_disk_designator = true;
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for (paths[first_index..]) |p, i| {
const parsed = windowsParsePath(p);
if (parsed.kind != WindowsPath.Kind.None) {
if (parsed.kind == have_drive_kind) {
correct_disk_designator = compareDiskDesignators(have_drive_kind,
result_disk_designator, parsed.disk_designator);
} else {
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continue;
}
}
if (!correct_disk_designator) {
continue;
}
var it = mem.split(p[parsed.disk_designator.len..], "/\\");
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while (it.next()) |component| {
if (mem.eql(u8, component, ".")) {
continue;
} else if (mem.eql(u8, component, "..")) {
while (true) {
if (result_index == 0 or result_index == result_disk_designator.len)
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break;
result_index -= 1;
if (result[result_index] == '\\' or result[result_index] == '/')
break;
}
} else {
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result[result_index] = sep_windows;
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result_index += 1;
mem.copy(u8, result[result_index..], component);
result_index += component.len;
}
}
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}
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if (result_index == result_disk_designator.len) {
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result[result_index] = '\\';
result_index += 1;
}
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return result[0..result_index];
}
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/// This function is like a series of `cd` statements executed one after another.
/// It resolves "." and "..".
/// The result does not have a trailing path separator.
/// If all paths are relative it uses the current working directory as a starting point.
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pub fn resolvePosix(allocator: &Allocator, paths: []const []const u8) ![]u8 {
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if (paths.len == 0) {
assert(!is_windows); // resolvePosix called on windows can't use getCwd
return os.getCwd(allocator);
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}
var first_index: usize = 0;
var have_abs = false;
var max_size: usize = 0;
for (paths) |p, i| {
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if (isAbsolutePosix(p)) {
first_index = i;
have_abs = true;
max_size = 0;
}
max_size += p.len + 1;
}
var result: []u8 = undefined;
var result_index: usize = 0;
if (have_abs) {
result = try allocator.alloc(u8, max_size);
} else {
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assert(!is_windows); // resolvePosix called on windows can't use getCwd
const cwd = try os.getCwd(allocator);
defer allocator.free(cwd);
result = try allocator.alloc(u8, max_size + cwd.len + 1);
mem.copy(u8, result, cwd);
result_index += cwd.len;
}
errdefer allocator.free(result);
for (paths[first_index..]) |p, i| {
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var it = mem.split(p, "/");
while (it.next()) |component| {
if (mem.eql(u8, component, ".")) {
continue;
} else if (mem.eql(u8, component, "..")) {
while (true) {
if (result_index == 0)
break;
result_index -= 1;
if (result[result_index] == '/')
break;
}
} else {
result[result_index] = '/';
result_index += 1;
mem.copy(u8, result[result_index..], component);
result_index += component.len;
}
}
}
if (result_index == 0) {
result[0] = '/';
result_index += 1;
}
return result[0..result_index];
}
test "os.path.resolve" {
const cwd = try os.getCwd(debug.global_allocator);
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if (is_windows) {
if (windowsParsePath(cwd).kind == WindowsPath.Kind.Drive) {
cwd[0] = asciiUpper(cwd[0]);
}
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assert(mem.eql(u8, testResolveWindows([][]const u8{"."}), cwd));
} else {
assert(mem.eql(u8, testResolvePosix([][]const u8{"a/b/c/", "../../.."}), cwd));
assert(mem.eql(u8, testResolvePosix([][]const u8{"."}), cwd));
}
}
test "os.path.resolveWindows" {
if (is_windows) {
const cwd = try os.getCwd(debug.global_allocator);
const parsed_cwd = windowsParsePath(cwd);
{
const result = testResolveWindows([][]const u8{"/usr/local", "lib\\zig\\std\\array_list.zig"});
const expected = try join(debug.global_allocator,
parsed_cwd.disk_designator, "usr\\local\\lib\\zig\\std\\array_list.zig");
if (parsed_cwd.kind == WindowsPath.Kind.Drive) {
expected[0] = asciiUpper(parsed_cwd.disk_designator[0]);
}
assert(mem.eql(u8, result, expected));
}
{
const result = testResolveWindows([][]const u8{"usr/local", "lib\\zig"});
const expected = try join(debug.global_allocator, cwd, "usr\\local\\lib\\zig");
if (parsed_cwd.kind == WindowsPath.Kind.Drive) {
expected[0] = asciiUpper(parsed_cwd.disk_designator[0]);
}
assert(mem.eql(u8, result, expected));
}
}
assert(mem.eql(u8, testResolveWindows([][]const u8{"c:\\a\\b\\c", "/hi", "ok"}), "C:\\hi\\ok"));
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assert(mem.eql(u8, testResolveWindows([][]const u8{"c:/blah\\blah", "d:/games", "c:../a"}), "C:\\blah\\a"));
assert(mem.eql(u8, testResolveWindows([][]const u8{"c:/blah\\blah", "d:/games", "C:../a"}), "C:\\blah\\a"));
assert(mem.eql(u8, testResolveWindows([][]const u8{"c:/ignore", "d:\\a/b\\c/d", "\\e.exe"}), "D:\\e.exe"));
assert(mem.eql(u8, testResolveWindows([][]const u8{"c:/ignore", "c:/some/file"}), "C:\\some\\file"));
assert(mem.eql(u8, testResolveWindows([][]const u8{"d:/ignore", "d:some/dir//"}), "D:\\ignore\\some\\dir"));
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assert(mem.eql(u8, testResolveWindows([][]const u8{"//server/share", "..", "relative\\"}), "\\\\server\\share\\relative"));
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assert(mem.eql(u8, testResolveWindows([][]const u8{"c:/", "//"}), "C:\\"));
assert(mem.eql(u8, testResolveWindows([][]const u8{"c:/", "//dir"}), "C:\\dir"));
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assert(mem.eql(u8, testResolveWindows([][]const u8{"c:/", "//server/share"}), "\\\\server\\share\\"));
assert(mem.eql(u8, testResolveWindows([][]const u8{"c:/", "//server//share"}), "\\\\server\\share\\"));
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assert(mem.eql(u8, testResolveWindows([][]const u8{"c:/", "///some//dir"}), "C:\\some\\dir"));
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assert(mem.eql(u8, testResolveWindows([][]const u8{"C:\\foo\\tmp.3\\", "..\\tmp.3\\cycles\\root.js"}),
"C:\\foo\\tmp.3\\cycles\\root.js"));
}
test "os.path.resolvePosix" {
assert(mem.eql(u8, testResolvePosix([][]const u8{"/a/b", "c"}), "/a/b/c"));
assert(mem.eql(u8, testResolvePosix([][]const u8{"/a/b", "c", "//d", "e///"}), "/d/e"));
assert(mem.eql(u8, testResolvePosix([][]const u8{"/a/b/c", "..", "../"}), "/a"));
assert(mem.eql(u8, testResolvePosix([][]const u8{"/", "..", ".."}), "/"));
assert(mem.eql(u8, testResolvePosix([][]const u8{"/a/b/c/"}), "/a/b/c"));
assert(mem.eql(u8, testResolvePosix([][]const u8{"/var/lib", "../", "file/"}), "/var/file"));
assert(mem.eql(u8, testResolvePosix([][]const u8{"/var/lib", "/../", "file/"}), "/file"));
assert(mem.eql(u8, testResolvePosix([][]const u8{"/some/dir", ".", "/absolute/"}), "/absolute"));
assert(mem.eql(u8, testResolvePosix([][]const u8{"/foo/tmp.3/", "../tmp.3/cycles/root.js"}), "/foo/tmp.3/cycles/root.js"));
}
fn testResolveWindows(paths: []const []const u8) []u8 {
return resolveWindows(debug.global_allocator, paths) catch unreachable;
}
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fn testResolvePosix(paths: []const []const u8) []u8 {
return resolvePosix(debug.global_allocator, paths) catch unreachable;
}
pub fn dirname(path: []const u8) []const u8 {
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if (is_windows) {
return dirnameWindows(path);
} else {
return dirnamePosix(path);
}
}
pub fn dirnameWindows(path: []const u8) []const u8 {
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if (path.len == 0)
return path[0..0];
const root_slice = diskDesignatorWindows(path);
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if (path.len == root_slice.len)
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return path;
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const have_root_slash = path.len > root_slice.len and (path[root_slice.len] == '/' or path[root_slice.len] == '\\');
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var end_index: usize = path.len - 1;
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while ((path[end_index] == '/' or path[end_index] == '\\') and end_index > root_slice.len) {
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if (end_index == 0)
return path[0..0];
end_index -= 1;
}
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while (path[end_index] != '/' and path[end_index] != '\\' and end_index > root_slice.len) {
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if (end_index == 0)
return path[0..0];
end_index -= 1;
}
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if (have_root_slash and end_index == root_slice.len) {
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end_index += 1;
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}
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return path[0..end_index];
}
pub fn dirnamePosix(path: []const u8) []const u8 {
if (path.len == 0)
return path[0..0];
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var end_index: usize = path.len - 1;
while (path[end_index] == '/') {
if (end_index == 0)
return path[0..1];
end_index -= 1;
}
while (path[end_index] != '/') {
if (end_index == 0)
return path[0..0];
end_index -= 1;
}
if (end_index == 0 and path[end_index] == '/')
return path[0..1];
return path[0..end_index];
}
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test "os.path.dirnamePosix" {
testDirnamePosix("/a/b/c", "/a/b");
testDirnamePosix("/a/b/c///", "/a/b");
testDirnamePosix("/a", "/");
testDirnamePosix("/", "/");
testDirnamePosix("////", "/");
testDirnamePosix("", "");
testDirnamePosix("a", "");
testDirnamePosix("a/", "");
testDirnamePosix("a//", "");
}
test "os.path.dirnameWindows" {
testDirnameWindows("c:\\", "c:\\");
testDirnameWindows("c:\\foo", "c:\\");
testDirnameWindows("c:\\foo\\", "c:\\");
testDirnameWindows("c:\\foo\\bar", "c:\\foo");
testDirnameWindows("c:\\foo\\bar\\", "c:\\foo");
testDirnameWindows("c:\\foo\\bar\\baz", "c:\\foo\\bar");
testDirnameWindows("\\", "\\");
testDirnameWindows("\\foo", "\\");
testDirnameWindows("\\foo\\", "\\");
testDirnameWindows("\\foo\\bar", "\\foo");
testDirnameWindows("\\foo\\bar\\", "\\foo");
testDirnameWindows("\\foo\\bar\\baz", "\\foo\\bar");
testDirnameWindows("c:", "c:");
testDirnameWindows("c:foo", "c:");
testDirnameWindows("c:foo\\", "c:");
testDirnameWindows("c:foo\\bar", "c:foo");
testDirnameWindows("c:foo\\bar\\", "c:foo");
testDirnameWindows("c:foo\\bar\\baz", "c:foo\\bar");
testDirnameWindows("file:stream", "");
testDirnameWindows("dir\\file:stream", "dir");
testDirnameWindows("\\\\unc\\share", "\\\\unc\\share");
testDirnameWindows("\\\\unc\\share\\foo", "\\\\unc\\share\\");
testDirnameWindows("\\\\unc\\share\\foo\\", "\\\\unc\\share\\");
testDirnameWindows("\\\\unc\\share\\foo\\bar", "\\\\unc\\share\\foo");
testDirnameWindows("\\\\unc\\share\\foo\\bar\\", "\\\\unc\\share\\foo");
testDirnameWindows("\\\\unc\\share\\foo\\bar\\baz", "\\\\unc\\share\\foo\\bar");
testDirnameWindows("/a/b/", "/a");
testDirnameWindows("/a/b", "/a");
testDirnameWindows("/a", "/");
testDirnameWindows("", "");
testDirnameWindows("/", "/");
testDirnameWindows("////", "/");
testDirnameWindows("foo", "");
}
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fn testDirnamePosix(input: []const u8, expected_output: []const u8) void {
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assert(mem.eql(u8, dirnamePosix(input), expected_output));
}
fn testDirnameWindows(input: []const u8, expected_output: []const u8) void {
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assert(mem.eql(u8, dirnameWindows(input), expected_output));
}
pub fn basename(path: []const u8) []const u8 {
if (is_windows) {
return basenameWindows(path);
} else {
return basenamePosix(path);
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}
}
pub fn basenamePosix(path: []const u8) []const u8 {
if (path.len == 0)
return []u8{};
var end_index: usize = path.len - 1;
while (path[end_index] == '/') {
if (end_index == 0)
return []u8{};
end_index -= 1;
}
var start_index: usize = end_index;
end_index += 1;
while (path[start_index] != '/') {
if (start_index == 0)
return path[0..end_index];
start_index -= 1;
}
return path[start_index + 1..end_index];
}
pub fn basenameWindows(path: []const u8) []const u8 {
if (path.len == 0)
return []u8{};
var end_index: usize = path.len - 1;
while (true) {
const byte = path[end_index];
if (byte == '/' or byte == '\\') {
if (end_index == 0)
return []u8{};
end_index -= 1;
continue;
}
if (byte == ':' and end_index == 1) {
return []u8{};
}
break;
}
var start_index: usize = end_index;
end_index += 1;
while (path[start_index] != '/' and path[start_index] != '\\' and
!(path[start_index] == ':' and start_index == 1))
{
if (start_index == 0)
return path[0..end_index];
start_index -= 1;
}
return path[start_index + 1..end_index];
}
test "os.path.basename" {
testBasename("", "");
testBasename("/", "");
testBasename("/dir/basename.ext", "basename.ext");
testBasename("/basename.ext", "basename.ext");
testBasename("basename.ext", "basename.ext");
testBasename("basename.ext/", "basename.ext");
testBasename("basename.ext//", "basename.ext");
testBasename("/aaa/bbb", "bbb");
testBasename("/aaa/", "aaa");
testBasename("/aaa/b", "b");
testBasename("/a/b", "b");
testBasename("//a", "a");
testBasenamePosix("\\dir\\basename.ext", "\\dir\\basename.ext");
testBasenamePosix("\\basename.ext", "\\basename.ext");
testBasenamePosix("basename.ext", "basename.ext");
testBasenamePosix("basename.ext\\", "basename.ext\\");
testBasenamePosix("basename.ext\\\\", "basename.ext\\\\");
testBasenamePosix("foo", "foo");
testBasenameWindows("\\dir\\basename.ext", "basename.ext");
testBasenameWindows("\\basename.ext", "basename.ext");
testBasenameWindows("basename.ext", "basename.ext");
testBasenameWindows("basename.ext\\", "basename.ext");
testBasenameWindows("basename.ext\\\\", "basename.ext");
testBasenameWindows("foo", "foo");
testBasenameWindows("C:", "");
testBasenameWindows("C:.", ".");
testBasenameWindows("C:\\", "");
testBasenameWindows("C:\\dir\\base.ext", "base.ext");
testBasenameWindows("C:\\basename.ext", "basename.ext");
testBasenameWindows("C:basename.ext", "basename.ext");
testBasenameWindows("C:basename.ext\\", "basename.ext");
testBasenameWindows("C:basename.ext\\\\", "basename.ext");
testBasenameWindows("C:foo", "foo");
testBasenameWindows("file:stream", "file:stream");
}
fn testBasename(input: []const u8, expected_output: []const u8) void {
assert(mem.eql(u8, basename(input), expected_output));
}
fn testBasenamePosix(input: []const u8, expected_output: []const u8) void {
assert(mem.eql(u8, basenamePosix(input), expected_output));
}
fn testBasenameWindows(input: []const u8, expected_output: []const u8) void {
assert(mem.eql(u8, basenameWindows(input), expected_output));
}
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/// Returns the relative path from `from` to `to`. If `from` and `to` each
/// resolve to the same path (after calling `resolve` on each), a zero-length
/// string is returned.
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/// On Windows this canonicalizes the drive to a capital letter and paths to `\\`.
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pub fn relative(allocator: &Allocator, from: []const u8, to: []const u8) ![]u8 {
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if (is_windows) {
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return relativeWindows(allocator, from, to);
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} else {
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return relativePosix(allocator, from, to);
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}
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}
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pub fn relativeWindows(allocator: &Allocator, from: []const u8, to: []const u8) ![]u8 {
const resolved_from = try resolveWindows(allocator, [][]const u8{from});
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defer allocator.free(resolved_from);
var clean_up_resolved_to = true;
const resolved_to = try resolveWindows(allocator, [][]const u8{to});
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defer if (clean_up_resolved_to) allocator.free(resolved_to);
const parsed_from = windowsParsePath(resolved_from);
const parsed_to = windowsParsePath(resolved_to);
const result_is_to = x: {
if (parsed_from.kind != parsed_to.kind) {
break :x true;
} else switch (parsed_from.kind) {
WindowsPath.Kind.NetworkShare => {
break :x !networkShareServersEql(parsed_to.disk_designator, parsed_from.disk_designator);
},
WindowsPath.Kind.Drive => {
break :x asciiUpper(parsed_from.disk_designator[0]) != asciiUpper(parsed_to.disk_designator[0]);
},
else => unreachable,
}
};
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if (result_is_to) {
clean_up_resolved_to = false;
return resolved_to;
}
var from_it = mem.split(resolved_from, "/\\");
var to_it = mem.split(resolved_to, "/\\");
while (true) {
const from_component = from_it.next() ?? return mem.dupe(allocator, u8, to_it.rest());
const to_rest = to_it.rest();
if (to_it.next()) |to_component| {
// TODO ASCII is wrong, we actually need full unicode support to compare paths.
if (asciiEqlIgnoreCase(from_component, to_component))
continue;
}
var up_count: usize = 1;
while (from_it.next()) |_| {
up_count += 1;
}
const up_index_end = up_count * "..\\".len;
const result = try allocator.alloc(u8, up_index_end + to_rest.len);
errdefer allocator.free(result);
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var result_index: usize = 0;
while (result_index < up_index_end) {
result[result_index] = '.';
result_index += 1;
result[result_index] = '.';
result_index += 1;
result[result_index] = '\\';
result_index += 1;
}
// shave off the trailing slash
result_index -= 1;
var rest_it = mem.split(to_rest, "/\\");
while (rest_it.next()) |to_component| {
result[result_index] = '\\';
result_index += 1;
mem.copy(u8, result[result_index..], to_component);
result_index += to_component.len;
}
return result[0..result_index];
}
return []u8{};
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}
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pub fn relativePosix(allocator: &Allocator, from: []const u8, to: []const u8) ![]u8 {
const resolved_from = try resolvePosix(allocator, [][]const u8{from});
defer allocator.free(resolved_from);
const resolved_to = try resolvePosix(allocator, [][]const u8{to});
defer allocator.free(resolved_to);
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var from_it = mem.split(resolved_from, "/");
var to_it = mem.split(resolved_to, "/");
while (true) {
const from_component = from_it.next() ?? return mem.dupe(allocator, u8, to_it.rest());
const to_rest = to_it.rest();
if (to_it.next()) |to_component| {
if (mem.eql(u8, from_component, to_component))
continue;
}
var up_count: usize = 1;
while (from_it.next()) |_| {
up_count += 1;
}
const up_index_end = up_count * "../".len;
const result = try allocator.alloc(u8, up_index_end + to_rest.len);
errdefer allocator.free(result);
var result_index: usize = 0;
while (result_index < up_index_end) {
result[result_index] = '.';
result_index += 1;
result[result_index] = '.';
result_index += 1;
result[result_index] = '/';
result_index += 1;
}
if (to_rest.len == 0) {
// shave off the trailing slash
return result[0..result_index - 1];
}
mem.copy(u8, result[result_index..], to_rest);
return result;
}
return []u8{};
}
test "os.path.relative" {
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testRelativeWindows("c:/blah\\blah", "d:/games", "D:\\games");
testRelativeWindows("c:/aaaa/bbbb", "c:/aaaa", "..");
testRelativeWindows("c:/aaaa/bbbb", "c:/cccc", "..\\..\\cccc");
testRelativeWindows("c:/aaaa/bbbb", "c:/aaaa/bbbb", "");
testRelativeWindows("c:/aaaa/bbbb", "c:/aaaa/cccc", "..\\cccc");
testRelativeWindows("c:/aaaa/", "c:/aaaa/cccc", "cccc");
testRelativeWindows("c:/", "c:\\aaaa\\bbbb", "aaaa\\bbbb");
testRelativeWindows("c:/aaaa/bbbb", "d:\\", "D:\\");
testRelativeWindows("c:/AaAa/bbbb", "c:/aaaa/bbbb", "");
testRelativeWindows("c:/aaaaa/", "c:/aaaa/cccc", "..\\aaaa\\cccc");
testRelativeWindows("C:\\foo\\bar\\baz\\quux", "C:\\", "..\\..\\..\\..");
testRelativeWindows("C:\\foo\\test", "C:\\foo\\test\\bar\\package.json", "bar\\package.json");
testRelativeWindows("C:\\foo\\bar\\baz-quux", "C:\\foo\\bar\\baz", "..\\baz");
testRelativeWindows("C:\\foo\\bar\\baz", "C:\\foo\\bar\\baz-quux", "..\\baz-quux");
testRelativeWindows("\\\\foo\\bar", "\\\\foo\\bar\\baz", "baz");
testRelativeWindows("\\\\foo\\bar\\baz", "\\\\foo\\bar", "..");
testRelativeWindows("\\\\foo\\bar\\baz-quux", "\\\\foo\\bar\\baz", "..\\baz");
testRelativeWindows("\\\\foo\\bar\\baz", "\\\\foo\\bar\\baz-quux", "..\\baz-quux");
testRelativeWindows("C:\\baz-quux", "C:\\baz", "..\\baz");
testRelativeWindows("C:\\baz", "C:\\baz-quux", "..\\baz-quux");
testRelativeWindows("\\\\foo\\baz-quux", "\\\\foo\\baz", "..\\baz");
testRelativeWindows("\\\\foo\\baz", "\\\\foo\\baz-quux", "..\\baz-quux");
testRelativeWindows("C:\\baz", "\\\\foo\\bar\\baz", "\\\\foo\\bar\\baz");
testRelativeWindows("\\\\foo\\bar\\baz", "C:\\baz", "C:\\baz");
testRelativePosix("/var/lib", "/var", "..");
testRelativePosix("/var/lib", "/bin", "../../bin");
testRelativePosix("/var/lib", "/var/lib", "");
testRelativePosix("/var/lib", "/var/apache", "../apache");
testRelativePosix("/var/", "/var/lib", "lib");
testRelativePosix("/", "/var/lib", "var/lib");
testRelativePosix("/foo/test", "/foo/test/bar/package.json", "bar/package.json");
testRelativePosix("/Users/a/web/b/test/mails", "/Users/a/web/b", "../..");
testRelativePosix("/foo/bar/baz-quux", "/foo/bar/baz", "../baz");
testRelativePosix("/foo/bar/baz", "/foo/bar/baz-quux", "../baz-quux");
testRelativePosix("/baz-quux", "/baz", "../baz");
testRelativePosix("/baz", "/baz-quux", "../baz-quux");
}
fn testRelativePosix(from: []const u8, to: []const u8, expected_output: []const u8) void {
const result = relativePosix(debug.global_allocator, from, to) catch unreachable;
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assert(mem.eql(u8, result, expected_output));
}
fn testRelativeWindows(from: []const u8, to: []const u8, expected_output: []const u8) void {
const result = relativeWindows(debug.global_allocator, from, to) catch unreachable;
assert(mem.eql(u8, result, expected_output));
}
/// Return the canonicalized absolute pathname.
/// Expands all symbolic links and resolves references to `.`, `..`, and
/// extra `/` characters in ::pathname.
/// Caller must deallocate result.
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pub fn real(allocator: &Allocator, pathname: []const u8) ![]u8 {
switch (builtin.os) {
Os.windows => {
const pathname_buf = try allocator.alloc(u8, pathname.len + 1);
defer allocator.free(pathname_buf);
mem.copy(u8, pathname_buf, pathname);
pathname_buf[pathname.len] = 0;
const h_file = windows.CreateFileA(pathname_buf.ptr,
windows.GENERIC_READ, windows.FILE_SHARE_READ, null, windows.OPEN_EXISTING,
windows.FILE_ATTRIBUTE_NORMAL, null);
if (h_file == windows.INVALID_HANDLE_VALUE) {
const err = windows.GetLastError();
return switch (err) {
windows.ERROR.FILE_NOT_FOUND => error.FileNotFound,
windows.ERROR.ACCESS_DENIED => error.AccessDenied,
windows.ERROR.FILENAME_EXCED_RANGE => error.NameTooLong,
else => os.unexpectedErrorWindows(err),
};
}
defer os.close(h_file);
var buf = try allocator.alloc(u8, 256);
errdefer allocator.free(buf);
while (true) {
const buf_len = math.cast(windows.DWORD, buf.len) catch return error.NameTooLong;
const result = windows.GetFinalPathNameByHandleA(h_file, buf.ptr, buf_len, windows.VOLUME_NAME_DOS);
if (result == 0) {
const err = windows.GetLastError();
return switch (err) {
windows.ERROR.PATH_NOT_FOUND => error.FileNotFound,
windows.ERROR.NOT_ENOUGH_MEMORY => error.OutOfMemory,
windows.ERROR.INVALID_PARAMETER => unreachable,
else => os.unexpectedErrorWindows(err),
};
}
if (result > buf.len) {
buf = try allocator.realloc(u8, buf, result);
continue;
}
// windows returns \\?\ prepended to the path
// we strip it because nobody wants \\?\ prepended to their path
const final_len = x: {
if (result > 4 and mem.startsWith(u8, buf, "\\\\?\\")) {
var i: usize = 4;
while (i < result) : (i += 1) {
buf[i - 4] = buf[i];
}
break :x result - 4;
} else {
break :x result;
}
};
return allocator.shrink(u8, buf, final_len);
}
},
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Os.macosx, Os.ios => {
// TODO instead of calling the libc function here, port the implementation
// to Zig, and then remove the NameTooLong error possibility.
const pathname_buf = try allocator.alloc(u8, pathname.len + 1);
defer allocator.free(pathname_buf);
const result_buf = try allocator.alloc(u8, posix.PATH_MAX);
errdefer allocator.free(result_buf);
mem.copy(u8, pathname_buf, pathname);
pathname_buf[pathname.len] = 0;
const err = posix.getErrno(posix.realpath(pathname_buf.ptr, result_buf.ptr));
if (err > 0) {
return switch (err) {
posix.EINVAL => unreachable,
posix.EBADF => unreachable,
posix.EFAULT => unreachable,
posix.EACCES => error.AccessDenied,
posix.ENOENT => error.FileNotFound,
posix.ENOTSUP => error.NotSupported,
posix.ENOTDIR => error.NotDir,
posix.ENAMETOOLONG => error.NameTooLong,
posix.ELOOP => error.SymLinkLoop,
posix.EIO => error.InputOutput,
else => os.unexpectedErrorPosix(err),
};
}
return allocator.shrink(u8, result_buf, cstr.len(result_buf.ptr));
},
Os.linux => {
const fd = try os.posixOpen(allocator, pathname, posix.O_PATH|posix.O_NONBLOCK|posix.O_CLOEXEC, 0);
defer os.close(fd);
var buf: ["/proc/self/fd/-2147483648".len]u8 = undefined;
const proc_path = fmt.bufPrint(buf[0..], "/proc/self/fd/{}", fd) catch unreachable;
return os.readLink(allocator, proc_path);
},
else => @compileError("TODO implement os.path.real for " ++ @tagName(builtin.os)),
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}
}
test "os.path.real" {
// at least call it so it gets compiled
_ = real(debug.global_allocator, "some_path");
}