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ruby--ruby/test/ruby/test_io.rb
nobu 782f3bd3f9 * io.c (argf_init): initial value of $. should be 0.
see [ruby-dev:36937].


git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@19964 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2008-10-27 06:55:06 +00:00

1245 lines
28 KiB
Ruby

require 'test/unit'
require 'tmpdir'
require 'io/nonblock'
require 'socket'
require 'stringio'
require 'timeout'
require 'tempfile'
require_relative 'envutil'
class TestIO < Test::Unit::TestCase
def test_gets_rs
# default_rs
r, w = IO.pipe
w.print "aaa\nbbb\n"
w.close
assert_equal "aaa\n", r.gets
assert_equal "bbb\n", r.gets
assert_nil r.gets
r.close
# nil
r, w = IO.pipe
w.print "a\n\nb\n\n"
w.close
assert_equal "a\n\nb\n\n", r.gets(nil)
assert_nil r.gets("")
r.close
# "\377"
r, w = IO.pipe('ascii-8bit')
w.print "\377xyz"
w.close
r.binmode
assert_equal("\377", r.gets("\377"), "[ruby-dev:24460]")
r.close
# ""
r, w = IO.pipe
w.print "a\n\nb\n\n"
w.close
assert_equal "a\n\n", r.gets(""), "[ruby-core:03771]"
assert_equal "b\n\n", r.gets("")
assert_nil r.gets("")
r.close
end
def test_gets_limit_extra_arg
with_pipe {|r, w|
r, w = IO.pipe
w << "0123456789"
w.close
assert_raise(TypeError) { r.gets(3,nil) }
}
end
# This test cause SEGV.
def test_ungetc
r, w = IO.pipe
w.close
assert_raise(IOError, "[ruby-dev:31650]") { 20000.times { r.ungetc "a" } }
ensure
r.close
end
def test_each_byte
r, w = IO.pipe
w << "abc def"
w.close
r.each_byte {|byte| break if byte == 32 }
assert_equal("def", r.read, "[ruby-dev:31659]")
ensure
r.close
end
def test_rubydev33072
assert_raise(Errno::ENOENT, "[ruby-dev:33072]") do
File.read("empty", nil, nil, {})
end
end
def with_pipe
r, w = IO.pipe
begin
yield r, w
ensure
r.close unless r.closed?
w.close unless w.closed?
end
end
def with_read_pipe(content)
r, w = IO.pipe
w << content
w.close
begin
yield r
ensure
r.close
end
end
def mkcdtmpdir
Dir.mktmpdir {|d|
Dir.chdir(d) {
yield
}
}
end
def test_copy_stream
mkcdtmpdir {
content = "foobar"
File.open("src", "w") {|f| f << content }
ret = IO.copy_stream("src", "dst")
assert_equal(content.bytesize, ret)
assert_equal(content, File.read("dst"))
# overwrite by smaller file.
content = "baz"
File.open("src", "w") {|f| f << content }
ret = IO.copy_stream("src", "dst")
assert_equal(content.bytesize, ret)
assert_equal(content, File.read("dst"))
ret = IO.copy_stream("src", "dst", 2)
assert_equal(2, ret)
assert_equal(content[0,2], File.read("dst"))
ret = IO.copy_stream("src", "dst", 0)
assert_equal(0, ret)
assert_equal("", File.read("dst"))
ret = IO.copy_stream("src", "dst", nil, 1)
assert_equal(content.bytesize-1, ret)
assert_equal(content[1..-1], File.read("dst"))
assert_raise(Errno::ENOENT) {
IO.copy_stream("nodir/foo", "dst")
}
assert_raise(Errno::ENOENT) {
IO.copy_stream("src", "nodir/bar")
}
with_pipe {|r, w|
ret = IO.copy_stream("src", w)
assert_equal(content.bytesize, ret)
w.close
assert_equal(content, r.read)
}
with_pipe {|r, w|
w.close
assert_raise(IOError) { IO.copy_stream("src", w) }
}
pipe_content = "abc"
with_read_pipe(pipe_content) {|r|
ret = IO.copy_stream(r, "dst")
assert_equal(pipe_content.bytesize, ret)
assert_equal(pipe_content, File.read("dst"))
}
with_read_pipe("abc") {|r1|
assert_equal("a", r1.getc)
with_pipe {|r2, w2|
w2.sync = false
w2 << "def"
ret = IO.copy_stream(r1, w2)
assert_equal(2, ret)
w2.close
assert_equal("defbc", r2.read)
}
}
with_read_pipe("abc") {|r1|
assert_equal("a", r1.getc)
with_pipe {|r2, w2|
w2.sync = false
w2 << "def"
ret = IO.copy_stream(r1, w2, 1)
assert_equal(1, ret)
w2.close
assert_equal("defb", r2.read)
}
}
with_read_pipe("abc") {|r1|
assert_equal("a", r1.getc)
with_pipe {|r2, w2|
ret = IO.copy_stream(r1, w2)
assert_equal(2, ret)
w2.close
assert_equal("bc", r2.read)
}
}
with_read_pipe("abc") {|r1|
assert_equal("a", r1.getc)
with_pipe {|r2, w2|
ret = IO.copy_stream(r1, w2, 1)
assert_equal(1, ret)
w2.close
assert_equal("b", r2.read)
}
}
with_read_pipe("abc") {|r1|
assert_equal("a", r1.getc)
with_pipe {|r2, w2|
ret = IO.copy_stream(r1, w2, 0)
assert_equal(0, ret)
w2.close
assert_equal("", r2.read)
}
}
with_pipe {|r1, w1|
w1 << "abc"
assert_equal("a", r1.getc)
with_pipe {|r2, w2|
w1 << "def"
w1.close
ret = IO.copy_stream(r1, w2)
assert_equal(5, ret)
w2.close
assert_equal("bcdef", r2.read)
}
}
with_pipe {|r, w|
ret = IO.copy_stream("src", w, 1, 1)
assert_equal(1, ret)
w.close
assert_equal(content[1,1], r.read)
}
with_read_pipe("abc") {|r1|
assert_equal("a", r1.getc)
with_pipe {|r2, w2|
w2.nonblock = true
s = w2.syswrite("a" * 100000)
t = Thread.new { sleep 0.1; r2.read }
ret = IO.copy_stream(r1, w2)
w2.close
assert_equal(2, ret)
assert_equal("a" * s + "bc", t.value)
}
}
bigcontent = "abc" * 123456
File.open("bigsrc", "w") {|f| f << bigcontent }
ret = IO.copy_stream("bigsrc", "bigdst")
assert_equal(bigcontent.bytesize, ret)
assert_equal(bigcontent, File.read("bigdst"))
File.unlink("bigdst")
ret = IO.copy_stream("bigsrc", "bigdst", nil, 100)
assert_equal(bigcontent.bytesize-100, ret)
assert_equal(bigcontent[100..-1], File.read("bigdst"))
File.unlink("bigdst")
ret = IO.copy_stream("bigsrc", "bigdst", 30000, 100)
assert_equal(30000, ret)
assert_equal(bigcontent[100, 30000], File.read("bigdst"))
File.open("bigsrc") {|f|
assert_equal(0, f.pos)
ret = IO.copy_stream(f, "bigdst", nil, 10)
assert_equal(bigcontent.bytesize-10, ret)
assert_equal(bigcontent[10..-1], File.read("bigdst"))
assert_equal(0, f.pos)
ret = IO.copy_stream(f, "bigdst", 40, 30)
assert_equal(40, ret)
assert_equal(bigcontent[30, 40], File.read("bigdst"))
assert_equal(0, f.pos)
}
with_pipe {|r, w|
w.close
assert_raise(IOError) { IO.copy_stream("src", w) }
}
megacontent = "abc" * 1234567
File.open("megasrc", "w") {|f| f << megacontent }
with_pipe {|r1, w1|
with_pipe {|r2, w2|
t1 = Thread.new { w1 << megacontent; w1.close }
t2 = Thread.new { r2.read }
r1.nonblock = true
w2.nonblock = true
ret = IO.copy_stream(r1, w2)
assert_equal(megacontent.bytesize, ret)
w2.close
t1.join
assert_equal(megacontent, t2.value)
}
}
with_pipe {|r1, w1|
with_pipe {|r2, w2|
t1 = Thread.new { w1 << megacontent; w1.close }
t2 = Thread.new { r2.read }
ret = IO.copy_stream(r1, w2)
assert_equal(megacontent.bytesize, ret)
w2.close
t1.join
assert_equal(megacontent, t2.value)
}
}
with_pipe {|r, w|
t = Thread.new { r.read }
ret = IO.copy_stream("megasrc", w)
assert_equal(megacontent.bytesize, ret)
w.close
assert_equal(megacontent, t.value)
}
}
end
def test_copy_stream_rbuf
mkcdtmpdir {
with_pipe {|r, w|
File.open("foo", "w") {|f| f << "abcd" }
File.open("foo") {|f|
f.read(1)
assert_equal(3, IO.copy_stream(f, w, 10, 1))
}
w.close
assert_equal("bcd", r.read)
}
}
end
def with_socketpair
s1, s2 = UNIXSocket.pair
begin
yield s1, s2
ensure
s1.close unless s1.closed?
s2.close unless s2.closed?
end
end
def test_copy_stream_socket
return unless defined? UNIXSocket
mkcdtmpdir {
content = "foobar"
File.open("src", "w") {|f| f << content }
with_socketpair {|s1, s2|
ret = IO.copy_stream("src", s1)
assert_equal(content.bytesize, ret)
s1.close
assert_equal(content, s2.read)
}
bigcontent = "abc" * 123456
File.open("bigsrc", "w") {|f| f << bigcontent }
with_socketpair {|s1, s2|
t = Thread.new { s2.read }
ret = IO.copy_stream("bigsrc", s1)
assert_equal(bigcontent.bytesize, ret)
s1.close
result = t.value
assert_equal(bigcontent, result)
}
with_socketpair {|s1, s2|
t = Thread.new { s2.read }
ret = IO.copy_stream("bigsrc", s1, 10000)
assert_equal(10000, ret)
s1.close
result = t.value
assert_equal(bigcontent[0,10000], result)
}
File.open("bigsrc") {|f|
assert_equal(0, f.pos)
with_socketpair {|s1, s2|
t = Thread.new { s2.read }
ret = IO.copy_stream(f, s1, nil, 100)
assert_equal(bigcontent.bytesize-100, ret)
assert_equal(0, f.pos)
s1.close
result = t.value
assert_equal(bigcontent[100..-1], result)
}
}
File.open("bigsrc") {|f|
assert_equal(bigcontent[0,100], f.read(100))
assert_equal(100, f.pos)
with_socketpair {|s1, s2|
t = Thread.new { s2.read }
ret = IO.copy_stream(f, s1)
assert_equal(bigcontent.bytesize-100, ret)
assert_equal(bigcontent.length, f.pos)
s1.close
result = t.value
assert_equal(bigcontent[100..-1], result)
}
}
megacontent = "abc" * 1234567
File.open("megasrc", "w") {|f| f << megacontent }
with_socketpair {|s1, s2|
t = Thread.new { s2.read }
s1.nonblock = true
ret = IO.copy_stream("megasrc", s1)
assert_equal(megacontent.bytesize, ret)
s1.close
result = t.value
assert_equal(megacontent, result)
}
}
end
def test_copy_stream_strio
src = StringIO.new("abcd")
dst = StringIO.new
ret = IO.copy_stream(src, dst)
assert_equal(4, ret)
assert_equal("abcd", dst.string)
assert_equal(4, src.pos)
end
def test_copy_stream_strio_len
src = StringIO.new("abcd")
dst = StringIO.new
ret = IO.copy_stream(src, dst, 3)
assert_equal(3, ret)
assert_equal("abc", dst.string)
assert_equal(3, src.pos)
end
def test_copy_stream_strio_off
src = StringIO.new("abcd")
with_pipe {|r, w|
assert_raise(ArgumentError) {
IO.copy_stream(src, w, 3, 1)
}
}
end
def test_copy_stream_fname_to_strio
mkcdtmpdir {
File.open("foo", "w") {|f| f << "abcd" }
src = "foo"
dst = StringIO.new
ret = IO.copy_stream(src, dst, 3)
assert_equal(3, ret)
assert_equal("abc", dst.string)
}
end
def test_copy_stream_strio_to_fname
mkcdtmpdir {
# StringIO to filename
src = StringIO.new("abcd")
ret = IO.copy_stream(src, "fooo", 3)
assert_equal(3, ret)
assert_equal("abc", File.read("fooo"))
assert_equal(3, src.pos)
}
end
def test_copy_stream_io_to_strio
mkcdtmpdir {
# IO to StringIO
File.open("bar", "w") {|f| f << "abcd" }
File.open("bar") {|src|
dst = StringIO.new
ret = IO.copy_stream(src, dst, 3)
assert_equal(3, ret)
assert_equal("abc", dst.string)
assert_equal(3, src.pos)
}
}
end
def test_copy_stream_strio_to_io
mkcdtmpdir {
# StringIO to IO
src = StringIO.new("abcd")
ret = File.open("baz", "w") {|dst|
IO.copy_stream(src, dst, 3)
}
assert_equal(3, ret)
assert_equal("abc", File.read("baz"))
assert_equal(3, src.pos)
}
end
def test_copy_stream_strio_flush
with_pipe {|r, w|
w.sync = false
w.write "zz"
src = StringIO.new("abcd")
IO.copy_stream(src, w)
t = Thread.new {
w.close
}
assert_equal("zzabcd", r.read)
t.join
}
end
def test_copy_stream_strio_rbuf
with_pipe {|r, w|
w << "abcd"
w.close
assert_equal("a", r.read(1))
sio = StringIO.new
IO.copy_stream(r, sio)
assert_equal("bcd", sio.string)
}
end
def test_copy_stream_src_wbuf
mkcdtmpdir {
with_pipe {|r, w|
File.open("foe", "w+") {|f|
f.write "abcd\n"
f.rewind
f.write "xy"
IO.copy_stream(f, w)
}
assert_equal("xycd\n", File.read("foe"))
w.close
assert_equal("cd\n", r.read)
r.close
}
}
end
def test_copy_stream_dst_rbuf
mkcdtmpdir {
with_pipe {|r, w|
w << "xyz"
w.close
File.open("fom", "w+b") {|f|
f.write "abcd\n"
f.rewind
assert_equal("abc", f.read(3))
f.ungetc "c"
IO.copy_stream(r, f)
}
assert_equal("abxyz", File.read("fom"))
}
}
end
def safe_4
Thread.new do
Timeout.timeout(10) do
$SAFE = 4
yield
end
end.join
end
def pipe(wp, rp)
r, w = IO.pipe
rt = Thread.new { rp.call(r) }
wt = Thread.new { wp.call(w) }
flunk("timeout") unless rt.join(10) && wt.join(10)
ensure
r.close unless !r || r.closed?
w.close unless !w || w.closed?
(rt.kill; rt.join) if rt
(wt.kill; wt.join) if wt
end
def ruby(*args)
args = ['-e', '$>.write($<.read)'] if args.empty?
ruby = EnvUtil.rubybin
f = IO.popen([ruby] + args, 'r+')
yield(f)
ensure
f.close unless !f || f.closed?
end
def test_try_convert
assert_equal(STDOUT, IO.try_convert(STDOUT))
assert_equal(nil, IO.try_convert("STDOUT"))
end
def test_ungetc2
f = false
pipe(proc do |w|
0 until f
w.write("1" * 10000)
w.close
end, proc do |r|
r.ungetc("0" * 10000)
f = true
assert_equal("0" * 10000 + "1" * 10000, r.read)
end)
end
def test_write_non_writable
with_pipe do |r, w|
assert_raise(IOError) do
r.write "foobarbaz"
end
end
end
def test_dup
ruby do |f|
f2 = f.dup
f.puts "foo"
f2.puts "bar"
f.close_write
f2.close_write
assert_equal("foo\nbar\n", f.read)
assert_equal("", f2.read)
end
a = []
assert_raise(Errno::EMFILE, Errno::ENFILE, Errno::ENOMEM) do
loop {a << IO.pipe}
end
assert_raise(Errno::EMFILE, Errno::ENFILE, Errno::ENOMEM) do
loop {a << [a[-1][0].dup, a[-1][1].dup]}
end
a.each do |r, w|
r.close unless !r || r.closed?
w.close unless !w || w.closed?
end
end
def test_inspect
with_pipe do |r, w|
assert(r.inspect =~ /^#<IO:0x[0-9a-f]+>$/)
assert_raise(SecurityError) do
safe_4 { r.inspect }
end
end
end
def test_readpartial
pipe(proc do |w|
w.write "foobarbaz"
w.close
end, proc do |r|
assert_raise(ArgumentError) { r.readpartial(-1) }
assert_equal("fooba", r.readpartial(5))
r.readpartial(5, s = "")
assert_equal("rbaz", s)
end)
end
def test_readpartial_error
with_pipe do |r, w|
s = ""
t = Thread.new { r.readpartial(5, s) }
0 until s.size == 5
s.clear
w.write "foobarbaz"
w.close
assert_raise(RuntimeError) { t.join }
end
end
def test_read
pipe(proc do |w|
w.write "foobarbaz"
w.close
end, proc do |r|
assert_raise(ArgumentError) { r.read(-1) }
assert_equal("fooba", r.read(5))
r.read(nil, s = "")
assert_equal("rbaz", s)
end)
end
def test_read_error
with_pipe do |r, w|
s = ""
t = Thread.new { r.read(5, s) }
0 until s.size == 5
s.clear
w.write "foobarbaz"
w.close
assert_raise(RuntimeError) { t.join }
end
end
def test_write_nonblock
pipe(proc do |w|
w.write_nonblock(1)
w.close
end, proc do |r|
assert_equal("1", r.read)
end)
end
def test_gets
pipe(proc do |w|
w.write "foobarbaz"
w.close
end, proc do |r|
assert_equal("", r.gets(0))
assert_equal("foobarbaz", s = r.gets(9))
end)
end
def test_close_read
ruby do |f|
f.close_read
f.write "foobarbaz"
assert_raise(IOError) { f.read }
end
end
def test_close_read_pipe
with_pipe do |r, w|
r.close_read
assert_raise(Errno::EPIPE) { w.write "foobarbaz" }
end
end
def test_close_read_security_error
with_pipe do |r, w|
assert_raise(SecurityError) do
safe_4 { r.close_read }
end
end
end
def test_close_read_non_readable
with_pipe do |r, w|
assert_raise(IOError) do
w.close_read
end
end
end
def test_close_write
ruby do |f|
f.write "foobarbaz"
f.close_write
assert_equal("foobarbaz", f.read)
end
end
def test_close_write_security_error
with_pipe do |r, w|
assert_raise(SecurityError) do
safe_4 { r.close_write }
end
end
end
def test_close_write_non_readable
with_pipe do |r, w|
assert_raise(IOError) do
r.close_write
end
end
end
def test_pid
r, w = IO.pipe
assert_equal(nil, r.pid)
assert_equal(nil, w.pid)
pipe = IO.popen(EnvUtil.rubybin, "r+")
pid1 = pipe.pid
pipe.puts "p $$"
pipe.close_write
pid2 = pipe.read.chomp.to_i
assert_equal(pid2, pid1)
assert_equal(pid2, pipe.pid)
pipe.close
assert_raise(IOError) { pipe.pid }
end
def make_tempfile
t = Tempfile.new("foo")
t.binmode
t.puts "foo"
t.puts "bar"
t.puts "baz"
t.close
t
end
def test_set_lineno
t = make_tempfile
ruby("-e", <<-SRC, t.path) do |f|
open(ARGV[0]) do |f|
p $.
f.gets; p $.
f.gets; p $.
f.lineno = 1000; p $.
f.gets; p $.
f.gets; p $.
f.rewind; p $.
f.gets; p $.
f.gets; p $.
f.gets; p $.
f.gets; p $.
end
SRC
assert_equal("0,1,2,2,1001,1001,1001,1,2,3,3", f.read.chomp.gsub("\n", ","))
end
pipe(proc do |w|
w.puts "foo"
w.puts "bar"
w.puts "baz"
w.close
end, proc do |r|
r.gets; assert_equal(1, $.)
r.gets; assert_equal(2, $.)
r.lineno = 1000; assert_equal(2, $.)
r.gets; assert_equal(1001, $.)
r.gets; assert_equal(1001, $.)
end)
end
def test_readline
pipe(proc do |w|
w.puts "foo"
w.puts "bar"
w.puts "baz"
w.close
end, proc do |r|
r.readline; assert_equal(1, $.)
r.readline; assert_equal(2, $.)
r.lineno = 1000; assert_equal(2, $.)
r.readline; assert_equal(1001, $.)
assert_raise(EOFError) { r.readline }
end)
end
def test_each_char
pipe(proc do |w|
w.puts "foo"
w.puts "bar"
w.puts "baz"
w.close
end, proc do |r|
a = []
r.each_char {|c| a << c }
assert_equal(%w(f o o) + ["\n"] + %w(b a r) + ["\n"] + %w(b a z) + ["\n"], a)
end)
end
def test_lines
pipe(proc do |w|
w.puts "foo"
w.puts "bar"
w.puts "baz"
w.close
end, proc do |r|
e = r.lines
assert_equal("foo\n", e.next)
assert_equal("bar\n", e.next)
assert_equal("baz\n", e.next)
assert_raise(StopIteration) { e.next }
end)
end
def test_bytes
pipe(proc do |w|
w.puts "foo"
w.puts "bar"
w.puts "baz"
w.close
end, proc do |r|
e = r.bytes
(%w(f o o) + ["\n"] + %w(b a r) + ["\n"] + %w(b a z) + ["\n"]).each do |c|
assert_equal(c.ord, e.next)
end
assert_raise(StopIteration) { e.next }
end)
end
def test_chars
pipe(proc do |w|
w.puts "foo"
w.puts "bar"
w.puts "baz"
w.close
end, proc do |r|
e = r.chars
(%w(f o o) + ["\n"] + %w(b a r) + ["\n"] + %w(b a z) + ["\n"]).each do |c|
assert_equal(c, e.next)
end
assert_raise(StopIteration) { e.next }
end)
end
def test_readbyte
pipe(proc do |w|
w.puts "foo"
w.puts "bar"
w.puts "baz"
w.close
end, proc do |r|
(%w(f o o) + ["\n"] + %w(b a r) + ["\n"] + %w(b a z) + ["\n"]).each do |c|
assert_equal(c.ord, r.readbyte)
end
assert_raise(EOFError) { r.readbyte }
end)
end
def test_readchar
pipe(proc do |w|
w.puts "foo"
w.puts "bar"
w.puts "baz"
w.close
end, proc do |r|
(%w(f o o) + ["\n"] + %w(b a r) + ["\n"] + %w(b a z) + ["\n"]).each do |c|
assert_equal(c, r.readchar)
end
assert_raise(EOFError) { r.readchar }
end)
end
def test_close_on_exec
# xxx
ruby do |f|
assert_equal(false, f.close_on_exec?)
f.close_on_exec = true
assert_equal(true, f.close_on_exec?)
f.close_on_exec = false
assert_equal(false, f.close_on_exec?)
end
with_pipe do |r, w|
assert_equal(false, r.close_on_exec?)
r.close_on_exec = true
assert_equal(true, r.close_on_exec?)
r.close_on_exec = false
assert_equal(false, r.close_on_exec?)
assert_equal(false, w.close_on_exec?)
w.close_on_exec = true
assert_equal(true, w.close_on_exec?)
w.close_on_exec = false
assert_equal(false, w.close_on_exec?)
end
end
def test_close_security_error
with_pipe do |r, w|
assert_raise(SecurityError) do
safe_4 { r.close }
end
end
end
def test_sysseek
t = make_tempfile
open(t.path) do |f|
f.sysseek(-4, IO::SEEK_END)
assert_equal("baz\n", f.read)
end
open(t.path) do |f|
a = [f.getc, f.getc, f.getc]
a.reverse_each {|c| f.ungetc c }
assert_raise(IOError) { f.sysseek(1) }
end
end
def test_syswrite
t = make_tempfile
open(t.path, "w") do |f|
o = Object.new
def o.to_s; "FOO\n"; end
f.syswrite(o)
end
assert_equal("FOO\n", File.read(t.path))
end
def test_sysread
t = make_tempfile
open(t.path) do |f|
a = [f.getc, f.getc, f.getc]
a.reverse_each {|c| f.ungetc c }
assert_raise(IOError) { f.sysread(1) }
end
end
def test_flag
t = make_tempfile
assert_raise(ArgumentError) do
open(t.path, "z") { }
end
assert_raise(ArgumentError) do
open(t.path, "rr") { }
end
end
def test_sysopen
t = make_tempfile
fd = IO.sysopen(t.path)
assert_kind_of(Integer, fd)
f = IO.for_fd(fd)
assert_equal("foo\nbar\nbaz\n", f.read)
f.close
fd = IO.sysopen(t.path, "w", 0666)
assert_kind_of(Integer, fd)
f = IO.for_fd(fd)
f.write("FOO\n")
f.close
fd = IO.sysopen(t.path, "r")
assert_kind_of(Integer, fd)
f = IO.for_fd(fd)
assert_equal("FOO\n", f.read)
f.close
end
def test_open_redirect
o = Object.new
def o.to_open; self; end
assert_equal(o, open(o))
o2 = nil
open(o) do |f|
o2 = f
end
assert_equal(o, o2)
end
def test_open_pipe
open("|" + EnvUtil.rubybin, "r+") do |f|
f.puts "puts 'foo'"
f.close_write
assert_equal("foo\n", f.read)
end
end
def test_reopen
t = make_tempfile
with_pipe do |r, w|
assert_raise(SecurityError) do
safe_4 { r.reopen(t.path) }
end
end
open(__FILE__) do |f|
f.gets
assert_nothing_raised {
f.reopen(t.path)
assert_equal("foo\n", f.gets)
}
end
end
def test_foreach
a = []
IO.foreach("|" + EnvUtil.rubybin + " -e 'puts :foo; puts :bar; puts :baz'") {|x| a << x }
assert_equal(["foo\n", "bar\n", "baz\n"], a)
t = make_tempfile
a = []
IO.foreach(t.path) {|x| a << x }
assert_equal(["foo\n", "bar\n", "baz\n"], a)
a = []
IO.foreach(t.path, {:mode => "r" }) {|x| a << x }
assert_equal(["foo\n", "bar\n", "baz\n"], a)
a = []
IO.foreach(t.path, {:open_args => [] }) {|x| a << x }
assert_equal(["foo\n", "bar\n", "baz\n"], a)
a = []
IO.foreach(t.path, {:open_args => ["r"] }) {|x| a << x }
assert_equal(["foo\n", "bar\n", "baz\n"], a)
a = []
IO.foreach(t.path, "b") {|x| a << x }
assert_equal(["foo\nb", "ar\nb", "az\n"], a)
a = []
IO.foreach(t.path, 3) {|x| a << x }
assert_equal(["foo", "\n", "bar", "\n", "baz", "\n"], a)
a = []
IO.foreach(t.path, "b", 3) {|x| a << x }
assert_equal(["foo", "\nb", "ar\n", "b", "az\n"], a)
end
def test_s_readlines
t = make_tempfile
assert_equal(["foo\n", "bar\n", "baz\n"], IO.readlines(t.path))
assert_equal(["foo\nb", "ar\nb", "az\n"], IO.readlines(t.path, "b"))
assert_equal(["fo", "o\n", "ba", "r\n", "ba", "z\n"], IO.readlines(t.path, 2))
assert_equal(["fo", "o\n", "b", "ar", "\nb", "az", "\n"], IO.readlines(t.path, "b", 2))
end
def test_printf
pipe(proc do |w|
printf(w, "foo %s baz\n", "bar")
w.close_write
end, proc do |r|
assert_equal("foo bar baz\n", r.read)
end)
end
def test_print
t = make_tempfile
assert_in_out_err(["-", t.path], "print while $<.gets", %w(foo bar baz), [])
end
def test_putc
pipe(proc do |w|
w.putc "A"
w.putc "BC"
w.putc 68
w.close_write
end, proc do |r|
assert_equal("ABD", r.read)
end)
assert_in_out_err([], "putc 65", %w(A), [])
end
def test_puts_recursive_array
a = ["foo"]
a << a
pipe(proc do |w|
w.puts a
w.close
end, proc do |r|
assert_equal("foo\n[...]\n", r.read)
end)
end
def test_display
pipe(proc do |w|
"foo".display(w)
w.close
end, proc do |r|
assert_equal("foo", r.read)
end)
assert_in_out_err([], "'foo'.display", %w(foo), [])
end
def test_set_stdout
assert_raise(TypeError) { $> = Object.new }
assert_in_out_err([], "$> = $stderr\nputs 'foo'", [], %w(foo))
end
def test_initialize
t = make_tempfile
fd = IO.sysopen(t.path)
assert_kind_of(Integer, fd)
f = IO.new(fd, "w")
f.write("FOO\n")
f.close
assert_equal("foo\nbar\nbaz\n", File.read(t.path))
f = open(t.path)
assert_raise(RuntimeError) do
f.instance_eval { initialize }
end
end
def test_new_with_block
assert_in_out_err([], "r, w = IO.pipe; IO.new(r) {}", [], /^.+$/)
end
def test_readline2
assert_in_out_err(["-e", <<-SRC], "foo\nbar\nbaz\n", %w(foo bar baz end), [])
puts readline
puts readline
puts readline
begin
puts readline
rescue EOFError
puts "end"
end
SRC
end
def test_readlines
assert_in_out_err(["-e", "p readlines"], "foo\nbar\nbaz\n",
["[\"foo\\n\", \"bar\\n\", \"baz\\n\"]"], [])
end
def test_s_read
t = make_tempfile
assert_equal("foo\nbar\nbaz\n", File.read(t.path))
assert_equal("foo\nba", File.read(t.path, 6))
assert_equal("bar\n", File.read(t.path, 4, 4))
end
def test_uninitialized
assert_raise(IOError) { IO.allocate.print "" }
end
def test_nofollow
# O_NOFOLLOW is not standard.
return if /freebsd|linux/ !~ RUBY_PLATFORM
return unless defined? File::NOFOLLOW
mkcdtmpdir {
open("file", "w") {|f| f << "content" }
begin
File.symlink("file", "slnk")
rescue NotImplementedError
return
end
assert_raise(Errno::EMLINK, Errno::ELOOP) {
open("slnk", File::RDONLY|File::NOFOLLOW) {}
}
assert_raise(Errno::EMLINK, Errno::ELOOP) {
File.foreach("slnk", :open_args=>[File::RDONLY|File::NOFOLLOW]) {}
}
}
end
end