require 'test/unit' require 'fiber' require 'continuation' require_relative './envutil' class TestFiber < Test::Unit::TestCase def test_normal f = Fiber.current assert_equal(:ok2, Fiber.new{|e| assert_equal(:ok1, e) Fiber.yield :ok2 }.resume(:ok1) ) assert_equal([:a, :b], Fiber.new{|a, b| [a, b]}.resume(:a, :b)) end def test_argument assert_equal(4, Fiber.new {|i=4| i}.resume) end def test_term assert_equal(:ok, Fiber.new{:ok}.resume) assert_equal([:a, :b, :c, :d, :e], Fiber.new{ Fiber.new{ Fiber.new{ Fiber.new{ [:a] }.resume + [:b] }.resume + [:c] }.resume + [:d] }.resume + [:e]) end def test_many_fibers max = 10000 assert_equal(max, max.times{ Fiber.new{} }) assert_equal(max, max.times{|i| Fiber.new{ }.resume } ) end def test_many_fibers_with_threads max = 1000 @cnt = 0 (1..100).map{|ti| Thread.new{ max.times{|i| Fiber.new{ @cnt += 1 }.resume } } }.each{|t| t.join } assert_equal(:ok, :ok) end def test_error assert_raise(ArgumentError){ Fiber.new # Fiber without block } assert_raise(FiberError){ f = Fiber.new{} Thread.new{f.resume}.join # Fiber yielding across thread } assert_raise(FiberError){ f = Fiber.new{} f.resume f.resume } assert_raise(RuntimeError){ f = Fiber.new{ @c = callcc{|c| @c = c} }.resume @c.call # cross fiber callcc } assert_raise(RuntimeError){ Fiber.new{ raise }.resume } assert_raise(FiberError){ Fiber.yield } assert_raise(FiberError){ fib = Fiber.new{ fib.resume } fib.resume } assert_raise(FiberError){ fib = Fiber.new{ Fiber.new{ fib.resume }.resume } fib.resume } end def test_return assert_raise(LocalJumpError){ Fiber.new do return end.resume } end def test_throw assert_raise(ArgumentError){ Fiber.new do throw :a end.resume } end def test_transfer ary = [] f2 = nil f1 = Fiber.new{ ary << f2.transfer(:foo) :ok } f2 = Fiber.new{ ary << f1.transfer(:baz) :ng } assert_equal(:ok, f1.transfer) assert_equal([:baz], ary) end def test_tls # def tvar(var, val) old = Thread.current[var] begin Thread.current[var] = val yield ensure Thread.current[var] = old end end fb = Fiber.new { assert_equal(nil, Thread.current[:v]); tvar(:v, :x) { assert_equal(:x, Thread.current[:v]); Fiber.yield assert_equal(:x, Thread.current[:v]); } assert_equal(nil, Thread.current[:v]); Fiber.yield raise # unreachable } assert_equal(nil, Thread.current[:v]); tvar(:v,1) { assert_equal(1, Thread.current[:v]); tvar(:v,3) { assert_equal(3, Thread.current[:v]); fb.resume assert_equal(3, Thread.current[:v]); } assert_equal(1, Thread.current[:v]); } assert_equal(nil, Thread.current[:v]); fb.resume assert_equal(nil, Thread.current[:v]); end def test_alive fib = Fiber.new{Fiber.yield} assert_equal(true, fib.alive?) fib.resume assert_equal(true, fib.alive?) fib.resume assert_equal(false, fib.alive?) end def test_resume_self f = Fiber.new {f.resume} assert_raise(FiberError, '[ruby-core:23651]') {f.transfer} end def test_fiber_transfer_segv assert_normal_exit %q{ require 'fiber' f2 = nil f1 = Fiber.new{ f2.resume } f2 = Fiber.new{ f1.resume } f1.transfer }, '[ruby-dev:40833]' end def test_resume_root_fiber assert_raise(FiberError) do Thread.new do Fiber.current.resume end.join end end def test_gc_root_fiber bug4612 = '[ruby-core:35891]' assert_normal_exit %q{ require 'fiber' GC.stress = true Thread.start{ Fiber.current; nil }.join GC.start }, bug4612 end end