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ruby--ruby/bootstraptest/test_ractor.rb
Nobuyoshi Nakada 131c31a920
[Bug #19081] Show the caller location in warning for Ractor
The internal location in ractor.rb is not usefull at all.
```
$ ruby -e 'Ractor.new {}'
<internal:ractor>:267: warning: Ractor is experimental, ...
```
2022-10-26 19:43:14 +09:00

1627 lines
31 KiB
Ruby

# Ractor.current returns a current ractor
assert_equal 'Ractor', %q{
Ractor.current.class
}
# Ractor.new returns new Ractor
assert_equal 'Ractor', %q{
Ractor.new{}.class
}
# Ractor.allocate is not supported
assert_equal "[:ok, :ok]", %q{
rs = []
begin
Ractor.allocate
rescue => e
rs << :ok if e.message == 'allocator undefined for Ractor'
end
begin
Ractor.new{}.dup
rescue
rs << :ok if e.message == 'allocator undefined for Ractor'
end
rs
}
# A Ractor can have a name
assert_equal 'test-name', %q{
r = Ractor.new name: 'test-name' do
end
r.name
}
# If Ractor doesn't have a name, Ractor#name returns nil.
assert_equal 'nil', %q{
r = Ractor.new do
end
r.name.inspect
}
# Raises exceptions if initialize with an invalid name
assert_equal 'ok', %q{
begin
r = Ractor.new(name: [{}]) {}
rescue TypeError => e
'ok'
end
}
# Ractor.new must call with a block
assert_equal "must be called with a block", %q{
begin
Ractor.new
rescue ArgumentError => e
e.message
end
}
# Ractor#inspect
# Return only id and status for main ractor
assert_equal "#<Ractor:#1 running>", %q{
Ractor.current.inspect
}
# Return id, loc, and status for no-name ractor
assert_match /^#<Ractor:#([^ ]*?) .+:[0-9]+ terminated>$/, %q{
r = Ractor.new { '' }
r.take
sleep 0.1 until r.inspect =~ /terminated/
r.inspect
}
# Return id, name, loc, and status for named ractor
assert_match /^#<Ractor:#([^ ]*?) Test Ractor .+:[0-9]+ terminated>$/, %q{
r = Ractor.new(name: 'Test Ractor') { '' }
r.take
sleep 0.1 until r.inspect =~ /terminated/
r.inspect
}
# A return value of a Ractor block will be a message from the Ractor.
assert_equal 'ok', %q{
# join
r = Ractor.new do
'ok'
end
r.take
}
# Passed arguments to Ractor.new will be a block parameter
# The values are passed with Ractor-communication pass.
assert_equal 'ok', %q{
# ping-pong with arg
r = Ractor.new 'ok' do |msg|
msg
end
r.take
}
# Pass multiple arguments to Ractor.new
assert_equal 'ok', %q{
# ping-pong with two args
r = Ractor.new 'ping', 'pong' do |msg, msg2|
[msg, msg2]
end
'ok' if r.take == ['ping', 'pong']
}
# Ractor#send passes an object with copy to a Ractor
# and Ractor.receive in the Ractor block can receive the passed value.
assert_equal 'ok', %q{
r = Ractor.new do
msg = Ractor.receive
end
r.send 'ok'
r.take
}
# Ractor#receive_if can filter the message
assert_equal '[2, 3, 1]', %q{
r = Ractor.new Ractor.current do |main|
main << 1
main << 2
main << 3
end
a = []
a << Ractor.receive_if{|msg| msg == 2}
a << Ractor.receive_if{|msg| msg == 3}
a << Ractor.receive
}
# Ractor#receive_if with break
assert_equal '[2, [1, :break], 3]', %q{
r = Ractor.new Ractor.current do |main|
main << 1
main << 2
main << 3
end
a = []
a << Ractor.receive_if{|msg| msg == 2}
a << Ractor.receive_if{|msg| break [msg, :break]}
a << Ractor.receive
}
# Ractor#receive_if can't be called recursively
assert_equal '[[:e1, 1], [:e2, 2]]', %q{
r = Ractor.new Ractor.current do |main|
main << 1
main << 2
main << 3
end
a = []
Ractor.receive_if do |msg|
begin
Ractor.receive
rescue Ractor::Error
a << [:e1, msg]
end
true # delete 1 from queue
end
Ractor.receive_if do |msg|
begin
Ractor.receive_if{}
rescue Ractor::Error
a << [:e2, msg]
end
true # delete 2 from queue
end
a #
}
# dtoa race condition
assert_equal '[:ok, :ok, :ok]', %q{
n = 3
n.times.map{
Ractor.new{
10_000.times{ rand.to_s }
:ok
}
}.map(&:take)
}
# Ractor.make_shareable issue for locals in proc [Bug #18023]
assert_equal '[:a, :b, :c, :d, :e]', %q{
v1, v2, v3, v4, v5 = :a, :b, :c, :d, :e
closure = Ractor.current.instance_eval{ Proc.new { [v1, v2, v3, v4, v5] } }
Ractor.make_shareable(closure).call
}
# Ractor.make_shareable issue for locals in proc [Bug #18023]
assert_equal '[:a, :b, :c, :d, :e, :f, :g]', %q{
a = :a
closure = Ractor.current.instance_eval do
-> {
b, c, d = :b, :c, :d
-> {
e, f, g = :e, :f, :g
-> { [a, b, c, d, e, f, g] }
}.call
}.call
end
Ractor.make_shareable(closure).call
}
# Now autoload in non-main Ractor is not supported
assert_equal 'ok', %q{
autoload :Foo, 'foo.rb'
r = Ractor.new do
p Foo
rescue Ractor::UnsafeError
:ok
end
r.take
}
###
###
# Ractor still has several memory corruption so skip huge number of tests
if ENV['GITHUB_WORKFLOW'] &&
ENV['GITHUB_WORKFLOW'] == 'Compilations'
# ignore the follow
else
# Ractor.select(*ractors) receives a values from a ractors.
# It is similar to select(2) and Go's select syntax.
# The return value is [ch, received_value]
assert_equal 'ok', %q{
# select 1
r1 = Ractor.new{'r1'}
r, obj = Ractor.select(r1)
'ok' if r == r1 and obj == 'r1'
}
# Ractor.select from two ractors.
assert_equal '["r1", "r2"]', %q{
# select 2
r1 = Ractor.new{'r1'}
r2 = Ractor.new{'r2'}
rs = [r1, r2]
as = []
r, obj = Ractor.select(*rs)
rs.delete(r)
as << obj
r, obj = Ractor.select(*rs)
as << obj
as.sort #=> ["r1", "r2"]
}
# Ractor.select from multiple ractors.
assert_equal 30.times.map { 'ok' }.to_s, %q{
def test n
rs = (1..n).map do |i|
Ractor.new(i) do |i|
"r#{i}"
end
end
as = []
all_rs = rs.dup
n.times{
r, obj = Ractor.select(*rs)
as << [r, obj]
rs.delete(r)
}
if as.map{|r, o| r.object_id}.sort == all_rs.map{|r| r.object_id}.sort &&
as.map{|r, o| o}.sort == (1..n).map{|i| "r#{i}"}.sort
'ok'
else
'ng'
end
end
30.times.map{|i|
test i
}
} unless ENV['RUN_OPTS'] =~ /--jit-min-calls=5/ || # This always fails with --jit-wait --jit-min-calls=5
(ENV.key?('TRAVIS') && ENV['TRAVIS_CPU_ARCH'] == 'arm64') # https://bugs.ruby-lang.org/issues/17878
# Exception for empty select
assert_match /specify at least one ractor/, %q{
begin
Ractor.select
rescue ArgumentError => e
e.message
end
}
# Outgoing port of a ractor will be closed when the Ractor is terminated.
assert_equal 'ok', %q{
r = Ractor.new do
'finish'
end
r.take
sleep 0.1 until r.inspect =~ /terminated/
begin
o = r.take
rescue Ractor::ClosedError
'ok'
else
"ng: #{o}"
end
}
# Raise Ractor::ClosedError when try to send into a terminated ractor
assert_equal 'ok', %q{
r = Ractor.new do
end
r.take # closed
sleep 0.1 until r.inspect =~ /terminated/
begin
r.send(1)
rescue Ractor::ClosedError
'ok'
else
'ng'
end
}
# Raise Ractor::ClosedError when try to send into a closed actor
assert_equal 'ok', %q{
r = Ractor.new { Ractor.receive }
r.close_incoming
begin
r.send(1)
rescue Ractor::ClosedError
'ok'
else
'ng'
end
}
# Raise Ractor::ClosedError when try to take from closed actor
assert_equal 'ok', %q{
r = Ractor.new do
Ractor.yield 1
Ractor.receive
end
r.close_outgoing
begin
r.take
rescue Ractor::ClosedError
'ok'
else
'ng'
end
}
# Can mix with Thread#interrupt and Ractor#take [Bug #17366]
assert_equal 'err', %q{
Ractor.new{
t = Thread.current
begin
Thread.new{ t.raise "err" }.join
rescue => e
e.message
end
}.take
}
# Killed Ractor's thread yields nil
assert_equal 'nil', %q{
Ractor.new{
t = Thread.current
Thread.new{ t.kill }.join
}.take.inspect #=> nil
}
# Ractor.yield raises Ractor::ClosedError when outgoing port is closed.
assert_equal 'ok', %q{
r = Ractor.new Ractor.current do |main|
Ractor.receive
main << true
Ractor.yield 1
end
r.close_outgoing
r << true
Ractor.receive
begin
r.take
rescue Ractor::ClosedError
'ok'
else
'ng'
end
}
# Raise Ractor::ClosedError when try to send into a ractor with closed incoming port
assert_equal 'ok', %q{
r = Ractor.new { Ractor.receive }
r.close_incoming
begin
r.send(1)
rescue Ractor::ClosedError
'ok'
else
'ng'
end
}
# A ractor with closed incoming port still can send messages out
assert_equal '[1, 2]', %q{
r = Ractor.new do
Ractor.yield 1
2
end
r.close_incoming
[r.take, r.take]
}
# Raise Ractor::ClosedError when try to take from a ractor with closed outgoing port
assert_equal 'ok', %q{
r = Ractor.new do
Ractor.yield 1
Ractor.receive
end
sleep 0.01 # wait for Ractor.yield in r
r.close_outgoing
begin
r.take
rescue Ractor::ClosedError
'ok'
else
'ng'
end
}
# A ractor with closed outgoing port still can receive messages from incoming port
assert_equal 'ok', %q{
r = Ractor.new do
Ractor.receive
end
r.close_outgoing
begin
r.send(1)
rescue Ractor::ClosedError
'ng'
else
'ok'
end
}
# Ractor.main returns main ractor
assert_equal 'true', %q{
Ractor.new{
Ractor.main
}.take == Ractor.current
}
# a ractor with closed outgoing port should terminate
assert_equal 'ok', %q{
Ractor.new do
close_outgoing
end
true until Ractor.count == 1
:ok
}
# multiple Ractors can receive (wait) from one Ractor
assert_equal '[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]', %q{
pipe = Ractor.new do
loop do
Ractor.yield Ractor.receive
end
end
RN = 10
rs = RN.times.map{|i|
Ractor.new pipe, i do |pipe, i|
msg = pipe.take
msg # ping-pong
end
}
RN.times{|i|
pipe << i
}
RN.times.map{
r, n = Ractor.select(*rs)
rs.delete r
n
}.sort
}
# Ractor.select also support multiple take, receive and yield
assert_equal '[true, true, true]', %q{
RN = 10
CR = Ractor.current
rs = (1..RN).map{
Ractor.new do
CR.send 'send' + CR.take #=> 'sendyield'
'take'
end
}
received = []
take = []
yielded = []
until rs.empty?
r, v = Ractor.select(CR, *rs, yield_value: 'yield')
case r
when :receive
received << v
when :yield
yielded << v
else
take << v
rs.delete r
end
end
[received.all?('sendyield'), yielded.all?(nil), take.all?('take')]
}
# multiple Ractors can send to one Ractor
assert_equal '[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]', %q{
pipe = Ractor.new do
loop do
Ractor.yield Ractor.receive
end
end
RN = 10
RN.times.map{|i|
Ractor.new pipe, i do |pipe, i|
pipe << i
end
}
RN.times.map{
pipe.take
}.sort
}
# an exception in a Ractor will be re-raised at Ractor#receive
assert_equal '[RuntimeError, "ok", true]', %q{
r = Ractor.new do
raise 'ok' # exception will be transferred receiver
end
begin
r.take
rescue Ractor::RemoteError => e
[e.cause.class, #=> RuntimeError
e.cause.message, #=> 'ok'
e.ractor == r] #=> true
end
}
# threads in a ractor will killed
assert_equal '{:ok=>3}', %q{
Ractor.new Ractor.current do |main|
q = Thread::Queue.new
Thread.new do
q << true
loop{}
ensure
main << :ok
end
Thread.new do
q << true
while true
end
ensure
main << :ok
end
Thread.new do
q << true
sleep 1
ensure
main << :ok
end
# wait for the start of all threads
3.times{q.pop}
end
3.times.map{Ractor.receive}.tally
}
# unshareable object are copied
assert_equal 'false', %q{
obj = 'str'.dup
r = Ractor.new obj do |msg|
msg.object_id
end
obj.object_id == r.take
}
# To copy the object, now Marshal#dump is used
assert_equal "allocator undefined for Thread", %q{
obj = Thread.new{}
begin
r = Ractor.new obj do |msg|
msg
end
rescue TypeError => e
e.message #=> no _dump_data is defined for class Thread
else
'ng'
end
}
# send shareable and unshareable objects
assert_equal "ok", %q{
echo_ractor = Ractor.new do
loop do
v = Ractor.receive
Ractor.yield v
end
end
class C; end
module M; end
S = Struct.new(:a, :b, :c, :d)
shareable_objects = [
true,
false,
nil,
1,
1.1, # Float
1+2r, # Rational
3+4i, # Complex
2**128, # Bignum
:sym, # Symbol
'xyzzy'.to_sym, # dynamic symbol
'frozen'.freeze, # frozen String
/regexp/, # regexp literal
/reg{true}exp/.freeze, # frozen dregexp
[1, 2].freeze, # frozen Array which only refers to shareable
{a: 1}.freeze, # frozen Hash which only refers to shareable
[{a: 1}.freeze, 'str'.freeze].freeze, # nested frozen container
S.new(1, 2).freeze, # frozen Struct
S.new(1, 2, 3, 4).freeze, # frozen Struct
(1..2), # Range on Struct
(1..), # Range on Struct
(..1), # Range on Struct
C, # class
M, # module
Ractor.current, # Ractor
]
unshareable_objects = [
'mutable str'.dup,
[:array],
{hash: true},
S.new(1, 2),
S.new(1, 2, 3, 4),
S.new("a", 2).freeze, # frozen, but refers to an unshareable object
]
results = []
shareable_objects.map{|o|
echo_ractor << o
o2 = echo_ractor.take
results << "#{o} is copied" unless o.object_id == o2.object_id
}
unshareable_objects.map{|o|
echo_ractor << o
o2 = echo_ractor.take
results << "#{o.inspect} is not copied" if o.object_id == o2.object_id
}
if results.empty?
:ok
else
results.inspect
end
}
# frozen Objects are shareable
assert_equal [false, true, false].inspect, %q{
class C
def initialize freeze
@a = 1
@b = :sym
@c = 'frozen_str'
@c.freeze if freeze
@d = true
end
end
def check obj1
obj2 = Ractor.new obj1 do |obj|
obj
end.take
obj1.object_id == obj2.object_id
end
results = []
results << check(C.new(true)) # false
results << check(C.new(true).freeze) # true
results << check(C.new(false).freeze) # false
}
# move example2: String
# touching moved object causes an error
assert_equal 'hello world', %q{
# move
r = Ractor.new do
obj = Ractor.receive
obj << ' world'
end
str = 'hello'
r.send str, move: true
modified = r.take
begin
str << ' exception' # raise Ractor::MovedError
rescue Ractor::MovedError
modified #=> 'hello world'
else
raise 'unreachable'
end
}
# move example2: Array
assert_equal '[0, 1]', %q{
r = Ractor.new do
ary = Ractor.receive
ary << 1
end
a1 = [0]
r.send a1, move: true
a2 = r.take
begin
a1 << 2 # raise Ractor::MovedError
rescue Ractor::MovedError
a2.inspect
end
}
# move with yield
assert_equal 'hello', %q{
r = Ractor.new do
Thread.current.report_on_exception = false
obj = 'hello'
Ractor.yield obj, move: true
obj << 'world'
end
str = r.take
begin
r.take
rescue Ractor::RemoteError
str #=> "hello"
end
}
# yield/move should not make moved object when the yield is not succeeded
assert_equal '"str"', %q{
R = Ractor.new{}
M = Ractor.current
r = Ractor.new do
s = 'str'
selected_r, v = Ractor.select R, yield_value: s, move: true
raise if selected_r != R # taken from R
M.send s.inspect # s should not be a moved object
end
Ractor.receive
}
# yield/move can fail
assert_equal "allocator undefined for Thread", %q{
r = Ractor.new do
obj = Thread.new{}
Ractor.yield obj
rescue => e
e.message
end
r.take
}
# Access to global-variables are prohibited
assert_equal 'can not access global variables $gv from non-main Ractors', %q{
$gv = 1
r = Ractor.new do
$gv
end
begin
r.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# Access to global-variables are prohibited
assert_equal 'can not access global variables $gv from non-main Ractors', %q{
r = Ractor.new do
$gv = 1
end
begin
r.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# $stdin,out,err is Ractor local, but shared fds
assert_equal 'ok', %q{
r = Ractor.new do
[$stdin, $stdout, $stderr].map{|io|
[io.object_id, io.fileno]
}
end
[$stdin, $stdout, $stderr].zip(r.take){|io, (oid, fno)|
raise "should not be different object" if io.object_id == oid
raise "fd should be same" unless io.fileno == fno
}
'ok'
}
# $stdin,out,err belong to Ractor
assert_equal 'ok', %q{
r = Ractor.new do
$stdin.itself
$stdout.itself
$stderr.itself
'ok'
end
r.take
}
# $DEBUG, $VERBOSE are Ractor local
assert_equal 'true', %q{
$DEBUG = true
$VERBOSE = true
def ractor_local_globals
/a(b)(c)d/ =~ 'abcd' # for $~
`echo foo` unless /solaris/ =~ RUBY_PLATFORM
{
# ractor-local (derived from created ractor): debug
'$DEBUG' => $DEBUG,
'$-d' => $-d,
# ractor-local (derived from created ractor): verbose
'$VERBOSE' => $VERBOSE,
'$-w' => $-w,
'$-W' => $-W,
'$-v' => $-v,
# process-local (readonly): other commandline parameters
'$-p' => $-p,
'$-l' => $-l,
'$-a' => $-a,
# process-local (readonly): getpid
'$$' => $$,
# thread local: process result
'$?' => $?,
# scope local: match
'$~' => $~.inspect,
'$&' => $&,
'$`' => $`,
'$\'' => $',
'$+' => $+,
'$1' => $1,
# scope local: last line
'$_' => $_,
# scope local: last backtrace
'$@' => $@,
'$!' => $!,
# ractor local: stdin, out, err
'$stdin' => $stdin.inspect,
'$stdout' => $stdout.inspect,
'$stderr' => $stderr.inspect,
}
end
h = Ractor.new do
ractor_local_globals
end.take
ractor_local_globals == h #=> true
}
# selfs are different objects
assert_equal 'false', %q{
r = Ractor.new do
self.object_id
end
r.take == self.object_id #=> false
}
# self is a Ractor instance
assert_equal 'true', %q{
r = Ractor.new do
self.object_id
end
r.object_id == r.take #=> true
}
# given block Proc will be isolated, so can not access outer variables.
assert_equal 'ArgumentError', %q{
begin
a = true
r = Ractor.new do
a
end
rescue => e
e.class
end
}
# ivar in shareable-objects are not allowed to access from non-main Ractor
assert_equal "can not get unshareable values from instance variables of classes/modules from non-main Ractors", %q{
class C
@iv = 'str'
end
r = Ractor.new do
class C
p @iv
end
end
begin
r.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# ivar in shareable-objects are not allowed to access from non-main Ractor
assert_equal 'can not access instance variables of shareable objects from non-main Ractors', %q{
shared = Ractor.new{}
shared.instance_variable_set(:@iv, 'str')
r = Ractor.new shared do |shared|
p shared.instance_variable_get(:@iv)
end
begin
r.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# ivar in shareable-objects are not allowed to access from non-main Ractor, by @iv (get)
assert_equal 'can not access instance variables of shareable objects from non-main Ractors', %q{
class Ractor
def setup
@foo = ''
end
def foo
@foo
end
end
shared = Ractor.new{}
shared.setup
r = Ractor.new shared do |shared|
p shared.foo
end
begin
r.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# ivar in shareable-objects are not allowed to access from non-main Ractor, by @iv (set)
assert_equal 'can not access instance variables of shareable objects from non-main Ractors', %q{
class Ractor
def setup
@foo = ''
end
end
shared = Ractor.new{}
r = Ractor.new shared do |shared|
p shared.setup
end
begin
r.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# But a shareable object is frozen, it is allowed to access ivars from non-main Ractor
assert_equal '11', %q{
[Object.new, [], ].map{|obj|
obj.instance_variable_set('@a', 1)
Ractor.make_shareable obj = obj.freeze
Ractor.new obj do |obj|
obj.instance_variable_get('@a')
end.take.to_s
}.join
}
# and instance variables of classes/modules are accessible if they refer shareable objects
assert_equal '333', %q{
class C
@int = 1
@str = '-1000'.dup
@fstr = '100'.freeze
def self.int = @int
def self.str = @str
def self.fstr = @fstr
end
module M
@int = 2
@str = '-2000'.dup
@fstr = '200'.freeze
def self.int = @int
def self.str = @str
def self.fstr = @fstr
end
a = Ractor.new{ C.int }.take
b = Ractor.new do
C.str.to_i
rescue Ractor::IsolationError
10
end.take
c = Ractor.new do
C.fstr.to_i
end.take
d = Ractor.new{ M.int }.take
e = Ractor.new do
M.str.to_i
rescue Ractor::IsolationError
20
end.take
f = Ractor.new do
M.fstr.to_i
end.take
# 1 + 10 + 100 + 2 + 20 + 200
a + b + c + d + e + f
}
# cvar in shareable-objects are not allowed to access from non-main Ractor
assert_equal 'can not access class variables from non-main Ractors', %q{
class C
@@cv = 'str'
end
r = Ractor.new do
class C
p @@cv
end
end
begin
r.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# also cached cvar in shareable-objects are not allowed to access from non-main Ractor
assert_equal 'can not access class variables from non-main Ractors', %q{
class C
@@cv = 'str'
def self.cv
@@cv
end
end
C.cv # cache
r = Ractor.new do
C.cv
end
begin
r.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# Getting non-shareable objects via constants by other Ractors is not allowed
assert_equal 'can not access non-shareable objects in constant C::CONST by non-main Ractor.', %q{
class C
CONST = 'str'
end
r = Ractor.new do
C::CONST
end
begin
r.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# Constant cache should care about non-sharable constants
assert_equal "can not access non-shareable objects in constant Object::STR by non-main Ractor.", %q{
STR = "hello"
def str; STR; end
s = str() # fill const cache
begin
Ractor.new{ str() }.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# Setting non-shareable objects into constants by other Ractors is not allowed
assert_equal 'can not set constants with non-shareable objects by non-main Ractors', %q{
class C
end
r = Ractor.new do
C::CONST = 'str'
end
begin
r.take
rescue Ractor::RemoteError => e
e.cause.message
end
}
# define_method is not allowed
assert_equal "defined with an un-shareable Proc in a different Ractor", %q{
str = "foo"
define_method(:buggy){|i| str << "#{i}"}
begin
Ractor.new{buggy(10)}.take
rescue => e
e.cause.message
end
}
# Immutable Array and Hash are shareable, so it can be shared with constants
assert_equal '[1000, 3]', %q{
A = Array.new(1000).freeze # [nil, ...]
H = {a: 1, b: 2, c: 3}.freeze
Ractor.new{ [A.size, H.size] }.take
}
# Ractor.count
assert_equal '[1, 4, 3, 2, 1]', %q{
counts = []
counts << Ractor.count
ractors = (1..3).map { Ractor.new { Ractor.receive } }
counts << Ractor.count
ractors[0].send('End 0').take
sleep 0.1 until ractors[0].inspect =~ /terminated/
counts << Ractor.count
ractors[1].send('End 1').take
sleep 0.1 until ractors[1].inspect =~ /terminated/
counts << Ractor.count
ractors[2].send('End 2').take
sleep 0.1 until ractors[2].inspect =~ /terminated/
counts << Ractor.count
counts.inspect
}
# ObjectSpace.each_object can not handle unshareable objects with Ractors
assert_equal '0', %q{
Ractor.new{
n = 0
ObjectSpace.each_object{|o| n += 1 unless Ractor.shareable?(o)}
n
}.take
}
# ObjectSpace._id2ref can not handle unshareable objects with Ractors
assert_equal 'ok', %q{
s = 'hello'
Ractor.new s.object_id do |id ;s|
begin
s = ObjectSpace._id2ref(id)
rescue => e
:ok
end
end.take
}
# Ractor.make_shareable(obj)
assert_equal 'true', %q{
class C
def initialize
@a = 'foo'
@b = 'bar'
end
def freeze
@c = [:freeze_called]
super
end
attr_reader :a, :b, :c
end
S = Struct.new(:s1, :s2)
str = "hello"
str.instance_variable_set("@iv", "hello")
/a/ =~ 'a'
m = $~
class N < Numeric
def /(other)
1
end
end
ary = []; ary << ary
a = [[1, ['2', '3']],
{Object.new => "hello"},
C.new,
S.new("x", "y"),
("a".."b"),
str,
ary, # cycle
/regexp/,
/#{'r'.upcase}/,
m,
Complex(N.new,0),
Rational(N.new,0),
true,
false,
nil,
1, 1.2, 1+3r, 1+4i, # Numeric
]
Ractor.make_shareable(a)
# check all frozen
a.each{|o|
raise o.inspect unless o.frozen?
case o
when C
raise o.a.inspect unless o.a.frozen?
raise o.b.inspect unless o.b.frozen?
raise o.c.inspect unless o.c.frozen? && o.c == [:freeze_called]
when Rational
raise o.numerator.inspect unless o.numerator.frozen?
when Complex
raise o.real.inspect unless o.real.frozen?
when Array
if o[0] == 1
raise o[1][1].inspect unless o[1][1].frozen?
end
when Hash
o.each{|k, v|
raise k.inspect unless k.frozen?
raise v.inspect unless v.frozen?
}
end
}
Ractor.shareable?(a)
}
# Ractor.make_shareable(obj) doesn't freeze shareable objects
assert_equal 'true', %q{
r = Ractor.new{}
Ractor.make_shareable(a = [r])
[a.frozen?, a[0].frozen?] == [true, false]
}
# Ractor.make_shareable(a_proc) makes a proc shareable.
assert_equal 'true', %q{
a = [1, [2, 3], {a: "4"}]
pr = Ractor.current.instance_eval do
Proc.new do
a
end
end
Ractor.make_shareable(a) # referred value should be shareable
Ractor.make_shareable(pr)
Ractor.shareable?(pr)
}
# Ractor.shareable?(recursive_objects)
assert_equal '[false, false]', %q{
y = []
x = [y, {}].freeze
y << x
y.freeze
[Ractor.shareable?(x), Ractor.shareable?(y)]
}
# Ractor.make_shareable(recursive_objects)
assert_equal '[:ok, false, false]', %q{
o = Object.new
def o.freeze; raise; end
y = []
x = [y, o].freeze
y << x
y.freeze
[(Ractor.make_shareable(x) rescue :ok), Ractor.shareable?(x), Ractor.shareable?(y)]
}
# Ractor.make_shareable with Class/Module
assert_equal '[C, M]', %q{
class C; end
module M; end
Ractor.make_shareable(ary = [C, M])
}
# define_method() can invoke different Ractor's proc if the proc is shareable.
assert_equal '1', %q{
class C
a = 1
define_method "foo", Ractor.make_shareable(Proc.new{ a })
a = 2
end
Ractor.new{ C.new.foo }.take
}
# Ractor.make_shareable(a_proc) makes a proc shareable.
assert_equal 'can not make a Proc shareable because it accesses outer variables (a).', %q{
a = b = nil
pr = Ractor.current.instance_eval do
Proc.new do
c = b # assign to a is okay because c is block local variable
# reading b is okay
a = b # assign to a is not allowed #=> Ractor::Error
end
end
begin
Ractor.make_shareable(pr)
rescue => e
e.message
end
}
# Ractor.make_shareable(obj, copy: true) makes copied shareable object.
assert_equal '[false, false, true, true]', %q{
r = []
o1 = [1, 2, ["3"]]
o2 = Ractor.make_shareable(o1, copy: true)
r << Ractor.shareable?(o1) # false
r << (o1.object_id == o2.object_id) # false
o3 = Ractor.make_shareable(o1)
r << Ractor.shareable?(o1) # true
r << (o1.object_id == o3.object_id) # false
r
}
# TracePoint with normal Proc should be Ractor local
assert_equal '[4, 8]', %q{
rs = []
TracePoint.new(:line){|tp| rs << tp.lineno if tp.path == __FILE__}.enable do
Ractor.new{ # line 4
a = 1
b = 2
}.take
c = 3 # line 8
end
rs
}
# Ractor deep copies frozen objects (ary)
assert_equal '[true, false]', %q{
Ractor.new([[]].freeze) { |ary|
[ary.frozen?, ary.first.frozen? ]
}.take
}
# Ractor deep copies frozen objects (str)
assert_equal '[true, false]', %q{
s = String.new.instance_eval { @x = []; freeze}
Ractor.new(s) { |s|
[s.frozen?, s.instance_variable_get(:@x).frozen?]
}.take
}
# Can not trap with not isolated Proc on non-main ractor
assert_equal '[:ok, :ok]', %q{
a = []
Ractor.new{
trap(:INT){p :ok}
}.take
a << :ok
begin
Ractor.new{
s = 'str'
trap(:INT){p s}
}.take
rescue => Ractor::RemoteError
a << :ok
end
}
# Ractor-local storage
assert_equal '[nil, "b", "a"]', %q{
ans = []
Ractor.current[:key] = 'a'
r = Ractor.new{
Ractor.yield self[:key]
self[:key] = 'b'
self[:key]
}
ans << r.take
ans << r.take
ans << Ractor.current[:key]
}
###
### Synchronization tests
###
N = 100_000
# fstring pool
assert_equal "#{N}#{N}", %Q{
N = #{N}
2.times.map{
Ractor.new{
N.times{|i| -(i.to_s)}
}
}.map{|r| r.take}.join
}
# enc_table
assert_equal "#{N/10}", %Q{
Ractor.new do
loop do
Encoding.find("test-enc-#{rand(5_000)}").inspect
rescue ArgumentError => e
end
end
src = Encoding.find("UTF-8")
#{N/10}.times{|i|
src.replicate("test-enc-\#{i}")
}
}
# Generic ivtbl
n = N/2
assert_equal "#{n}#{n}", %Q{
2.times.map{
Ractor.new do
#{n}.times do
obj = ''
obj.instance_variable_set("@a", 1)
obj.instance_variable_set("@b", 1)
obj.instance_variable_set("@c", 1)
obj.instance_variable_defined?("@a")
end
end
}.map{|r| r.take}.join
}
# NameError
assert_equal "ok", %q{
begin
bar
rescue => err
end
begin
Ractor.new{} << err
rescue TypeError
'ok'
end
}
assert_equal "ok", %q{
GC.disable
Ractor.new {}
raise "not ok" unless GC.disable
foo = []
10.times { foo << 1 }
GC.start
'ok'
}
# Can yield back values while GC is sweeping [Bug #18117]
assert_equal "ok", %q{
workers = (0...8).map do
Ractor.new do
loop do
10_000.times.map { Object.new }
Ractor.yield Time.now
end
end
end
1_000.times { idle_worker, tmp_reporter = Ractor.select(*workers) }
"ok"
}
assert_equal "ok", %q{
def foo(*); ->{ super }; end
begin
Ractor.make_shareable(foo)
rescue Ractor::IsolationError
"ok"
end
}
assert_equal "ok", %q{
def foo(**); ->{ super }; end
begin
Ractor.make_shareable(foo)
rescue Ractor::IsolationError
"ok"
end
}
assert_equal "ok", %q{
def foo(...); ->{ super }; end
begin
Ractor.make_shareable(foo)
rescue Ractor::IsolationError
"ok"
end
}
assert_equal "ok", %q{
def foo((x), (y)); ->{ super }; end
begin
Ractor.make_shareable(foo([], []))
rescue Ractor::IsolationError
"ok"
end
}
assert_equal "ok", %q{
module M
def foo
@foo
end
end
class A
include M
def initialize
100.times { |i| instance_variable_set(:"@var_#{i}", "bad: #{i}") }
@foo = 2
end
end
class B
include M
def initialize
@foo = 1
end
end
Ractor.new do
b = B.new
100_000.times do
raise unless b.foo == 1
end
end
a = A.new
100_000.times do
raise unless a.foo == 2
end
"ok"
}
assert_match /\Atest_ractor\.rb:1:\s+warning:\s+Ractor is experimental/, %q{
Warning[:experimental] = $VERBOSE = true
STDERR.reopen(STDOUT)
eval("Ractor.new{}.take", nil, "test_ractor.rb", 1)
}
end # if !ENV['GITHUB_WORKFLOW']