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|
# -*- coding: utf-8 -*-
from __future__ import absolute_import
import threading
import operator
import unittest
import time
import sys
import gc
import lupa
IS_PYTHON3 = sys.version_info[0] >= 3
try:
_next = next
except NameError:
def _next(o):
return o.next()
unicode_type = type(IS_PYTHON3 and 'abc' or 'abc'.decode('ASCII'))
class SetupLuaRuntimeMixin(object):
lua_runtime_kwargs = {}
def setUp(self):
self.lua = lupa.LuaRuntime(**self.lua_runtime_kwargs)
def tearDown(self):
self.lua = None
gc.collect()
class TestLuaRuntimeRefcounting(unittest.TestCase):
def _run_gc_test(self, run_test):
gc.collect()
old_count = len(gc.get_objects())
i = None
for i in range(100):
run_test()
del i
gc.collect()
new_count = len(gc.get_objects())
self.assertEqual(old_count, new_count)
def test_runtime_cleanup(self):
def run_test():
lua = lupa.LuaRuntime()
lua_table = lua.eval('{1,2,3,4}')
del lua
self.assertEqual(1, lua_table[1])
self._run_gc_test(run_test)
def test_pyfunc_refcycle(self):
def make_refcycle():
def use_runtime():
return lua.eval('1+1')
lua = lupa.LuaRuntime()
lua.globals()['use_runtime'] = use_runtime
self.assertEqual(2, lua.eval('use_runtime()'))
self._run_gc_test(make_refcycle)
def test_attrgetter_refcycle(self):
def make_refcycle():
def get_attr(obj, name):
lua.eval('1+1') # create ref-cycle with runtime
return 23
lua = lupa.LuaRuntime(attribute_handlers=(get_attr, None))
assert lua.eval('python.eval.huhu') == 23
self._run_gc_test(make_refcycle)
class TestLuaRuntime(SetupLuaRuntimeMixin, unittest.TestCase):
def test_eval(self):
self.assertEqual(2, self.lua.eval('1+1'))
def test_eval_multi(self):
self.assertEqual((1,2,3), self.lua.eval('1,2,3'))
def test_eval_args(self):
self.assertEqual(2, self.lua.eval('...', 2))
def test_eval_args_multi(self):
self.assertEqual((1, 2, 3), self.lua.eval('...', 1, 2, 3))
def test_eval_error(self):
self.assertRaises(lupa.LuaError, self.lua.eval, '<INVALIDCODE>')
def test_eval_error_cleanup(self):
self.assertEqual(2, self.lua.eval('1+1'))
self.assertRaises(lupa.LuaError, self.lua.eval, '<INVALIDCODE>')
self.assertEqual(2, self.lua.eval('1+1'))
self.assertRaises(lupa.LuaError, self.lua.eval, '<INVALIDCODE>')
self.assertEqual(2, self.lua.eval('1+1'))
self.assertEqual(2, self.lua.eval('1+1'))
def test_eval_error_message_decoding(self):
try:
self.lua.eval('require "UNKNOWNöMODULEäNAME"')
except lupa.LuaError:
error = (IS_PYTHON3 and '%s' or '%s'.decode('ASCII')) % sys.exc_info()[1]
else:
self.fail('expected error not raised')
expected_message = 'module \'UNKNOWNöMODULEäNAME\' not found'
if not IS_PYTHON3:
expected_message = expected_message.decode('UTF-8')
self.assertTrue(expected_message in error,
'"%s" not found in "%s"' % (expected_message, error))
def test_execute(self):
self.assertEqual(2, self.lua.execute('return 1+1'))
def test_execute_function(self):
self.assertEqual(3, self.lua.execute('f = function(i) return i+1 end; return f(2)'))
def test_execute_tostring_function(self):
self.assertEqual('function', self.lua.execute('f = function(i) return i+1 end; return tostring(f)')[:8])
def test_execute_args(self):
self.assertEqual(2, self.lua.execute('return ...', 2))
def test_execute_args_multi(self):
self.assertEqual((1, 2, 3), self.lua.execute('return ...', 1, 2, 3))
def test_function(self):
function = self.lua.eval('function() return 1+1 end')
self.assertNotEqual(None, function)
self.assertEqual(2, function())
def test_multiple_functions(self):
function1 = self.lua.eval('function() return 0+1 end')
function2 = self.lua.eval('function() return 1+1 end')
self.assertEqual(1, function1())
self.assertEqual(2, function2())
function3 = self.lua.eval('function() return 1+2 end')
self.assertEqual(3, function3())
self.assertEqual(2, function2())
self.assertEqual(1, function1())
def test_recursive_function(self):
fac = self.lua.execute('''\
function fac(i)
if i <= 1
then return 1
else return i * fac(i-1)
end
end
return fac
''')
self.assertNotEqual(None, fac)
self.assertEqual(6, fac(3))
self.assertEqual(3628800, fac(10))
def test_double_recursive_function(self):
func_code = '''\
function calc(i)
if i > 2
then return calc(i-1) + calc(i-2) + 1
else return 1
end
end
return calc
'''
calc = self.lua.execute(func_code)
self.assertNotEqual(None, calc)
self.assertEqual(3, calc(3))
self.assertEqual(109, calc(10))
self.assertEqual(13529, calc(20))
def test_double_recursive_function_pycallback(self):
func_code = '''\
function calc(pyfunc, i)
if i > 2
then return pyfunc(i) + calc(pyfunc, i-1) + calc(pyfunc, i-2) + 1
else return 1
end
end
return calc
'''
def pycallback(i):
return i**2
calc = self.lua.execute(func_code)
self.assertNotEqual(None, calc)
self.assertEqual(12, calc(pycallback, 3))
self.assertEqual(1342, calc(pycallback, 10))
self.assertEqual(185925, calc(pycallback, 20))
def test_none(self):
function = self.lua.eval('function() return python.none end')
self.assertEqual(None, function())
def test_pybuiltins(self):
function = self.lua.eval('function() return python.builtins end')
try:
import __builtin__ as builtins
except ImportError:
import builtins
self.assertEqual(builtins, function())
def test_pybuiltins_disabled(self):
lua = lupa.LuaRuntime(register_builtins=False)
self.assertEqual(True, lua.eval('python.builtins == nil'))
def test_call_none(self):
self.assertRaises(TypeError, self.lua.eval, 'python.none()')
def test_call_non_callable(self):
func = self.lua.eval('function(x) CALLED = 99; return x() end')
self.assertRaises(TypeError, func, object())
self.assertEqual(99, self.lua.eval('CALLED'))
def test_call_str(self):
self.assertEqual("test-None", self.lua.eval('"test-" .. tostring(python.none)'))
def test_call_str_py(self):
function = self.lua.eval('function(x) return "test-" .. tostring(x) end')
self.assertEqual("test-nil", function(None))
self.assertEqual("test-1.5", function(1.5))
def test_call_str_class(self):
called = [False]
class test(object):
def __str__(self):
called[0] = True
return 'STR!!'
function = self.lua.eval('function(x) return "test-" .. tostring(x) end')
self.assertEqual("test-STR!!", function(test()))
self.assertEqual(True, called[0])
def test_python_eval(self):
eval = self.lua.eval('function() return python.eval end')()
self.assertEqual(2, eval('1+1'))
self.assertEqual(2, self.lua.eval('python.eval("1+1")'))
def test_python_eval_disabled(self):
lua = lupa.LuaRuntime(register_eval=False)
self.assertEqual(True, lua.eval('python.eval == nil'))
def test_len_table_array(self):
table = self.lua.eval('{1,2,3,4,5}')
self.assertEqual(5, len(table))
def test_len_table_dict(self):
table = self.lua.eval('{a=1, b=2, c=3}')
self.assertEqual(0, len(table)) # as returned by Lua's "#" operator
def test_table_delattr(self):
table = self.lua.eval('{a=1, b=2, c=3}')
self.assertTrue('a' in table)
del table.a
self.assertFalse('a' in table)
def test_table_delitem(self):
table = self.lua.eval('{a=1, b=2, c=3}')
self.assertTrue('c' in table)
del table['c']
self.assertFalse('c' in table)
def test_table_delitem_special(self):
table = self.lua.eval('{a=1, b=2, c=3, __attr__=4}')
self.assertTrue('__attr__' in table)
del table['__attr__']
self.assertFalse('__attr__' in table)
def test_len_table(self):
table = self.lua.eval('{1,2,3,4, a=1, b=2, c=3}')
self.assertEqual(4, len(table)) # as returned by Lua's "#" operator
def test_iter_table(self):
table = self.lua.eval('{2,3,4,5,6}')
self.assertEqual([1,2,3,4,5], list(table))
def test_iter_table_list_repeat(self):
table = self.lua.eval('{2,3,4,5,6}')
self.assertEqual([1,2,3,4,5], list(table)) # 1
self.assertEqual([1,2,3,4,5], list(table)) # 2
self.assertEqual([1,2,3,4,5], list(table)) # 3
def test_iter_array_table_values(self):
table = self.lua.eval('{2,3,4,5,6}')
self.assertEqual([2,3,4,5,6], list(table.values()))
def test_iter_array_table_repeat(self):
table = self.lua.eval('{2,3,4,5,6}')
self.assertEqual([2,3,4,5,6], list(table.values())) # 1
self.assertEqual([2,3,4,5,6], list(table.values())) # 2
self.assertEqual([2,3,4,5,6], list(table.values())) # 3
def test_iter_multiple_tables(self):
count = 10
table_values = [self.lua.eval('{%s}' % ','.join(map(str, range(2, count+2)))).values()
for _ in range(4)]
# round robin
l = [[] for _ in range(count)]
for sublist in l:
for table in table_values:
sublist.append(_next(table))
self.assertEqual([[i]*len(table_values) for i in range(2, count+2)], l)
def test_iter_table_repeat(self):
count = 10
table_values = [self.lua.eval('{%s}' % ','.join(map(str, range(2, count+2)))).values()
for _ in range(4)]
# one table after the other
l = [[] for _ in range(count)]
for table in table_values:
for sublist in l:
sublist.append(_next(table))
self.assertEqual([[i]*len(table_values) for i in range(2,count+2)], l)
def test_iter_table_refcounting(self):
lua_func = self.lua.eval('''
function ()
local t = {}
t.foo = 'bar'
t.hello = 'world'
return t
end
''')
table = lua_func()
for _ in range(10000):
list(table.items())
def test_iter_table_mapping(self):
keys = list('abcdefg')
table = self.lua.eval('{%s}' % ','.join('%s=%d' % (c, i) for i, c in enumerate(keys)))
l = list(table)
l.sort()
self.assertEqual(keys, l)
def test_iter_table_mapping_int_keys(self):
table = self.lua.eval('{%s}' % ','.join('[%d]=%d' % (i, -i) for i in range(10)))
l = list(table)
l.sort()
self.assertEqual(list(range(10)), l)
def test_iter_table_keys(self):
keys = list('abcdefg')
table = self.lua.eval('{%s}' % ','.join('%s=%d' % (c, i) for i, c in enumerate(keys)))
l = list(table.keys())
l.sort()
self.assertEqual(keys, l)
def test_iter_table_keys_int_keys(self):
table = self.lua.eval('{%s}' % ','.join('[%d]=%d' % (i, -i) for i in range(10)))
l = list(table.keys())
l.sort()
self.assertEqual(list(range(10)), l)
def test_iter_table_values(self):
keys = list('abcdefg')
table = self.lua.eval('{%s}' % ','.join('%s=%d' % (c, i) for i, c in enumerate(keys)))
l = list(table.values())
l.sort()
self.assertEqual(list(range(len(keys))), l)
def test_iter_table_values_int_keys(self):
table = self.lua.eval('{%s}' % ','.join('[%d]=%d' % (i, -i) for i in range(10)))
l = list(table.values())
l.sort()
self.assertEqual(list(range(-9,1)), l)
def test_iter_table_items(self):
keys = list('abcdefg')
table = self.lua.eval('{%s}' % ','.join('%s=%d' % (c, i) for i, c in enumerate(keys)))
l = list(table.items())
l.sort()
self.assertEqual(list(zip(keys,range(len(keys)))), l)
def test_iter_table_items_int_keys(self):
table = self.lua.eval('{%s}' % ','.join('[%d]=%d' % (i, -i) for i in range(10)))
l = list(table.items())
l.sort()
self.assertEqual(list(zip(range(10), range(0,-10,-1))), l)
def test_iter_table_values_mixed(self):
keys = list('abcdefg')
table = self.lua.eval('{98, 99; %s}' % ','.join('%s=%d' % (c, i) for i, c in enumerate(keys)))
l = list(table.values())
l.sort()
self.assertEqual(list(range(len(keys))) + [98, 99], l)
def test_error_iter_number(self):
func = self.lua.eval('1')
self.assertRaises(TypeError, list, func)
def test_error_iter_function(self):
func = self.lua.eval('function() return 1 end')
self.assertRaises(TypeError, list, func)
def test_string_values(self):
function = self.lua.eval('function(s) return s .. "abc" end')
self.assertEqual('ABCabc', function('ABC'))
def test_int_values(self):
function = self.lua.eval('function(i) return i + 5 end')
self.assertEqual(3+5, function(3))
def test_long_values(self):
try:
_long = long
except NameError:
_long = int
function = self.lua.eval('function(i) return i + 5 end')
self.assertEqual(3+5, function(_long(3)))
def test_float_values(self):
function = self.lua.eval('function(i) return i + 5 end')
self.assertEqual(float(3)+5, function(float(3)))
def test_str_function(self):
func = self.lua.eval('function() return 1 end')
self.assertEqual('<Lua function at ', str(func)[:17])
def test_str_table(self):
table = self.lua.eval('{}')
self.assertEqual('<Lua table at ', str(table)[:14])
def test_create_table_args(self):
table = self.lua.table(1,2,3,4,5,6)
self.assertEqual(1, table[1])
self.assertEqual(3, table[3])
self.assertEqual(6, table[6])
self.assertEqual(6, len(table))
def test_create_table_kwargs(self):
table = self.lua.table(a=1, b=20, c=300)
self.assertEqual( 1, table['a'])
self.assertEqual( 20, table['b'])
self.assertEqual(300, table['c'])
self.assertEqual(0, len(table))
def test_create_table_args_kwargs(self):
table = self.lua.table(1,2,3,4,5,6, a=100, b=200, c=300)
self.assertEqual(1, table[1])
self.assertEqual(3, table[3])
self.assertEqual(6, table[6])
self.assertEqual(100, table['a'])
self.assertEqual(200, table['b'])
self.assertEqual(300, table['c'])
self.assertEqual(6, len(table))
def test_table_from_dict(self):
table = self.lua.table_from({"foo": 1, "bar": 20, "baz": "spam"})
self.assertEqual( 1, table['foo'])
self.assertEqual( 20, table['bar'])
self.assertEqual("spam", table['baz'])
self.assertEqual(0, len(table))
def test_table_from_int_keys(self):
table = self.lua.table_from({1: 5, 2: 10, "foo": "bar"})
self.assertEqual(5, table[1])
self.assertEqual(10, table[2])
self.assertEqual("bar", table["foo"])
self.assertEqual(2, len(table))
# def test_table_from_obj_keys(self):
# key = object()
# table = self.lua.table_from({key: "foo"})
# self.assertEqual("foo", table[key])
#
# self.assertEqual(0, len(table))
def test_table_from_list(self):
table = self.lua.table_from([1,2,5,6])
self.assertEqual(1, table[1])
self.assertEqual(2, table[2])
self.assertEqual(5, table[3])
self.assertEqual(6, table[4])
self.assertEqual(4, len(table))
def test_table_from_iterable(self):
it = (x for x in range(3))
table = self.lua.table_from(it)
self.assertEqual(0, table[1])
self.assertEqual(1, table[2])
self.assertEqual(2, table[3])
self.assertEqual(3, len(table))
def test_table_from_multiple_dicts(self):
table = self.lua.table_from({"a": 1, "b": 2}, {"c": 3, "b": 4})
self.assertEqual(1, table["a"])
self.assertEqual(4, table["b"])
self.assertEqual(3, table["c"])
self.assertEqual(0, len(table))
def test_table_from_dicts_and_lists(self):
dct, lst = {"a": 1, "b": 2}, ["foo", "bar"]
for args in [[dct, lst], [lst, dct]]:
table = self.lua.table_from(*args)
self.assertEqual(1, table["a"])
self.assertEqual(2, table["b"])
self.assertEqual("foo", table[1])
self.assertEqual("bar", table[2])
self.assertEqual(2, len(table))
def test_table_from_multiple_lists(self):
table = self.lua.table_from(["foo", "bar"], ["egg", "spam"])
self.assertEqual("foo", table[1])
self.assertEqual("bar", table[2])
self.assertEqual("egg", table[3])
self.assertEqual("spam", table[4])
self.assertEqual(4, len(table))
def test_table_from_bad(self):
self.assertRaises(TypeError, self.lua.table_from, 5)
self.assertRaises(TypeError, self.lua.table_from, None)
self.assertRaises(TypeError, self.lua.table_from, {"a": 5}, 123)
# def test_table_from_nested(self):
# table = self.lua.table_from({"obj": {"foo": "bar"}})
# lua_type = self.lua.eval("type")
# self.assertEqual(lua_type(table["obj"]), "table")
def test_table_from_table(self):
table1 = self.lua.eval("{3, 4, foo='bar'}")
table2 = self.lua.table_from(table1)
self.assertEqual(3, table2[1])
self.assertEqual(4, table2[2])
self.assertEqual("bar", table2["foo"])
# data should be copied
table2["foo"] = "spam"
self.assertEqual("spam", table2["foo"])
self.assertEqual("bar", table1["foo"])
def test_table_from_table_iter(self):
table1 = self.lua.eval("{3, 4, foo='bar'}")
table2 = self.lua.table_from(table1.keys())
self.assertEqual(len(table2), 3)
self.assertEqual(list(table2.keys()), [1, 2, 3])
self.assertEqual(set(table2.values()), set([1, 2, "foo"]))
def test_table_from_table_iter_indirect(self):
table1 = self.lua.eval("{3, 4, foo='bar'}")
table2 = self.lua.table_from(k for k in table1.keys())
self.assertEqual(len(table2), 3)
self.assertEqual(list(table2.keys()), [1, 2, 3])
self.assertEqual(set(table2.values()), set([1, 2, "foo"]))
# FIXME: it segfaults
# def test_table_from_generator_calling_lua_functions(self):
# func = self.lua.eval("function (obj) return obj end")
# table = self.lua.table_from(func(obj) for obj in ["foo", "bar"])
#
# self.assertEqual(len(table), 2)
# self.assertEqual(set(table.values()), set(["foo", "bar"]))
def test_table_contains(self):
table = self.lua.eval("{foo=5}")
self.assertTrue("foo" in table)
self.assertFalse("bar" in table)
self.assertFalse(5 in table)
def test_getattr(self):
stringlib = self.lua.eval('string')
self.assertEqual('abc', stringlib.lower('ABC'))
def test_getitem(self):
stringlib = self.lua.eval('string')
self.assertEqual('abc', stringlib['lower']('ABC'))
def test_getattr_table(self):
table = self.lua.eval('{ const={ name="Pi", value=3.1415927 }, const2={ name="light speed", value=3e8 }, val=1 }')
self.assertEqual(1, table.val)
self.assertEqual('Pi', table.const.name)
self.assertEqual('light speed', table.const2.name)
self.assertEqual(3e8, table.const2.value)
def test_getitem_table(self):
table = self.lua.eval('{ const={ name="Pi", value=3.1415927 }, const2={ name="light speed", value=3e8 }, val=1 }')
self.assertEqual(1, table['val'])
self.assertEqual('Pi', table['const']['name'])
self.assertEqual('light speed', table['const2']['name'])
self.assertEqual(3e8, table['const2']['value'])
def test_getitem_array(self):
table = self.lua.eval('{1,2,3,4,5,6,7,8,9}')
self.assertEqual(1, table[1])
self.assertEqual(5, table[5])
self.assertEqual(9, len(table))
def test_setitem_array(self):
table = self.lua.eval('{1,2,3,4,5,6,7,8,9}')
self.assertEqual(1, table[1])
table[1] = 0
self.assertEqual(0, table[1])
self.assertEqual(2, table[2])
self.assertEqual(9, len(table))
def test_setitem_array_none(self):
table = self.lua.eval('{1,2}')
get_none = self.lua.eval('function(t) return t[python.none] end')
self.assertEqual(2, len(table))
self.assertEqual(None, table[None])
self.assertEqual(None, get_none(table))
table[None] = 123
self.assertEqual(123, table[None])
self.assertEqual(123, get_none(table))
self.assertEqual(2, len(table))
def test_setitem_array_none_initial(self):
table = self.lua.eval('{1,python.none,3}')
get_none = self.lua.eval('function(t) return t[python.none] end')
self.assertEqual(3, len(table))
self.assertEqual(None, table[None])
self.assertEqual(None, get_none(table))
table[None] = 123
self.assertEqual(123, table[None])
self.assertEqual(123, get_none(table))
self.assertEqual(3, len(table))
def test_setattr_table(self):
table = self.lua.eval('{ const={ name="Pi", value=3.1415927 }, const2={ name="light speed", value=3e8 }, val=1 }')
self.assertEqual(1, table.val)
table.val = 2
self.assertEqual(2, table.val)
self.assertEqual('Pi', table.const.name)
table.const.name = 'POW'
self.assertEqual('POW', table.const.name)
table_const_name = self.lua.eval('function(t) return t.const.name end')
self.assertEqual('POW', table_const_name(table))
def test_setitem_table(self):
table = self.lua.eval('{ const={ name="Pi", value=3.1415927 }, const2={ name="light speed", value=3e8 }, val=1 }')
self.assertEqual(1, table.val)
table['val'] = 2
self.assertEqual(2, table.val)
get_val = self.lua.eval('function(t) return t.val end')
self.assertEqual(2, get_val(table))
self.assertEqual('Pi', table.const.name)
table['const']['name'] = 'POW'
self.assertEqual('POW', table.const.name)
get_table_const_name = self.lua.eval('function(t) return t.const.name end')
self.assertEqual('POW', get_table_const_name(table))
def test_pygetitem(self):
lua_func = self.lua.eval('function(x) return x.ATTR end')
self.assertEqual(123, lua_func({'ATTR': 123}))
def test_pysetitem(self):
lua_func = self.lua.eval('function(x) x.ATTR = 123 end')
d = {'ATTR': 321}
self.assertEqual(321, d['ATTR'])
lua_func(d)
self.assertEqual(123, d['ATTR'])
def test_pygetattr(self):
lua_func = self.lua.eval('function(x) return x.ATTR end')
class test(object):
def __init__(self):
self.ATTR = 5
self.assertEqual(test().ATTR, lua_func(test()))
def test_pysetattr(self):
lua_func = self.lua.eval('function(x) x.ATTR = 123 end')
class test(object):
def __init__(self):
self.ATTR = 5
t = test()
self.assertEqual(5, t.ATTR)
lua_func(t)
self.assertEqual(123, t.ATTR)
def test_pygetattr_function(self):
lua_func = self.lua.eval('function(x) x.ATTR = 123 end')
def test(): pass
lua_func(test)
self.assertEqual(123, test.ATTR)
def test_pysetattr_function(self):
lua_func = self.lua.eval('function(x) x.ATTR = 123 end')
def test(): pass
lua_func(test)
self.assertEqual(123, test.ATTR)
def test_globals(self):
lua_globals = self.lua.globals()
self.assertNotEqual(None, lua_globals.table)
def test_globals_attrs_call(self):
lua_globals = self.lua.globals()
self.assertNotEqual(None, lua_globals.string)
self.assertEqual('test', lua_globals.string.lower("TEST"))
def test_require(self):
stringlib = self.lua.require('string')
self.assertNotEqual(None, stringlib)
self.assertNotEqual(None, stringlib.char)
def test_libraries(self):
libraries = self.lua.eval('{require, table, io, os, math, string, debug}')
self.assertEqual(7, len(libraries))
self.assertTrue(None not in libraries)
def test_callable_values(self):
function = self.lua.eval('function(f) return f() + 5 end')
def test():
return 3
self.assertEqual(3+5, function(test))
def test_callable_values_pass_through(self):
function = self.lua.eval('function(f, n) return f(n) + 5 end')
def test(n):
return n
self.assertEqual(2+5, function(test, 2))
def test_callable_passthrough(self):
passthrough = self.lua.eval('function(f) f(); return f end')
called = [False]
def test():
called[0] = True
self.assertEqual(test, passthrough(test))
self.assertEqual([True], called)
def test_reraise(self):
function = self.lua.eval('function(f) return f() + 5 end')
def test():
raise ValueError("huhu")
self.assertRaises(ValueError, function, test)
def test_reraise_pcall(self):
exception = Exception('test')
def py_function():
raise exception
function = self.lua.eval(
'function(p) local r, err = pcall(p); return r, err end'
)
self.assertEqual(
function(py_function),
(False, exception)
)
def test_lua_error_after_intercepted_python_exception(self):
function = self.lua.eval('''
function(p)
pcall(p)
print(a.b);
end
''')
self.assertRaises(
lupa.LuaError,
function,
lambda: 5/0,
)
def test_attribute_filter(self):
def attr_filter(obj, name, setting):
if isinstance(name, unicode_type):
if not name.startswith('_'):
return name + '1'
raise AttributeError('denied')
lua = lupa.LuaRuntime(attribute_filter=attr_filter)
function = lua.eval('function(obj) return obj.__name__ end')
class X(object):
a = 0
a1 = 1
_a = 2
__a = 3
x = X()
function = self.lua.eval('function(obj) return obj.a end')
self.assertEqual(function(x), 0)
function = lua.eval('function(obj) return obj.a end')
self.assertEqual(function(x), 1)
function = self.lua.eval('function(obj) return obj.__class__ end')
self.assertEqual(function(x), X)
function = lua.eval('function(obj) return obj.__class__ end')
self.assertRaises(AttributeError, function, x)
function = self.lua.eval('function(obj) return obj._a end')
self.assertEqual(function(x), 2)
function = lua.eval('function(obj) return obj._a end')
self.assertRaises(AttributeError, function, x)
function = self.lua.eval('function(obj) return obj._X__a end')
self.assertEqual(function(x), 3)
function = lua.eval('function(obj) return obj._X__a end')
self.assertRaises(AttributeError, function, x)
function = self.lua.eval('function(obj) return obj.a end')
self.assertEqual(function(x), 0)
function = lua.eval('function(obj) return obj.a end')
self.assertEqual(function(x), 1)
def test_lua_type(self):
x = self.lua.eval('{}')
self.assertEqual('table', lupa.lua_type(x))
x = self.lua.eval('function() return 1 end')
self.assertEqual('function', lupa.lua_type(x))
x = self.lua.eval('function() coroutine.yield(1) end')
self.assertEqual('function', lupa.lua_type(x))
self.assertEqual('thread', lupa.lua_type(x.coroutine()))
self.assertEqual(None, lupa.lua_type(1))
self.assertEqual(None, lupa.lua_type(1.1))
self.assertEqual(None, lupa.lua_type('abc'))
self.assertEqual(None, lupa.lua_type({}))
self.assertEqual(None, lupa.lua_type([]))
self.assertEqual(None, lupa.lua_type(lupa))
self.assertEqual(None, lupa.lua_type(lupa.lua_type))
def test_call_from_coroutine(self):
lua = self.lua
def f(*args, **kwargs):
return lua.eval('tostring(...)', args)
create_thread = lua.eval('''
function(func)
local thread = coroutine.create(function()
coroutine.yield(func());
end);
return thread;
end''')
t = create_thread(f)()
self.assertEqual(lua.eval('coroutine.resume(...)', t), (True, '()'))
def test_call_from_coroutine2(self):
lua = self.lua
def f(*args, **kwargs):
return lua.eval('tostring(...)', args)
t = lua.eval('''
function(f)
coroutine.yield(f());
end
''').coroutine(f)
self.assertEqual(lua.eval('coroutine.resume(...)', t, f), (True, '()'))
def test_compile(self):
lua_func = self.lua.compile('return 1 + 2')
self.assertEqual(lua_func(), 3)
self.assertRaises(lupa.LuaSyntaxError, self.lua.compile, 'function awd()')
class TestAttributesNoAutoEncoding(SetupLuaRuntimeMixin, unittest.TestCase):
lua_runtime_kwargs = {'encoding': None}
def test_pygetitem(self):
lua_func = self.lua.eval('function(x) return x.ATTR end')
self.assertEqual(123, lua_func({b'ATTR': 123}))
def test_pysetitem(self):
lua_func = self.lua.eval('function(x) x.ATTR = 123 end')
d = {b'ATTR': 321}
self.assertEqual(321, d[b'ATTR'])
lua_func(d)
self.assertEqual(123, d[b'ATTR'])
def test_pygetattr(self):
lua_func = self.lua.eval('function(x) return x.ATTR end')
class test(object):
def __init__(self):
self.ATTR = 5
self.assertEqual(test().ATTR, lua_func(test()))
def test_pysetattr(self):
lua_func = self.lua.eval('function(x) x.ATTR = 123 end')
class test(object):
def __init__(self):
self.ATTR = 5
t = test()
self.assertEqual(5, t.ATTR)
lua_func(t)
self.assertEqual(123, t.ATTR)
class TestStrNoAutoEncoding(SetupLuaRuntimeMixin, unittest.TestCase):
lua_runtime_kwargs = {'encoding': None}
def test_call_str(self):
self.assertEqual(b"test-None", self.lua.eval('"test-" .. tostring(python.none)'))
def test_call_str_py(self):
function = self.lua.eval('function(x) return "test-" .. tostring(x) end')
self.assertEqual(b"test-nil", function(None))
self.assertEqual(b"test-1.5", function(1.5))
def test_call_str_class(self):
called = [False]
class test(object):
def __str__(self):
called[0] = True
return 'STR!!'
function = self.lua.eval('function(x) return "test-" .. tostring(x) end')
self.assertEqual(b"test-STR!!", function(test()))
self.assertEqual(True, called[0])
class TestAttributeHandlers(unittest.TestCase):
def setUp(self):
self.lua = lupa.LuaRuntime()
self.lua_handling = lupa.LuaRuntime(attribute_handlers=(self.attr_getter, self.attr_setter))
self.x, self.y = self.X(), self.Y()
self.d = {'a': "aval", "b": "bval", "c": "cval"}
def tearDown(self):
self.lua = None
gc.collect()
class X(object):
a = 0
a1 = 1
_a = 2
__a = 3
class Y(object):
a = 0
a1 = 1
_a = 2
__a = 3
def attr_getter(self, obj, name):
if not isinstance(name, unicode_type):
raise AttributeError('bad type for attr_name')
if isinstance(obj, self.X):
if not name.startswith('_'):
value = getattr(obj, name, None)
if value is not None:
return value + 10
return None
else:
return "forbidden"
elif isinstance(obj, dict):
if name == "c":
name = "b"
return obj.get(name, None)
return None
def attr_setter(self, obj, name, value):
if isinstance(obj, self.Y):
return # class Y is read only.
if isinstance(obj, self.X):
if name.startswith('_'):
return
if hasattr(obj, name):
setattr(obj, name, value)
elif isinstance(obj, dict):
if 'forbid_new' in obj and name not in obj:
return
obj[name] = value
def test_legal_arguments(self):
lupa.LuaRuntime(attribute_filter=None)
lupa.LuaRuntime(attribute_filter=len)
lupa.LuaRuntime(attribute_handlers=None)
lupa.LuaRuntime(attribute_handlers=())
lupa.LuaRuntime(attribute_handlers=[len, bool])
lupa.LuaRuntime(attribute_handlers=iter([len, bool]))
lupa.LuaRuntime(attribute_handlers=(None, None))
lupa.LuaRuntime(attribute_handlers=iter([None, None]))
def test_illegal_arguments(self):
self.assertRaises(
ValueError, lupa.LuaRuntime, attribute_filter=123)
self.assertRaises(
ValueError, lupa.LuaRuntime, attribute_handlers=(1, 2, 3, 4))
self.assertRaises(
ValueError, lupa.LuaRuntime, attribute_handlers=(1,))
self.assertRaises(
ValueError, lupa.LuaRuntime, attribute_handlers=(1, 2))
self.assertRaises(
ValueError, lupa.LuaRuntime, attribute_handlers=(1, len))
self.assertRaises(
ValueError, lupa.LuaRuntime, attribute_handlers=(len, 2))
self.assertRaises(
ValueError, lupa.LuaRuntime, attribute_handlers=(len, bool), attribute_filter=bool)
def test_attribute_setter_normal(self):
function = self.lua_handling.eval("function (obj) obj.a = 100 end")
function(self.x)
self.assertEqual(self.x.a, 100)
def test_attribute_setter_forbid_underscore(self):
function = self.lua_handling.eval("function (obj) obj._a = 100 end")
function(self.x)
self.assertEqual(self.x._a, 2)
def test_attribute_setter_readonly_object(self):
function = self.lua_handling.eval("function (obj) obj.a1 = 100 end")
function(self.y)
self.assertEqual(self.y.a1, 1)
def test_attribute_setter_dict_create(self):
function = self.lua_handling.eval("function (obj) obj['x'] = 'new' end")
function(self.d)
self.assertEqual(self.d.get('x'), 'new')
def test_attribute_setter_forbidden_dict_create(self):
self.d['forbid_new'] = True
function = self.lua_handling.eval("function (obj) obj['x'] = 'new' end")
function(self.d)
self.assertEqual(self.d.get('x'), None)
def test_attribute_setter_dict_update(self):
function = self.lua_handling.eval("function (obj) obj['a'] = 'new' end")
function(self.d)
self.assertEqual(self.d['a'], 'new')
def test_attribute_setter_forbidden_dict_update(self):
self.d['forbid_new'] = True
function = self.lua_handling.eval("function (obj) obj['a'] = 'new' end")
function(self.d)
self.assertEqual(self.d['a'], 'new')
def test_attribute_getter_forbid_double_underscores(self):
function = self.lua_handling.eval('function(obj) return obj.__name__ end')
self.assertEqual(function(self.x), "forbidden")
function = self.lua.eval('function(obj) return obj.__class__ end')
self.assertEqual(function(self.x), self.X)
function = self.lua_handling.eval('function(obj) return obj.__class__ end')
self.assertEqual(function(self.x), "forbidden")
function = self.lua.eval('function(obj) return obj._X__a end')
self.assertEqual(function(self.x), 3)
function = self.lua_handling.eval('function(obj) return obj._X__a end')
self.assertEqual(function(self.x), "forbidden")
def test_attribute_getter_mess_with_underscores(self):
function = self.lua.eval('function(obj) return obj._a end')
self.assertEqual(function(self.x), 2)
function = self.lua_handling.eval('function(obj) return obj._a end')
self.assertEqual(function(self.x), "forbidden")
def test_attribute_getter_replace_values(self):
function = self.lua.eval('function(obj) return obj.a end')
self.assertEqual(function(self.x), 0)
function = self.lua_handling.eval('function(obj) return obj.a end')
self.assertEqual(function(self.x), 10)
function = self.lua.eval('function(obj) return obj.a end')
self.assertEqual(function(self.x), 0)
function = self.lua_handling.eval('function(obj) return obj.a end')
self.assertEqual(function(self.x), 10)
def test_attribute_getter_lenient_retrieval(self):
function = self.lua.eval('function(obj) return obj.bad_attr end')
self.assertRaises(AttributeError, function, self.y)
function = self.lua_handling.eval('function(obj) return obj.bad_attr end')
self.assertEqual(function(self.y), None)
def test_attribute_getter_normal_dict_retrieval(self):
function = self.lua.eval('function(obj) return obj.a end')
self.assertEqual(function(self.d), "aval")
function = self.lua_handling.eval('function(obj) return obj.a end')
self.assertEqual(function(self.d), "aval")
def test_attribute_getter_modify_dict_retrival(self):
function = self.lua.eval('function(obj) return obj.c end')
self.assertEqual(function(self.d), "cval")
function = self.lua_handling.eval('function(obj) return obj.c end')
self.assertEqual(function(self.d), "bval")
def test_attribute_getter_lenient_dict_retrival(self):
function = self.lua.eval('function(obj) return obj.g end')
self.assertRaises(KeyError, function, self.d)
function = self.lua_handling.eval('function(obj) return obj.g end')
self.assertEqual(function(self.d), None)
class TestPythonObjectsInLua(SetupLuaRuntimeMixin, unittest.TestCase):
def test_explicit_python_function(self):
lua_func = self.lua.eval(
'function(func)'
' t = {1, 5, 2, 4, 3};'
' table.sort(t, python.as_function(func));'
' return t end')
def compare(a, b):
return a < b
self.assertEqual([1, 2, 3, 4, 5], list(lua_func(compare)))
def test_type_conversion(self):
lua_type = self.lua.eval('type')
self.assertEqual('number', lua_type(1))
self.assertEqual('string', lua_type("test"))
def test_pyobject_wrapping_callable(self):
lua_type = self.lua.eval('type')
lua_get_call = self.lua.eval('function(obj) return getmetatable(obj).__call end')
class Callable(object):
def __call__(self): pass
def __getitem__(self, item): pass
self.assertEqual('userdata', lua_type(Callable()))
self.assertNotEqual(None, lua_get_call(Callable()))
def test_pyobject_wrapping_getitem(self):
lua_type = self.lua.eval('type')
lua_get_index = self.lua.eval('function(obj) return getmetatable(obj).__index end')
class GetItem(object):
def __getitem__(self, item): pass
self.assertEqual('userdata', lua_type(GetItem()))
self.assertNotEqual(None, lua_get_index(GetItem()))
def test_pyobject_wrapping_getattr(self):
lua_type = self.lua.eval('type')
lua_get_index = self.lua.eval('function(obj) return getmetatable(obj).__index end')
class GetAttr(object):
pass
self.assertEqual('userdata', lua_type(GetAttr()))
self.assertNotEqual(None, lua_get_index(GetAttr()))
def test_pylist(self):
getitem = self.lua.eval('function(L, i) return L[i] end')
self.assertEqual(3, getitem([1,2,3], 2))
def test_python_iter_list(self):
values = self.lua.eval('''
function(L)
local t = {}
local i = 1
for value in python.iter(L) do
t[i] = value
i = i+1
end
return t
end
''')
self.assertEqual([1,2,3], list(values([1,2,3]).values()))
def test_python_enumerate_list(self):
values = self.lua.eval('''
function(L)
local t = {}
for index, value in python.enumerate(L) do
t[ index+1 ] = value
end
return t
end
''')
self.assertEqual([1,2,3], list(values([1,2,3]).values()))
def test_python_enumerate_list_start(self):
values = self.lua.eval('''
function(L)
local t = {5,6,7}
for index, value in python.enumerate(L, 3) do
t[ index ] = value
end
return t
end
''')
self.assertEqual([5,6,1,2,3], list(values([1,2,3]).values()))
def test_python_iter_dict_items(self):
values = self.lua.eval('''
function(d)
local t = {}
for key, value in python.iterex(d.items()) do
t[key] = value
end
return t
end
''')
table = values(lupa.as_attrgetter(dict(a=1, b=2, c=3)))
self.assertEqual(1, table['a'])
self.assertEqual(2, table['b'])
self.assertEqual(3, table['c'])
def test_python_iter_list_None(self):
values = self.lua.eval('''
function(L)
local t = {}
local i = 1
for value in python.iter(L) do
t[i] = value
i = i + 1
end
return t
end
''')
self.assertEqual([None, None, None], list(values([None, None, None]).values()))
def test_python_iter_list_some_None(self):
values = self.lua.eval('''
function(L)
local t = {}
local i = 1
for value in python.iter(L) do
t[i] = value
i = i + 1
end
return t
end
''')
self.assertEqual([None, 1, None], list(values([None, 1, None]).values()))
def test_python_iter_iterator(self):
values = self.lua.eval('''
function(L)
local t = {}
local i = 1
for value in python.iter(L) do
t[i] = value
i = i+1
end
return t
end
''')
self.assertEqual([3, 2, 1], list(values(reversed([1, 2, 3])).values()))
class TestLuaCoroutines(SetupLuaRuntimeMixin, unittest.TestCase):
def test_coroutine_object(self):
f = self.lua.eval("function(N) coroutine.yield(N) end")
gen = f.coroutine(5)
self.assertRaises(AttributeError, getattr, gen, '__setitem__')
self.assertRaises(AttributeError, setattr, gen, 'send', 5)
self.assertRaises(AttributeError, setattr, gen, 'no_such_attribute', 5)
self.assertRaises(AttributeError, getattr, gen, 'no_such_attribute')
self.assertRaises(AttributeError, gen.__getattr__, 'no_such_attribute')
self.assertRaises(lupa.LuaError, gen.__call__)
self.assertTrue(hasattr(gen.send, '__call__'))
self.assertRaises(TypeError, operator.itemgetter(1), gen)
self.assertRaises(TypeError, gen.__getitem__, 1)
def test_coroutine_iter(self):
lua_code = '''\
function(N)
for i=0,N do
if i%2 == 0 then coroutine.yield(0) else coroutine.yield(1) end
end
end
'''
f = self.lua.eval(lua_code)
gen = f.coroutine(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
def test_coroutine_iter_repeat(self):
lua_code = '''\
function(N)
for i=0,N do
if i%2 == 0 then coroutine.yield(0) else coroutine.yield(1) end
end
end
'''
f = self.lua.eval(lua_code)
gen = f.coroutine(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
gen = f.coroutine(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
gen = f.coroutine(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
def test_coroutine_create_iter(self):
lua_code = '''\
coroutine.create(
function(N)
for i=0,N do
if i%2 == 0 then coroutine.yield(0) else coroutine.yield(1) end
end
end
)
'''
co = self.lua.eval(lua_code)
gen = co(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
def test_coroutine_create_iter_repeat(self):
lua_code = '''\
coroutine.create(
function(N)
for i=0,N do
if i%2 == 0 then coroutine.yield(0) else coroutine.yield(1) end
end
end
)
'''
co = self.lua.eval(lua_code)
gen = co(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
gen = co(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
gen = co(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
def test_coroutine_lua_iter(self):
lua_code = '''\
co = coroutine.create(
function(N)
for i=0,N do
if i%2 == 0 then coroutine.yield(0) else coroutine.yield(1) end
end
end
)
status, first_value = coroutine.resume(co, 5)
return co, status, first_value
'''
gen, status, first_value = self.lua.execute(lua_code)
self.assertTrue(status)
self.assertEqual([0,1,0,1,0,1], [first_value] + list(gen))
def test_coroutine_lua_iter_independent(self):
lua_code = '''\
function f(N)
for i=0,N do
coroutine.yield( i%2 )
end
end ;
co1 = coroutine.create(f) ;
co2 = coroutine.create(f) ;
status, first_value = coroutine.resume(co2, 5) ; -- starting!
return f, co1, co2, status, first_value
'''
f, co, lua_gen, status, first_value = self.lua.execute(lua_code)
# f
gen = f.coroutine(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
# co
gen = co(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
gen = co(5)
self.assertEqual([0,1,0,1,0,1], list(gen))
# lua_gen
self.assertTrue(status)
self.assertEqual([0,1,0,1,0,1], [first_value] + list(lua_gen))
self.assertEqual([], list(lua_gen))
def test_coroutine_iter_pycall(self):
lua_code = '''\
coroutine.create(
function(pyfunc, N)
for i=0,N do
if pyfunc(i) then coroutine.yield(0) else coroutine.yield(1) end
end
end
)
'''
co = self.lua.eval(lua_code)
def pyfunc(i):
return i%2 == 0
gen = co(pyfunc, 5)
self.assertEqual([0,1,0,1,0,1], list(gen))
def test_coroutine_send(self):
lua_code = '''\
function()
local i = 0
while coroutine.yield(i) do i = i+1 end
return i -- not i+1 !
end
'''
count = self.lua.eval(lua_code).coroutine()
result = [count.send(value) for value in ([None] + [True] * 9 + [False])]
self.assertEqual(list(range(10)) + [9], result)
self.assertRaises(StopIteration, count.send, True)
def test_coroutine_send_with_arguments(self):
lua_code = '''\
function(N)
local i = 0
while coroutine.yield(i) < N do i = i+1 end
return i -- not i+1 !
end
'''
count = self.lua.eval(lua_code).coroutine(5)
result = []
try:
for value in ([None] + list(range(10))):
result.append(count.send(value))
except StopIteration:
pass
else:
self.assertTrue(False)
self.assertEqual(list(range(6)) + [5], result)
self.assertRaises(StopIteration, count.send, True)
def test_coroutine_status(self):
lua_code = '''\
coroutine.create(
function(N)
for i=0,N do
if i%2 == 0 then coroutine.yield(0) else coroutine.yield(1) end
end
end
)
'''
co = self.lua.eval(lua_code)
self.assertTrue(bool(co)) # 1
gen = co(1)
self.assertTrue(bool(gen)) # 2
self.assertEqual(0, _next(gen))
self.assertTrue(bool(gen)) # 3
self.assertEqual(1, _next(gen))
self.assertTrue(bool(gen)) # 4
self.assertRaises(StopIteration, _next, gen)
self.assertFalse(bool(gen)) # 5
self.assertRaises(StopIteration, _next, gen)
self.assertRaises(StopIteration, _next, gen)
self.assertRaises(StopIteration, _next, gen)
def test_coroutine_terminate_return(self):
lua_code = '''\
coroutine.create(
function(N)
for i=0,N do
if i%2 == 0 then coroutine.yield(0) else coroutine.yield(1) end
end
return 99
end
)
'''
co = self.lua.eval(lua_code)
self.assertTrue(bool(co)) # 1
gen = co(1)
self.assertTrue(bool(gen)) # 2
self.assertEqual(0, _next(gen))
self.assertTrue(bool(gen)) # 3
self.assertEqual(1, _next(gen))
self.assertTrue(bool(gen)) # 4
self.assertEqual(99, _next(gen))
self.assertFalse(bool(gen)) # 5
self.assertRaises(StopIteration, _next, gen)
self.assertRaises(StopIteration, _next, gen)
self.assertRaises(StopIteration, _next, gen)
def test_coroutine_while_status(self):
lua_code = '''\
function(N)
for i=0,N-1 do
if i%2 == 0 then coroutine.yield(0) else coroutine.yield(1) end
end
if N < 0 then return nil end
if N%2 == 0 then return 0 else return 1 end
end
'''
f = self.lua.eval(lua_code)
gen = f.coroutine(5)
result = []
# note: this only works because the generator returns a result
# after the last yield - otherwise, it would throw
# StopIteration in the last call
while gen:
result.append(_next(gen))
self.assertEqual([0,1,0,1,0,1], result)
class TestLuaCoroutinesWithDebugHooks(SetupLuaRuntimeMixin, unittest.TestCase):
def _enable_hook(self):
self.lua.execute('''
steps = 0
debug.sethook(function () steps = steps + 1 end, '', 1)
''')
def test_coroutine_yields_callback_debug_hook(self):
self.lua.execute('''
func = function()
coroutine.yield(function() return 123 end)
end
''')
def _check():
coro = self.lua.eval('func').coroutine()
cb = next(coro)
self.assertEqual(cb(), 123)
# yielding a callback should work without a debug hook
_check()
# it should keep working after a debug hook is added
self._enable_hook()
_check()
def test_coroutine_yields_callback_debug_hook_nowrap(self):
resume = self.lua.eval("coroutine.resume")
self.lua.execute('''
func = function()
coroutine.yield(function() return 123 end)
end
''')
def _check():
coro = self.lua.eval('func').coroutine()
ok, cb = resume(coro)
self.assertEqual(ok, True)
self.assertEqual(cb(), 123)
# yielding a callback should work without a debug hook
_check()
# it should keep working after a debug hook is added
self._enable_hook()
_check()
def test_coroutine_sets_callback_debug_hook(self):
self.lua.execute('''
func = function(dct)
dct['cb'] = function() return 123 end
coroutine.yield()
end
''')
def _check(dct):
coro = self.lua.eval('func').coroutine(dct)
next(coro)
cb = dct['cb']
self.assertEqual(cb(), 123)
# sending a callback should work without a debug hook
_check({})
# enable debug hook and try again
self._enable_hook()
# it works with a Lua table wrapper
_check(self.lua.table_from({}))
# FIXME: but it fails with a regular dict
# _check({})
def test_coroutine_sets_callback_debug_hook_nowrap(self):
resume = self.lua.eval("coroutine.resume")
self.lua.execute('''
func = function(dct)
dct['cb'] = function() return 123 end
coroutine.yield()
end
''')
def _check():
dct = {}
coro = self.lua.eval('func').coroutine()
resume(coro, dct) # send initial value
resume(coro)
cb = dct['cb']
self.assertEqual(cb(), 123)
# sending a callback should work without a debug hook
_check()
# enable debug hook and try again
self._enable_hook()
_check()
class TestLuaApplications(unittest.TestCase):
def tearDown(self):
gc.collect()
def test_mandelbrot(self):
# copied from Computer Language Benchmarks Game
code = '''\
function(N)
local char, unpack = string.char, unpack
if unpack == nil then unpack = table.unpack end
local result = ""
local M, ba, bb, buf = 2/N, 2^(N%8+1)-1, 2^(8-N%8), {}
for y=0,N-1 do
local Ci, b, p = y*M-1, 1, 0
for x=0,N-1 do
local Cr = x*M-1.5
local Zr, Zi, Zrq, Ziq = Cr, Ci, Cr*Cr, Ci*Ci
b = b + b
for i=1,49 do
Zi = Zr*Zi*2 + Ci
Zr = Zrq-Ziq + Cr
Ziq = Zi*Zi
Zrq = Zr*Zr
if Zrq+Ziq > 4.0 then b = b + 1; break; end
end
if b >= 256 then p = p + 1; buf[p] = 511 - b; b = 1; end
end
if b ~= 1 then p = p + 1; buf[p] = (ba-b)*bb; end
result = result .. char(unpack(buf, 1, p))
end
return result
end
'''
lua = lupa.LuaRuntime(encoding=None)
lua_mandelbrot = lua.eval(code)
image_size = 128
result_bytes = lua_mandelbrot(image_size)
self.assertEqual(type(result_bytes), type(''.encode('ASCII')))
self.assertEqual(image_size*image_size//8, len(result_bytes))
# if we have PIL, check that it can read the image
## try:
## import Image
## except ImportError:
## pass
## else:
## image = Image.fromstring('1', (image_size, image_size), result_bytes)
## image.show()
class TestLuaRuntimeEncoding(unittest.TestCase):
def tearDown(self):
gc.collect()
test_string = '"abcüöä"'
if not IS_PYTHON3:
test_string = test_string.decode('UTF-8')
def _encoding_test(self, encoding, expected_length):
lua = lupa.LuaRuntime(encoding)
self.assertEqual(unicode_type,
type(lua.eval(self.test_string)))
self.assertEqual(self.test_string[1:-1],
lua.eval(self.test_string))
self.assertEqual(expected_length,
lua.eval('string.len(%s)' % self.test_string))
def test_utf8(self):
self._encoding_test('UTF-8', 9)
def test_latin9(self):
self._encoding_test('ISO-8859-15', 6)
def test_stringlib_utf8(self):
lua = lupa.LuaRuntime('UTF-8')
stringlib = lua.eval('string')
self.assertEqual('abc', stringlib.lower('ABC'))
def test_stringlib_no_encoding(self):
lua = lupa.LuaRuntime(encoding=None)
stringlib = lua.eval('string')
self.assertEqual('abc'.encode('ASCII'), stringlib.lower('ABC'.encode('ASCII')))
class TestMultipleLuaRuntimes(unittest.TestCase):
def tearDown(self):
gc.collect()
def test_multiple_runtimes(self):
lua1 = lupa.LuaRuntime()
function1 = lua1.eval('function() return 1 end')
self.assertNotEqual(None, function1)
self.assertEqual(1, function1())
lua2 = lupa.LuaRuntime()
function2 = lua2.eval('function() return 1+1 end')
self.assertNotEqual(None, function2)
self.assertEqual(1, function1())
self.assertEqual(2, function2())
lua3 = lupa.LuaRuntime()
self.assertEqual(1, function1())
self.assertEqual(2, function2())
function3 = lua3.eval('function() return 1+1+1 end')
self.assertNotEqual(None, function3)
del lua1, lua2, lua3
self.assertEqual(1, function1())
self.assertEqual(2, function2())
self.assertEqual(3, function3())
class TestThreading(unittest.TestCase):
def tearDown(self):
gc.collect()
def _run_threads(self, threads, starter=None):
for thread in threads:
thread.start()
if starter is not None:
time.sleep(0.1) # give some time to start up
starter.set()
for thread in threads:
thread.join()
def test_sequential_threading(self):
func_code = '''\
function calc(i)
if i > 2
then return calc(i-1) + calc(i-2) + 1
else return 1
end
end
return calc
'''
lua = lupa.LuaRuntime()
functions = [ lua.execute(func_code) for _ in range(10) ]
results = [None] * len(functions)
starter = threading.Event()
def test(i, func, *args):
starter.wait()
results[i] = func(*args)
threads = [ threading.Thread(target=test, args=(i, func, 25))
for i, func in enumerate(functions) ]
self._run_threads(threads, starter)
self.assertEqual(1, len(set(results)))
self.assertEqual(150049, results[0])
def test_threading(self):
func_code = '''\
function calc(i)
if i > 2
then return calc(i-1) + calc(i-2) + 1
else return 1
end
end
return calc
'''
runtimes = [ lupa.LuaRuntime() for _ in range(10) ]
functions = [ lua.execute(func_code) for lua in runtimes ]
results = [None] * len(runtimes)
def test(i, func, *args):
results[i] = func(*args)
threads = [ threading.Thread(target=test, args=(i, func, 20))
for i, func in enumerate(functions) ]
self._run_threads(threads)
self.assertEqual(1, len(set(results)))
self.assertEqual(13529, results[0])
def test_threading_pycallback(self):
func_code = '''\
function calc(pyfunc, i)
if i > 2
then return pyfunc(i) + calc(pyfunc, i-1) + calc(pyfunc, i-2) + 1
else return 1
end
end
return calc
'''
runtimes = [ lupa.LuaRuntime() for _ in range(10) ]
functions = [ lua.execute(func_code) for lua in runtimes ]
results = [None] * len(runtimes)
def pycallback(i):
return i**2
def test(i, func, *args):
results[i] = func(*args)
threads = [ threading.Thread(target=test, args=(i, luafunc, pycallback, 20))
for i, luafunc in enumerate(functions) ]
self._run_threads(threads)
self.assertEqual(1, len(set(results)))
self.assertEqual(185925, results[0])
def test_threading_iter(self):
values = list(range(1,100))
lua = lupa.LuaRuntime()
table = lua.eval('{%s}' % ','.join(map(str, values)))
self.assertEqual(values, list(table))
lua_iter = iter(table)
state_lock = threading.Lock()
running = []
iterations_done = {}
def sync(i):
state_lock.acquire()
try:
status = iterations_done[i]
except KeyError:
status = iterations_done[i] = [0, threading.Event()]
status[0] += 1
state_lock.release()
event = status[1]
while status[0] < len(running):
event.wait(0.1)
event.set()
l = []
start_event = threading.Event()
def extract(n, append = l.append):
running.append(n)
if len(running) < len(threads):
start_event.wait()
else:
start_event.set()
# all running, let's go
for i, item in enumerate(lua_iter):
append(item)
sync(i)
running.remove(n)
threads = [ threading.Thread(target=extract, args=(i,))
for i in range(6) ]
self._run_threads(threads)
orig = l[:]
l.sort()
self.assertEqual(values, l)
def test_threading_mandelbrot(self):
# copied from Computer Language Benchmarks Game
code = '''\
function(N, i, total)
local char, unpack = string.char, unpack
if unpack == nil then unpack = table.unpack end
local result = ""
local M, ba, bb, buf = 2/N, 2^(N%8+1)-1, 2^(8-N%8), {}
local start_line, end_line = N/total * (i-1), N/total * i - 1
for y=start_line,end_line do
local Ci, b, p = y*M-1, 1, 0
for x=0,N-1 do
local Cr = x*M-1.5
local Zr, Zi, Zrq, Ziq = Cr, Ci, Cr*Cr, Ci*Ci
b = b + b
for i=1,49 do
Zi = Zr*Zi*2 + Ci
Zr = Zrq-Ziq + Cr
Ziq = Zi*Zi
Zrq = Zr*Zr
if Zrq+Ziq > 4.0 then b = b + 1; break; end
end
if b >= 256 then p = p + 1; buf[p] = 511 - b; b = 1; end
end
if b ~= 1 then p = p + 1; buf[p] = (ba-b)*bb; end
result = result .. char(unpack(buf, 1, p))
end
return result
end
'''
empty_bytes_string = ''.encode('ASCII')
image_size = 128
thread_count = 4
lua_funcs = [ lupa.LuaRuntime(encoding=None).eval(code)
for _ in range(thread_count) ]
results = [None] * thread_count
def mandelbrot(i, lua_func):
results[i] = lua_func(image_size, i+1, thread_count)
threads = [ threading.Thread(target=mandelbrot, args=(i, lua_func))
for i, lua_func in enumerate(lua_funcs) ]
self._run_threads(threads)
result_bytes = empty_bytes_string.join(results)
self.assertEqual(type(result_bytes), type(empty_bytes_string))
self.assertEqual(image_size*image_size//8, len(result_bytes))
# plausability checks - make sure it's not all white or all black
self.assertEqual('\0'.encode('ASCII')*(image_size//8//2),
result_bytes[:image_size//8//2])
if IS_PYTHON3:
self.assertTrue('\xFF'.encode('ISO-8859-1') in result_bytes)
else:
self.assertTrue('\xFF' in result_bytes)
# if we have PIL, check that it can read the image
## try:
## import Image
## except ImportError:
## pass
## else:
## image = Image.fromstring('1', (image_size, image_size), result_bytes)
## image.show()
class TestDontUnpackTuples(unittest.TestCase):
def setUp(self):
self.lua = lupa.LuaRuntime() # default is unpack_returned_tuples=False
# Define a Python function which returns a tuple
# and is accessible from Lua as fun().
def tuple_fun():
return "one", "two", "three", "four"
self.lua.globals()['fun'] = tuple_fun
def tearDown(self):
self.lua = None
gc.collect()
def test_python_function_tuple(self):
self.lua.execute("a, b, c = fun()")
self.assertEqual(("one", "two", "three", "four"), self.lua.eval("a"))
self.assertEqual(None, self.lua.eval("b"))
self.assertEqual(None, self.lua.eval("c"))
def test_python_function_tuple_exact(self):
self.lua.execute("a = fun()")
self.assertEqual(("one", "two", "three", "four"), self.lua.eval("a"))
class TestUnpackTuples(unittest.TestCase):
def setUp(self):
self.lua = lupa.LuaRuntime(unpack_returned_tuples=True)
# Define a Python function which returns a tuple
# and is accessible from Lua as fun().
def tuple_fun():
return "one", "two", "three", "four"
self.lua.globals()['fun'] = tuple_fun
def tearDown(self):
self.lua = None
gc.collect()
def test_python_function_tuple_expansion_exact(self):
self.lua.execute("a, b, c, d = fun()")
self.assertEqual("one", self.lua.eval("a"))
self.assertEqual("two", self.lua.eval("b"))
self.assertEqual("three", self.lua.eval("c"))
self.assertEqual("four", self.lua.eval("d"))
def test_python_function_tuple_expansion_extra_args(self):
self.lua.execute("a, b, c, d, e, f = fun()")
self.assertTrue(self.lua.eval("a == 'one'"))
self.assertTrue(self.lua.eval("b == 'two'"))
self.assertTrue(self.lua.eval("c == 'three'"))
self.assertTrue(self.lua.eval("d == 'four'"))
self.assertTrue(self.lua.eval("e == nil"))
self.assertTrue(self.lua.eval("f == nil"))
self.assertEqual("one", self.lua.eval("a"))
self.assertEqual("two", self.lua.eval("b"))
self.assertEqual("three", self.lua.eval("c"))
self.assertEqual("four", self.lua.eval("d"))
self.assertEqual(None, self.lua.eval("e"))
self.assertEqual(None, self.lua.eval("f"))
def test_python_function_tuple_expansion_missing_args(self):
self.lua.execute("a, b = fun()")
self.assertEqual("one", self.lua.eval("a"))
self.assertEqual("two", self.lua.eval("b"))
def test_translate_None(self):
"""Lua does not understand None. Should (almost) never see it."""
self.lua.globals()['f'] = lambda: (None, None)
self.lua.execute("x, y = f()")
self.assertEqual(None, self.lua.eval("x"))
self.assertEqual(self.lua.eval("x"), self.lua.eval("y"))
self.assertEqual(self.lua.eval("x"), self.lua.eval("z"))
self.assertTrue(self.lua.eval("x == y"))
self.assertTrue(self.lua.eval("x == z"))
self.assertTrue(self.lua.eval("x == nil"))
self.assertTrue(self.lua.eval("nil == z"))
def test_python_enumerate_list_unpacked(self):
values = self.lua.eval('''
function(L)
local t = {}
for index, a, b in python.enumerate(L) do
assert(a + 30 == b)
t[ index+1 ] = a + b
end
return t
end
''')
self.assertEqual([50, 70, 90], list(values(zip([10, 20, 30], [40, 50, 60])).values()))
def test_python_enumerate_list_unpacked_None(self):
values = self.lua.eval('''
function(L)
local t = {}
for index, a, b in python.enumerate(L) do
assert(a == nil)
t[ index+1 ] = b
end
return t
end
''')
self.assertEqual([3, 5], list(values(zip([None, None, None], [3, None, 5])).values()))
def test_python_enumerate_list_start(self):
values = self.lua.eval('''
function(L)
local t = {5,6,7}
for index, a, b, c in python.enumerate(L, 3) do
assert(c == nil)
assert(a + 10 == b)
t[ index ] = a + b
end
return t
end
''')
self.assertEqual([5, 6, 30, 50, 70],
list(values(zip([10, 20, 30], [20, 30, 40])).values()))
class TestMethodCall(unittest.TestCase):
def setUp(self):
self.lua = lupa.LuaRuntime(unpack_returned_tuples=True)
class C(object):
def __init__(self, x):
self.x = int(x)
def getx(self):
return self.x
def getx1(self, n):
return int(n) + self.x
def setx(self, v):
self.x = int(v)
@classmethod
def classmeth(cls, v):
return v
@staticmethod
def staticmeth(v):
return v
class D(C):
pass
def f():
return 100
def g(n):
return int(n) + 100
x = C(1)
self.lua.globals()['C'] = C
self.lua.globals()['D'] = D
self.lua.globals()['x'] = x
self.lua.globals()['f'] = f
self.lua.globals()['g'] = g
self.lua.globals()['d'] = { 'F': f, "G": g }
self.lua.globals()['bound0'] = x.getx
self.lua.globals()['bound1'] = x.getx1
def tearDown(self):
self.lua = None
gc.collect()
def test_method_call_as_method(self):
self.assertEqual(self.lua.eval("x:getx()"), 1)
self.assertEqual(self.lua.eval("x:getx1(2)"), 3)
self.lua.execute("x:setx(4)")
self.assertEqual(self.lua.eval("x:getx()"), 4)
self.assertEqual(self.lua.eval("x:getx1(2)"), 6)
def test_method_call_as_attribute(self):
self.assertEqual(self.lua.eval("x.getx()"), 1)
self.assertEqual(self.lua.eval("x.getx1(2)"), 3)
self.lua.execute("x.setx(4)")
self.assertEqual(self.lua.eval("x.getx()"), 4)
self.assertEqual(self.lua.eval("x.getx1(2)"), 6)
def test_method_call_mixed(self):
self.assertEqual(self.lua.eval("x.getx()"), 1)
self.assertEqual(self.lua.eval("x:getx1(2)"), 3)
self.assertEqual(self.lua.eval("x:getx()"), 1)
self.assertEqual(self.lua.eval("x.getx1(2)"), 3)
self.lua.execute("x:setx(4)")
self.assertEqual(self.lua.eval("x:getx()"), 4)
self.assertEqual(self.lua.eval("x.getx1(2)"), 6)
self.assertEqual(self.lua.eval("x.getx()"), 4)
self.assertEqual(self.lua.eval("x:getx1(2)"), 6)
self.lua.execute("x.setx(6)")
self.assertEqual(self.lua.eval("x.getx()"), 6)
self.assertEqual(self.lua.eval("x:getx()"), 6)
self.assertEqual(self.lua.eval("x.getx()"), 6)
self.assertEqual(self.lua.eval("x.getx1(2)"), 8)
self.assertEqual(self.lua.eval("x:getx1(2)"), 8)
def test_method_call_function_lookup(self):
self.assertEqual(self.lua.eval("f()"), 100)
self.assertEqual(self.lua.eval("g(10)"), 110)
self.assertEqual(self.lua.eval("d.F()"), 100)
self.assertEqual(self.lua.eval("d.G(9)"), 109)
def test_method_call_class_hierarchy(self):
self.assertEqual(self.lua.eval("C(5).getx()"), 5)
self.assertEqual(self.lua.eval("D(5).getx()"), 5)
self.assertEqual(self.lua.eval("C(5):getx()"), 5)
self.assertEqual(self.lua.eval("D(5):getx()"), 5)
def test_method_call_class_methods(self):
# unbound methods
self.assertEqual(self.lua.eval("C.getx(C(5))"), 5)
self.assertEqual(self.lua.eval("C.getx(D(5))"), 5)
# class/static methods
self.assertEqual(self.lua.eval("C:classmeth(5)"), 5)
self.assertEqual(self.lua.eval("C.classmeth(5)"), 5)
self.assertEqual(self.lua.eval("C.staticmeth(5)"), 5)
def test_method_call_bound(self):
self.assertEqual(self.lua.eval("bound0()"), 1)
self.assertEqual(self.lua.eval("bound1(3)"), 4)
self.assertEqual(self.lua.eval("python.eval('1 .__add__')(1)"), 2)
self.assertEqual(self.lua.eval("python.eval('1 .__add__')(2)"), 3)
# the following is an unfortunate side effect of the "self" removal
# on bound method calls:
self.assertRaises(TypeError, self.lua.eval, "bound1(x)")
################################################################################
# tests for the lupa.unpacks_lua_table and lupa.unpacks_lua_table_method
# decorators
@lupa.unpacks_lua_table
def func_1(x):
return ("x=%s" % (x, ))
@lupa.unpacks_lua_table
def func_2(x, y):
return ("x=%s, y=%s" % (x, y))
@lupa.unpacks_lua_table
def func_3(x, y, z='default'):
return ("x=%s, y=%s, z=%s" % (x, y, z))
class MyCls_1(object):
@lupa.unpacks_lua_table_method
def meth(self, x):
return ("x=%s" % (x,))
class MyCls_2(object):
@lupa.unpacks_lua_table_method
def meth(self, x, y):
return ("x=%s, y=%s" % (x, y))
class MyCls_3(object):
@lupa.unpacks_lua_table_method
def meth(self, x, y, z='default'):
return ("x=%s, y=%s, z=%s" % (x, y, z))
class KwargsDecoratorTest(SetupLuaRuntimeMixin, unittest.TestCase):
def __init__(self, *args, **kwargs):
super(KwargsDecoratorTest, self).__init__(*args, **kwargs)
self.arg1 = func_1
self.arg2 = func_2
self.arg3 = func_3
def assertResult(self, f, call_txt, res_txt):
lua_func = self.lua.eval("function (f) return f%s end" % call_txt)
self.assertEqual(lua_func(f), res_txt)
def assertIncorrect(self, f, call_txt):
lua_func = self.lua.eval("function (f) return f%s end" % call_txt)
self.assertRaises(TypeError, lua_func, f)
def test_many_args(self):
self.assertResult(self.arg2, "{x=1, y=2}", "x=1, y=2")
self.assertResult(self.arg2, "{x=2, y=1}", "x=2, y=1")
self.assertResult(self.arg2, "{y=1, x=2}", "x=2, y=1")
self.assertResult(self.arg2, "(1, 2)", "x=1, y=2")
def test_single_arg(self):
self.assertResult(self.arg1, "{x=1}", "x=1")
self.assertResult(self.arg1, "(1)", "x=1")
self.assertResult(self.arg1, "(nil)", "x=None")
def test_defaults(self):
self.assertResult(self.arg3, "{x=1, y=2}", "x=1, y=2, z=default")
self.assertResult(self.arg3, "{x=1, y=2, z=3}", "x=1, y=2, z=3")
def test_defaults_incorrect(self):
self.assertIncorrect(self.arg3, "{x=1, z=3}")
def test_kwargs_unknown(self):
self.assertIncorrect(self.arg2, "{x=1, y=2, z=3}")
self.assertIncorrect(self.arg2, "{y=2, z=3}")
self.assertIncorrect(self.arg1, "{x=1, y=2}")
def test_posargs_bad(self):
self.assertIncorrect(self.arg1, "(1,2)")
self.assertIncorrect(self.arg1, "()")
def test_posargs_kwargs(self):
self.assertResult(self.arg2, "{5, y=6}", "x=5, y=6")
self.assertResult(self.arg2, "{y=6, 5}", "x=5, y=6")
self.assertResult(self.arg2, "{5, [2]=6}", "x=5, y=6")
self.assertResult(self.arg2, "{[1]=5, [2]=6}", "x=5, y=6")
self.assertResult(self.arg2, "{[1]=5, y=6}", "x=5, y=6")
self.assertResult(self.arg3, "{x=5, y=6, z=8}", "x=5, y=6, z=8")
self.assertResult(self.arg3, "{5, y=6, z=8}", "x=5, y=6, z=8")
self.assertResult(self.arg3, "{5, y=6}", "x=5, y=6, z=default")
self.assertResult(self.arg3, "{5, 6}", "x=5, y=6, z=default")
self.assertResult(self.arg3, "{5, 6, 7}", "x=5, y=6, z=7")
self.assertResult(self.arg3, "{z=7, 5, 6}", "x=5, y=6, z=7")
def test_posargs_kwargs_bad(self):
self.assertIncorrect(self.arg2, "{5, y=6, z=7}")
self.assertIncorrect(self.arg2, "{5, [3]=6}")
self.assertIncorrect(self.arg2, "{x=5, [2]=6}") # I guess it's ok to reject this
self.assertIncorrect(self.arg3, "{5, z=7}")
self.assertIncorrect(self.arg3, "{5}")
def test_posargs_nil(self):
self.assertResult(self.arg3, "(5, nil, 6)", "x=5, y=None, z=6")
def test_posargs_nil_first(self):
self.assertResult(self.arg3, "(nil, nil, 6)", "x=None, y=None, z=6")
def test_posargs_nil_last(self):
self.assertResult(self.arg3, "(5, nil, nil)", "x=5, y=None, z=None")
def test_posargs_kwargs_python_none_last(self):
self.assertResult(self.arg3, "{5, python.none, python.none}", "x=5, y=None, z=None")
def test_posargs_python_none_last(self):
self.assertResult(self.arg3, "(5, python.none, python.none)", "x=5, y=None, z=None")
def test_posargs_kwargs_python_none_some(self):
self.assertResult(self.arg3, "{python.none, y=python.none, z=6}", "x=None, y=None, z=6")
def test_posargs_kwargs_python_none_all(self):
self.assertResult(self.arg3, "{x=python.none, y=python.none}", "x=None, y=None, z=default")
# -------------------------------------------------------------------------
# The following examples don't work as a Python programmer would expect
# them to:
# def test_posargs_kwargs_nil_last(self):
# self.assertResult(self.arg3, "{5, nil, nil}", "x=5, y=None, z=None")
#
# def test_posargs_kwargs_nil_some(self):
# self.assertResult(self.arg3, "{nil, y=nil, z=6}", "x=None, y=None, z=6")
#
# def test_posargs_kwargs_nil_all(self):
# self.assertResult(self.arg3, "{x=nil, y=nil}", "x=None, y=None, z=default")
# -------------------------------------------------------------------------
# These tests pass in Lua 5.2 but fail in LuaJIT:
# def test_posargs_kwargs_nil(self):
# self.assertResult(self.arg3, "{5, nil, 6}", "x=5, y=None, z=6")
#
# def test_posargs_kwargs_nil_first(self):
# self.assertResult(self.arg3, "{nil, nil, 6}", "x=None, y=None, z=6")
class MethodKwargsDecoratorTest(KwargsDecoratorTest):
def __init__(self, *args, **kwargs):
super(MethodKwargsDecoratorTest, self).__init__(*args, **kwargs)
self.arg1 = MyCls_1()
self.arg2 = MyCls_2()
self.arg3 = MyCls_3()
def assertResult(self, f, call_txt, res_txt):
lua_func = self.lua.eval("function (obj) return obj:meth%s end" % call_txt)
self.assertEqual(lua_func(f), res_txt)
def assertIncorrect(self, f, call_txt):
lua_func = self.lua.eval("function (obj) return obj:meth%s end" % call_txt)
self.assertRaises(TypeError, lua_func, f)
class NoEncodingKwargsDecoratorTest(KwargsDecoratorTest):
lua_runtime_kwargs = {'encoding': None}
class NoEncodingMethodKwargsDecoratorTest(MethodKwargsDecoratorTest):
lua_runtime_kwargs = {'encoding': None}
################################################################################
# tests for the FastRLock implementation
try:
from thread import start_new_thread, get_ident
except ImportError:
# Python 3?
from _thread import start_new_thread, get_ident
def _wait():
# A crude wait/yield function not relying on synchronization primitives.
time.sleep(0.01)
class TestFastRLock(unittest.TestCase):
"""Copied from CPython's test.lock_tests module
"""
def setUp(self):
from lupa._lupa import FastRLock
self.locktype = FastRLock
def tearDown(self):
gc.collect()
class Bunch(object):
"""
A bunch of threads.
"""
def __init__(self, f, n, wait_before_exit=False):
"""
Construct a bunch of `n` threads running the same function `f`.
If `wait_before_exit` is True, the threads won't terminate until
do_finish() is called.
"""
self.f = f
self.n = n
self.started = []
self.finished = []
self._can_exit = not wait_before_exit
def task():
tid = get_ident()
self.started.append(tid)
try:
f()
finally:
self.finished.append(tid)
while not self._can_exit:
_wait()
for i in range(n):
start_new_thread(task, ())
def wait_for_started(self):
while len(self.started) < self.n:
_wait()
def wait_for_finished(self):
while len(self.finished) < self.n:
_wait()
def do_finish(self):
self._can_exit = True
# the locking tests
"""
Tests for both recursive and non-recursive locks.
"""
def test_constructor(self):
lock = self.locktype()
del lock
def test_acquire_destroy(self):
lock = self.locktype()
lock.acquire()
del lock
def test_acquire_release(self):
lock = self.locktype()
lock.acquire()
lock.release()
del lock
def test_try_acquire(self):
lock = self.locktype()
self.assertTrue(lock.acquire(False))
lock.release()
def test_try_acquire_contended(self):
lock = self.locktype()
lock.acquire()
result = []
def f():
result.append(lock.acquire(False))
self.Bunch(f, 1).wait_for_finished()
self.assertFalse(result[0])
lock.release()
def test_acquire_contended(self):
lock = self.locktype()
lock.acquire()
N = 5
def f():
lock.acquire()
lock.release()
b = self.Bunch(f, N)
b.wait_for_started()
_wait()
self.assertEqual(len(b.finished), 0)
lock.release()
b.wait_for_finished()
self.assertEqual(len(b.finished), N)
## def test_with(self):
## lock = self.locktype()
## def f():
## lock.acquire()
## lock.release()
## def _with(err=None):
## with lock:
## if err is not None:
## raise err
## _with()
## # Check the lock is unacquired
## self.Bunch(f, 1).wait_for_finished()
## self.assertRaises(TypeError, _with, TypeError)
## # Check the lock is unacquired
## self.Bunch(f, 1).wait_for_finished()
def test_thread_leak(self):
# The lock shouldn't leak a Thread instance when used from a foreign
# (non-threading) thread.
lock = self.locktype()
def f():
lock.acquire()
lock.release()
n = len(threading.enumerate())
# We run many threads in the hope that existing threads ids won't
# be recycled.
self.Bunch(f, 15).wait_for_finished()
self.assertEqual(n, len(threading.enumerate()))
"""
Tests for non-recursive, weak locks
(which can be acquired and released from different threads).
"""
def DISABLED_test_reacquire_non_recursive(self):
# Lock needs to be released before re-acquiring.
lock = self.locktype()
phase = []
def f():
lock.acquire()
phase.append(None)
lock.acquire()
phase.append(None)
start_new_thread(f, ())
while len(phase) == 0:
_wait()
_wait()
self.assertEqual(len(phase), 1)
lock.release()
while len(phase) == 1:
_wait()
self.assertEqual(len(phase), 2)
def DISABLED_test_different_thread_release_succeeds(self):
# Lock can be released from a different thread.
lock = self.locktype()
lock.acquire()
def f():
lock.release()
b = self.Bunch(f, 1)
b.wait_for_finished()
lock.acquire()
lock.release()
"""
Tests for recursive locks.
"""
def test_reacquire(self):
lock = self.locktype()
lock.acquire()
lock.acquire()
lock.release()
lock.acquire()
lock.release()
lock.release()
def test_release_unacquired(self):
# Cannot release an unacquired lock
lock = self.locktype()
self.assertRaises(RuntimeError, lock.release)
lock.acquire()
lock.acquire()
lock.release()
lock.acquire()
lock.release()
lock.release()
self.assertRaises(RuntimeError, lock.release)
def test_different_thread_release_fails(self):
# Cannot release from a different thread
lock = self.locktype()
def f():
lock.acquire()
b = self.Bunch(f, 1, True)
try:
self.assertRaises(RuntimeError, lock.release)
finally:
b.do_finish()
def test__is_owned(self):
lock = self.locktype()
self.assertFalse(lock._is_owned())
lock.acquire()
self.assertTrue(lock._is_owned())
lock.acquire()
self.assertTrue(lock._is_owned())
result = []
def f():
result.append(lock._is_owned())
self.Bunch(f, 1).wait_for_finished()
self.assertFalse(result[0])
lock.release()
self.assertTrue(lock._is_owned())
lock.release()
self.assertFalse(lock._is_owned())
################################################################################
# tests for error stacktrace
class TestErrorStackTrace(unittest.TestCase):
if not hasattr(unittest.TestCase, 'assertIn'):
def assertIn(self, member, container, msg=None):
self.assertTrue(member in container, msg)
if not hasattr(unittest.TestCase, 'assertNotIn'):
def assertNotIn(self, member, container, msg=None):
self.assertFalse(member in container, msg)
def test_stacktrace(self):
lua = lupa.LuaRuntime()
try:
lua.execute("error('abc')")
raise RuntimeError("LuaError was not raised")
except lupa.LuaError as e:
self.assertIn("stack traceback:", e.args[0])
def test_nil_debug(self):
lua = lupa.LuaRuntime()
try:
lua.execute("debug = nil")
lua.execute("error('abc')")
raise RuntimeError("LuaError was not raised")
except lupa.LuaError as e:
self.assertNotIn("stack traceback:", e.args[0])
def test_nil_debug_traceback(self):
lua = lupa.LuaRuntime()
try:
lua.execute("debug = nil")
lua.execute("error('abc')")
raise RuntimeError("LuaError was not raised")
except lupa.LuaError as e:
self.assertNotIn("stack traceback:", e.args[0])
if __name__ == '__main__':
unittest.main()
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