File: //usr/local/rvm/src/ruby-3.0.2/tool/lib/test/unit/core_assertions.rb
# frozen_string_literal: true
module Test
module Unit
module Assertions
def _assertions= n # :nodoc:
@_assertions = n
end
def _assertions # :nodoc:
@_assertions ||= 0
end
##
# Returns a proc that will output +msg+ along with the default message.
def message msg = nil, ending = nil, &default
proc {
msg = msg.call.chomp(".") if Proc === msg
custom_message = "#{msg}.\n" unless msg.nil? or msg.to_s.empty?
"#{custom_message}#{default.call}#{ending || "."}"
}
end
end
module CoreAssertions
if defined?(MiniTest)
require_relative '../../envutil'
# for ruby core testing
include MiniTest::Assertions
# Compatibility hack for assert_raise
Test::Unit::AssertionFailedError = MiniTest::Assertion
else
module MiniTest
class Assertion < Exception; end
class Skip < Assertion; end
end
require 'pp'
require_relative 'envutil'
include Test::Unit::Assertions
end
def mu_pp(obj) #:nodoc:
obj.pretty_inspect.chomp
end
def assert_file
AssertFile
end
FailDesc = proc do |status, message = "", out = ""|
now = Time.now
proc do
EnvUtil.failure_description(status, now, message, out)
end
end
def assert_in_out_err(args, test_stdin = "", test_stdout = [], test_stderr = [], message = nil,
success: nil, **opt)
args = Array(args).dup
args.insert((Hash === args[0] ? 1 : 0), '--disable=gems')
stdout, stderr, status = EnvUtil.invoke_ruby(args, test_stdin, true, true, **opt)
desc = FailDesc[status, message, stderr]
if block_given?
raise "test_stdout ignored, use block only or without block" if test_stdout != []
raise "test_stderr ignored, use block only or without block" if test_stderr != []
yield(stdout.lines.map {|l| l.chomp }, stderr.lines.map {|l| l.chomp }, status)
else
all_assertions(desc) do |a|
[["stdout", test_stdout, stdout], ["stderr", test_stderr, stderr]].each do |key, exp, act|
a.for(key) do
if exp.is_a?(Regexp)
assert_match(exp, act)
elsif exp.all? {|e| String === e}
assert_equal(exp, act.lines.map {|l| l.chomp })
else
assert_pattern_list(exp, act)
end
end
end
unless success.nil?
a.for("success?") do
if success
assert_predicate(status, :success?)
else
assert_not_predicate(status, :success?)
end
end
end
end
status
end
end
if defined?(RubyVM::InstructionSequence)
def syntax_check(code, fname, line)
code = code.dup.force_encoding(Encoding::UTF_8)
RubyVM::InstructionSequence.compile(code, fname, fname, line)
:ok
ensure
raise if SyntaxError === $!
end
else
def syntax_check(code, fname, line)
code = code.b
code.sub!(/\A(?:\xef\xbb\xbf)?(\s*\#.*$)*(\n)?/n) {
"#$&#{"\n" if $1 && !$2}BEGIN{throw tag, :ok}\n"
}
code = code.force_encoding(Encoding::UTF_8)
catch {|tag| eval(code, binding, fname, line - 1)}
end
end
def assert_no_memory_leak(args, prepare, code, message=nil, limit: 2.0, rss: false, **opt)
# TODO: consider choosing some appropriate limit for MJIT and stop skipping this once it does not randomly fail
pend 'assert_no_memory_leak may consider MJIT memory usage as leak' if defined?(RubyVM::MJIT) && RubyVM::MJIT.enabled?
require_relative '../../memory_status'
raise MiniTest::Skip, "unsupported platform" unless defined?(Memory::Status)
token = "\e[7;1m#{$$.to_s}:#{Time.now.strftime('%s.%L')}:#{rand(0x10000).to_s(16)}:\e[m"
token_dump = token.dump
token_re = Regexp.quote(token)
envs = args.shift if Array === args and Hash === args.first
args = [
"--disable=gems",
"-r", File.expand_path("../../../memory_status", __FILE__),
*args,
"-v", "-",
]
if defined? Memory::NO_MEMORY_LEAK_ENVS then
envs ||= {}
newenvs = envs.merge(Memory::NO_MEMORY_LEAK_ENVS) { |_, _, _| break }
envs = newenvs if newenvs
end
args.unshift(envs) if envs
cmd = [
'END {STDERR.puts '"#{token_dump}"'"FINAL=#{Memory::Status.new}"}',
prepare,
'STDERR.puts('"#{token_dump}"'"START=#{$initial_status = Memory::Status.new}")',
'$initial_size = $initial_status.size',
code,
'GC.start',
].join("\n")
_, err, status = EnvUtil.invoke_ruby(args, cmd, true, true, **opt)
before = err.sub!(/^#{token_re}START=(\{.*\})\n/, '') && Memory::Status.parse($1)
after = err.sub!(/^#{token_re}FINAL=(\{.*\})\n/, '') && Memory::Status.parse($1)
assert(status.success?, FailDesc[status, message, err])
([:size, (rss && :rss)] & after.members).each do |n|
b = before[n]
a = after[n]
next unless a > 0 and b > 0
assert_operator(a.fdiv(b), :<, limit, message(message) {"#{n}: #{b} => #{a}"})
end
rescue LoadError
pend
end
# :call-seq:
# assert_nothing_raised( *args, &block )
#
#If any exceptions are given as arguments, the assertion will
#fail if one of those exceptions are raised. Otherwise, the test fails
#if any exceptions are raised.
#
#The final argument may be a failure message.
#
# assert_nothing_raised RuntimeError do
# raise Exception #Assertion passes, Exception is not a RuntimeError
# end
#
# assert_nothing_raised do
# raise Exception #Assertion fails
# end
def assert_nothing_raised(*args)
self._assertions += 1
if Module === args.last
msg = nil
else
msg = args.pop
end
begin
line = __LINE__; yield
rescue MiniTest::Skip
raise
rescue Exception => e
bt = e.backtrace
as = e.instance_of?(MiniTest::Assertion)
if as
ans = /\A#{Regexp.quote(__FILE__)}:#{line}:in /o
bt.reject! {|ln| ans =~ ln}
end
if ((args.empty? && !as) ||
args.any? {|a| a.instance_of?(Module) ? e.is_a?(a) : e.class == a })
msg = message(msg) {
"Exception raised:\n<#{mu_pp(e)}>\n" +
"Backtrace:\n" +
e.backtrace.map{|frame| " #{frame}"}.join("\n")
}
raise MiniTest::Assertion, msg.call, bt
else
raise
end
end
end
def prepare_syntax_check(code, fname = nil, mesg = nil, verbose: nil)
fname ||= caller_locations(2, 1)[0]
mesg ||= fname.to_s
verbose, $VERBOSE = $VERBOSE, verbose
case
when Array === fname
fname, line = *fname
when defined?(fname.path) && defined?(fname.lineno)
fname, line = fname.path, fname.lineno
else
line = 1
end
yield(code, fname, line, message(mesg) {
if code.end_with?("\n")
"```\n#{code}```\n"
else
"```\n#{code}\n```\n""no-newline"
end
})
ensure
$VERBOSE = verbose
end
def assert_valid_syntax(code, *args, **opt)
prepare_syntax_check(code, *args, **opt) do |src, fname, line, mesg|
yield if defined?(yield)
assert_nothing_raised(SyntaxError, mesg) do
assert_equal(:ok, syntax_check(src, fname, line), mesg)
end
end
end
def assert_normal_exit(testsrc, message = '', child_env: nil, **opt)
assert_valid_syntax(testsrc, caller_locations(1, 1)[0])
if child_env
child_env = [child_env]
else
child_env = []
end
out, _, status = EnvUtil.invoke_ruby(child_env + %W'-W0', testsrc, true, :merge_to_stdout, **opt)
assert !status.signaled?, FailDesc[status, message, out]
end
def assert_ruby_status(args, test_stdin="", message=nil, **opt)
out, _, status = EnvUtil.invoke_ruby(args, test_stdin, true, :merge_to_stdout, **opt)
desc = FailDesc[status, message, out]
assert(!status.signaled?, desc)
message ||= "ruby exit status is not success:"
assert(status.success?, desc)
end
ABORT_SIGNALS = Signal.list.values_at(*%w"ILL ABRT BUS SEGV TERM")
def separated_runner(out = nil)
out = out ? IO.new(out, 'w') : STDOUT
at_exit {
out.puts [Marshal.dump($!)].pack('m'), "assertions=\#{self._assertions}"
}
Test::Unit::Runner.class_variable_set(:@@stop_auto_run, true) if defined?(Test::Unit::Runner)
end
def assert_separately(args, file = nil, line = nil, src, ignore_stderr: nil, **opt)
unless file and line
loc, = caller_locations(1,1)
file ||= loc.path
line ||= loc.lineno
end
capture_stdout = true
unless /mswin|mingw/ =~ RUBY_PLATFORM
capture_stdout = false
opt[:out] = MiniTest::Unit.output if defined?(MiniTest::Unit)
res_p, res_c = IO.pipe
opt[res_c.fileno] = res_c.fileno
end
src = <<eom
# -*- coding: #{line += __LINE__; src.encoding}; -*-
BEGIN {
require "test/unit";include Test::Unit::Assertions;require #{(__dir__ + "/core_assertions").dump};include Test::Unit::CoreAssertions
separated_runner #{res_c&.fileno}
}
#{line -= __LINE__; src}
eom
args = args.dup
args.insert((Hash === args.first ? 1 : 0), "-w", "--disable=gems", *$:.map {|l| "-I#{l}"})
stdout, stderr, status = EnvUtil.invoke_ruby(args, src, capture_stdout, true, **opt)
ensure
if res_c
res_c.close
res = res_p.read
res_p.close
else
res = stdout
end
raise if $!
abort = status.coredump? || (status.signaled? && ABORT_SIGNALS.include?(status.termsig))
assert(!abort, FailDesc[status, nil, stderr])
self._assertions += res[/^assertions=(\d+)/, 1].to_i
begin
res = Marshal.load(res.unpack1("m"))
rescue => marshal_error
ignore_stderr = nil
res = nil
end
if res and !(SystemExit === res)
if bt = res.backtrace
bt.each do |l|
l.sub!(/\A-:(\d+)/){"#{file}:#{line + $1.to_i}"}
end
bt.concat(caller)
else
res.set_backtrace(caller)
end
raise res
end
# really is it succeed?
unless ignore_stderr
# the body of assert_separately must not output anything to detect error
assert(stderr.empty?, FailDesc[status, "assert_separately failed with error message", stderr])
end
assert(status.success?, FailDesc[status, "assert_separately failed", stderr])
raise marshal_error if marshal_error
end
# Run Ractor-related test without influencing the main test suite
def assert_ractor(src, args: [], require: nil, require_relative: nil, file: nil, line: nil, ignore_stderr: nil, **opt)
return unless defined?(Ractor)
require = "require #{require.inspect}" if require
if require_relative
dir = File.dirname(caller_locations[0,1][0].absolute_path)
full_path = File.expand_path(require_relative, dir)
require = "#{require}; require #{full_path.inspect}"
end
assert_separately(args, file, line, <<~RUBY, ignore_stderr: ignore_stderr, **opt)
#{require}
previous_verbose = $VERBOSE
$VERBOSE = nil
Ractor.new {} # trigger initial warning
$VERBOSE = previous_verbose
#{src}
RUBY
end
# :call-seq:
# assert_throw( tag, failure_message = nil, &block )
#
#Fails unless the given block throws +tag+, returns the caught
#value otherwise.
#
#An optional failure message may be provided as the final argument.
#
# tag = Object.new
# assert_throw(tag, "#{tag} was not thrown!") do
# throw tag
# end
def assert_throw(tag, msg = nil)
ret = catch(tag) do
begin
yield(tag)
rescue UncaughtThrowError => e
thrown = e.tag
end
msg = message(msg) {
"Expected #{mu_pp(tag)} to have been thrown"\
"#{%Q[, not #{thrown}] if thrown}"
}
assert(false, msg)
end
assert(true)
ret
end
# :call-seq:
# assert_raise( *args, &block )
#
#Tests if the given block raises an exception. Acceptable exception
#types may be given as optional arguments. If the last argument is a
#String, it will be used as the error message.
#
# assert_raise do #Fails, no Exceptions are raised
# end
#
# assert_raise NameError do
# puts x #Raises NameError, so assertion succeeds
# end
def assert_raise(*exp, &b)
case exp.last
when String, Proc
msg = exp.pop
end
begin
yield
rescue MiniTest::Skip => e
return e if exp.include? MiniTest::Skip
raise e
rescue Exception => e
expected = exp.any? { |ex|
if ex.instance_of? Module then
e.kind_of? ex
else
e.instance_of? ex
end
}
assert expected, proc {
flunk(message(msg) {"#{mu_pp(exp)} exception expected, not #{mu_pp(e)}"})
}
return e
ensure
unless e
exp = exp.first if exp.size == 1
flunk(message(msg) {"#{mu_pp(exp)} expected but nothing was raised"})
end
end
end
# :call-seq:
# assert_raise_with_message(exception, expected, msg = nil, &block)
#
#Tests if the given block raises an exception with the expected
#message.
#
# assert_raise_with_message(RuntimeError, "foo") do
# nil #Fails, no Exceptions are raised
# end
#
# assert_raise_with_message(RuntimeError, "foo") do
# raise ArgumentError, "foo" #Fails, different Exception is raised
# end
#
# assert_raise_with_message(RuntimeError, "foo") do
# raise "bar" #Fails, RuntimeError is raised but the message differs
# end
#
# assert_raise_with_message(RuntimeError, "foo") do
# raise "foo" #Raises RuntimeError with the message, so assertion succeeds
# end
def assert_raise_with_message(exception, expected, msg = nil, &block)
case expected
when String
assert = :assert_equal
when Regexp
assert = :assert_match
else
raise TypeError, "Expected #{expected.inspect} to be a kind of String or Regexp, not #{expected.class}"
end
ex = m = nil
EnvUtil.with_default_internal(expected.encoding) do
ex = assert_raise(exception, msg || proc {"Exception(#{exception}) with message matches to #{expected.inspect}"}) do
yield
end
m = ex.message
end
msg = message(msg, "") {"Expected Exception(#{exception}) was raised, but the message doesn't match"}
if assert == :assert_equal
assert_equal(expected, m, msg)
else
msg = message(msg) { "Expected #{mu_pp expected} to match #{mu_pp m}" }
assert expected =~ m, msg
block.binding.eval("proc{|_|$~=_}").call($~)
end
ex
end
MINI_DIR = File.join(File.dirname(File.dirname(File.expand_path(__FILE__))), "minitest") #:nodoc:
# :call-seq:
# assert(test, [failure_message])
#
#Tests if +test+ is true.
#
#+msg+ may be a String or a Proc. If +msg+ is a String, it will be used
#as the failure message. Otherwise, the result of calling +msg+ will be
#used as the message if the assertion fails.
#
#If no +msg+ is given, a default message will be used.
#
# assert(false, "This was expected to be true")
def assert(test, *msgs)
case msg = msgs.first
when String, Proc
when nil
msgs.shift
else
bt = caller.reject { |s| s.start_with?(MINI_DIR) }
raise ArgumentError, "assertion message must be String or Proc, but #{msg.class} was given.", bt
end unless msgs.empty?
super
end
# :call-seq:
# assert_respond_to( object, method, failure_message = nil )
#
#Tests if the given Object responds to +method+.
#
#An optional failure message may be provided as the final argument.
#
# assert_respond_to("hello", :reverse) #Succeeds
# assert_respond_to("hello", :does_not_exist) #Fails
def assert_respond_to(obj, (meth, *priv), msg = nil)
unless priv.empty?
msg = message(msg) {
"Expected #{mu_pp(obj)} (#{obj.class}) to respond to ##{meth}#{" privately" if priv[0]}"
}
return assert obj.respond_to?(meth, *priv), msg
end
#get rid of overcounting
if caller_locations(1, 1)[0].path.start_with?(MINI_DIR)
return if obj.respond_to?(meth)
end
super(obj, meth, msg)
end
# :call-seq:
# assert_not_respond_to( object, method, failure_message = nil )
#
#Tests if the given Object does not respond to +method+.
#
#An optional failure message may be provided as the final argument.
#
# assert_not_respond_to("hello", :reverse) #Fails
# assert_not_respond_to("hello", :does_not_exist) #Succeeds
def assert_not_respond_to(obj, (meth, *priv), msg = nil)
unless priv.empty?
msg = message(msg) {
"Expected #{mu_pp(obj)} (#{obj.class}) to not respond to ##{meth}#{" privately" if priv[0]}"
}
return assert !obj.respond_to?(meth, *priv), msg
end
#get rid of overcounting
if caller_locations(1, 1)[0].path.start_with?(MINI_DIR)
return unless obj.respond_to?(meth)
end
refute_respond_to(obj, meth, msg)
end
# pattern_list is an array which contains regexp and :*.
# :* means any sequence.
#
# pattern_list is anchored.
# Use [:*, regexp, :*] for non-anchored match.
def assert_pattern_list(pattern_list, actual, message=nil)
rest = actual
anchored = true
pattern_list.each_with_index {|pattern, i|
if pattern == :*
anchored = false
else
if anchored
match = /\A#{pattern}/.match(rest)
else
match = pattern.match(rest)
end
unless match
msg = message(msg) {
expect_msg = "Expected #{mu_pp pattern}\n"
if /\n[^\n]/ =~ rest
actual_mesg = +"to match\n"
rest.scan(/.*\n+/) {
actual_mesg << ' ' << $&.inspect << "+\n"
}
actual_mesg.sub!(/\+\n\z/, '')
else
actual_mesg = "to match " + mu_pp(rest)
end
actual_mesg << "\nafter #{i} patterns with #{actual.length - rest.length} characters"
expect_msg + actual_mesg
}
assert false, msg
end
rest = match.post_match
anchored = true
end
}
if anchored
assert_equal("", rest)
end
end
def assert_warning(pat, msg = nil)
result = nil
stderr = EnvUtil.with_default_internal(pat.encoding) {
EnvUtil.verbose_warning {
result = yield
}
}
msg = message(msg) {diff pat, stderr}
assert(pat === stderr, msg)
result
end
def assert_warn(*args)
assert_warning(*args) {$VERBOSE = false; yield}
end
def assert_deprecated_warning(mesg = /deprecated/)
assert_warning(mesg) do
Warning[:deprecated] = true
yield
end
end
def assert_deprecated_warn(mesg = /deprecated/)
assert_warn(mesg) do
Warning[:deprecated] = true
yield
end
end
class << (AssertFile = Struct.new(:failure_message).new)
include CoreAssertions
def assert_file_predicate(predicate, *args)
if /\Anot_/ =~ predicate
predicate = $'
neg = " not"
end
result = File.__send__(predicate, *args)
result = !result if neg
mesg = "Expected file ".dup << args.shift.inspect
mesg << "#{neg} to be #{predicate}"
mesg << mu_pp(args).sub(/\A\[(.*)\]\z/m, '(\1)') unless args.empty?
mesg << " #{failure_message}" if failure_message
assert(result, mesg)
end
alias method_missing assert_file_predicate
def for(message)
clone.tap {|a| a.failure_message = message}
end
end
class AllFailures
attr_reader :failures
def initialize
@count = 0
@failures = {}
end
def for(key)
@count += 1
yield
rescue Exception => e
@failures[key] = [@count, e]
end
def foreach(*keys)
keys.each do |key|
@count += 1
begin
yield key
rescue Exception => e
@failures[key] = [@count, e]
end
end
end
def message
i = 0
total = @count.to_s
fmt = "%#{total.size}d"
@failures.map {|k, (n, v)|
v = v.message
"\n#{i+=1}. [#{fmt%n}/#{total}] Assertion for #{k.inspect}\n#{v.b.gsub(/^/, ' | ').force_encoding(v.encoding)}"
}.join("\n")
end
def pass?
@failures.empty?
end
end
# threads should respond to shift method.
# Array can be used.
def assert_join_threads(threads, message = nil)
errs = []
values = []
while th = threads.shift
begin
values << th.value
rescue Exception
errs << [th, $!]
th = nil
end
end
values
ensure
if th&.alive?
th.raise(Timeout::Error.new)
th.join rescue errs << [th, $!]
end
if !errs.empty?
msg = "exceptions on #{errs.length} threads:\n" +
errs.map {|t, err|
"#{t.inspect}:\n" +
RUBY_VERSION >= "2.5.0" ? err.full_message(highlight: false, order: :top) : err.message
}.join("\n---\n")
if message
msg = "#{message}\n#{msg}"
end
raise MiniTest::Assertion, msg
end
end
def assert_all_assertions(msg = nil)
all = AllFailures.new
yield all
ensure
assert(all.pass?, message(msg) {all.message.chomp(".")})
end
alias all_assertions assert_all_assertions
def message(msg = nil, *args, &default) # :nodoc:
if Proc === msg
super(nil, *args) do
ary = [msg.call, (default.call if default)].compact.reject(&:empty?)
if 1 < ary.length
ary[0...-1] = ary[0...-1].map {|str| str.sub(/(?<!\.)\z/, '.') }
end
begin
ary.join("\n")
rescue Encoding::CompatibilityError
ary.map(&:b).join("\n")
end
end
else
super
end
end
def diff(exp, act)
require 'pp'
q = PP.new(+"")
q.guard_inspect_key do
q.group(2, "expected: ") do
q.pp exp
end
q.text q.newline
q.group(2, "actual: ") do
q.pp act
end
q.flush
end
q.output
end
end
end
end