Specs

absname(t()) :: binary()

Converts the given path to an absolute one. Unlike expand/1, no attempt is made to resolve .., . or ~.

Examples

Unix-like operating systems

Path.absname("foo")
#=> "/usr/local/foo"

Path.absname("../x")
#=> "/usr/local/../x"

Windows

Path.absname("foo")
#=> "D:/usr/local/foo"

Path.absname("../x")
#=> "D:/usr/local/../x"

Specs

absname(t(), t()) :: binary()

Builds a path from relative_to to path.

If path is already an absolute path, relative_to is ignored. See also relative_to/2.

Unlike expand/2, no attempt is made to resolve .., . or ~.

Examples

iex> Path.absname("foo", "bar")
"bar/foo"

iex> Path.absname("../x", "bar")
"bar/../x"

Specs

basename(t()) :: binary()

Returns the last component of the path or the path itself if it does not contain any directory separators.

Examples

iex> Path.basename("foo")
"foo"

iex> Path.basename("foo/bar")
"bar"

iex> Path.basename("/")
""

Specs

basename(t(), t()) :: binary()

Returns the last component of path with the extension stripped.

This function should be used to remove a specific extension which may or may not be there.

Examples

iex> Path.basename("~/foo/bar.ex", ".ex")
"bar"

iex> Path.basename("~/foo/bar.exs", ".ex")
"bar.exs"

iex> Path.basename("~/foo/bar.old.ex", ".ex")
"bar.old"

Specs

dirname(t()) :: binary()

Returns the directory component of path.

Examples

iex> Path.dirname("/foo/bar.ex")
"/foo"

iex> Path.dirname("/foo/bar/baz.ex")
"/foo/bar"

iex> Path.dirname("/foo/bar/")
"/foo/bar"

iex> Path.dirname("bar.ex")
"."

Specs

expand(t()) :: binary()

Converts the path to an absolute one and expands any . and .. characters and a leading ~.

Examples

Path.expand("/foo/bar/../bar")
#=> "/foo/bar"

Specs

expand(t(), t()) :: binary()

Expands the path relative to the path given as the second argument expanding any . and .. characters.

If the path is already an absolute path, relative_to is ignored.

Note that this function treats a path with a leading ~ as an absolute one.

The second argument is first expanded to an absolute path.

Examples

# Assuming that the absolute path to baz is /quux/baz
Path.expand("foo/bar/../bar", "baz")
#=> "/quux/baz/foo/bar"

Path.expand("foo/bar/../bar", "/baz")
#=> "/baz/foo/bar"

Path.expand("/foo/bar/../bar", "/baz")
#=> "/foo/bar"

Specs

extname(t()) :: binary()

Returns the extension of the last component of path.

Examples

iex> Path.extname("foo.erl")
".erl"

iex> Path.extname("~/foo/bar")
""

Specs

join([t(), ...]) :: binary()

Joins a list of paths.

This function should be used to convert a list of paths to a path. Note that any trailing slash is removed when joining.

Examples

iex> Path.join(["~", "foo"])
"~/foo"

iex> Path.join(["foo"])
"foo"

iex> Path.join(["/", "foo", "bar/"])
"/foo/bar"

Specs

join(t(), t()) :: binary()

Joins two paths.

The right path will always be expanded to its relative format and any trailing slash will be removed when joining.

Examples

iex> Path.join("foo", "bar")
"foo/bar"

iex> Path.join("/foo", "/bar/")
"/foo/bar"

The functions in this module support chardata, so giving a list will treat it as a single entity:

iex> Path.join("foo", ["bar", "fiz"])
"foo/barfiz"

iex> Path.join(["foo", "bar"], "fiz")
"foobar/fiz"

Specs

relative(t()) :: binary()

Forces the path to be a relative path.

Examples

Unix-like operating systems

Path.relative("/usr/local/bin")   #=> "usr/local/bin"
Path.relative("usr/local/bin")    #=> "usr/local/bin"
Path.relative("../usr/local/bin") #=> "../usr/local/bin"

Windows

Path.relative("D:/usr/local/bin") #=> "usr/local/bin"
Path.relative("usr/local/bin")    #=> "usr/local/bin"
Path.relative("D:bar.ex")         #=> "bar.ex"
Path.relative("/bar/foo.ex")      #=> "bar/foo.ex"

Specs

relative_to(t(), t()) :: binary()

Returns the given path relative to the given from path.

In other words, this function tries to strip the from prefix from path.

This function does not query the file system, so it assumes no symlinks between the paths.

In case a direct relative path cannot be found, it returns the original path.

Examples

iex> Path.relative_to("/usr/local/foo", "/usr/local")
"foo"

iex> Path.relative_to("/usr/local/foo", "/")
"usr/local/foo"

iex> Path.relative_to("/usr/local/foo", "/etc")
"/usr/local/foo"

Specs

relative_to_cwd(t()) :: binary()

Convenience to get the path relative to the current working directory.

If, for some reason, the current working directory cannot be retrieved, this function returns the given path.

Specs

rootname(t()) :: binary()

Returns the path with the extension stripped.

Examples

iex> Path.rootname("/foo/bar")
"/foo/bar"

iex> Path.rootname("/foo/bar.ex")
"/foo/bar"

Specs

rootname(t(), t()) :: binary()

Returns the path with the extension stripped.

This function should be used to remove a specific extension which may or may not be there.

Examples

iex> Path.rootname("/foo/bar.erl", ".erl")
"/foo/bar"

iex> Path.rootname("/foo/bar.erl", ".ex")
"/foo/bar.erl"

Specs

split(t()) :: [binary()]

Splits the path into a list at the path separator.

If an empty string is given, returns an empty list.

On Windows, path is split on both "\" and "/" separators and the driver letter, if there is one, is always returned in lowercase.

Examples

iex> Path.split("")
[]

iex> Path.split("foo")
["foo"]

iex> Path.split("/foo/bar")
["/", "foo", "bar"]

Specs

type(t()) :: :absolute | :relative | :volumerelative

Returns the path type.

Examples

Unix-like operating systems

Path.type("/")                #=> :absolute
Path.type("/usr/local/bin")   #=> :absolute
Path.type("usr/local/bin")    #=> :relative
Path.type("../usr/local/bin") #=> :relative
Path.type("~/file")           #=> :relative

Windows

Path.type("D:/usr/local/bin") #=> :absolute
Path.type("usr/local/bin")    #=> :relative
Path.type("D:bar.ex")         #=> :volumerelative
Path.type("/bar/foo.ex")      #=> :volumerelative

Specs

wildcard(t(), keyword()) :: [binary()]

Traverses paths according to the given glob expression and returns a list of matches.

The wildcard looks like an ordinary path, except that the following "wildcard characters" are interpreted in a special way:

• ? - matches one character.

• * - matches any number of characters up to the end of the filename, the next dot, or the next slash.

• ** - two adjacent *'s used as a single pattern will match all files and zero or more directories and subdirectories.

• [char1,char2,...] - matches any of the characters listed; two characters separated by a hyphen will match a range of characters. Do not add spaces before and after the comma as it would then match paths containing the space character itself.

• {item1,item2,...} - matches one of the alternatives. Do not add spaces before and after the comma as it would then match paths containing the space character itself.

Other characters represent themselves. Only paths that have exactly the same character in the same position will match. Note that matching is case-sensitive: "a" will not match "A".

Directory separators must always be written as /, even on Windows. You may call Path.expand/1 to normalize the path before invoking this function.

By default, the patterns * and ? do not match files starting with a dot .. See the :match_dot option in the "Options" section below.

Options

• :match_dot - (boolean) if false, the special wildcard characters * and ? will not match files starting with a dot (.). If true, files starting with a . will not be treated specially. Defaults to false.

Examples

Imagine you have a directory called projects with three Elixir projects inside of it: elixir, ex_doc, and plug. You can find all .beam files inside the ebin directory of each project as follows:

Path.wildcard("projects/*/ebin/**/*.beam")

If you want to search for both .beam and .app files, you could do:

Path.wildcard("projects/*/ebin/**/*.{beam,app}")