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ruby--ruby/test/ruby/test_settracefunc.rb
Benoit Daloze b4ec4a41c2 Guard all accesses to RubyVM::MJIT with defined?(RubyVM::MJIT) &&
* Otherwise those tests, etc cannot run on alternative Ruby implementations.
2020-12-04 16:45:54 +01:00

2327 lines
66 KiB
Ruby

# frozen_string_literal: false
require 'test/unit'
class TestSetTraceFunc < Test::Unit::TestCase
def setup
if defined?(RubyVM)
@original_compile_option = RubyVM::InstructionSequence.compile_option
RubyVM::InstructionSequence.compile_option = {
:trace_instruction => true,
:specialized_instruction => false
}
end
@target_thread = Thread.current
end
def teardown
set_trace_func(nil)
if defined?(RubyVM)
RubyVM::InstructionSequence.compile_option = @original_compile_option
end
@target_thread = nil
end
def target_thread?
Thread.current == @target_thread
end
def test_c_call
events = []
name = "#{self.class}\##{__method__}"
eval <<-EOF.gsub(/^.*?: /, ""), nil, name
1: set_trace_func(Proc.new { |event, file, lineno, mid, binding, klass|
2: events << [event, lineno, mid, klass] if file == name
3: })
4: x = 1 + 1
5: set_trace_func(nil)
EOF
assert_equal(["c-return", 1, :set_trace_func, Kernel],
events.shift)
assert_equal(["line", 4, __method__, self.class],
events.shift)
assert_equal(["c-call", 4, :+, Integer],
events.shift)
assert_equal(["c-return", 4, :+, Integer],
events.shift)
assert_equal(["line", 5, __method__, self.class],
events.shift)
assert_equal(["c-call", 5, :set_trace_func, Kernel],
events.shift)
assert_equal([], events)
end
def test_call
events = []
name = "#{self.class}\##{__method__}"
eval <<-EOF.gsub(/^.*?: /, ""), nil, name
1: set_trace_func(Proc.new { |event, file, lineno, mid, binding, klass|
2: events << [event, lineno, mid, klass] if file == name
3: })
4: def add(x, y)
5: x + y
6: end
7: x = add(1, 1)
8: set_trace_func(nil)
EOF
assert_equal(["c-return", 1, :set_trace_func, Kernel],
events.shift)
assert_equal(["line", 4, __method__, self.class],
events.shift)
assert_equal(["c-call", 4, :method_added, self.class],
events.shift)
assert_equal(["c-return", 4, :method_added, self.class],
events.shift)
assert_equal(["line", 7, __method__, self.class],
events.shift)
assert_equal(["call", 4, :add, self.class],
events.shift)
assert_equal(["line", 5, :add, self.class],
events.shift)
assert_equal(["c-call", 5, :+, Integer],
events.shift)
assert_equal(["c-return", 5, :+, Integer],
events.shift)
assert_equal(["return", 6, :add, self.class],
events.shift)
assert_equal(["line", 8, __method__, self.class],
events.shift)
assert_equal(["c-call", 8, :set_trace_func, Kernel],
events.shift)
assert_equal([], events)
end
def test_class
events = []
name = "#{self.class}\##{__method__}"
eval <<-EOF.gsub(/^.*?: /, ""), nil, name
1: set_trace_func(Proc.new { |event, file, lineno, mid, binding, klass|
2: events << [event, lineno, mid, klass] if file == name
3: })
4: class Foo
5: def bar
6: end
7: end
8: x = Foo.new.bar
9: set_trace_func(nil)
EOF
assert_equal(["c-return", 1, :set_trace_func, Kernel],
events.shift)
assert_equal(["line", 4, __method__, self.class],
events.shift)
assert_equal(["c-call", 4, :inherited, Class],
events.shift)
assert_equal(["c-return", 4, :inherited, Class],
events.shift)
assert_equal(["class", 4, nil, nil],
events.shift)
assert_equal(["line", 5, nil, nil],
events.shift)
assert_equal(["c-call", 5, :method_added, Module],
events.shift)
assert_equal(["c-return", 5, :method_added, Module],
events.shift)
assert_equal(["end", 7, nil, nil],
events.shift)
assert_equal(["line", 8, __method__, self.class],
events.shift)
assert_equal(["c-call", 8, :new, Class],
events.shift)
assert_equal(["c-call", 8, :initialize, BasicObject],
events.shift)
assert_equal(["c-return", 8, :initialize, BasicObject],
events.shift)
assert_equal(["c-return", 8, :new, Class],
events.shift)
assert_equal(["call", 5, :bar, Foo],
events.shift)
assert_equal(["return", 6, :bar, Foo],
events.shift)
assert_equal(["line", 9, __method__, self.class],
events.shift)
assert_equal(["c-call", 9, :set_trace_func, Kernel],
events.shift)
assert_equal([], events)
self.class.class_eval do
remove_const :Foo
end
end
def test_return # [ruby-dev:38701]
events = []
name = "#{self.class}\##{__method__}"
eval <<-EOF.gsub(/^.*?: /, ""), nil, name
1: set_trace_func(Proc.new { |event, file, lineno, mid, binding, klass|
2: events << [event, lineno, mid, klass] if file == name
3: })
4: def meth_return(a)
5: return if a
6: return
7: end
8: meth_return(true)
9: meth_return(false)
10: set_trace_func(nil)
EOF
assert_equal(["c-return", 1, :set_trace_func, Kernel],
events.shift)
assert_equal(["line", 4, __method__, self.class],
events.shift)
assert_equal(["c-call", 4, :method_added, self.class],
events.shift)
assert_equal(["c-return", 4, :method_added, self.class],
events.shift)
assert_equal(["line", 8, __method__, self.class],
events.shift)
assert_equal(["call", 4, :meth_return, self.class],
events.shift)
assert_equal(["line", 5, :meth_return, self.class],
events.shift)
assert_equal(["return", 5, :meth_return, self.class],
events.shift)
assert_equal(["line", 9, :test_return, self.class],
events.shift)
assert_equal(["call", 4, :meth_return, self.class],
events.shift)
assert_equal(["line", 5, :meth_return, self.class],
events.shift)
assert_equal(["return", 7, :meth_return, self.class],
events.shift)
assert_equal(["line", 10, :test_return, self.class],
events.shift)
assert_equal(["c-call", 10, :set_trace_func, Kernel],
events.shift)
assert_equal([], events)
end
def test_return2 # [ruby-core:24463]
events = []
name = "#{self.class}\##{__method__}"
eval <<-EOF.gsub(/^.*?: /, ""), nil, name
1: set_trace_func(Proc.new { |event, file, lineno, mid, binding, klass|
2: events << [event, lineno, mid, klass] if file == name
3: })
4: def meth_return2
5: a = 5
6: return a
7: end
8: meth_return2
9: set_trace_func(nil)
EOF
assert_equal(["c-return", 1, :set_trace_func, Kernel],
events.shift)
assert_equal(["line", 4, __method__, self.class],
events.shift)
assert_equal(["c-call", 4, :method_added, self.class],
events.shift)
assert_equal(["c-return", 4, :method_added, self.class],
events.shift)
assert_equal(["line", 8, __method__, self.class],
events.shift)
assert_equal(["call", 4, :meth_return2, self.class],
events.shift)
assert_equal(["line", 5, :meth_return2, self.class],
events.shift)
assert_equal(["line", 6, :meth_return2, self.class],
events.shift)
assert_equal(["return", 7, :meth_return2, self.class],
events.shift)
assert_equal(["line", 9, :test_return2, self.class],
events.shift)
assert_equal(["c-call", 9, :set_trace_func, Kernel],
events.shift)
assert_equal([], events)
end
def test_raise
events = []
name = "#{self.class}\##{__method__}"
eval <<-EOF.gsub(/^.*?: /, ""), nil, name
1: set_trace_func(Proc.new { |event, file, lineno, mid, binding, klass|
2: events << [event, lineno, mid, klass] if file == name
3: })
4: begin
5: raise TypeError, "error"
6: rescue TypeError
7: end
8: set_trace_func(nil)
EOF
assert_equal(["c-return", 1, :set_trace_func, Kernel],
events.shift)
assert_equal(["line", 5, __method__, self.class],
events.shift)
assert_equal(["c-call", 5, :raise, Kernel],
events.shift)
assert_equal(["c-call", 5, :exception, Exception],
events.shift)
assert_equal(["c-call", 5, :initialize, Exception],
events.shift)
assert_equal(["c-return", 5, :initialize, Exception],
events.shift)
assert_equal(["c-return", 5, :exception, Exception],
events.shift)
assert_equal(["c-return", 5, :raise, Kernel],
events.shift)
assert_equal(["c-call", 5, :backtrace, Exception],
events.shift)
assert_equal(["c-return", 5, :backtrace, Exception],
events.shift)
assert_equal(["raise", 5, :test_raise, TestSetTraceFunc],
events.shift)
assert_equal(["c-call", 6, :===, Module],
events.shift)
assert_equal(["c-return", 6, :===, Module],
events.shift)
assert_equal(["line", 8, __method__, self.class],
events.shift)
assert_equal(["c-call", 8, :set_trace_func, Kernel],
events.shift)
assert_equal([], events)
end
def test_break # [ruby-core:27606] [Bug #2610]
events = []
name = "#{self.class}\##{__method__}"
eval <<-EOF.gsub(/^.*?: /, ""), nil, name
1: set_trace_func(Proc.new { |event, file, lineno, mid, binding, klass|
2: events << [event, lineno, mid, klass] if file == name
3: })
4: [1,2,3].any? {|n| n}
8: set_trace_func(nil)
EOF
[["c-return", 1, :set_trace_func, Kernel],
["line", 4, __method__, self.class],
["c-call", 4, :any?, Array],
["line", 4, __method__, self.class],
["c-return", 4, :any?, Array],
["line", 5, __method__, self.class],
["c-call", 5, :set_trace_func, Kernel]].each.with_index{|e, i|
assert_equal(e, events.shift, "mismatch on #{i}th trace")
}
end
def test_invalid_proc
assert_raise(TypeError) { set_trace_func(1) }
end
def test_raise_in_trace
set_trace_func proc {raise rescue nil}
assert_equal(42, (raise rescue 42), '[ruby-core:24118]')
end
def test_thread_trace
events = {:set => [], :add => []}
prc = Proc.new { |event, file, lineno, mid, binding, klass|
events[:set] << [event, lineno, mid, klass, :set]
}
prc = prc # suppress warning
prc2 = Proc.new { |event, file, lineno, mid, binding, klass|
events[:add] << [event, lineno, mid, klass, :add]
}
prc2 = prc2 # suppress warning
th = Thread.new do
th = Thread.current
name = "#{self.class}\##{__method__}"
eval <<-EOF.gsub(/^.*?: /, ""), nil, name
1: th.set_trace_func(prc)
2: th.add_trace_func(prc2)
3: class ThreadTraceInnerClass
4: def foo
5: _x = 1 + 1
6: end
7: end
8: ThreadTraceInnerClass.new.foo
9: th.set_trace_func(nil)
EOF
end
th.join
[["c-return", 1, :set_trace_func, Thread, :set],
["line", 2, __method__, self.class, :set],
["c-call", 2, :add_trace_func, Thread, :set]].each do |e|
assert_equal(e, events[:set].shift)
end
[["c-return", 2, :add_trace_func, Thread],
["line", 3, __method__, self.class],
["c-call", 3, :inherited, Class],
["c-return", 3, :inherited, Class],
["class", 3, nil, nil],
["line", 4, nil, nil],
["c-call", 4, :method_added, Module],
["c-return", 4, :method_added, Module],
["end", 7, nil, nil],
["line", 8, __method__, self.class],
["c-call", 8, :new, Class],
["c-call", 8, :initialize, BasicObject],
["c-return", 8, :initialize, BasicObject],
["c-return", 8, :new, Class],
["call", 4, :foo, ThreadTraceInnerClass],
["line", 5, :foo, ThreadTraceInnerClass],
["c-call", 5, :+, Integer],
["c-return", 5, :+, Integer],
["return", 6, :foo, ThreadTraceInnerClass],
["line", 9, __method__, self.class],
["c-call", 9, :set_trace_func, Thread]].each do |e|
[:set, :add].each do |type|
assert_equal(e + [type], events[type].shift)
end
end
assert_equal([], events[:set])
assert_equal([], events[:add])
# cleanup
self.class.class_eval do
remove_const :ThreadTraceInnerClass
end
end
def test_trace_defined_method
events = []
name = "#{self.class}\##{__method__}"
eval <<-EOF.gsub(/^.*?: /, ""), nil, name
1: class FooBar; define_method(:foobar){}; end
2: fb = FooBar.new
3: set_trace_func(Proc.new { |event, file, lineno, mid, binding, klass|
4: events << [event, lineno, mid, klass] if file == name
5: })
6: fb.foobar
7: set_trace_func(nil)
EOF
[["c-return", 3, :set_trace_func, Kernel],
["line", 6, __method__, self.class],
["call", 1, :foobar, FooBar],
["return", 6, :foobar, FooBar],
["line", 7, __method__, self.class],
["c-call", 7, :set_trace_func, Kernel]].each{|e|
assert_equal(e, events.shift)
}
end
def test_remove_in_trace
bug3921 = '[ruby-dev:42350]'
ok = false
func = lambda{|e, f, l, i, b, k|
set_trace_func(nil)
ok = eval("self", b)
}
set_trace_func(func)
assert_equal(self, ok, bug3921)
end
class << self
define_method(:method_added, Module.method(:method_added))
end
def trace_by_tracepoint *trace_events
events = []
trace = nil
xyzzy = nil
_local_var = :outer
raised_exc = nil
method = :trace_by_tracepoint
_get_data = lambda{|tp|
case tp.event
when :return, :c_return
tp.return_value
when :raise
tp.raised_exception
else
:nothing
end
}
_defined_class = lambda{|tp|
klass = tp.defined_class
begin
# If it is singleton method, then return original class
# to make compatible with set_trace_func().
# This is very ad-hoc hack. I hope I can make more clean test on it.
case klass.inspect
when /Class:TracePoint/; return TracePoint
when /Class:Exception/; return Exception
else klass
end
rescue Exception => e
e
end if klass
}
trace = nil
begin
eval <<-EOF.gsub(/^.*?: /, ""), nil, 'xyzzy'
1: trace = TracePoint.trace(*trace_events){|tp| next if !target_thread?
2: events << [tp.event, tp.lineno, tp.path, _defined_class.(tp), tp.method_id, tp.self, tp.binding.eval("_local_var"), _get_data.(tp)] if tp.path == 'xyzzy'
3: }
4: 1.times{|;_local_var| _local_var = :inner
5: tap{}
6: }
7: class XYZZY
8: _local_var = :XYZZY_outer
9: def foo
10: _local_var = :XYZZY_foo
11: bar
12: end
13: def bar
14: _local_var = :XYZZY_bar
15: tap{}
16: end
17: end
18: xyzzy = XYZZY.new
19: xyzzy.foo
20: begin; raise RuntimeError; rescue RuntimeError => raised_exc; end
21: trace.disable
EOF
self.class.class_eval{remove_const(:XYZZY)}
ensure
trace.disable if trace&.enabled?
end
answer_events = [
#
[:line, 4, 'xyzzy', self.class, method, self, :outer, :nothing],
[:c_call, 4, 'xyzzy', Integer, :times, 1, :outer, :nothing],
[:line, 4, 'xyzzy', self.class, method, self, nil, :nothing],
[:line, 5, 'xyzzy', self.class, method, self, :inner, :nothing],
[:c_return, 4, "xyzzy", Integer, :times, 1, :outer, 1],
[:line, 7, 'xyzzy', self.class, method, self, :outer, :nothing],
[:c_call, 7, "xyzzy", Class, :inherited, Object, :outer, :nothing],
[:c_return, 7, "xyzzy", Class, :inherited, Object, :outer, nil],
[:class, 7, "xyzzy", nil, nil, xyzzy.class, nil, :nothing],
[:line, 8, "xyzzy", nil, nil, xyzzy.class, nil, :nothing],
[:line, 9, "xyzzy", nil, nil, xyzzy.class, :XYZZY_outer, :nothing],
[:c_call, 9, "xyzzy", Module, :method_added, xyzzy.class, :XYZZY_outer, :nothing],
[:c_return, 9, "xyzzy", Module, :method_added, xyzzy.class, :XYZZY_outer, nil],
[:line, 13, "xyzzy", nil, nil, xyzzy.class, :XYZZY_outer, :nothing],
[:c_call, 13, "xyzzy", Module, :method_added, xyzzy.class, :XYZZY_outer, :nothing],
[:c_return,13, "xyzzy", Module, :method_added, xyzzy.class, :XYZZY_outer, nil],
[:end, 17, "xyzzy", nil, nil, xyzzy.class, :XYZZY_outer, :nothing],
[:line, 18, "xyzzy", TestSetTraceFunc, method, self, :outer, :nothing],
[:c_call, 18, "xyzzy", Class, :new, xyzzy.class, :outer, :nothing],
[:c_call, 18, "xyzzy", BasicObject, :initialize, xyzzy, :outer, :nothing],
[:c_return,18, "xyzzy", BasicObject, :initialize, xyzzy, :outer, nil],
[:c_return,18, "xyzzy", Class, :new, xyzzy.class, :outer, xyzzy],
[:line, 19, "xyzzy", TestSetTraceFunc, method, self, :outer, :nothing],
[:call, 9, "xyzzy", xyzzy.class, :foo, xyzzy, nil, :nothing],
[:line, 10, "xyzzy", xyzzy.class, :foo, xyzzy, nil, :nothing],
[:line, 11, "xyzzy", xyzzy.class, :foo, xyzzy, :XYZZY_foo, :nothing],
[:call, 13, "xyzzy", xyzzy.class, :bar, xyzzy, nil, :nothing],
[:line, 14, "xyzzy", xyzzy.class, :bar, xyzzy, nil, :nothing],
[:line, 15, "xyzzy", xyzzy.class, :bar, xyzzy, :XYZZY_bar, :nothing],
[:return, 16, "xyzzy", xyzzy.class, :bar, xyzzy, :XYZZY_bar, xyzzy],
[:return, 12, "xyzzy", xyzzy.class, :foo, xyzzy, :XYZZY_foo, xyzzy],
[:line, 20, "xyzzy", TestSetTraceFunc, method, self, :outer, :nothing],
[:c_call, 20, "xyzzy", Kernel, :raise, self, :outer, :nothing],
[:c_call, 20, "xyzzy", Exception, :exception, RuntimeError, :outer, :nothing],
[:c_call, 20, "xyzzy", Exception, :initialize, raised_exc, :outer, :nothing],
[:c_return,20, "xyzzy", Exception, :initialize, raised_exc, :outer, raised_exc],
[:c_return,20, "xyzzy", Exception, :exception, RuntimeError, :outer, raised_exc],
[:c_return,20, "xyzzy", Kernel, :raise, self, :outer, nil],
[:c_call, 20, "xyzzy", Exception, :backtrace, raised_exc, :outer, :nothing],
[:c_return,20, "xyzzy", Exception, :backtrace, raised_exc, :outer, nil],
[:raise, 20, "xyzzy", TestSetTraceFunc, :trace_by_tracepoint, self, :outer, raised_exc],
[:c_call, 20, "xyzzy", Module, :===, RuntimeError,:outer, :nothing],
[:c_return,20, "xyzzy", Module, :===, RuntimeError,:outer, true],
[:line, 21, "xyzzy", TestSetTraceFunc, method, self, :outer, :nothing],
]
return events, answer_events
end
def test_tracepoint
events1, answer_events = *trace_by_tracepoint(:line, :class, :end, :call, :return, :c_call, :c_return, :raise)
ms = [events1, answer_events].map{|evs|
evs.map{|e|
"#{e[0]} - #{e[2]}:#{e[1]} id: #{e[4]}"
}
}
if false # show all events
printf(" %-60s | %-60s\n", "actual", "expected")
ms[0].zip(ms[1]){|a, b|
printf("%s%-60s | %-60s\n", a==b ? ' ' : '!', a, b)
}
end
mesg = ms[0].zip(ms[1]).map{|a, b|
if a != b
"actual: #{a} <-> expected: #{b}"
end
}.compact.join("\n")
answer_events.zip(events1){|answer, event|
assert_equal answer, event, mesg
}
[:line, :class, :end, :call, :return, :c_call, :c_return, :raise].each{|event|
events1, answer_events = *trace_by_tracepoint(event)
answer_events.find_all{|e| e[0] == event}.zip(events1){|answer_line, event_line|
assert_equal answer_line, event_line
}
}
end
def trace_by_set_trace_func
events = []
trace = nil
trace = trace
xyzzy = nil
xyzzy = xyzzy
_local_var = :outer
method = :trace_by_set_trace_func
raised_exc = nil
eval <<-EOF.gsub(/^.*?: /, ""), nil, 'xyzzy'
1: set_trace_func(lambda{|event, file, line, id, binding, klass|
2: events << [event, line, file, klass, id, binding.eval('self'), binding.eval("_local_var")] if file == 'xyzzy'
3: })
4: 1.times{|;_local_var| _local_var = :inner
5: tap{}
6: }
7: class XYZZY
8: _local_var = :XYZZY_outer
9: def foo
10: _local_var = :XYZZY_foo
11: bar
12: end
13: def bar
14: _local_var = :XYZZY_bar
15: tap{}
16: end
17: end
18: xyzzy = XYZZY.new
19: xyzzy.foo
20: begin; raise RuntimeError; rescue RuntimeError => raised_exc; end
21: set_trace_func(nil)
EOF
self.class.class_eval{remove_const(:XYZZY)}
answer_events = [
#
[:c_return, 1, "xyzzy", TracePoint, :trace, TracePoint, :outer, trace],
[:line, 4, 'xyzzy', self.class, method, self, :outer, :nothing],
[:c_call, 4, 'xyzzy', Integer, :times, 1, :outer, :nothing],
[:line, 4, 'xyzzy', self.class, method, self, nil, :nothing],
[:line, 5, 'xyzzy', self.class, method, self, :inner, :nothing],
[:c_return, 4, "xyzzy", Integer, :times, 1, :outer, 1],
[:line, 7, 'xyzzy', self.class, method, self, :outer, :nothing],
[:c_call, 7, "xyzzy", Class, :inherited, Object, :outer, :nothing],
[:c_return, 7, "xyzzy", Class, :inherited, Object, :outer, nil],
[:class, 7, "xyzzy", nil, nil, xyzzy.class, nil, :nothing],
[:line, 8, "xyzzy", nil, nil, xyzzy.class, nil, :nothing],
[:line, 9, "xyzzy", nil, nil, xyzzy.class, :XYZZY_outer, :nothing],
[:c_call, 9, "xyzzy", Module, :method_added, xyzzy.class, :XYZZY_outer, :nothing],
[:c_return, 9, "xyzzy", Module, :method_added, xyzzy.class, :XYZZY_outer, nil],
[:line, 13, "xyzzy", nil, nil, xyzzy.class, :XYZZY_outer, :nothing],
[:c_call, 13, "xyzzy", Module, :method_added, xyzzy.class, :XYZZY_outer, :nothing],
[:c_return,13, "xyzzy", Module, :method_added, xyzzy.class, :XYZZY_outer, nil],
[:end, 17, "xyzzy", nil, nil, xyzzy.class, :XYZZY_outer, :nothing],
[:line, 18, "xyzzy", TestSetTraceFunc, method, self, :outer, :nothing],
[:c_call, 18, "xyzzy", Class, :new, xyzzy.class, :outer, :nothing],
[:c_call, 18, "xyzzy", BasicObject, :initialize, xyzzy, :outer, :nothing],
[:c_return,18, "xyzzy", BasicObject, :initialize, xyzzy, :outer, nil],
[:c_return,18, "xyzzy", Class, :new, xyzzy.class, :outer, xyzzy],
[:line, 19, "xyzzy", TestSetTraceFunc, method, self, :outer, :nothing],
[:call, 9, "xyzzy", xyzzy.class, :foo, xyzzy, nil, :nothing],
[:line, 10, "xyzzy", xyzzy.class, :foo, xyzzy, nil, :nothing],
[:line, 11, "xyzzy", xyzzy.class, :foo, xyzzy, :XYZZY_foo, :nothing],
[:call, 13, "xyzzy", xyzzy.class, :bar, xyzzy, nil, :nothing],
[:line, 14, "xyzzy", xyzzy.class, :bar, xyzzy, nil, :nothing],
[:line, 15, "xyzzy", xyzzy.class, :bar, xyzzy, :XYZZY_bar, :nothing],
[:return, 16, "xyzzy", xyzzy.class, :bar, xyzzy, :XYZZY_bar, xyzzy],
[:return, 12, "xyzzy", xyzzy.class, :foo, xyzzy, :XYZZY_foo, xyzzy],
[:line, 20, "xyzzy", TestSetTraceFunc, method, self, :outer, :nothing],
[:c_call, 20, "xyzzy", Kernel, :raise, self, :outer, :nothing],
[:c_call, 20, "xyzzy", Exception, :exception, RuntimeError, :outer, :nothing],
[:c_call, 20, "xyzzy", Exception, :initialize, raised_exc, :outer, :nothing],
[:c_return,20, "xyzzy", Exception, :initialize, raised_exc, :outer, raised_exc],
[:c_return,20, "xyzzy", Exception, :exception, RuntimeError, :outer, raised_exc],
[:c_return,20, "xyzzy", Kernel, :raise, self, :outer, nil],
[:c_call, 20, "xyzzy", Exception, :backtrace, raised_exc, :outer, :nothing],
[:c_return,20, "xyzzy", Exception, :backtrace, raised_exc, :outer, nil],
[:raise, 20, "xyzzy", TestSetTraceFunc, :trace_by_tracepoint, self, :outer, raised_exc],
[:c_call, 20, "xyzzy", Module, :===, RuntimeError,:outer, :nothing],
[:c_return,20, "xyzzy", Module, :===, RuntimeError,:outer, true],
[:line, 21, "xyzzy", TestSetTraceFunc, method, self, :outer, :nothing],
[:c_call, 21, "xyzzy", TracePoint, :disable, trace, :outer, :nothing],
]
return events, answer_events
end
def test_set_trace_func
actual_events, expected_events = trace_by_set_trace_func
expected_events.zip(actual_events){|e, a|
a[0] = a[0].to_s.sub('-', '_').to_sym
assert_equal e[0..2], a[0..2], a.inspect
# event, line, file, klass, id, binding.eval('self'), binding.eval("_local_var")
assert_equal e[3].nil?, a[3].nil? # klass
assert_equal e[4].nil?, a[4].nil? # id
assert_equal e[6], a[6] # _local_var
}
end
def test_tracepoint_object_id
tps = []
trace = TracePoint.trace(){|tp|
next if !target_thread?
tps << tp
}
tap{}
tap{}
tap{}
trace.disable
# passed tp is unique, `trace' object which is generated by TracePoint.trace
tps.each{|tp|
assert_equal trace, tp
}
end
def test_tracepoint_access_from_outside
tp_store = nil
trace = TracePoint.trace(){|tp|
next if !target_thread?
tp_store = tp
}
tap{}
trace.disable
assert_raise(RuntimeError){tp_store.lineno}
assert_raise(RuntimeError){tp_store.event}
assert_raise(RuntimeError){tp_store.path}
assert_raise(RuntimeError){tp_store.method_id}
assert_raise(RuntimeError){tp_store.defined_class}
assert_raise(RuntimeError){tp_store.binding}
assert_raise(RuntimeError){tp_store.self}
assert_raise(RuntimeError){tp_store.return_value}
assert_raise(RuntimeError){tp_store.raised_exception}
end
def foo
end
def test_tracepoint_enable
ary = []
args = nil
trace = TracePoint.new(:call){|tp|
next if !target_thread?
ary << tp.method_id
}
foo
trace.enable{|*a|
args = a
foo
}
foo
assert_equal([:foo], ary)
assert_equal([], args)
trace = TracePoint.new{}
begin
assert_equal(false, trace.enable)
assert_equal(true, trace.enable)
trace.enable{}
assert_equal(true, trace.enable)
ensure
trace.disable
end
end
def test_tracepoint_disable
ary = []
args = nil
trace = TracePoint.trace(:call){|tp|
next if !target_thread?
ary << tp.method_id
}
foo
trace.disable{|*a|
args = a
foo
}
foo
trace.disable
assert_equal([:foo, :disable, :foo, :disable], ary)
assert_equal([], args)
trace = TracePoint.new{}
trace.enable{
assert_equal(true, trace.disable)
assert_equal(false, trace.disable)
trace.disable{}
assert_equal(false, trace.disable)
}
end
def test_tracepoint_enabled
trace = TracePoint.trace(:call){|tp|
#
}
assert_equal(true, trace.enabled?)
trace.disable{
assert_equal(false, trace.enabled?)
trace.enable{
assert_equal(true, trace.enabled?)
}
}
trace.disable
assert_equal(false, trace.enabled?)
end
def parameter_test(a, b, c)
yield
end
def test_tracepoint_parameters
trace = TracePoint.new(:line, :class, :end, :call, :return, :b_call, :b_return, :c_call, :c_return, :raise){|tp|
next if !target_thread?
next if tp.path != __FILE__
case tp.event
when :call, :return
assert_equal([[:req, :a], [:req, :b], [:req, :c]], tp.parameters)
when :b_call, :b_return
next if tp.parameters == []
if tp.parameters.first == [:opt, :x]
assert_equal([[:opt, :x], [:opt, :y], [:opt, :z]], tp.parameters)
else
assert_equal([[:req, :p], [:req, :q], [:req, :r]], tp.parameters)
end
when :c_call, :c_return
assert_equal([[:req]], tp.parameters) if tp.method_id == :getbyte
when :line, :class, :end, :raise
assert_raise(RuntimeError) { tp.parameters }
end
}
obj = Object.new
trace.enable{
parameter_test(1, 2, 3) {|x, y, z|
}
lambda {|p, q, r| }.call(4, 5, 6)
"".getbyte(0)
class << obj
end
begin
raise
rescue
end
}
end
def method_test_tracepoint_return_value obj
obj
end
def test_tracepoint_return_value
trace = TracePoint.new(:call, :return){|tp|
next if !target_thread?
next if tp.path != __FILE__
case tp.event
when :call
assert_raise(RuntimeError) {tp.return_value}
when :return
assert_equal("xyzzy", tp.return_value)
end
}
trace.enable{
method_test_tracepoint_return_value "xyzzy"
}
end
class XYZZYException < Exception; end
def method_test_tracepoint_raised_exception err
raise err
end
def test_tracepoint_raised_exception
trace = TracePoint.new(:call, :return, :raise){|tp|
next if !target_thread?
case tp.event
when :call, :return
assert_raise(RuntimeError) { tp.raised_exception }
when :raise
assert_kind_of(XYZZYException, tp.raised_exception)
end
}
trace.enable{
begin
method_test_tracepoint_raised_exception XYZZYException
rescue XYZZYException
# ok
else
raise
end
}
end
def method_for_test_tracepoint_block
yield
end
def test_tracepoint_block
events = []
TracePoint.new(:call, :return, :c_call, :b_call, :c_return, :b_return){|tp|
next if !target_thread?
events << [
tp.event, tp.method_id, tp.defined_class, tp.self.class,
/return/ =~ tp.event ? tp.return_value : nil
]
}.enable{
1.times{
3
}
method_for_test_tracepoint_block{
4
}
}
# pp events
# expected_events =
[[:b_call, :test_tracepoint_block, TestSetTraceFunc, TestSetTraceFunc, nil],
[:c_call, :times, Integer, Integer, nil],
[:b_call, :test_tracepoint_block, TestSetTraceFunc, TestSetTraceFunc, nil],
[:b_return, :test_tracepoint_block, TestSetTraceFunc, TestSetTraceFunc, 3],
[:c_return, :times, Integer, Integer, 1],
[:call, :method_for_test_tracepoint_block, TestSetTraceFunc, TestSetTraceFunc, nil],
[:b_call, :test_tracepoint_block, TestSetTraceFunc, TestSetTraceFunc, nil],
[:b_return, :test_tracepoint_block, TestSetTraceFunc, TestSetTraceFunc, 4],
[:return, :method_for_test_tracepoint_block, TestSetTraceFunc, TestSetTraceFunc, 4],
[:b_return, :test_tracepoint_block, TestSetTraceFunc, TestSetTraceFunc, 4]
].zip(events){|expected, actual|
assert_equal(expected, actual)
}
end
def test_tracepoint_thread
events = []
thread_self = nil
created_thread = nil
TracePoint.new(:thread_begin, :thread_end){|tp|
events << [Thread.current,
tp.event,
tp.lineno, #=> 0
tp.path, #=> nil
tp.binding, #=> nil
tp.defined_class, #=> nil,
tp.self.class # tp.self return creating/ending thread
]
}.enable{
created_thread = Thread.new{thread_self = self}
created_thread.join
}
events.reject!{|i| i[0] != created_thread}
assert_equal(self, thread_self)
assert_equal([created_thread, :thread_begin, 0, nil, nil, nil, Thread], events[0])
assert_equal([created_thread, :thread_end, 0, nil, nil, nil, Thread], events[1])
assert_equal(2, events.size)
end
def test_tracepoint_inspect
events = []
th = nil
trace = TracePoint.new{|tp|
next if !target_thread? && th != Thread.current
events << [tp.event, tp.inspect]
}
assert_equal("#<TracePoint:disabled>", trace.inspect)
trace.enable{
assert_equal("#<TracePoint:enabled>", trace.inspect)
th = Thread.new{}
th.join
}
assert_equal("#<TracePoint:disabled>", trace.inspect)
events.each{|(ev, str)|
case ev
when :line
assert_match(/ in /, str)
when :call, :c_call
assert_match(/call \`/, str) # #<TracePoint:c_call `inherited' ../trunk/test.rb:11>
when :return, :c_return
assert_match(/return \`/, str) # #<TracePoint:return `m' ../trunk/test.rb:3>
when /thread/
assert_match(/\#<Thread:/, str) # #<TracePoint:thread_end of #<Thread:0x87076c0>>
else
assert_match(/\#<TracePoint:/, str)
end
}
end
def test_tracepoint_exception_at_line
assert_raise(RuntimeError) do
TracePoint.new(:line) {
next if !target_thread?
raise
}.enable {
1
}
end
end
def test_tracepoint_exception_at_return
assert_nothing_raised(Timeout::Error, 'infinite trace') do
assert_normal_exit('def m; end; TracePoint.new(:return) {raise}.enable {m}', '', timeout: 3)
end
end
def test_tracepoint_exception_at_c_return
assert_nothing_raised(Timeout::Error, 'infinite trace') do
assert_normal_exit %q{
begin
TracePoint.new(:c_return){|tp|
raise
}.enable{
tap{ itself }
}
rescue
end
}, '', timeout: 3
end
end
def test_tracepoint_with_multithreads
assert_nothing_raised do
TracePoint.new{
10.times{
Thread.pass
}
}.enable do
(1..10).map{
Thread.new{
1000.times{
}
}
}.each{|th|
th.join
}
end
end
end
class FOO_ERROR < RuntimeError; end
class BAR_ERROR < RuntimeError; end
def m1_test_trace_point_at_return_when_exception
m2_test_trace_point_at_return_when_exception
end
def m2_test_trace_point_at_return_when_exception
raise BAR_ERROR
end
def test_trace_point_at_return_when_exception
bug_7624 = '[ruby-core:51128] [ruby-trunk - Bug #7624]'
TracePoint.new{|tp|
next if !target_thread?
if tp.event == :return &&
tp.method_id == :m2_test_trace_point_at_return_when_exception
raise FOO_ERROR
end
}.enable do
assert_raise(FOO_ERROR, bug_7624) do
m1_test_trace_point_at_return_when_exception
end
end
bug_7668 = '[Bug #7668]'
ary = []
trace = TracePoint.new{|tp|
next if !target_thread?
ary << tp.event
raise
}
begin
trace.enable{
1.times{
raise
}
}
rescue
assert_equal([:b_call, :b_return], ary, bug_7668)
end
end
def m1_for_test_trace_point_binding_in_ifunc(arg)
arg + nil
rescue
end
def m2_for_test_trace_point_binding_in_ifunc(arg)
arg.inject(:+)
rescue
end
def test_trace_point_binding_in_ifunc
bug7774 = '[ruby-dev:46908]'
src = %q{
tp = TracePoint.new(:raise) do |tp|
tp.binding
end
tp.enable do
obj = Object.new
class << obj
include Enumerable
def each
yield 1
end
end
%s
end
}
assert_normal_exit src % %q{obj.zip({}) {}}, bug7774
assert_normal_exit src % %q{
require 'continuation'
begin
c = nil
obj.sort_by {|x| callcc {|c2| c ||= c2 }; x }
c.call
rescue RuntimeError
end
}, bug7774
# TracePoint
tp_b = nil
TracePoint.new(:raise) do |tp|
next if !target_thread?
tp_b = tp.binding
end.enable do
m1_for_test_trace_point_binding_in_ifunc(0)
assert_equal(self, eval('self', tp_b), '[ruby-dev:46960]')
m2_for_test_trace_point_binding_in_ifunc([0, nil])
assert_equal(self, eval('self', tp_b), '[ruby-dev:46960]')
end
# set_trace_func
stf_b = nil
set_trace_func ->(event, file, line, id, binding, klass) do
stf_b = binding if event == 'raise'
end
begin
m1_for_test_trace_point_binding_in_ifunc(0)
assert_equal(self, eval('self', stf_b), '[ruby-dev:46960]')
m2_for_test_trace_point_binding_in_ifunc([0, nil])
assert_equal(self, eval('self', stf_b), '[ruby-dev:46960]')
ensure
set_trace_func(nil)
end
end
def test_trace_point_binding_after_break
bug10689 = '[ruby-dev:48797]'
assert_in_out_err([], <<-INPUT, [], [], bug10689)
class Bug
include Enumerable
def each
[0].each do
yield
end
end
end
TracePoint.trace(:c_return) do |tp|
tp.binding
end
Bug.new.all? { false }
INPUT
end
def test_tracepoint_b_return_with_next
n = 0
TracePoint.new(:b_return){
next if !target_thread?
n += 1
}.enable{
3.times{
next
} # 3 times b_return
} # 1 time b_return
assert_equal 4, n
end
def test_tracepoint_b_return_with_lambda
n = 0
TracePoint.new(:b_return){
next if !target_thread?
n+=1
}.enable{
lambda{
return
}.call # n += 1 #=> 1
3.times{
lambda{
return # n += 3 #=> 4
}.call
} # n += 3 #=> 7
begin
lambda{
raise
}.call # n += 1 #=> 8
rescue
# ignore
end # n += 1 #=> 9
}
assert_equal 9, n
end
def test_isolated_raise_in_trace
bug9088 = '[ruby-dev:47793] [Bug #9088]'
assert_in_out_err([], <<-END, [], [], bug9088)
set_trace_func proc {raise rescue nil}
1.times {break}
END
end
def test_a_call
events = []
TracePoint.new(:a_call){|tp|
next if !target_thread?
events << tp.event
}.enable{
1.times{
3
}
method_for_test_tracepoint_block{
4
}
}
assert_equal([
:b_call,
:c_call,
:b_call,
:call,
:b_call,
], events)
end
def test_a_return
events = []
TracePoint.new(:a_return){|tp|
next if !target_thread?
events << tp.event
}.enable{
1.times{
3
}
method_for_test_tracepoint_block{
4
}
}
assert_equal([
:b_return,
:c_return,
:b_return,
:return,
:b_return
], events)
end
def test_const_missing
bug59398 = '[ruby-core:59398]'
events = []
assert !defined?(MISSING_CONSTANT_59398)
TracePoint.new(:c_call, :c_return, :call, :return){|tp|
next if !target_thread?
next unless tp.defined_class == Module
# rake/ext/module.rb aliases :const_missing and Ruby uses the aliased name
# but this only happens when running the full test suite
events << [tp.event,tp.method_id] if tp.method_id == :const_missing || tp.method_id == :rake_original_const_missing
}.enable{
MISSING_CONSTANT_59398 rescue nil
}
if events.map{|e|e[1]}.include?(:rake_original_const_missing)
assert_equal([
[:call, :const_missing],
[:c_call, :rake_original_const_missing],
[:c_return, :rake_original_const_missing],
[:return, :const_missing],
], events, bug59398)
else
assert_equal([
[:c_call, :const_missing],
[:c_return, :const_missing]
], events, bug59398)
end
end
class AliasedRubyMethod
def foo; 1; end;
alias bar foo
end
def test_aliased_ruby_method
events = []
aliased = AliasedRubyMethod.new
TracePoint.new(:call, :return){|tp|
next if !target_thread?
events << [tp.event, tp.method_id]
}.enable{
aliased.bar
}
assert_equal([
[:call, :foo],
[:return, :foo]
], events, "should use original method name for tracing ruby methods")
end
class AliasedCMethod < Hash
alias original_size size
def size; original_size; end
end
def test_aliased_c_method
events = []
aliased = AliasedCMethod.new
TracePoint.new(:call, :return, :c_call, :c_return){|tp|
next if !target_thread?
events << [tp.event, tp.method_id]
}.enable{
aliased.size
}
assert_equal([
[:call, :size],
[:c_call, :size],
[:c_return, :size],
[:return, :size]
], events, "should use alias method name for tracing c methods")
end
def test_method_missing
bug59398 = '[ruby-core:59398]'
events = []
assert !respond_to?(:missing_method_59398)
TracePoint.new(:c_call, :c_return, :call, :return){|tp|
next if !target_thread?
next unless tp.defined_class == BasicObject
# rake/ext/module.rb aliases :const_missing and Ruby uses the aliased name
# but this only happens when running the full test suite
events << [tp.event,tp.method_id] if tp.method_id == :method_missing
}.enable{
missing_method_59398 rescue nil
}
assert_equal([
[:c_call, :method_missing],
[:c_return, :method_missing]
], events, bug59398)
end
class C9759
define_method(:foo){
raise
}
end
def test_define_method_on_exception
events = []
obj = C9759.new
TracePoint.new(:call, :return){|tp|
next unless target_thread?
events << [tp.event, tp.method_id]
}.enable{
obj.foo rescue nil
}
assert_equal([[:call, :foo], [:return, :foo]], events, 'Bug #9759')
events = []
begin
set_trace_func(lambda{|event, file, lineno, mid, binding, klass|
next unless target_thread?
case event
when 'call', 'return'
events << [event, mid]
end
})
obj.foo rescue nil
set_trace_func(nil)
assert_equal([['call', :foo], ['return', :foo]], events, 'Bug #9759')
ensure
end
end
class C11492
define_method(:foo_return){
return true
}
define_method(:foo_break){
break true
}
end
def test_define_method_on_return
# return
events = []
obj = C11492.new
TracePoint.new(:call, :return){|tp|
next unless target_thread?
events << [tp.event, tp.method_id]
}.enable{
obj.foo_return
}
assert_equal([[:call, :foo_return], [:return, :foo_return]], events, 'Bug #11492')
# break
events = []
obj = C11492.new
TracePoint.new(:call, :return){|tp|
next unless target_thread?
events << [tp.event, tp.method_id]
}.enable{
obj.foo_break
}
assert_equal([[:call, :foo_break], [:return, :foo_break]], events, 'Bug #11492')
# set_trace_func
# return
events = []
begin
set_trace_func(lambda{|event, file, lineno, mid, binding, klass|
next unless target_thread?
case event
when 'call', 'return'
events << [event, mid]
end
})
obj.foo_return
set_trace_func(nil)
assert_equal([['call', :foo_return], ['return', :foo_return]], events, 'Bug #11492')
ensure
end
# break
events = []
begin
set_trace_func(lambda{|event, file, lineno, mid, binding, klass|
next unless target_thread?
case event
when 'call', 'return'
events << [event, mid]
end
})
obj.foo_break
set_trace_func(nil)
assert_equal([['call', :foo_break], ['return', :foo_break]], events, 'Bug #11492')
ensure
end
end
def test_recursive
assert_in_out_err([], %q{\
TracePoint.new(:c_call){|tp|
p tp.method_id
}.enable{
p 1
}
}, %w[:p :to_s 1], [], '[Bug #9940]')
end
def method_prefix event
case event
when :call, :return
:n
when :c_call, :c_return
:c
when :b_call, :b_return
:b
end
end
def method_label tp
"#{method_prefix(tp.event)}##{tp.method_id}"
end
def assert_consistent_call_return message='', check_events: nil
check_events ||= %i(a_call a_return)
call_stack = []
TracePoint.new(*check_events){|tp|
next unless target_thread?
case tp.event.to_s
when /call/
call_stack << method_label(tp)
when /return/
frame = call_stack.pop
assert_equal(frame, method_label(tp))
end
}.enable do
yield
end
assert_equal true, call_stack.empty?
end
def method_test_rescue_should_not_cause_b_return
begin
raise
rescue
return
end
end
def method_test_ensure_should_not_cause_b_return
begin
raise
ensure
return
end
end
def test_rescue_and_ensure_should_not_cause_b_return
assert_consistent_call_return '[Bug #9957]' do
method_test_rescue_should_not_cause_b_return
begin
method_test_ensure_should_not_cause_b_return
rescue
# ignore
end
end
end
define_method(:method_test_argument_error_on_bmethod){|correct_key: 1|}
def test_argument_error_on_bmethod
assert_consistent_call_return '[Bug #9959]' do
begin
method_test_argument_error_on_bmethod(wrong_key: 2)
rescue
# ignore
end
end
end
def test_rb_rescue
assert_consistent_call_return '[Bug #9961]' do
begin
-Numeric.new
rescue
# ignore
end
end
end
def test_b_call_with_redo
assert_consistent_call_return '[Bug #9964]' do
i = 0
1.times{
break if (i+=1) > 10
redo
}
end
end
def test_no_duplicate_line_events
lines = []
dummy = []
TracePoint.new(:line){|tp|
next unless target_thread?
lines << tp.lineno
}.enable{
dummy << (1) + (2)
dummy << (1) + (2)
}
assert_equal [__LINE__ - 3, __LINE__ - 2], lines, 'Bug #10449'
end
def test_elsif_line_event
bug10763 = '[ruby-core:67720] [Bug #10763]'
lines = []
line = nil
TracePoint.new(:line){|tp|
next unless target_thread?
lines << tp.lineno if line
}.enable{
line = __LINE__
if !line
1
elsif line
2
end
}
assert_equal [line+1, line+3, line+4], lines, bug10763
end
class Bug10724
def initialize
loop{return}
end
end
def test_throwing_return_with_finish_frame
evs = []
TracePoint.new(:call, :return){|tp|
next unless target_thread?
evs << tp.event
}.enable{
Bug10724.new
}
assert_equal([:call, :return], evs)
end
require 'fiber'
def test_fiber_switch
# test for resume/yield
evs = []
TracePoint.new(:fiber_switch){|tp|
next unless target_thread?
evs << tp.event
}.enable{
f = Fiber.new{
Fiber.yield
Fiber.yield
Fiber.yield
}
f.resume
f.resume
f.resume
f.resume
begin
f.resume
rescue FiberError
end
}
assert_equal 8, evs.size
evs.each{|ev|
assert_equal ev, :fiber_switch
}
# test for transfer
evs = []
TracePoint.new(:fiber_switch){|tp|
next unless target_thread?
evs << tp.event
}.enable{
f1 = f2 = nil
f1 = Fiber.new{
f2.transfer
f2.transfer
Fiber.yield :ok
}
f2 = Fiber.new{
f1.transfer
f1.transfer
}
assert_equal :ok, f1.resume
}
assert_equal 6, evs.size
evs.each{|ev|
assert_equal ev, :fiber_switch
}
end
def test_tracepoint_callee_id
events = []
capture_events = Proc.new{|tp|
next unless target_thread?
events << [tp.event, tp.method_id, tp.callee_id]
}
o = Class.new{
def m
raise
end
alias alias_m m
}.new
TracePoint.new(:raise, :call, :return, &capture_events).enable{
o.alias_m rescue nil
}
assert_equal [[:call, :m, :alias_m], [:raise, :m, :alias_m], [:return, :m, :alias_m]], events
events.clear
o = Class.new{
alias alias_raise raise
def m
alias_raise
end
}.new
TracePoint.new(:c_return, &capture_events).enable{
o.m rescue nil
}
assert_equal [:c_return, :raise, :alias_raise], events[0]
events.clear
o = Class.new(String){
include Enumerable
alias each each_char
}.new('foo')
TracePoint.new(:c_return, &capture_events).enable{
o.find{true}
}
assert_equal [:c_return, :each_char, :each], events[0]
events.clear
o = Class.new{
define_method(:m){}
alias alias_m m
}.new
TracePoint.new(:call, :return, &capture_events).enable{
o.alias_m
}
assert_equal [[:call, :m, :alias_m], [:return, :m, :alias_m]], events
events.clear
o = Class.new{
def m
tap{return}
end
alias alias_m m
}.new
TracePoint.new(:return, &capture_events).enable{
o.alias_m
}
assert_equal [[:return, :tap, :tap], [:return, :m, :alias_m]], events
events.clear
o = Class.new{
define_method(:m){raise}
alias alias_m m
}.new
TracePoint.new(:b_return, :return, &capture_events).enable{
o.alias_m rescue nil
}
assert_equal [[:b_return, :m, :alias_m], [:return, :m, :alias_m]], events[0..1]
events.clear
o = Class.new{
define_method(:m){tap{return}}
alias alias_m m
}.new
TracePoint.new(:b_return, &capture_events).enable{
o.alias_m
}
assert_equal [[:b_return, :m, :alias_m], [:b_return, :m, :alias_m]], events[0..1]
events.clear
o = Class.new{
alias alias_singleton_class singleton_class
define_method(:m){alias_singleton_class}
}.new
TracePoint.new(:c_return, &capture_events).enable{
o.m
}
assert_equal [[:c_return, :singleton_class, :alias_singleton_class]], events
events.clear
c = Class.new{
alias initialize itself
}
TracePoint.new(:c_call, &capture_events).enable{
c.new
}
assert_equal [:c_call, :itself, :initialize], events[1]
events.clear
o = Class.new{
alias alias_itself itself
}.new
TracePoint.new(:c_call, :c_return, &capture_events).enable{
o.alias_itself
}
assert_equal [[:c_call, :itself, :alias_itself], [:c_return, :itself, :alias_itself]], events
events.clear
end
# tests for `return_value` with non-local exit [Bug #13369]
def tp_return_value mid
ary = []
TracePoint.new(:return, :b_return){|tp| next if !target_thread?; ary << [tp.event, tp.method_id, tp.return_value]}.enable{
send mid
}
ary.pop # last b_return event is not required.
ary
end
def test_single_raise_inside_load
events = []
tmpdir = Dir.mktmpdir
path = "#{tmpdir}/hola.rb"
File.open(path, "w") { |f| f.write("raise") }
tp = TracePoint.new(:raise) {|tp| events << [tp.event] if target_thread?}
tp.enable{
load path rescue nil
}
assert_equal [[:raise]], events
events.clear
tp.enable{
require path rescue nil
}
assert_equal [[:raise]], events
ensure
FileUtils.rmtree(tmpdir)
end
def f_raise
raise
rescue
return :f_raise_return
end
def f_iter1
yield
return :f_iter1_return
end
def f_iter2
yield
return :f_iter2_return
end
def f_return_in_iter
f_iter1 do
f_iter2 do
return :f_return_in_iter_return
end
end
2
end
def f_break_in_iter
f_iter1 do
f_iter2 do
break :f_break_in_iter_break
end
:f_iter1_block_value
end
:f_break_in_iter_return
end
def test_return_value_with_rescue
assert_equal [[:return, :f_raise, :f_raise_return]],
tp_return_value(:f_raise),
'[Bug #13369]'
assert_equal [[:b_return, :f_return_in_iter, nil],
[:return, :f_iter2, nil],
[:b_return, :f_return_in_iter, nil],
[:return, :f_iter1, nil],
[:return, :f_return_in_iter, :f_return_in_iter_return]],
tp_return_value(:f_return_in_iter),
'[Bug #13369]'
assert_equal [[:b_return, :f_break_in_iter, :f_break_in_iter_break],
[:return, :f_iter2, nil],
[:b_return, :f_break_in_iter, :f_iter1_block_value],
[:return, :f_iter1, :f_iter1_return],
[:return, :f_break_in_iter, :f_break_in_iter_return]],
tp_return_value(:f_break_in_iter),
'[Bug #13369]'
end
define_method(:f_last_defined) do
:f_last_defined
end
define_method(:f_return_defined) do
return :f_return_defined
end
define_method(:f_break_defined) do
return :f_break_defined
end
define_method(:f_raise_defined) do
raise
rescue
return :f_raise_defined
end
define_method(:f_break_in_rescue_defined) do
raise
rescue
break :f_break_in_rescue_defined
end
def test_return_value_with_rescue_and_defined_methods
assert_equal [[:b_return, :f_last_defined, :f_last_defined],
[:return, :f_last_defined, :f_last_defined]],
tp_return_value(:f_last_defined),
'[Bug #13369]'
assert_equal [[:b_return, :f_return_defined, nil], # current limitation
[:return, :f_return_defined, :f_return_defined]],
tp_return_value(:f_return_defined),
'[Bug #13369]'
assert_equal [[:b_return, :f_break_defined, nil],
[:return, :f_break_defined, :f_break_defined]],
tp_return_value(:f_break_defined),
'[Bug #13369]'
assert_equal [[:b_return, :f_raise_defined, nil],
[:return, :f_raise_defined, f_raise_defined]],
tp_return_value(:f_raise_defined),
'[Bug #13369]'
assert_equal [[:b_return, :f_break_in_rescue_defined, nil],
[:return, :f_break_in_rescue_defined, f_break_in_rescue_defined]],
tp_return_value(:f_break_in_rescue_defined),
'[Bug #13369]'
end
def f_iter
yield
end
def f_break_in_rescue
f_iter do
begin
raise
rescue
break :b
end
end
:f_break_in_rescue_return_value
end
def test_break_with_rescue
assert_equal [[:b_return, :f_break_in_rescue, :b],
[:return, :f_iter, nil],
[:return, :f_break_in_rescue, :f_break_in_rescue_return_value]],
tp_return_value(:f_break_in_rescue),
'[Bug #13369]'
end
def test_trace_point_raising_exception_in_bmethod_call
bug13705 = '[ruby-dev:50162]'
assert_normal_exit %q{
define_method(:m) {}
tp = TracePoint.new(:call) do
raise ''
end
tap do
tap do
begin
tp.enable
m
rescue
end
end
end
}, bug13705
end
def test_trace_point_require_block
assert_raise(ArgumentError) { TracePoint.new(:return) }
end
def method_for_test_thread_add_trace_func
end
def test_thread_add_trace_func
events = []
base_line = __LINE__
q = Queue.new
t = Thread.new{
Thread.current.add_trace_func proc{|ev, file, line, *args|
events << [ev, line]
} # do not stop trace. They will be stopped at Thread termination.
q.push 1
_x = 1
method_for_test_thread_add_trace_func
_y = 2
}
q.pop
method_for_test_thread_add_trace_func
t.join
assert_equal ["c-return", base_line + 3], events[0]
assert_equal ["line", base_line + 6], events[1]
assert_equal ["c-call", base_line + 6], events[2]
assert_equal ["c-return", base_line + 6], events[3]
assert_equal ["line", base_line + 7], events[4]
assert_equal ["line", base_line + 8], events[5]
assert_equal ["call", base_line + -6], events[6]
assert_equal ["return", base_line + -4], events[7]
assert_equal ["line", base_line + 9], events[8]
assert_equal nil, events[9]
# other thread
events = []
m2t_q = Queue.new
t = Thread.new{
Thread.current.abort_on_exception = true
assert_equal 1, m2t_q.pop
_x = 1
method_for_test_thread_add_trace_func
_y = 2
Thread.current.set_trace_func(nil)
method_for_test_thread_add_trace_func
}
# it is dirty hack. usually we shouldn't use such technique
Thread.pass until t.status == 'sleep'
# When MJIT thread exists, t.status becomes 'sleep' even if it does not reach m2t_q.pop.
# This sleep forces it to reach m2t_q.pop for --jit-wait.
sleep 1 if defined?(RubyVM::MJIT) && RubyVM::MJIT.enabled?
t.add_trace_func proc{|ev, file, line, *args|
if file == __FILE__
events << [ev, line]
end
}
method_for_test_thread_add_trace_func
m2t_q.push 1
t.join
assert_equal ["c-return", base_line + 31], events[0]
assert_equal ["line", base_line + 32], events[1]
assert_equal ["line", base_line + 33], events[2]
assert_equal ["call", base_line + -6], events[3]
assert_equal ["return", base_line + -4], events[4]
assert_equal ["line", base_line + 34], events[5]
assert_equal ["line", base_line + 35], events[6]
assert_equal ["c-call", base_line + 35], events[7] # Thread.current
assert_equal ["c-return", base_line + 35], events[8] # Thread.current
assert_equal ["c-call", base_line + 35], events[9] # Thread#set_trace_func
assert_equal nil, events[10]
end
def test_lineno_in_optimized_insn
assert_separately([], "#{<<~"begin;"}\n#{<<~'end;'}")
begin;
$loc = nil
class String
undef -@
def -@
$loc = caller_locations(1, 1)[0].lineno
end
end
assert_predicate(-"", :frozen?)
assert_equal(__LINE__-1, $loc, '[Bug #14809]')
end;
end
def method_for_enable_target1
a = 1
b = 2
1.times{|i|
_x = i
}
_c = a + b
end
def method_for_enable_target2
a = 1
b = 2
1.times{|i|
_x = i
}
_c = a + b
end
def check_with_events *trace_events
all_events = [[:call, :method_for_enable_target1],
[:line, :method_for_enable_target1],
[:line, :method_for_enable_target1],
[:line, :method_for_enable_target1],
[:b_call, :method_for_enable_target1],
[:line, :method_for_enable_target1],
[:b_return, :method_for_enable_target1],
[:line, :method_for_enable_target1],
[:return, :method_for_enable_target1],
# repeat
[:call, :method_for_enable_target1],
[:line, :method_for_enable_target1],
[:line, :method_for_enable_target1],
[:line, :method_for_enable_target1],
[:b_call, :method_for_enable_target1],
[:line, :method_for_enable_target1],
[:b_return, :method_for_enable_target1],
[:line, :method_for_enable_target1],
[:return, :method_for_enable_target1],
]
events = []
TracePoint.new(*trace_events) do |tp|
next unless target_thread?
events << [tp.event, tp.method_id]
end.enable(target: method(:method_for_enable_target1)) do
method_for_enable_target1
method_for_enable_target2
method_for_enable_target1
end
assert_equal all_events.find_all{|(ev)| trace_events.include? ev}, events
end
def test_tracepoint_enable_target
check_with_events :line
check_with_events :call, :return
check_with_events :line, :call, :return
check_with_events :call, :return, :b_call, :b_return
check_with_events :line, :call, :return, :b_call, :b_return
end
def test_tracepoint_nested_enabled_with_target
code1 = proc{
_a = 1
}
code2 = proc{
_b = 2
}
## error
# targeted TP and targeted TP
ex = assert_raise(ArgumentError) do
tp = TracePoint.new(:line){}
tp.enable(target: code1){
tp.enable(target: code2){}
}
end
assert_equal "can't nest-enable a targeting TracePoint", ex.message
# global TP and targeted TP
ex = assert_raise(ArgumentError) do
tp = TracePoint.new(:line){}
tp.enable{
tp.enable(target: code2){}
}
end
assert_equal "can't nest-enable a targeting TracePoint", ex.message
# targeted TP and global TP
ex = assert_raise(ArgumentError) do
tp = TracePoint.new(:line){}
tp.enable(target: code1){
tp.enable{}
}
end
assert_equal "can't nest-enable a targeting TracePoint", ex.message
# targeted TP and disable
ex = assert_raise(ArgumentError) do
tp = TracePoint.new(:line){}
tp.enable(target: code1){
tp.disable{}
}
end
assert_equal "can't disable a targeting TracePoint in a block", ex.message
## success with two nesting targeting tracepoints
events = []
tp1 = TracePoint.new(:line){|tp| events << :tp1}
tp2 = TracePoint.new(:line){|tp| events << :tp2}
tp1.enable(target: code1) do
tp2.enable(target: code1) do
code1.call
events << :___
end
end
assert_equal [:tp2, :tp1, :___], events
# success with two tracepoints (global/targeting)
events = []
tp1 = TracePoint.new(:line){|tp| events << :tp1}
tp2 = TracePoint.new(:line){|tp| events << :tp2}
tp1.enable do
tp2.enable(target: code1) do
code1.call
events << :___
end
end
assert_equal [:tp1, :tp1, :tp1, :tp1, :tp2, :tp1, :___], events
# success with two tracepoints (targeting/global)
events = []
tp1 = TracePoint.new(:line){|tp| events << :tp1}
tp2 = TracePoint.new(:line){|tp| events << :tp2}
tp1.enable(target: code1) do
tp2.enable do
code1.call
events << :___
end
end
assert_equal [:tp2, :tp2, :tp1, :tp2, :___], events
end
def test_tracepoint_enable_with_target_line
events = []
line_0 = __LINE__
code1 = proc{
events << 1
events << 2
events << 3
}
tp = TracePoint.new(:line) do |tp|
events << :tp
end
tp.enable(target: code1, target_line: line_0 + 3) do
code1.call
end
assert_equal [1, :tp, 2, 3], events
e = assert_raise(ArgumentError) do
TracePoint.new(:line){}.enable(target_line: 10){}
end
assert_equal 'only target_line is specified', e.message
e = assert_raise(ArgumentError) do
TracePoint.new(:call){}.enable(target: code1, target_line: 10){}
end
assert_equal 'target_line is specified, but line event is not specified', e.message
end
def test_tracepoint_enable_with_target_line_two_times
events = []
line_0 = __LINE__
code1 = proc{
events << 1 # tp1
events << 2
events << 3 # tp2
}
tp1 = TracePoint.new(:line) do |tp|
events << :tp1
end
tp2 = TracePoint.new(:line) do |tp|
events << :tp2
end
tp1.enable(target: code1, target_line: line_0 + 2) do
tp2.enable(target: code1, target_line: line_0 + 4) do
# two hooks
code1.call
end
end
assert_equal [:tp1, 1, 2, :tp2, 3], events
end
def test_script_compiled
events = []
tp = TracePoint.new(:script_compiled){|tp|
next unless target_thread?
events << [tp.instruction_sequence.path,
tp.eval_script]
}
eval_script = 'a = 1'
tp.enable{
eval(eval_script, nil, __FILE__+"/eval")
nil.instance_eval(eval_script, __FILE__+"/instance_eval")
Object.class_eval(eval_script, __FILE__+"/class_eval")
}
assert_equal [[__FILE__+"/eval", eval_script],
[__FILE__+"/instance_eval", eval_script],
[__FILE__+"/class_eval", eval_script],
], events
events.clear
tp.enable{
begin
eval('a=')
rescue SyntaxError
end
}
assert_equal [], events, 'script_compiled event should not be invoked on compile error'
skip "TODO: test for requires"
events.clear
tp.enable{
require ''
require_relative ''
load ''
}
assert_equal [], events
end
def test_enable_target_thread
events = []
TracePoint.new(:line) do |tp|
events << Thread.current
end.enable(target_thread: Thread.current) do
_a = 1
Thread.new{
_b = 2
_c = 3
}.join
_d = 4
end
assert_equal Array.new(3){Thread.current}, events
events = []
tp = TracePoint.new(:line) do |tp|
events << Thread.current
end
q1 = Queue.new
q2 = Queue.new
th = Thread.new{
q1 << :ok; q2.pop
_t1 = 1
_t2 = 2
}
q1.pop
tp.enable(target_thread: th) do
q2 << 1
_a = 1
_b = 2
th.join
end
assert_equal Array.new(2){th}, events
end
def test_return_event_with_rescue
obj = Object.new
def obj.example
1 if 1 == 1
rescue
end
ok = false
tp = TracePoint.new(:return) {ok = true}
tp.enable {obj.example}
assert ok, "return event should be emitted"
end
def test_disable_local_tracepoint_in_trace
assert_normal_exit <<-EOS
def foo
trace = TracePoint.new(:b_return){|tp|
tp.disable
}
trace.enable(target: method(:bar))
end
def bar
100.times{|i|
foo; foo
}
end
bar
EOS
end
def test_stat_exists
assert_instance_of Hash, TracePoint.stat
end
def test_tracepoint_opt_invokebuiltin_delegate_leave
code = 'puts RubyVM::InstructionSequence.of("\x00".method(:unpack)).disasm'
out = EnvUtil.invoke_ruby(['-e', code], '', true).first
assert_match(/^0000 opt_invokebuiltin_delegate_leave /, out)
event = eval(EnvUtil.invoke_ruby(['-e', <<~'EOS'], '', true).first)
TracePoint.new(:return) do |tp|
p [tp.event, tp.method_id]
end.enable do
"\x00".unpack("c")
end
EOS
assert_equal [:return, :unpack], event
end
end