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d650b17686
In a forked process from a fiber, the fiber becomes the only fiber, `fiber_switch` does nothing as there is no other fibers, `rb_fiber_terminate` does not terminate the fiber. In that case, reaches the end of `fiber_entry` finaly, which is declared as "COROUTINE" and should never return.
496 lines
10 KiB
Ruby
496 lines
10 KiB
Ruby
# frozen_string_literal: false
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require 'test/unit'
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require 'fiber'
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EnvUtil.suppress_warning {require 'continuation'}
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require 'tmpdir'
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class TestFiber < Test::Unit::TestCase
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def test_normal
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assert_equal(:ok2,
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Fiber.new{|e|
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assert_equal(:ok1, e)
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Fiber.yield :ok2
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}.resume(:ok1)
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)
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assert_equal([:a, :b], Fiber.new{|a, b| [a, b]}.resume(:a, :b))
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end
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def test_argument
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assert_equal(4, Fiber.new {|i=4| i}.resume)
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end
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def test_term
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assert_equal(:ok, Fiber.new{:ok}.resume)
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assert_equal([:a, :b, :c, :d, :e],
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Fiber.new{
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Fiber.new{
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Fiber.new{
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Fiber.new{
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[:a]
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}.resume + [:b]
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}.resume + [:c]
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}.resume + [:d]
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}.resume + [:e])
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end
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def test_many_fibers
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omit 'This is unstable on GitHub Actions --jit-wait. TODO: debug it' if defined?(RubyVM::MJIT) && RubyVM::MJIT.enabled?
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max = 1000
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assert_equal(max, max.times{
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Fiber.new{}
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})
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GC.start # force collect created fibers
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assert_equal(max,
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max.times{|i|
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Fiber.new{
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}.resume
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}
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)
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GC.start # force collect created fibers
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end
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def test_many_fibers_with_threads
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assert_normal_exit <<-SRC, timeout: (/solaris/i =~ RUBY_PLATFORM ? 1000 : 60)
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max = 1000
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@cnt = 0
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(1..100).map{|ti|
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Thread.new{
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max.times{|i|
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Fiber.new{
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@cnt += 1
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}.resume
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}
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}
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}.each{|t|
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t.join
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}
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SRC
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end
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def test_error
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assert_raise(ArgumentError){
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Fiber.new # Fiber without block
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}
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f = Fiber.new{}
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Thread.new{
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assert_raise(FiberError){ # Fiber yielding across thread
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f.resume
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}
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}.join
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assert_raise(FiberError){
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f = Fiber.new{}
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f.resume
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f.resume
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}
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assert_raise(RuntimeError){
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Fiber.new{
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@c = callcc{|c| @c = c}
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}.resume
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@c.call # cross fiber callcc
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}
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assert_raise(RuntimeError){
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Fiber.new{
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raise
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}.resume
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}
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assert_raise(FiberError){
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Fiber.yield
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}
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assert_raise(FiberError){
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fib = Fiber.new{
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fib.resume
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}
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fib.resume
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}
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assert_raise(FiberError){
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fib = Fiber.new{
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Fiber.new{
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fib.resume
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}.resume
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}
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fib.resume
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}
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assert_raise(FiberError){
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fib = Fiber.new{}
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fib.raise "raise in unborn fiber"
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}
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assert_raise(FiberError){
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fib = Fiber.new{}
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fib.resume
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fib.raise "raise in dead fiber"
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}
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end
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def test_return
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assert_raise(LocalJumpError){
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Fiber.new do
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return
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end.resume
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}
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end
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def test_throw
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assert_raise(UncaughtThrowError){
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Fiber.new do
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throw :a
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end.resume
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}
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end
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def test_raise
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assert_raise(ZeroDivisionError){
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Fiber.new do
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1/0
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end.resume
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}
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assert_raise(RuntimeError){
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fib = Fiber.new{ Fiber.yield }
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fib.resume
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fib.raise "raise and propagate"
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}
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assert_nothing_raised{
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fib = Fiber.new do
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begin
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Fiber.yield
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rescue
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end
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end
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fib.resume
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fib.raise "rescue in fiber"
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}
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fib = Fiber.new do
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begin
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Fiber.yield
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rescue
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Fiber.yield :ok
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end
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end
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fib.resume
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assert_equal(:ok, fib.raise)
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end
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def test_raise_transferring_fiber
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root = Fiber.current
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fib = Fiber.new { root.transfer }
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fib.transfer
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assert_raise(RuntimeError){
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fib.raise "can raise with transfer: true"
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}
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assert_not_predicate(fib, :alive?)
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end
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def test_transfer
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ary = []
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f2 = nil
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f1 = Fiber.new{
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ary << f2.transfer(:foo)
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:ok
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}
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f2 = Fiber.new{
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ary << f1.transfer(:baz)
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:ng
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}
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assert_equal(:ok, f1.transfer)
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assert_equal([:baz], ary)
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end
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def test_terminate_transferred_fiber
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log = []
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fa1 = fa2 = fb1 = r1 = nil
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fa1 = Fiber.new{
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fa2 = Fiber.new{
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log << :fa2_terminate
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}
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fa2.resume
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log << :fa1_terminate
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}
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fb1 = Fiber.new{
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fa1.transfer
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log << :fb1_terminate
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}
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r1 = Fiber.new{
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fb1.transfer
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log << :r1_terminate
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}
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r1.resume
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log << :root_terminate
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assert_equal [:fa2_terminate, :fa1_terminate, :r1_terminate, :root_terminate], log
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end
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def test_tls
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#
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def tvar(var, val)
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old = Thread.current[var]
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begin
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Thread.current[var] = val
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yield
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ensure
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Thread.current[var] = old
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end
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end
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fb = Fiber.new {
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assert_equal(nil, Thread.current[:v]); tvar(:v, :x) {
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assert_equal(:x, Thread.current[:v]); Fiber.yield
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assert_equal(:x, Thread.current[:v]); }
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assert_equal(nil, Thread.current[:v]); Fiber.yield
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raise # unreachable
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}
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assert_equal(nil, Thread.current[:v]); tvar(:v,1) {
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assert_equal(1, Thread.current[:v]); tvar(:v,3) {
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assert_equal(3, Thread.current[:v]); fb.resume
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assert_equal(3, Thread.current[:v]); }
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assert_equal(1, Thread.current[:v]); }
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assert_equal(nil, Thread.current[:v]); fb.resume
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assert_equal(nil, Thread.current[:v]);
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end
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def test_alive
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fib = Fiber.new{Fiber.yield}
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assert_equal(true, fib.alive?)
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fib.resume
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assert_equal(true, fib.alive?)
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fib.resume
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assert_equal(false, fib.alive?)
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end
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def test_resume_self
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f = Fiber.new {f.resume}
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assert_raise(FiberError, '[ruby-core:23651]') {f.transfer}
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end
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def test_fiber_transfer_segv
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assert_normal_exit %q{
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require 'fiber'
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f2 = nil
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f1 = Fiber.new{ f2.resume }
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f2 = Fiber.new{ f1.resume }
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f1.transfer
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}, '[ruby-dev:40833]'
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assert_normal_exit %q{
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require 'fiber'
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Fiber.new{}.resume
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1.times{Fiber.current.transfer}
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}
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end
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def test_resume_root_fiber
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Thread.new do
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assert_raise(FiberError) do
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Fiber.current.resume
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end
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end.join
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end
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def test_gc_root_fiber
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bug4612 = '[ruby-core:35891]'
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assert_normal_exit %q{
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require 'fiber'
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GC.stress = true
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Thread.start{ Fiber.current; nil }.join
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GC.start
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}, bug4612
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end
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def test_mark_fiber
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bug13875 = '[ruby-core:82681]'
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assert_normal_exit %q{
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GC.stress = true
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up = 1.upto(10)
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down = 10.downto(1)
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up.zip(down) {|a, b| a + b == 11 or fail 'oops'}
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}, bug13875
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end
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def test_no_valid_cfp
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bug5083 = '[ruby-dev:44208]'
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assert_equal([], Fiber.new(&Module.method(:nesting)).resume, bug5083)
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assert_instance_of(Class, Fiber.new(&Class.new.method(:undef_method)).resume(:to_s), bug5083)
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end
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def test_prohibit_transfer_to_resuming_fiber
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root_fiber = Fiber.current
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assert_raise(FiberError){
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fiber = Fiber.new{ root_fiber.transfer }
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fiber.resume
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}
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fa1 = Fiber.new{
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_fa2 = Fiber.new{ root_fiber.transfer }
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}
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fb1 = Fiber.new{
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_fb2 = Fiber.new{ root_fiber.transfer }
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}
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fa1.transfer
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fb1.transfer
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assert_raise(FiberError){
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fa1.transfer
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}
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assert_raise(FiberError){
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fb1.transfer
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}
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end
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def test_prohibit_transfer_to_yielding_fiber
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f1 = f2 = f3 = nil
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f1 = Fiber.new{
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f2 = Fiber.new{
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f3 = Fiber.new{
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p f3: Fiber.yield
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}
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f3.resume
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}
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f2.resume
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}
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f1.resume
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assert_raise(FiberError){ f3.transfer 10 }
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end
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def test_prohibit_resume_to_transferring_fiber
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root_fiber = Fiber.current
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assert_raise(FiberError){
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Fiber.new{
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root_fiber.resume
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}.transfer
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}
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f1 = f2 = nil
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f1 = Fiber.new do
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f2.transfer
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end
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f2 = Fiber.new do
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f1.resume # attempt to resume transferring fiber
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end
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assert_raise(FiberError){
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f1.transfer
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}
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end
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def test_fork_from_fiber
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omit 'fork not supported' unless Process.respond_to?(:fork)
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pid = nil
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bug5700 = '[ruby-core:41456]'
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assert_nothing_raised(bug5700) do
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Fiber.new do
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pid = fork do
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xpid = nil
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Fiber.new {
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xpid = fork do
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# enough to trigger GC on old root fiber
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count = 1000
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count.times do
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Fiber.new {}.transfer
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Fiber.new { Fiber.yield }
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end
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exit!(true)
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end
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}.transfer
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_, status = Process.waitpid2(xpid)
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exit!(status.success?)
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end
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end.resume
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end
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pid, status = Process.waitpid2(pid)
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assert_not_predicate(status, :signaled?, bug5700)
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assert_predicate(status, :success?, bug5700)
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pid = Fiber.new {fork}.resume
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pid, status = Process.waitpid2(pid)
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assert_not_predicate(status, :signaled?)
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assert_predicate(status, :success?)
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end
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def test_exit_in_fiber
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bug5993 = '[ruby-dev:45218]'
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assert_nothing_raised(bug5993) do
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Thread.new{ Fiber.new{ Thread.exit }.resume; raise "unreachable" }.join
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end
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end
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def test_fatal_in_fiber
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assert_in_out_err(["-r-test-/fatal/rb_fatal", "-e", <<-EOS], "", [], /ok/)
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Fiber.new{
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Bug.rb_fatal "ok"
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}.resume
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puts :ng # unreachable.
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EOS
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end
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def test_separate_lastmatch
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bug7678 = '[ruby-core:51331]'
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/a/ =~ "a"
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m1 = $~
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m2 = nil
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Fiber.new do
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/b/ =~ "b"
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m2 = $~
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end.resume
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assert_equal("b", m2[0])
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assert_equal(m1, $~, bug7678)
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end
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def test_separate_lastline
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bug7678 = '[ruby-core:51331]'
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$_ = s1 = "outer"
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s2 = nil
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Fiber.new do
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s2 = "inner"
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end.resume
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assert_equal("inner", s2)
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assert_equal(s1, $_, bug7678)
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end
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def test_new_symbol_proc
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bug = '[ruby-core:80147] [Bug #13313]'
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assert_ruby_status([], "#{<<-"begin;"}\n#{<<-'end;'}", bug)
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begin;
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exit("1" == Fiber.new(&:to_s).resume(1))
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end;
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end
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def test_to_s
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f = Fiber.new do
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assert_match(/resumed/, f.to_s)
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Fiber.yield
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end
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assert_match(/created/, f.to_s)
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f.resume
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assert_match(/suspended/, f.to_s)
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f.resume
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assert_match(/terminated/, f.to_s)
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assert_match(/resumed/, Fiber.current.to_s)
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end
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def test_create_fiber_in_new_thread
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ret = Thread.new{
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Thread.new{
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Fiber.new{Fiber.yield :ok}.resume
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}.value
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}.value
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assert_equal :ok, ret, '[Bug #14642]'
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end
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def test_machine_stack_gc
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assert_normal_exit <<-RUBY, '[Bug #14561]', timeout: 10
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enum = Enumerator.new { |y| y << 1 }
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thread = Thread.new { enum.peek }
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thread.join
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sleep 5 # pause until thread cache wait time runs out. Native thread exits.
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GC.start
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RUBY
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end
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end
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