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ruby--ruby/bootstraptest/test_ractor.rb
Nobuyoshi Nakada 3acc81d9e4 Fixed race in dtoa [Bug #17612]
Fixed the race condition when replacing `freelist` entry with its
chained next element.  At acquiring an entry, hold the entry once
with the special value, then release by replacing it with the next
element again after acquired.  If another thread is holding the
same entry at that time, spinning until the entry gets released.

Co-Authored-By: Koichi Sasada <ko1@atdot.net>
2021-02-10 19:44:47 +09:00

1377 lines
26 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
}
# 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 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
# 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 = 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'
}
# $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 access 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
}
# 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
}
# 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 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 = Proc.new do
a
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 = 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
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
}
end # if !ENV['GITHUB_WORKFLOW']