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ruby--ruby/test/pathname/test_pathname.rb

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# frozen_string_literal: true
require 'test/unit'
require 'pathname'
require 'fileutils'
require 'tmpdir'
class TestPathname < Test::Unit::TestCase
def self.define_assertion(name, linenum, &block)
name = "test_#{name}_#{linenum}"
define_method(name, &block)
end
def self.get_linenum
if loc = caller_locations(2, 1)
loc[0].lineno
else
nil
end
end
def self.defassert(name, result, *args)
define_assertion(name, get_linenum) {
mesg = "#{name}(#{args.map {|a| a.inspect }.join(', ')})"
assert_nothing_raised(mesg) {
assert_equal(result, self.send(name, *args), mesg)
}
}
end
def self.defassert_raise(name, exc, *args)
define_assertion(name, get_linenum) {
message = "#{name}(#{args.map {|a| a.inspect }.join(', ')})"
assert_raise(exc, message) { self.send(name, *args) }
}
end
DOSISH = File::ALT_SEPARATOR != nil
DOSISH_DRIVE_LETTER = File.dirname("A:") == "A:."
DOSISH_UNC = File.dirname("//") == "//"
def cleanpath_aggressive(path)
Pathname.new(path).cleanpath.to_s
end
defassert(:cleanpath_aggressive, '/', '/')
defassert(:cleanpath_aggressive, '.', '')
defassert(:cleanpath_aggressive, '.', '.')
defassert(:cleanpath_aggressive, '..', '..')
defassert(:cleanpath_aggressive, 'a', 'a')
defassert(:cleanpath_aggressive, '/', '/.')
defassert(:cleanpath_aggressive, '/', '/..')
defassert(:cleanpath_aggressive, '/a', '/a')
defassert(:cleanpath_aggressive, '.', './')
defassert(:cleanpath_aggressive, '..', '../')
defassert(:cleanpath_aggressive, 'a', 'a/')
defassert(:cleanpath_aggressive, 'a/b', 'a//b')
defassert(:cleanpath_aggressive, 'a', 'a/.')
defassert(:cleanpath_aggressive, 'a', 'a/./')
defassert(:cleanpath_aggressive, '.', 'a/..')
defassert(:cleanpath_aggressive, '.', 'a/../')
defassert(:cleanpath_aggressive, '/a', '/a/.')
defassert(:cleanpath_aggressive, '..', './..')
defassert(:cleanpath_aggressive, '..', '../.')
defassert(:cleanpath_aggressive, '..', './../')
defassert(:cleanpath_aggressive, '..', '.././')
defassert(:cleanpath_aggressive, '/', '/./..')
defassert(:cleanpath_aggressive, '/', '/../.')
defassert(:cleanpath_aggressive, '/', '/./../')
defassert(:cleanpath_aggressive, '/', '/.././')
defassert(:cleanpath_aggressive, 'a/b/c', 'a/b/c')
defassert(:cleanpath_aggressive, 'b/c', './b/c')
defassert(:cleanpath_aggressive, 'a/c', 'a/./c')
defassert(:cleanpath_aggressive, 'a/b', 'a/b/.')
defassert(:cleanpath_aggressive, '.', 'a/../.')
defassert(:cleanpath_aggressive, '/a', '/../.././../a')
defassert(:cleanpath_aggressive, '../../d', 'a/b/../../../../c/../d')
if DOSISH_UNC
defassert(:cleanpath_aggressive, '//a/b/c', '//a/b/c/')
else
defassert(:cleanpath_aggressive, '/', '///')
defassert(:cleanpath_aggressive, '/a', '///a')
defassert(:cleanpath_aggressive, '/', '///..')
defassert(:cleanpath_aggressive, '/', '///.')
defassert(:cleanpath_aggressive, '/', '///a/../..')
end
if DOSISH
defassert(:cleanpath_aggressive, 'c:/foo/bar', 'c:\\foo\\bar')
end
def cleanpath_conservative(path)
Pathname.new(path).cleanpath(true).to_s
end
defassert(:cleanpath_conservative, '/', '/')
defassert(:cleanpath_conservative, '.', '')
defassert(:cleanpath_conservative, '.', '.')
defassert(:cleanpath_conservative, '..', '..')
defassert(:cleanpath_conservative, 'a', 'a')
defassert(:cleanpath_conservative, '/', '/.')
defassert(:cleanpath_conservative, '/', '/..')
defassert(:cleanpath_conservative, '/a', '/a')
defassert(:cleanpath_conservative, '.', './')
defassert(:cleanpath_conservative, '..', '../')
defassert(:cleanpath_conservative, 'a/', 'a/')
defassert(:cleanpath_conservative, 'a/b', 'a//b')
defassert(:cleanpath_conservative, 'a/.', 'a/.')
defassert(:cleanpath_conservative, 'a/.', 'a/./')
defassert(:cleanpath_conservative, 'a/..', 'a/../')
defassert(:cleanpath_conservative, '/a/.', '/a/.')
defassert(:cleanpath_conservative, '..', './..')
defassert(:cleanpath_conservative, '..', '../.')
defassert(:cleanpath_conservative, '..', './../')
defassert(:cleanpath_conservative, '..', '.././')
defassert(:cleanpath_conservative, '/', '/./..')
defassert(:cleanpath_conservative, '/', '/../.')
defassert(:cleanpath_conservative, '/', '/./../')
defassert(:cleanpath_conservative, '/', '/.././')
defassert(:cleanpath_conservative, 'a/b/c', 'a/b/c')
defassert(:cleanpath_conservative, 'b/c', './b/c')
defassert(:cleanpath_conservative, 'a/c', 'a/./c')
defassert(:cleanpath_conservative, 'a/b/.', 'a/b/.')
defassert(:cleanpath_conservative, 'a/..', 'a/../.')
defassert(:cleanpath_conservative, '/a', '/../.././../a')
defassert(:cleanpath_conservative, 'a/b/../../../../c/../d', 'a/b/../../../../c/../d')
if DOSISH
defassert(:cleanpath_conservative, 'c:/foo/bar', 'c:\\foo\\bar')
end
if DOSISH_UNC
defassert(:cleanpath_conservative, '//', '//')
else
defassert(:cleanpath_conservative, '/', '//')
end
# has_trailing_separator?(path) -> bool
def has_trailing_separator?(path)
Pathname.allocate.__send__(:has_trailing_separator?, path)
end
defassert(:has_trailing_separator?, false, "/")
defassert(:has_trailing_separator?, false, "///")
defassert(:has_trailing_separator?, false, "a")
defassert(:has_trailing_separator?, true, "a/")
def add_trailing_separator(path)
Pathname.allocate.__send__(:add_trailing_separator, path)
end
def del_trailing_separator(path)
Pathname.allocate.__send__(:del_trailing_separator, path)
end
defassert(:del_trailing_separator, "/", "/")
defassert(:del_trailing_separator, "/a", "/a")
defassert(:del_trailing_separator, "/a", "/a/")
defassert(:del_trailing_separator, "/a", "/a//")
defassert(:del_trailing_separator, ".", ".")
defassert(:del_trailing_separator, ".", "./")
defassert(:del_trailing_separator, ".", ".//")
if DOSISH_DRIVE_LETTER
defassert(:del_trailing_separator, "A:", "A:")
defassert(:del_trailing_separator, "A:/", "A:/")
defassert(:del_trailing_separator, "A:/", "A://")
defassert(:del_trailing_separator, "A:.", "A:.")
defassert(:del_trailing_separator, "A:.", "A:./")
defassert(:del_trailing_separator, "A:.", "A:.//")
end
if DOSISH_UNC
defassert(:del_trailing_separator, "//", "//")
defassert(:del_trailing_separator, "//a", "//a")
defassert(:del_trailing_separator, "//a", "//a/")
defassert(:del_trailing_separator, "//a", "//a//")
defassert(:del_trailing_separator, "//a/b", "//a/b")
defassert(:del_trailing_separator, "//a/b", "//a/b/")
defassert(:del_trailing_separator, "//a/b", "//a/b//")
defassert(:del_trailing_separator, "//a/b/c", "//a/b/c")
defassert(:del_trailing_separator, "//a/b/c", "//a/b/c/")
defassert(:del_trailing_separator, "//a/b/c", "//a/b/c//")
else
defassert(:del_trailing_separator, "/", "///")
defassert(:del_trailing_separator, "///a", "///a/")
end
if DOSISH
defassert(:del_trailing_separator, "a", "a\\")
defassert(:del_trailing_separator, "\225\\".dup.force_encoding("cp932"), "\225\\\\".dup.force_encoding("cp932"))
defassert(:del_trailing_separator, "\225".dup.force_encoding("cp437"), "\225\\\\".dup.force_encoding("cp437"))
end
def test_plus
assert_kind_of(Pathname, Pathname("a") + Pathname("b"))
end
def plus(path1, path2) # -> path
(Pathname.new(path1) + Pathname.new(path2)).to_s
end
defassert(:plus, '/', '/', '/')
defassert(:plus, 'a/b', 'a', 'b')
defassert(:plus, 'a', 'a', '.')
defassert(:plus, 'b', '.', 'b')
defassert(:plus, '.', '.', '.')
defassert(:plus, '/b', 'a', '/b')
defassert(:plus, '/', '/', '..')
defassert(:plus, '.', 'a', '..')
defassert(:plus, 'a', 'a/b', '..')
defassert(:plus, '../..', '..', '..')
defassert(:plus, '/c', '/', '../c')
defassert(:plus, 'c', 'a', '../c')
defassert(:plus, 'a/c', 'a/b', '../c')
defassert(:plus, '../../c', '..', '../c')
defassert(:plus, 'a//b/d//e', 'a//b/c', '../d//e')
defassert(:plus, '//foo/var/bar', '//foo/var', 'bar')
def test_slash
assert_kind_of(Pathname, Pathname("a") / Pathname("b"))
end
def test_parent
assert_equal(Pathname("."), Pathname("a").parent)
end
def parent(path) # -> path
Pathname.new(path).parent.to_s
end
defassert(:parent, '/', '/')
defassert(:parent, '/', '/a')
defassert(:parent, '/a', '/a/b')
defassert(:parent, '/a/b', '/a/b/c')
defassert(:parent, '.', 'a')
defassert(:parent, 'a', 'a/b')
defassert(:parent, 'a/b', 'a/b/c')
defassert(:parent, '..', '.')
defassert(:parent, '../..', '..')
def test_join
r = Pathname("a").join(Pathname("b"), Pathname("c"))
assert_equal(Pathname("a/b/c"), r)
r = Pathname("/a").join(Pathname("b"), Pathname("c"))
assert_equal(Pathname("/a/b/c"), r)
r = Pathname("/a").join(Pathname("/b"), Pathname("c"))
assert_equal(Pathname("/b/c"), r)
r = Pathname("/a").join(Pathname("/b"), Pathname("/c"))
assert_equal(Pathname("/c"), r)
r = Pathname("/a").join("/b", "/c")
assert_equal(Pathname("/c"), r)
r = Pathname("/foo/var").join()
assert_equal(Pathname("/foo/var"), r)
end
def test_absolute
assert_equal(true, Pathname("/").absolute?)
assert_equal(false, Pathname("a").absolute?)
end
def relative?(path)
Pathname.new(path).relative?
end
defassert(:relative?, false, '/')
defassert(:relative?, false, '/a')
defassert(:relative?, false, '/..')
defassert(:relative?, true, 'a')
defassert(:relative?, true, 'a/b')
if DOSISH_DRIVE_LETTER
defassert(:relative?, false, 'A:')
defassert(:relative?, false, 'A:/')
defassert(:relative?, false, 'A:/a')
end
if File.dirname('//') == '//'
defassert(:relative?, false, '//')
defassert(:relative?, false, '//a')
defassert(:relative?, false, '//a/')
defassert(:relative?, false, '//a/b')
defassert(:relative?, false, '//a/b/')
defassert(:relative?, false, '//a/b/c')
end
def relative_path_from(dest_directory, base_directory)
Pathname.new(dest_directory).relative_path_from(base_directory).to_s
end
defassert(:relative_path_from, "../a", Pathname.new("a"), "b")
defassert(:relative_path_from, "../a", "a", "b")
defassert(:relative_path_from, "../a", "a", "b/")
defassert(:relative_path_from, "../a", "a/", "b")
defassert(:relative_path_from, "../a", "a/", "b/")
defassert(:relative_path_from, "../a", "/a", "/b")
defassert(:relative_path_from, "../a", "/a", "/b/")
defassert(:relative_path_from, "../a", "/a/", "/b")
defassert(:relative_path_from, "../a", "/a/", "/b/")
defassert(:relative_path_from, "../b", "a/b", "a/c")
defassert(:relative_path_from, "../a", "../a", "../b")
defassert(:relative_path_from, "a", "a", ".")
defassert(:relative_path_from, "..", ".", "a")
defassert(:relative_path_from, ".", ".", ".")
defassert(:relative_path_from, ".", "..", "..")
defassert(:relative_path_from, "..", "..", ".")
defassert(:relative_path_from, "c/d", "/a/b/c/d", "/a/b")
defassert(:relative_path_from, "../..", "/a/b", "/a/b/c/d")
defassert(:relative_path_from, "../../../../e", "/e", "/a/b/c/d")
defassert(:relative_path_from, "../b/c", "a/b/c", "a/d")
defassert(:relative_path_from, "../a", "/../a", "/b")
defassert(:relative_path_from, "../../a", "../a", "b")
defassert(:relative_path_from, ".", "/a/../../b", "/b")
defassert(:relative_path_from, "..", "a/..", "a")
defassert(:relative_path_from, ".", "a/../b", "b")
defassert(:relative_path_from, "a", "a", "b/..")
defassert(:relative_path_from, "b/c", "b/c", "b/..")
defassert_raise(:relative_path_from, ArgumentError, "/", ".")
defassert_raise(:relative_path_from, ArgumentError, ".", "/")
defassert_raise(:relative_path_from, ArgumentError, "a", "..")
defassert_raise(:relative_path_from, ArgumentError, ".", "..")
def with_tmpchdir(base=nil)
Dir.mktmpdir(base) {|d|
d = Pathname.new(d).realpath.to_s
Dir.chdir(d) {
yield d
}
}
end
def has_symlink?
begin
File.symlink("", "")
rescue NotImplementedError, Errno::EACCES
return false
rescue Errno::ENOENT
end
return true
end
def realpath(path, basedir=nil)
Pathname.new(path).realpath(basedir).to_s
end
def test_realpath
return if !has_symlink?
with_tmpchdir('rubytest-pathname') {|dir|
assert_raise(Errno::ENOENT) { realpath("#{dir}/not-exist") }
File.symlink("not-exist-target", "#{dir}/not-exist")
assert_raise(Errno::ENOENT) { realpath("#{dir}/not-exist") }
File.symlink("loop", "#{dir}/loop")
assert_raise(Errno::ELOOP) { realpath("#{dir}/loop") }
assert_raise(Errno::ELOOP) { realpath("#{dir}/loop", dir) }
File.symlink("../#{File.basename(dir)}/./not-exist-target", "#{dir}/not-exist2")
assert_raise(Errno::ENOENT) { realpath("#{dir}/not-exist2") }
File.open("#{dir}/exist-target", "w") {}
File.symlink("../#{File.basename(dir)}/./exist-target", "#{dir}/exist2")
assert_nothing_raised { realpath("#{dir}/exist2") }
File.symlink("loop-relative", "loop-relative")
assert_raise(Errno::ELOOP) { realpath("#{dir}/loop-relative") }
Dir.mkdir("exist")
assert_equal("#{dir}/exist", realpath("exist"))
assert_raise(Errno::ELOOP) { realpath("../loop", "#{dir}/exist") }
File.symlink("loop1/loop1", "loop1")
assert_raise(Errno::ELOOP) { realpath("#{dir}/loop1") }
File.symlink("loop2", "loop3")
File.symlink("loop3", "loop2")
assert_raise(Errno::ELOOP) { realpath("#{dir}/loop2") }
Dir.mkdir("b")
File.symlink("b", "c")
assert_equal("#{dir}/b", realpath("c"))
assert_equal("#{dir}/b", realpath("c/../c"))
assert_equal("#{dir}/b", realpath("c/../c/../c/."))
File.symlink("..", "b/d")
assert_equal("#{dir}/b", realpath("c/d/c/d/c"))
File.symlink("#{dir}/b", "e")
assert_equal("#{dir}/b", realpath("e"))
Dir.mkdir("f")
Dir.mkdir("f/g")
File.symlink("f/g", "h")
assert_equal("#{dir}/f/g", realpath("h"))
File.chmod(0000, "f")
next if File.readable?("f")
assert_raise(Errno::EACCES) { realpath("h") }
File.chmod(0755, "f")
}
end
def realdirpath(path)
Pathname.new(path).realdirpath.to_s
end
def test_realdirpath
return if !has_symlink?
Dir.mktmpdir('rubytest-pathname') {|dir|
rdir = realpath(dir)
assert_equal("#{rdir}/not-exist", realdirpath("#{dir}/not-exist"))
assert_raise(Errno::ENOENT) { realdirpath("#{dir}/not-exist/not-exist-child") }
File.symlink("not-exist-target", "#{dir}/not-exist")
assert_equal("#{rdir}/not-exist-target", realdirpath("#{dir}/not-exist"))
File.symlink("../#{File.basename(dir)}/./not-exist-target", "#{dir}/not-exist2")
assert_equal("#{rdir}/not-exist-target", realdirpath("#{dir}/not-exist2"))
File.open("#{dir}/exist-target", "w") {}
File.symlink("../#{File.basename(dir)}/./exist-target", "#{dir}/exist")
assert_equal("#{rdir}/exist-target", realdirpath("#{dir}/exist"))
File.symlink("loop", "#{dir}/loop")
assert_raise(Errno::ELOOP) { realdirpath("#{dir}/loop") }
}
end
def descend(path)
Pathname.new(path).descend.map(&:to_s)
end
defassert(:descend, %w[/ /a /a/b /a/b/c], "/a/b/c")
defassert(:descend, %w[a a/b a/b/c], "a/b/c")
defassert(:descend, %w[. ./a ./a/b ./a/b/c], "./a/b/c")
defassert(:descend, %w[a/], "a/")
def ascend(path)
Pathname.new(path).ascend.map(&:to_s)
end
defassert(:ascend, %w[/a/b/c /a/b /a /], "/a/b/c")
defassert(:ascend, %w[a/b/c a/b a], "a/b/c")
defassert(:ascend, %w[./a/b/c ./a/b ./a .], "./a/b/c")
defassert(:ascend, %w[a/], "a/")
def test_blockless_ascend_is_enumerator
assert_kind_of(Enumerator, Pathname.new('a').ascend)
end
def test_blockless_descend_is_enumerator
assert_kind_of(Enumerator, Pathname.new('a').descend)
end
def test_initialize
p1 = Pathname.new('a')
assert_equal('a', p1.to_s)
p2 = Pathname.new(p1)
assert_equal(p1, p2)
end
def test_initialize_nul
assert_raise(ArgumentError) { Pathname.new("a\0") }
end
def test_global_constructor
p = Pathname.new('a')
assert_equal(p, Pathname('a'))
assert_same(p, Pathname(p))
end
class AnotherStringLike # :nodoc:
def initialize(s) @s = s end
def to_str() @s end
def ==(other) @s == other end
end
def test_equality
obj = Pathname.new("a")
str = "a"
sym = :a
ano = AnotherStringLike.new("a")
assert_equal(false, obj == str)
assert_equal(false, str == obj)
assert_equal(false, obj == ano)
assert_equal(false, ano == obj)
assert_equal(false, obj == sym)
assert_equal(false, sym == obj)
obj2 = Pathname.new("a")
assert_equal(true, obj == obj2)
assert_equal(true, obj === obj2)
assert_equal(true, obj.eql?(obj2))
end
def test_hashkey
h = {}
h[Pathname.new("a")] = 1
h[Pathname.new("a")] = 2
assert_equal(1, h.size)
end
def assert_pathname_cmp(e, s1, s2)
p1 = Pathname.new(s1)
p2 = Pathname.new(s2)
r = p1 <=> p2
assert(e == r,
"#{p1.inspect} <=> #{p2.inspect}: <#{e}> expected but was <#{r}>")
end
def test_comparison
assert_pathname_cmp( 0, "a", "a")
assert_pathname_cmp( 1, "b", "a")
assert_pathname_cmp(-1, "a", "b")
ss = %w(
a
a/
a/b
a.
a0
)
s1 = ss.shift
ss.each {|s2|
assert_pathname_cmp(-1, s1, s2)
s1 = s2
}
end
def test_comparison_string
assert_equal(nil, Pathname.new("a") <=> "a")
assert_equal(nil, "a" <=> Pathname.new("a"))
end
def pathsub(path, pat, repl) Pathname.new(path).sub(pat, repl).to_s end
defassert(:pathsub, "a.o", "a.c", /\.c\z/, ".o")
def pathsubext(path, repl) Pathname.new(path).sub_ext(repl).to_s end
defassert(:pathsubext, 'a.o', 'a.c', '.o')
defassert(:pathsubext, 'a.o', 'a.c++', '.o')
defassert(:pathsubext, 'a.png', 'a.gif', '.png')
defassert(:pathsubext, 'ruby.tar.bz2', 'ruby.tar.gz', '.bz2')
defassert(:pathsubext, 'd/a.o', 'd/a.c', '.o')
defassert(:pathsubext, 'foo', 'foo.exe', '')
defassert(:pathsubext, 'lex.yy.o', 'lex.yy.c', '.o')
defassert(:pathsubext, 'fooaa.o', 'fooaa', '.o')
defassert(:pathsubext, 'd.e/aa.o', 'd.e/aa', '.o')
defassert(:pathsubext, 'long_enough.bug-3664', 'long_enough.not_to_be_embedded[ruby-core:31640]', '.bug-3664')
def test_sub_matchdata
result = Pathname("abc.gif").sub(/\..*/) {
assert_not_nil($~)
assert_equal(".gif", $~[0])
".png"
}
assert_equal("abc.png", result.to_s)
end
def root?(path)
Pathname.new(path).root?
end
defassert(:root?, true, "/")
defassert(:root?, true, "//")
defassert(:root?, true, "///")
defassert(:root?, false, "")
defassert(:root?, false, "a")
def test_mountpoint?
r = Pathname("/").mountpoint?
assert_include([true, false], r)
end
def test_mountpoint_enoent
r = Pathname("/nonexistent").mountpoint?
assert_equal false, r
end
def test_destructive_update
path = Pathname.new("a")
path.to_s.replace "b"
assert_equal(Pathname.new("a"), path)
end
def test_null_character
assert_raise(ArgumentError) { Pathname.new("\0") }
end
def test_freeze
obj = Pathname.new("a"); assert_same(obj, obj.freeze)
assert_equal(false, Pathname.new("a" ) .frozen?)
assert_equal(false, Pathname.new("a".freeze) .frozen?)
assert_equal(true, Pathname.new("a" ).freeze .frozen?)
assert_equal(true, Pathname.new("a".freeze).freeze .frozen?)
assert_equal(false, Pathname.new("a" ) .to_s.frozen?)
assert_equal(false, Pathname.new("a".freeze) .to_s.frozen?)
assert_equal(false, Pathname.new("a" ).freeze.to_s.frozen?)
assert_equal(false, Pathname.new("a".freeze).freeze.to_s.frozen?)
end
def test_to_s
str = "a"
obj = Pathname.new(str)
assert_equal(str, obj.to_s)
assert_not_same(str, obj.to_s)
assert_not_same(obj.to_s, obj.to_s)
end
def test_kernel_open
count = 0
result = Kernel.open(Pathname.new(__FILE__)) {|f|
assert(File.identical?(__FILE__, f))
count += 1
2
}
assert_equal(1, count)
assert_equal(2, result)
end
def test_each_filename
result = []
Pathname.new("/usr/bin/ruby").each_filename {|f| result << f }
assert_equal(%w[usr bin ruby], result)
assert_equal(%w[usr bin ruby], Pathname.new("/usr/bin/ruby").each_filename.to_a)
end
def test_kernel_pathname
assert_equal(Pathname.new("a"), Pathname("a"))
end
def test_children
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {}
open("b", "w") {}
Dir.mkdir("d")
open("d/x", "w") {}
open("d/y", "w") {}
assert_equal([Pathname("a"), Pathname("b"), Pathname("d")], Pathname(".").children.sort)
assert_equal([Pathname("d/x"), Pathname("d/y")], Pathname("d").children.sort)
assert_equal([Pathname("x"), Pathname("y")], Pathname("d").children(false).sort)
}
end
def test_each_child
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {}
open("b", "w") {}
Dir.mkdir("d")
open("d/x", "w") {}
open("d/y", "w") {}
a = []; Pathname(".").each_child {|v| a << v }; a.sort!
assert_equal([Pathname("a"), Pathname("b"), Pathname("d")], a)
a = []; Pathname("d").each_child {|v| a << v }; a.sort!
assert_equal([Pathname("d/x"), Pathname("d/y")], a)
a = []; Pathname("d").each_child(false) {|v| a << v }; a.sort!
assert_equal([Pathname("x"), Pathname("y")], a)
}
end
def test_each_line
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.puts 1, 2 }
a = []
Pathname("a").each_line {|line| a << line }
assert_equal(["1\n", "2\n"], a)
a = []
Pathname("a").each_line("2") {|line| a << line }
assert_equal(["1\n2", "\n"], a)
a = []
Pathname("a").each_line(1) {|line| a << line }
assert_equal(["1", "\n", "2", "\n"], a)
a = []
Pathname("a").each_line("2", 1) {|line| a << line }
assert_equal(["1", "\n", "2", "\n"], a)
a = []
enum = Pathname("a").each_line
enum.each {|line| a << line }
assert_equal(["1\n", "2\n"], a)
}
end
def test_readlines
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.puts 1, 2 }
a = Pathname("a").readlines
assert_equal(["1\n", "2\n"], a)
}
end
def test_readlines_opts
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.puts 1, 2 }
a = Pathname("a").readlines 1, chomp: true
assert_equal(["1", "", "2", ""], a)
}
end
def test_read
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.puts 1, 2 }
assert_equal("1\n2\n", Pathname("a").read)
}
end
def test_binread
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
str = Pathname("a").binread
assert_equal("abc", str)
assert_equal(Encoding::ASCII_8BIT, str.encoding)
}
end
def test_write
with_tmpchdir('rubytest-pathname') {|dir|
path = Pathname("a")
path.write "abc"
assert_equal("abc", path.read)
}
end
def test_write_opts
with_tmpchdir('rubytest-pathname') {|dir|
path = Pathname("a")
path.write "abc", mode: "w"
assert_equal("abc", path.read)
}
end
def test_binwrite
with_tmpchdir('rubytest-pathname') {|dir|
path = Pathname("a")
path.binwrite "abc\x80"
assert_equal("abc\x80".b, path.binread)
}
end
def test_binwrite_opts
with_tmpchdir('rubytest-pathname') {|dir|
path = Pathname("a")
path.binwrite "abc\x80", mode: 'w'
assert_equal("abc\x80".b, path.binread)
}
end
def test_sysopen
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
fd = Pathname("a").sysopen
io = IO.new(fd)
begin
assert_equal("abc", io.read)
ensure
io.close
end
}
end
def test_atime
assert_kind_of(Time, Pathname(__FILE__).atime)
end
def test_birthtime
skip if RUBY_PLATFORM =~ /android/
# Check under a (probably) local filesystem.
# Remote filesystems often may not support birthtime.
with_tmpchdir('rubytest-pathname') do |dir|
open("a", "w") {}
assert_kind_of(Time, Pathname("a").birthtime)
rescue Errno::EPERM
# Docker prohibits statx syscall by the default.
skip("statx(2) is prohibited by seccomp")
rescue Errno::ENOSYS
skip("statx(2) is not supported on this filesystem")
rescue NotImplementedError
# assert_raise(NotImplementedError) do
# File.birthtime("a")
# end
end
end
def test_ctime
assert_kind_of(Time, Pathname(__FILE__).ctime)
end
def test_mtime
assert_kind_of(Time, Pathname(__FILE__).mtime)
end
def test_chmod
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
path = Pathname("a")
old = path.stat.mode
path.chmod(0444)
assert_equal(0444, path.stat.mode & 0777)
path.chmod(old)
}
end
def test_lchmod
return if !has_symlink?
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
File.symlink("a", "l")
path = Pathname("l")
old = path.lstat.mode
begin
path.lchmod(0444)
rescue NotImplementedError
next
end
assert_equal(0444, path.lstat.mode & 0777)
path.chmod(old)
}
end
def test_chown
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
path = Pathname("a")
old_uid = path.stat.uid
old_gid = path.stat.gid
begin
path.chown(0, 0)
rescue Errno::EPERM
next
end
assert_equal(0, path.stat.uid)
assert_equal(0, path.stat.gid)
path.chown(old_uid, old_gid)
}
end
def test_lchown
return if !has_symlink?
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
File.symlink("a", "l")
path = Pathname("l")
old_uid = path.stat.uid
old_gid = path.stat.gid
begin
path.lchown(0, 0)
rescue Errno::EPERM
next
end
assert_equal(0, path.stat.uid)
assert_equal(0, path.stat.gid)
path.lchown(old_uid, old_gid)
}
end
def test_fnmatch
path = Pathname("a")
assert_equal(true, path.fnmatch("*"))
assert_equal(false, path.fnmatch("*.*"))
assert_equal(false, Pathname(".foo").fnmatch("*"))
assert_equal(true, Pathname(".foo").fnmatch("*", File::FNM_DOTMATCH))
end
def test_fnmatch?
path = Pathname("a")
assert_equal(true, path.fnmatch?("*"))
assert_equal(false, path.fnmatch?("*.*"))
end
def test_ftype
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal("file", Pathname("f").ftype)
Dir.mkdir("d")
assert_equal("directory", Pathname("d").ftype)
}
end
def test_make_link
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
Pathname("l").make_link(Pathname("a"))
assert_equal("abc", Pathname("l").read)
}
end
def test_open
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
path = Pathname("a")
path.open {|f|
assert_equal("abc", f.read)
}
path.open("r") {|f|
assert_equal("abc", f.read)
}
path.open(mode: "r") {|f|
assert_equal("abc", f.read)
}
Pathname("b").open("w", 0444) {|f| f.write "def" }
assert_equal(0444 & ~File.umask, File.stat("b").mode & 0777)
assert_equal("def", File.read("b"))
Make rb_scan_args handle keywords more similar to Ruby methods (#2460) Cfuncs that use rb_scan_args with the : entry suffer similar keyword argument separation issues that Ruby methods suffer if the cfuncs accept optional or variable arguments. This makes the following changes to : handling. * Treats as **kw, prompting keyword argument separation warnings if called with a positional hash. * Do not look for an option hash if empty keywords are provided. For backwards compatibility, treat an empty keyword splat as a empty mandatory positional hash argument, but emit a a warning, as this behavior will be removed in Ruby 3. The argument number check needs to be moved lower so it can correctly handle an empty positional argument being added. * If the last argument is nil and it is necessary to treat it as an option hash in order to make sure all arguments are processed, continue to treat the last argument as the option hash. Emit a warning in this case, as this behavior will be removed in Ruby 3. * If splitting the keyword hash into two hashes, issue a warning, as we will not be splitting hashes in Ruby 3. * If the keyword argument is required to fill a mandatory positional argument, continue to do so, but emit a warning as this behavior will be going away in Ruby 3. * If keyword arguments are provided and the last argument is not a hash, that indicates something wrong. This can happen if a cfunc is calling rb_scan_args multiple times, and providing arguments that were not passed to it from Ruby. Callers need to switch to the new rb_scan_args_kw function, which allows passing of whether keywords were provided. This commit fixes all warnings caused by the changes above. It switches some function calls to *_kw versions with appropriate kw_splat flags. If delegating arguments, RB_PASS_CALLED_KEYWORDS is used. If creating new arguments, RB_PASS_KEYWORDS is used if the last argument is a hash to be treated as keywords. In open_key_args in io.c, use rb_scan_args_kw. In this case, the arguments provided come from another C function, not Ruby. The last argument may or may not be a hash, so we can't set keyword argument mode. However, if it is a hash, we don't want to warn when treating it as keywords. In Ruby files, make sure to appropriately use keyword splats or literal keywords when calling Cfuncs that now issue keyword argument separation warnings through rb_scan_args. Also, make sure not to pass nil in place of an option hash. Work around Kernel#warn warnings due to problems in the Rubygems override of the method. There is an open pull request to fix these issues in Rubygems, but part of the Rubygems tests for their override fail on ruby-head due to rb_scan_args not recognizing empty keyword splats, which this commit fixes. Implementation wise, adding rb_scan_args_kw is kind of a pain, because rb_scan_args takes a variable number of arguments. In order to not duplicate all the code, the function internals need to be split into two functions taking a va_list, and to avoid passing in a ton of arguments, a single struct argument is used to handle the variables previously local to the function.
2019-09-25 14:18:49 -04:00
Pathname("c").open("w", 0444, **{}) {|f| f.write "ghi" }
assert_equal(0444 & ~File.umask, File.stat("c").mode & 0777)
assert_equal("ghi", File.read("c"))
g = path.open
assert_equal("abc", g.read)
g.close
g = path.open(mode: "r")
assert_equal("abc", g.read)
g.close
}
end
def test_readlink
return if !has_symlink?
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
File.symlink("a", "l")
assert_equal(Pathname("a"), Pathname("l").readlink)
}
end
def test_rename
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
Pathname("a").rename(Pathname("b"))
assert_equal("abc", File.read("b"))
}
end
def test_stat
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
s = Pathname("a").stat
assert_equal(3, s.size)
}
end
def test_lstat
return if !has_symlink?
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
File.symlink("a", "l")
s = Pathname("l").lstat
assert_equal(true, s.symlink?)
s = Pathname("l").stat
assert_equal(false, s.symlink?)
assert_equal(3, s.size)
s = Pathname("a").lstat
assert_equal(false, s.symlink?)
assert_equal(3, s.size)
}
end
def test_make_symlink
return if !has_symlink?
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
Pathname("l").make_symlink(Pathname("a"))
s = Pathname("l").lstat
assert_equal(true, s.symlink?)
}
end
def test_truncate
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
Pathname("a").truncate(2)
assert_equal("ab", File.read("a"))
}
end
def test_utime
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {|f| f.write "abc" }
atime = Time.utc(2000)
mtime = Time.utc(1999)
Pathname("a").utime(atime, mtime)
s = File.stat("a")
assert_equal(atime, s.atime)
assert_equal(mtime, s.mtime)
}
end
def test_basename
assert_equal(Pathname("basename"), Pathname("dirname/basename").basename)
assert_equal(Pathname("bar"), Pathname("foo/bar.x").basename(".x"))
end
def test_dirname
assert_equal(Pathname("dirname"), Pathname("dirname/basename").dirname)
end
def test_extname
assert_equal(".ext", Pathname("basename.ext").extname)
end
def test_expand_path
drv = DOSISH_DRIVE_LETTER ? Dir.pwd.sub(%r(/.*), '') : ""
assert_equal(Pathname(drv + "/a"), Pathname("/a").expand_path)
assert_equal(Pathname(drv + "/a"), Pathname("a").expand_path("/"))
assert_equal(Pathname(drv + "/a"), Pathname("a").expand_path(Pathname("/")))
assert_equal(Pathname(drv + "/b"), Pathname("/b").expand_path(Pathname("/a")))
assert_equal(Pathname(drv + "/a/b"), Pathname("b").expand_path(Pathname("/a")))
end
def test_split
assert_equal([Pathname("dirname"), Pathname("basename")], Pathname("dirname/basename").split)
end
def test_blockdev?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").blockdev?)
}
end
def test_chardev?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").chardev?)
}
end
def test_executable?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").executable?)
}
end
def test_executable_real?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").executable_real?)
}
end
def test_exist?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(true, Pathname("f").exist?)
}
end
def test_grpowned?
skip "Unix file owner test" if DOSISH
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
File.chown(-1, Process.gid, "f")
assert_equal(true, Pathname("f").grpowned?)
}
end
def test_directory?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").directory?)
Dir.mkdir("d")
assert_equal(true, Pathname("d").directory?)
}
end
def test_file?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(true, Pathname("f").file?)
Dir.mkdir("d")
assert_equal(false, Pathname("d").file?)
}
end
def test_pipe?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").pipe?)
}
end
def test_socket?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").socket?)
}
end
def test_owned?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(true, Pathname("f").owned?)
}
end
def test_readable?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(true, Pathname("f").readable?)
}
end
def test_world_readable?
skip "Unix file mode bit test" if DOSISH
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
File.chmod(0400, "f")
assert_equal(nil, Pathname("f").world_readable?)
File.chmod(0444, "f")
assert_equal(0444, Pathname("f").world_readable?)
}
end
def test_readable_real?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(true, Pathname("f").readable_real?)
}
end
def test_setuid?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").setuid?)
}
end
def test_setgid?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").setgid?)
}
end
def test_size
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(3, Pathname("f").size)
open("z", "w") {|f| }
assert_equal(0, Pathname("z").size)
assert_raise(Errno::ENOENT) { Pathname("not-exist").size }
}
end
def test_size?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(3, Pathname("f").size?)
open("z", "w") {|f| }
assert_equal(nil, Pathname("z").size?)
assert_equal(nil, Pathname("not-exist").size?)
}
end
def test_sticky?
skip "Unix file mode bit test" if DOSISH
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").sticky?)
}
end
def test_symlink?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").symlink?)
}
end
def test_writable?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(true, Pathname("f").writable?)
}
end
def test_world_writable?
skip "Unix file mode bit test" if DOSISH
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
File.chmod(0600, "f")
assert_equal(nil, Pathname("f").world_writable?)
File.chmod(0666, "f")
assert_equal(0666, Pathname("f").world_writable?)
}
end
def test_writable_real?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(true, Pathname("f").writable?)
}
end
def test_zero?
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
assert_equal(false, Pathname("f").zero?)
open("z", "w") {|f| }
assert_equal(true, Pathname("z").zero?)
assert_equal(false, Pathname("not-exist").zero?)
}
end
def test_empty?
with_tmpchdir('rubytest-pathname') {|dir|
open("nonemptyfile", "w") {|f| f.write "abc" }
open("emptyfile", "w") {|f| }
Dir.mkdir("nonemptydir")
open("nonemptydir/somefile", "w") {|f| }
Dir.mkdir("emptydir")
assert_equal(true, Pathname("emptyfile").empty?)
assert_equal(false, Pathname("nonemptyfile").empty?)
assert_equal(true, Pathname("emptydir").empty?)
assert_equal(false, Pathname("nonemptydir").empty?)
}
end
def test_s_glob
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
Dir.mkdir("d")
assert_equal([Pathname("d"), Pathname("f")], Pathname.glob("*").sort)
a = []
Pathname.glob("*") {|path| a << path }
a.sort!
assert_equal([Pathname("d"), Pathname("f")], a)
}
end
def test_s_glob_3args
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
Dir.chdir("/") {
assert_equal(
[Pathname("."), Pathname(".."), Pathname("f")],
Pathname.glob("*", File::FNM_DOTMATCH, base: dir).sort)
}
}
end
def test_s_getwd
wd = Pathname.getwd
assert_kind_of(Pathname, wd)
end
def test_s_pwd
wd = Pathname.pwd
assert_kind_of(Pathname, wd)
end
def test_glob
with_tmpchdir('rubytest-pathname') {|dir|
Dir.mkdir("d")
open("d/f", "w") {|f| f.write "abc" }
Dir.mkdir("d/e")
assert_equal([Pathname("d/e"), Pathname("d/f")], Pathname("d").glob("*").sort)
a = []
Pathname("d").glob("*") {|path| a << path }
a.sort!
assert_equal([Pathname("d/e"), Pathname("d/f")], a)
}
end
def test_entries
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {}
open("b", "w") {}
assert_equal([Pathname("."), Pathname(".."), Pathname("a"), Pathname("b")], Pathname(".").entries.sort)
}
end
def test_each_entry
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {}
open("b", "w") {}
a = []
Pathname(".").each_entry {|v| a << v }
assert_equal([Pathname("."), Pathname(".."), Pathname("a"), Pathname("b")], a.sort)
}
end
def test_mkdir
with_tmpchdir('rubytest-pathname') {|dir|
Pathname("d").mkdir
assert(File.directory?("d"))
Pathname("e").mkdir(0770)
assert(File.directory?("e"))
}
end
def test_rmdir
with_tmpchdir('rubytest-pathname') {|dir|
Pathname("d").mkdir
assert(File.directory?("d"))
Pathname("d").rmdir
assert(!File.exist?("d"))
}
end
def test_opendir
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {}
open("b", "w") {}
a = []
Pathname(".").opendir {|d|
d.each {|e| a << e }
}
assert_equal([".", "..", "a", "b"], a.sort)
}
end
def test_find
with_tmpchdir('rubytest-pathname') {|dir|
open("a", "w") {}
open("b", "w") {}
Dir.mkdir("d")
open("d/x", "w") {}
open("d/y", "w") {}
a = []; Pathname(".").find {|v| a << v }; a.sort!
assert_equal([Pathname("."), Pathname("a"), Pathname("b"), Pathname("d"), Pathname("d/x"), Pathname("d/y")], a)
a = []; Pathname("d").find {|v| a << v }; a.sort!
assert_equal([Pathname("d"), Pathname("d/x"), Pathname("d/y")], a)
a = Pathname(".").find.sort
assert_equal([Pathname("."), Pathname("a"), Pathname("b"), Pathname("d"), Pathname("d/x"), Pathname("d/y")], a)
a = Pathname("d").find.sort
assert_equal([Pathname("d"), Pathname("d/x"), Pathname("d/y")], a)
begin
File.unlink("d/y")
File.chmod(0600, "d")
a = []; Pathname(".").find(ignore_error: true) {|v| a << v }; a.sort!
assert_equal([Pathname("."), Pathname("a"), Pathname("b"), Pathname("d"), Pathname("d/x")], a)
a = []; Pathname("d").find(ignore_error: true) {|v| a << v }; a.sort!
assert_equal([Pathname("d"), Pathname("d/x")], a)
skip "no meaning test on Windows" if /mswin|mingw/ =~ RUBY_PLATFORM
skip 'skipped in root privilege' if Process.uid == 0
a = [];
assert_raise_with_message(Errno::EACCES, %r{d/x}) do
Pathname(".").find(ignore_error: false) {|v| a << v }
end
a.sort!
assert_equal([Pathname("."), Pathname("a"), Pathname("b"), Pathname("d"), Pathname("d/x")], a)
a = [];
assert_raise_with_message(Errno::EACCES, %r{d/x}) do
Pathname("d").find(ignore_error: false) {|v| a << v }
end
a.sort!
assert_equal([Pathname("d"), Pathname("d/x")], a)
ensure
File.chmod(0700, "d")
end
}
end
def test_mkpath
with_tmpchdir('rubytest-pathname') {|dir|
Pathname("a/b/c/d").mkpath
assert(File.directory?("a/b/c/d"))
}
end
def test_rmtree
with_tmpchdir('rubytest-pathname') {|dir|
Pathname("a/b/c/d").mkpath
assert(File.exist?("a/b/c/d"))
Pathname("a").rmtree
assert(!File.exist?("a"))
}
end
def test_unlink
with_tmpchdir('rubytest-pathname') {|dir|
open("f", "w") {|f| f.write "abc" }
Pathname("f").unlink
assert(!File.exist?("f"))
Dir.mkdir("d")
Pathname("d").unlink
assert(!File.exist?("d"))
}
end
def test_matchop
assert_raise(NoMethodError) { Pathname("a") =~ /a/ }
end
def test_file_basename
assert_equal("bar", File.basename(Pathname.new("foo/bar")))
end
def test_file_dirname
assert_equal("foo", File.dirname(Pathname.new("foo/bar")))
end
def test_file_split
assert_equal(["foo", "bar"], File.split(Pathname.new("foo/bar")))
end
def test_file_extname
assert_equal(".baz", File.extname(Pathname.new("bar.baz")))
end
def test_file_fnmatch
assert(File.fnmatch("*.*", Pathname.new("bar.baz")))
end
def test_relative_path_from_casefold
assert_separately([], <<-'end;') # do
module File::Constants
remove_const :FNM_SYSCASE
FNM_SYSCASE = FNM_CASEFOLD
end
require 'pathname'
foo = Pathname.new("fo\u{f6}")
bar = Pathname.new("b\u{e4}r".encode("ISO-8859-1"))
assert_instance_of(Pathname, foo.relative_path_from(bar))
end;
end
def test_relative_path_from_mock
assert_equal(
Pathname.new("../bar"),
Pathname.new("/foo/bar").relative_path_from(Pathname.new("/foo/baz")))
assert_equal(
Pathname.new("../bar"),
Pathname.new("/foo/bar").relative_path_from("/foo/baz"))
obj = Object.new
def obj.cleanpath() Pathname.new("/foo/baz") end
def obj.is_a?(m) m == Pathname end
assert_equal(
Pathname.new("../bar"),
Pathname.new("/foo/bar").relative_path_from(obj))
end
end