pypy/module/cpyext/test/test_module.py::AppTestModuleObject::()::test_slots2
self = <CallInfo when='call' exception: command 'cc' terminated by signal 10>
func = <function <lambda> at 0x000000013c557970>, when = 'call'
def __init__(self, func, when):
#: context of invocation: one of "setup", "call",
#: "teardown", "memocollect"
self.when = when
self.start = time()
try:
> self.result = func()
../_pytest/runner.py:150:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
> return CallInfo(lambda: ihook(item=item, **kwds), when=when)
../_pytest/runner.py:138:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <_HookCaller 'pytest_runtest_call'>
kwargs = {'__multicall__': <_MultiCall 0 results, 1 meths, kwargs={'item': <AppTestMethod 'test_slots2'>, '__multicall__': <_MultiCall 0 results, 1 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_slots2'>}
def __call__(self, **kwargs):
assert not self.is_historic()
> return self._hookexec(self, self._nonwrappers + self._wrappers, kwargs)
../_pytest/vendored_packages/pluggy.py:724:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <_pytest.config.PytestPluginManager object at 0x00000001383120c8>
hook = <_HookCaller 'pytest_runtest_call'>
methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x0000000122018d20>]
kwargs = {'__multicall__': <_MultiCall 0 results, 1 meths, kwargs={'item': <AppTestMethod 'test_slots2'>, '__multicall__': <_MultiCall 0 results, 1 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_slots2'>}
def _hookexec(self, hook, methods, kwargs):
# called from all hookcaller instances.
# enable_tracing will set its own wrapping function at self._inner_hookexec
> return self._inner_hookexec(hook, methods, kwargs)
../_pytest/vendored_packages/pluggy.py:338:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
hook = <_HookCaller 'pytest_runtest_call'>
methods = [<_pytest.vendored_packages.pluggy.HookImpl instance at 0x0000000122018d20>]
kwargs = {'__multicall__': <_MultiCall 0 results, 1 meths, kwargs={'item': <AppTestMethod 'test_slots2'>, '__multicall__': <_MultiCall 0 results, 1 meths, kwargs={...}>}>, 'item': <AppTestMethod 'test_slots2'>}
self._inner_hookexec = lambda hook, methods, kwargs: \
> _MultiCall(methods, kwargs, hook.spec_opts).execute()
../_pytest/vendored_packages/pluggy.py:333:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <_MultiCall 0 results, 1 meths, kwargs={'item': <AppTestMethod 'test_slots2'>, '__multicall__': <_MultiCall 0 results, 1 meths, kwargs={...}>}>
def execute(self):
all_kwargs = self.kwargs
self.results = results = []
firstresult = self.specopts.get("firstresult")
while self.hook_impls:
hook_impl = self.hook_impls.pop()
args = [all_kwargs[argname] for argname in hook_impl.argnames]
if hook_impl.hookwrapper:
> return _wrapped_call(hook_impl.function(*args), self.execute)
../_pytest/vendored_packages/pluggy.py:595:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
wrap_controller = <generator object pytest_runtest_call at 0x000000013c610430>
func = <bound method _MultiCall.execute of <_MultiCall 0 results, 1 meths, kwargs={'i...est_slots2'>, '__multicall__': <_MultiCall 0 results, 1 meths, kwargs={...}>}>>
def _wrapped_call(wrap_controller, func):
""" Wrap calling to a function with a generator which needs to yield
exactly once. The yield point will trigger calling the wrapped function
and return its _CallOutcome to the yield point. The generator then needs
to finish (raise StopIteration) in order for the wrapped call to complete.
"""
try:
next(wrap_controller) # first yield
except StopIteration:
_raise_wrapfail(wrap_controller, "did not yield")
call_outcome = _CallOutcome(func)
try:
wrap_controller.send(call_outcome)
_raise_wrapfail(wrap_controller, "has second yield")
except StopIteration:
pass
> return call_outcome.get_result()
../_pytest/vendored_packages/pluggy.py:253:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x00000001239f0120>
def get_result(self):
if self.excinfo is None:
return self.result
else:
ex = self.excinfo
if _py3:
raise ex[1].with_traceback(ex[2])
> _reraise(*ex) # noqa
../_pytest/vendored_packages/pluggy.py:279:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x00000001239f0120>
func = <bound method _MultiCall.execute of <_MultiCall 0 results, 1 meths, kwargs={'i...est_slots2'>, '__multicall__': <_MultiCall 0 results, 1 meths, kwargs={...}>}>>
def __init__(self, func):
try:
> self.result = func()
../_pytest/vendored_packages/pluggy.py:264:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <_MultiCall 0 results, 1 meths, kwargs={'item': <AppTestMethod 'test_slots2'>, '__multicall__': <_MultiCall 0 results, 1 meths, kwargs={...}>}>
def execute(self):
all_kwargs = self.kwargs
self.results = results = []
firstresult = self.specopts.get("firstresult")
while self.hook_impls:
hook_impl = self.hook_impls.pop()
args = [all_kwargs[argname] for argname in hook_impl.argnames]
if hook_impl.hookwrapper:
> return _wrapped_call(hook_impl.function(*args), self.execute)
../_pytest/vendored_packages/pluggy.py:595:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
wrap_controller = <generator object pytest_runtest_call at 0x000000013c610390>
func = <bound method _MultiCall.execute of <_MultiCall 0 results, 1 meths, kwargs={'i...est_slots2'>, '__multicall__': <_MultiCall 0 results, 1 meths, kwargs={...}>}>>
def _wrapped_call(wrap_controller, func):
""" Wrap calling to a function with a generator which needs to yield
exactly once. The yield point will trigger calling the wrapped function
and return its _CallOutcome to the yield point. The generator then needs
to finish (raise StopIteration) in order for the wrapped call to complete.
"""
try:
next(wrap_controller) # first yield
except StopIteration:
_raise_wrapfail(wrap_controller, "did not yield")
call_outcome = _CallOutcome(func)
try:
wrap_controller.send(call_outcome)
_raise_wrapfail(wrap_controller, "has second yield")
except StopIteration:
pass
> return call_outcome.get_result()
../_pytest/vendored_packages/pluggy.py:253:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x00000001239f00e0>
def get_result(self):
if self.excinfo is None:
return self.result
else:
ex = self.excinfo
if _py3:
raise ex[1].with_traceback(ex[2])
> _reraise(*ex) # noqa
../_pytest/vendored_packages/pluggy.py:279:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <_pytest.vendored_packages.pluggy._CallOutcome instance at 0x00000001239f00e0>
func = <bound method _MultiCall.execute of <_MultiCall 0 results, 1 meths, kwargs={'i...est_slots2'>, '__multicall__': <_MultiCall 0 results, 1 meths, kwargs={...}>}>>
def __init__(self, func):
try:
> self.result = func()
../_pytest/vendored_packages/pluggy.py:264:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <_MultiCall 0 results, 1 meths, kwargs={'item': <AppTestMethod 'test_slots2'>, '__multicall__': <_MultiCall 0 results, 1 meths, kwargs={...}>}>
def execute(self):
all_kwargs = self.kwargs
self.results = results = []
firstresult = self.specopts.get("firstresult")
while self.hook_impls:
hook_impl = self.hook_impls.pop()
args = [all_kwargs[argname] for argname in hook_impl.argnames]
if hook_impl.hookwrapper:
return _wrapped_call(hook_impl.function(*args), self.execute)
> res = hook_impl.function(*args)
../_pytest/vendored_packages/pluggy.py:596:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
item = <AppTestMethod 'test_slots2'>
def pytest_runtest_call(item):
try:
> item.runtest()
../_pytest/runner.py:91:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <AppTestMethod 'test_slots2'>
def runtest(self):
target = self.obj
src = extract_docstring_if_empty_function(target.im_func)
space = target.im_self.space
if self.config.option.runappdirect:
appexec_definitions = self.parent.obj.__dict__
spaceconfig = getattr(self.parent.obj, 'spaceconfig', None)
usemodules = spaceconfig.get('usemodules') if spaceconfig else None
return run_with_python(self.config.option.python, src, usemodules,
**appexec_definitions)
filename = self._getdynfilename(target)
func = app2interp_temp(src, filename=filename)
w_instance = self.parent.w_instance
> self.execute_appex(space, func, space, w_instance)
tool/pytest/apptest.py:331:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <AppTestMethod 'test_slots2'>, space = StdObjSpace
target = <function test_slots2 at 0x0000000153058110>
args = (StdObjSpace, <pypy.interpreter.typedef.W_ObjectObjectUserDictWeakrefable object at 0x000000013b6d8b10>)
def execute_appex(self, space, target, *args):
self.space = space
space.getexecutioncontext().set_sys_exc_info(None)
try:
> target(*args)
tool/pytest/apptest.py:267:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
space = StdObjSpace
args_w = (<pypy.interpreter.typedef.W_ObjectObjectUserDictWeakrefable object at 0x000000013b6d8b10>,)
w_func = <Function test_slots2>
args = <pypy.interpreter.typedef.W_ObjectObjectUserDictWeakrefable object at 0x000000013b6d8b10>
def appcaller(space, *args_w):
if not isinstance(space, ObjSpace):
raise TypeError("first argument must be a space instance.")
# the last argument can be an Arguments
w_func = self.wget(space, name)
if not args_w:
return space.call_function(w_func)
else:
args = args_w[-1]
assert args is not None
if not isinstance(args, Arguments):
> return space.call_function(w_func, *args_w)
interpreter/gateway.py:1409:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = StdObjSpace, w_func = <Function test_slots2>
args_w = (<pypy.interpreter.typedef.W_ObjectObjectUserDictWeakrefable object at 0x000000013b6d8b10>,)
nargs = 1, Function = <class 'pypy.interpreter.function.Function'>
_Method = <class 'pypy.interpreter.function._Method'>
def call_function(self, w_func, *args_w):
nargs = len(args_w) # used for pruning funccall versions
if not self.config.objspace.disable_call_speedhacks and nargs < 5:
# start of hack for performance
from pypy.interpreter.function import Function, _Method
if isinstance(w_func, _Method):
if nargs < 4:
func = w_func.w_function
if isinstance(func, Function):
return func.funccall(w_func.w_instance, *args_w)
if isinstance(w_func, Function):
> return w_func.funccall(*args_w)
interpreter/baseobjspace.py:1234:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <Function test_slots2>
args_w = (<pypy.interpreter.typedef.W_ObjectObjectUserDictWeakrefable object at 0x000000013b6d8b10>,)
gateway = <module 'pypy.interpreter.gateway' from '/Users/matti/build-worker-arm64/own-macos-arm64/build/pypy/interpreter/gateway.pyc'>
PyCode = <class 'pypy.interpreter.pycode.PyCode'>
code = <code object test_slots2, file "[/Users/matti/build-worker-arm64/own-macos-arm64/build/pypy/module/cpyext/test/test_module.py:192]", line 1>
def funccall(self, *args_w): # speed hack
from pypy.interpreter import gateway
from pypy.interpreter.pycode import PyCode
code = self.getcode() # hook for the jit
nargs = len(args_w)
fast_natural_arity = code.fast_natural_arity
if nargs == fast_natural_arity:
if nargs == 0:
assert isinstance(code, gateway.BuiltinCode0)
return code.fastcall_0(self.space, self)
elif nargs == 1:
assert isinstance(code, gateway.BuiltinCode1)
return code.fastcall_1(self.space, self, args_w[0])
elif nargs == 2:
assert isinstance(code, gateway.BuiltinCode2)
return code.fastcall_2(self.space, self, args_w[0], args_w[1])
elif nargs == 3:
assert isinstance(code, gateway.BuiltinCode3)
return code.fastcall_3(self.space, self, args_w[0],
args_w[1], args_w[2])
elif nargs == 4:
assert isinstance(code, gateway.BuiltinCode4)
return code.fastcall_4(self.space, self, args_w[0],
args_w[1], args_w[2], args_w[3])
elif (nargs | PyCode.FLATPYCALL) == fast_natural_arity:
assert isinstance(code, PyCode)
if nargs < 5:
new_frame = self.space.createframe(code, self.w_func_globals,
self)
for i in funccallunrolling:
if i < nargs:
new_frame.locals_cells_stack_w[i] = args_w[i]
> return new_frame.run(self.name, self.qualname)
interpreter/function.py:131:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.objspace.std.frame.StdObjSpaceFrame executing <code object test_slots2, ...os-arm64/build/pypy/module/cpyext/test/test_module.py:192]", line 1> at line 43
name = 'test_slots2', qualname = 'test_slots2'
def run(self, name=None, qualname=None):
"""Start this frame's execution."""
if self._is_generator_or_coroutine():
return self.initialize_as_generator(name, qualname)
else:
> return self.execute_frame()
interpreter/pyframe.py:256:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.objspace.std.frame.StdObjSpaceFrame executing <code object test_slots2, ...os-arm64/build/pypy/module/cpyext/test/test_module.py:192]", line 1> at line 43
w_arg_or_err = None
def execute_frame(self, w_arg_or_err=None):
"""Execute this frame. Main entry point to the interpreter.
'w_arg_or_err' is non-None iff we are starting or resuming
a generator or coroutine frame; in that case, w_arg_or_err
is the input argument -or- an SApplicationException instance.
"""
from pypy.interpreter import pyopcode as pyopcode
# the following 'assert' is an annotation hint: it hides from
# the annotator all methods that are defined in PyFrame but
# overridden in the {,Host}FrameClass subclasses of PyFrame.
assert (isinstance(self, self.space.FrameClass) or
not self.space.config.translating)
executioncontext = self.space.getexecutioncontext()
executioncontext.enter(self)
got_exception = True
w_exitvalue = self.space.w_None
try:
executioncontext.call_trace(self)
#
# Execution starts just after the last_instr. Initially,
# last_instr is -1. After a generator suspends it points to
# the YIELD_VALUE/YIELD_FROM instruction.
try:
try:
if w_arg_or_err is None:
assert self.last_instr == -1
next_instr = r_uint(0)
else:
next_instr = self.resume_execute_frame(w_arg_or_err)
except pyopcode.Yield:
w_exitvalue = self.popvalue()
else:
w_exitvalue = self.dispatch(self.pycode, next_instr,
executioncontext)
except OperationError:
raise
except Exception as e: # general fall-back
> raise self._convert_unexpected_exception(e)
interpreter/pyframe.py:353:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.objspace.std.frame.StdObjSpaceFrame executing <code object test_slots2, ...os-arm64/build/pypy/module/cpyext/test/test_module.py:192]", line 1> at line 43
e = CompileError(DistutilsExecError("command 'cc' terminated by signal 10",),)
def _convert_unexpected_exception(self, e):
from pypy.interpreter import error
> operr = error.get_converted_unexpected_exception(self.space, e)
interpreter/pyframe.py:844:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.objspace.std.frame.StdObjSpaceFrame executing <code object test_slots2, ...os-arm64/build/pypy/module/cpyext/test/test_module.py:192]", line 1> at line 43
w_arg_or_err = None
def execute_frame(self, w_arg_or_err=None):
"""Execute this frame. Main entry point to the interpreter.
'w_arg_or_err' is non-None iff we are starting or resuming
a generator or coroutine frame; in that case, w_arg_or_err
is the input argument -or- an SApplicationException instance.
"""
from pypy.interpreter import pyopcode as pyopcode
# the following 'assert' is an annotation hint: it hides from
# the annotator all methods that are defined in PyFrame but
# overridden in the {,Host}FrameClass subclasses of PyFrame.
assert (isinstance(self, self.space.FrameClass) or
not self.space.config.translating)
executioncontext = self.space.getexecutioncontext()
executioncontext.enter(self)
got_exception = True
w_exitvalue = self.space.w_None
try:
executioncontext.call_trace(self)
#
# Execution starts just after the last_instr. Initially,
# last_instr is -1. After a generator suspends it points to
# the YIELD_VALUE/YIELD_FROM instruction.
try:
try:
if w_arg_or_err is None:
assert self.last_instr == -1
next_instr = r_uint(0)
else:
next_instr = self.resume_execute_frame(w_arg_or_err)
except pyopcode.Yield:
w_exitvalue = self.popvalue()
else:
w_exitvalue = self.dispatch(self.pycode, next_instr,
> executioncontext)
interpreter/pyframe.py:349:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.objspace.std.frame.StdObjSpaceFrame executing <code object test_slots2, ...os-arm64/build/pypy/module/cpyext/test/test_module.py:192]", line 1> at line 43
pycode = <code object test_slots2, file "[/Users/matti/build-worker-arm64/own-macos-arm64/build/pypy/module/cpyext/test/test_module.py:192]", line 1>
next_instr = 0L
ec = <pypy.interpreter.executioncontext.ExecutionContext object at 0x0000000121fec9f8>
def dispatch(self, pycode, next_instr, ec):
# For the sequel, force 'next_instr' to be unsigned for performance
next_instr = r_uint(next_instr)
co_code = pycode.co_code
try:
while True:
assert next_instr & 1 == 0
> next_instr = self.handle_bytecode(co_code, next_instr, ec)
interpreter/pyopcode.py:67:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.objspace.std.frame.StdObjSpaceFrame executing <code object test_slots2, ...os-arm64/build/pypy/module/cpyext/test/test_module.py:192]", line 1> at line 43
co_code = 'd\x01d\x02l\x00m\x01}\x01\x01\x00d\x03}\x02d\x04}\x03|\x00\xa0\x02d\x05|\x02|\x03d\x06d\x07\xcc\x04}\x04|\x04j\x03s\x18J\x00\x82\x01|\x04j\x03|\x04j\x04u\x00s J\x00\x82\x01|\x04j\x05s%J\x00\x82\x01|\x04j\x06s*J\x00\x82\x01d\x00S\x00'
next_instr = 0L
ec = <pypy.interpreter.executioncontext.ExecutionContext object at 0x0000000121fec9f8>
def handle_bytecode(self, co_code, next_instr, ec):
try:
> next_instr = self.dispatch_bytecode(co_code, next_instr, ec)
interpreter/pyopcode.py:73:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.objspace.std.frame.StdObjSpaceFrame executing <code object test_slots2, ...os-arm64/build/pypy/module/cpyext/test/test_module.py:192]", line 1> at line 43
co_code = 'd\x01d\x02l\x00m\x01}\x01\x01\x00d\x03}\x02d\x04}\x03|\x00\xa0\x02d\x05|\x02|\x03d\x06d\x07\xcc\x04}\x04|\x04j\x03s\x18J\x00\x82\x01|\x04j\x03|\x04j\x04u\x00s J\x00\x82\x01|\x04j\x05s%J\x00\x82\x01|\x04j\x06s*J\x00\x82\x01d\x00S\x00'
next_instr = 36L
ec = <pypy.interpreter.executioncontext.ExecutionContext object at 0x0000000121fec9f8>
@jit.unroll_safe
def dispatch_bytecode(self, co_code, next_instr, ec):
while True:
assert next_instr & 1 == 0
self.last_instr = intmask(next_instr)
if jit.we_are_jitted():
ec.bytecode_only_trace(self)
else:
ec.bytecode_trace(self)
next_instr = r_uint(self.last_instr)
assert next_instr & 1 == 0
opcode = ord(co_code[next_instr])
oparg = ord(co_code[next_instr + 1])
next_instr += 2
# note: the structure of the code here is such that it makes
# (after translation) a big "if/elif" chain, which is then
# turned into a switch().
while opcode == opcodedesc.EXTENDED_ARG.index:
opcode = ord(co_code[next_instr])
arg = ord(co_code[next_instr + 1])
if opcode < HAVE_ARGUMENT:
raise BytecodeCorruption
next_instr += 2
oparg = (oparg * 256) | arg
if opcode == opcodedesc.RETURN_VALUE.index:
self.frame_finished_execution = True # for generators
raise Return
elif opcode == opcodedesc.JUMP_ABSOLUTE.index:
return self.jump_absolute(oparg, next_instr, ec)
elif opcode == opcodedesc.RERAISE.index:
return self.RERAISE(oparg, next_instr)
elif opcode == opcodedesc.FOR_ITER.index:
next_instr = self.FOR_ITER(oparg, next_instr)
elif opcode == opcodedesc.JUMP_FORWARD.index:
next_instr = self.JUMP_FORWARD(oparg, next_instr)
elif opcode == opcodedesc.JUMP_IF_FALSE_OR_POP.index:
return self.JUMP_IF_FALSE_OR_POP(oparg, next_instr, ec)
elif opcode == opcodedesc.JUMP_IF_TRUE_OR_POP.index:
return self.JUMP_IF_TRUE_OR_POP(oparg, next_instr, ec)
elif opcode == opcodedesc.POP_JUMP_IF_FALSE.index:
return self.POP_JUMP_IF_FALSE(oparg, next_instr, ec)
elif opcode == opcodedesc.POP_JUMP_IF_TRUE.index:
return self.POP_JUMP_IF_TRUE(oparg, next_instr, ec)
elif opcode == opcodedesc.POP_JUMP_FORWARD_IF_NONE.index:
next_instr = self.POP_JUMP_FORWARD_IF_NONE(oparg, next_instr)
elif opcode == opcodedesc.POP_JUMP_FORWARD_IF_NOT_NONE.index:
next_instr = self.POP_JUMP_FORWARD_IF_NOT_NONE(oparg, next_instr)
elif opcode == opcodedesc.JUMP_IF_NOT_EXC_MATCH.index:
next_instr = self.JUMP_IF_NOT_EXC_MATCH(oparg, next_instr)
elif opcode == opcodedesc.BINARY_ADD.index:
self.BINARY_ADD(oparg, next_instr)
elif opcode == opcodedesc.BINARY_AND.index:
self.BINARY_AND(oparg, next_instr)
elif opcode == opcodedesc.BINARY_FLOOR_DIVIDE.index:
self.BINARY_FLOOR_DIVIDE(oparg, next_instr)
elif opcode == opcodedesc.BINARY_MATRIX_MULTIPLY.index:
self.BINARY_MATRIX_MULTIPLY(oparg, next_instr)
elif opcode == opcodedesc.BINARY_LSHIFT.index:
self.BINARY_LSHIFT(oparg, next_instr)
elif opcode == opcodedesc.BINARY_MODULO.index:
self.BINARY_MODULO(oparg, next_instr)
elif opcode == opcodedesc.BINARY_MULTIPLY.index:
self.BINARY_MULTIPLY(oparg, next_instr)
elif opcode == opcodedesc.BINARY_OR.index:
self.BINARY_OR(oparg, next_instr)
elif opcode == opcodedesc.BINARY_POWER.index:
self.BINARY_POWER(oparg, next_instr)
elif opcode == opcodedesc.BINARY_RSHIFT.index:
self.BINARY_RSHIFT(oparg, next_instr)
elif opcode == opcodedesc.BINARY_SUBSCR.index:
self.BINARY_SUBSCR(oparg, next_instr)
elif opcode == opcodedesc.BINARY_SUBTRACT.index:
self.BINARY_SUBTRACT(oparg, next_instr)
elif opcode == opcodedesc.BINARY_TRUE_DIVIDE.index:
self.BINARY_TRUE_DIVIDE(oparg, next_instr)
elif opcode == opcodedesc.BINARY_XOR.index:
self.BINARY_XOR(oparg, next_instr)
elif opcode == opcodedesc.BUILD_CONST_KEY_MAP.index:
self.BUILD_CONST_KEY_MAP(oparg, next_instr)
elif opcode == opcodedesc.BUILD_LIST.index:
self.BUILD_LIST(oparg, next_instr)
elif opcode == opcodedesc.BUILD_LIST_FROM_ARG.index:
self.BUILD_LIST_FROM_ARG(oparg, next_instr)
elif opcode == opcodedesc.BUILD_MAP.index:
self.BUILD_MAP(oparg, next_instr)
elif opcode == opcodedesc.BUILD_SET.index:
self.BUILD_SET(oparg, next_instr)
elif opcode == opcodedesc.BUILD_SLICE.index:
self.BUILD_SLICE(oparg, next_instr)
elif opcode == opcodedesc.BUILD_TUPLE.index:
self.BUILD_TUPLE(oparg, next_instr)
elif opcode == opcodedesc.CALL_FUNCTION.index:
self.CALL_FUNCTION(oparg, next_instr)
elif opcode == opcodedesc.CALL_FUNCTION_KW.index:
self.CALL_FUNCTION_KW(oparg, next_instr)
elif opcode == opcodedesc.CALL_FUNCTION_EX.index:
self.CALL_FUNCTION_EX(oparg, next_instr)
elif opcode == opcodedesc.CALL_METHOD.index:
self.CALL_METHOD(oparg, next_instr)
elif opcode == opcodedesc.CALL_METHOD_KW.index:
> self.CALL_METHOD_KW(oparg, next_instr)
interpreter/pyopcode.py:298:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
f = <pypy.objspace.std.frame.StdObjSpaceFrame executing <code object test_slots2, ...os-arm64/build/pypy/module/cpyext/test/test_module.py:192]", line 1> at line 43
n_arguments = 0, ignored = (36L,)
W_AbstractTupleObject = <class 'pypy.objspace.std.tupleobject.W_AbstractTupleObject'>
w_self = None, space = StdObjSpace
@jit.unroll_safe
def CALL_METHOD_KW(f, n_arguments, *ignored):
from pypy.objspace.std.tupleobject import W_AbstractTupleObject
# opargs contains the arg + kwarg count, excluding the implicit 'self'
w_self = f.peekvalue_maybe_none(n_arguments + 1)
space = f.space
# like in BUILD_CONST_KEY_MAP we can't use space.fixedview because then
# the immutability of the tuple is lost
w_tup_varnames = space.interp_w(W_AbstractTupleObject, f.popvalue())
n_keywords = space.len_w(w_tup_varnames)
keyword_names_w = [None] * n_keywords
keywords_w = [None] * n_keywords
for i in range(n_keywords):
keyword_names_w[i] = w_tup_varnames.getitem(space, i)
w_value = f.peekvalue(n_keywords - 1 - i)
keywords_w[i] = w_value
f.dropvalues(n_keywords)
n_arguments -= n_keywords
n = n_arguments + (w_self is not None)
arguments = f.popvalues(n) # includes w_self if it is not None
if w_self is None:
f.popvalue_maybe_none() # removes w_self, which is None
w_callable = f.popvalue()
args = f.argument_factory(
arguments, keyword_names_w, keywords_w, None, None,
methodcall=w_self is not None, w_function=w_callable)
if f.get_is_being_profiled() and function.is_builtin_code(w_callable):
w_result = f.space.call_args_and_c_profile(f, w_callable, args)
else:
> w_result = f.space.call_args(w_callable, args)
objspace/std/callmethod.py:126:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
space = StdObjSpace, w_obj = <FunctionWithFixedCode import_module>
args = Arguments([], ['name', 'body', 'init', 'use_imp'], [W_UnicodeObject('multiphas... return PyModuleDef_Init(&multiphase_def);\n '), W_BoolObject(True)])
def call_args(space, w_obj, args):
# two special cases for performance
if isinstance(w_obj, Function):
> return w_obj.call_args(args)
objspace/descroperation.py:192:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <FunctionWithFixedCode import_module>
args = Arguments([], ['name', 'body', 'init', 'use_imp'], [W_UnicodeObject('multiphas... return PyModuleDef_Init(&multiphase_def);\n '), W_BoolObject(True)])
def call_args(self, args):
# delegate activation to code
> w_res = self.getcode().funcrun(self, args)
interpreter/function.py:81:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.interpreter.gateway.BuiltinCode object at 0x000000013c266250>
func = <FunctionWithFixedCode import_module>
args = Arguments([], ['name', 'body', 'init', 'use_imp'], [W_UnicodeObject('multiphas... return PyModuleDef_Init(&multiphase_def);\n '), W_BoolObject(True)])
def funcrun(self, func, args):
> return BuiltinCode.funcrun_obj(self, func, None, args)
interpreter/gateway.py:869:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.interpreter.gateway.BuiltinCode object at 0x000000013c266250>
func = <FunctionWithFixedCode import_module>, w_obj = None
args = Arguments([], ['name', 'body', 'init', 'use_imp'], [W_UnicodeObject('multiphas... return PyModuleDef_Init(&multiphase_def);\n '), W_BoolObject(True)])
def funcrun_obj(self, func, w_obj, args):
space = func.space
activation = self.activation
scope_w = args.parse_obj(w_obj, func.qualname, self.sig,
func.defs_w, func.w_kw_defs, self.minargs)
try:
w_result = activation._run(space, scope_w)
except DescrMismatch:
if w_obj is not None:
args = args.prepend(w_obj)
return self._type_unwrap_mismatch(space, args)
except Exception as e:
> self.handle_exception(space, e)
interpreter/gateway.py:884:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.interpreter.gateway.BuiltinCode object at 0x000000013c266250>
space = StdObjSpace
e = CompileError(DistutilsExecError("command 'cc' terminated by signal 10",),)
def handle_exception(self, space, e):
try:
if not we_are_translated():
raise
raise e
except OperationError:
raise
except Exception as e: # general fall-back
from pypy.interpreter import error
> raise error.get_converted_unexpected_exception(space, e)
interpreter/gateway.py:908:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.interpreter.gateway.BuiltinCode object at 0x000000013c266250>
func = <FunctionWithFixedCode import_module>, w_obj = None
args = Arguments([], ['name', 'body', 'init', 'use_imp'], [W_UnicodeObject('multiphas... return PyModuleDef_Init(&multiphase_def);\n '), W_BoolObject(True)])
def funcrun_obj(self, func, w_obj, args):
space = func.space
activation = self.activation
scope_w = args.parse_obj(w_obj, func.qualname, self.sig,
func.defs_w, func.w_kw_defs, self.minargs)
try:
> w_result = activation._run(space, scope_w)
interpreter/gateway.py:878:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.interpreter.gateway.BuiltinActivation_UwS_ObjSpace_text_text_or_none_text_fsencode_or_none_W_Root_bool_bool object at 0x000000013c266368>
space = StdObjSpace
scope_w = [W_UnicodeObject('multiphase'), W_UnicodeObject('\n return PyModuleDef_Init(&multiphase_def);\n '), W_Un...\n '), <pypy.objspace.std.noneobject.W_NoneObject object at 0x00000001089257c0>, None, W_BoolObject(False), ...]
def _run(self, space, scope_w):
> return self.behavior(space, space.text_w(scope_w[0]), space.text_or_none_w(scope_w[1]), space.text_w(scope_w[2]), space.fsencode_or_none_w(scope_w[3]), scope_w[4], space.is_true(scope_w[5]), space.is_true(scope_w[6]))
<2700-codegen /Users/matti/build-worker-arm64/own-macos-arm64/build/rpython/tool/sourcetools.py:174>:3:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
space = StdObjSpace, name = 'multiphase'
init = '\n return PyModuleDef_Init(&multiphase_def);\n '
body = '\n static PyModuleDef multiphase_def;\n\n static PyObject* multiphase_create(PyObject *spec, PyModuleDe... /* m_clear */\n NULL, /* m_free */\n };\n '
filename = None, w_include_dirs = None, PY_SSIZE_T_CLEAN = False, use_imp = True
@unwrap_spec(name='text', init='text_or_none', body='text',
filename='fsencode_or_none', PY_SSIZE_T_CLEAN=bool,
use_imp=bool)
def import_module(space, name, init=None, body='',
filename=None, w_include_dirs=None,
PY_SSIZE_T_CLEAN=False, use_imp=False):
include_dirs = _unwrap_include_dirs(space, w_include_dirs)
# For file-based imports (no inline code), reuse the previously
# loaded module from our own cache -- avoids re-running PyInit_xxx
# (the expensive part) on every test in the class.
# We use a separate cache (not sys.modules) so that an
# import_extension() call with the same name doesn't shadow the
# file-based module.
if init is None and not body:
if name in self._file_module_cache:
self.record_imported_module(name)
return self._file_module_cache[name]
# About to overwrite sys.modules[name] -- save the displaced
# module (if any) so that its raw allocations aren't freed
# during a later test's leakfinder tracking window.
w_modules = space.sys.get('modules')
try:
w_old = space.getitem(w_modules, space.newtext(name))
self._module_keepalive.append(w_old)
except OperationError:
pass
w_result = self.sys_info.import_module(
name, init, body, filename, include_dirs, PY_SSIZE_T_CLEAN,
> use_imp)
module/cpyext/test/test_cpyext.py:384:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.module.cpyext.test.test_cpyext.SpaceCompiler object at 0x00000001585171d8>
name = 'multiphase'
init = '\n return PyModuleDef_Init(&multiphase_def);\n '
body = '\n static PyModuleDef multiphase_def;\n\n static PyObject* multiphase_create(PyObject *spec, PyModuleDe... /* m_clear */\n NULL, /* m_free */\n };\n '
filename = None, include_dirs = None, PY_SSIZE_T_CLEAN = False, use_imp = True
def import_module(self, name, init=None, body='', filename=None,
include_dirs=None, PY_SSIZE_T_CLEAN=False, use_imp=False):
"""
init specifies the overall template of the module.
if init is None, the module source will be loaded from a file in this
test directory, give a name given by the filename parameter.
if filename is None, the module name will be used to construct the
filename.
"""
if body or init:
if init is None:
init = "return PyModule_Create(&moduledef);"
if init is not None:
code = make_source(name, init, body, PY_SSIZE_T_CLEAN)
kwds = dict(source_strings=[code])
else:
assert not PY_SSIZE_T_CLEAN
if filename is None:
filename = name
filename = HERE / (filename + ".c")
kwds = dict(source_files=[filename])
mod = self.compile_extension_module(
> name, include_dirs=include_dirs, **kwds)
tool/cpyext/extbuild.py:83:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <pypy.module.cpyext.test.test_cpyext.SpaceCompiler object at 0x00000001585171d8>
name = 'multiphase', include_dirs = []
source_files = [local('/tmp/buildbot-arm64/usession-py3.11-3680/multiphase-2/source_0.c')]
source_strings = ['\n \n #include <Python.h>\n\n \n static PyModuleDef multiphase_def;\n\n static PyObject* mult...T_FUNC\n PyInit_multiphase(void) {\n \n return PyModuleDef_Init(&multiphase_def);\n \n }\n ']
def compile_extension_module(self, name, include_dirs=None,
source_files=None, source_strings=None):
"""
Build an extension module and return the filename of the resulting
native code file.
name is the name of the module, possibly including dots if it is a
module inside a package.
"""
include_dirs = include_dirs or []
modname = name.split('.')[-1]
dirname = self.get_builddir(name=modname)
if source_strings:
assert not source_files
files = convert_sources_to_files(source_strings, dirname)
source_files = files
soname = c_compile(source_files, outputfilename=str(dirname / modname),
compile_extra=self.compile_extra,
link_extra=self.link_extra,
include_dirs=self.include_extra + include_dirs,
> libraries=self.extra_libs)
tool/cpyext/extbuild.py:54:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
cfilenames = [local('/tmp/buildbot-arm64/usession-py3.11-3680/multiphase-2/source_0.c')]
outputfilename = local('/tmp/buildbot-arm64/usession-py3.11-3680/multiphase-2/multiphase.so')
compile_extra = [], link_extra = []
include_dirs = [local('/tmp/buildbot-arm64/usession-py3.11-3680'), local('/Users/matti/build-worker-arm64/own-macos-arm64/build/pypy/.../build/pypy/module/cpyext/parse'), local('/Users/matti/build-worker-arm64/own-macos-arm64/build/rpython/translator/c')]
libraries = [], library_dirs = []
def c_compile(cfilenames, outputfilename,
compile_extra=None, link_extra=None,
include_dirs=None, libraries=None, library_dirs=None):
compile_extra = compile_extra or []
link_extra = link_extra or []
include_dirs = include_dirs or []
libraries = libraries or []
library_dirs = library_dirs or []
if sys.platform == 'win32':
link_extra = link_extra + ['/DEBUG'] # generate .pdb file
if sys.platform == 'darwin':
# support Fink & Darwinports
for s in ('/sw/', '/opt/local/'):
if (s + 'include' not in include_dirs
and os.path.exists(s + 'include')):
include_dirs.append(s + 'include')
if s + 'lib' not in library_dirs and os.path.exists(s + 'lib'):
library_dirs.append(s + 'lib')
outputfilename = py.path.local(outputfilename).new(ext=so_ext)
saved_environ = os.environ.copy()
try:
_build(
cfilenames, outputfilename,
compile_extra, link_extra,
> include_dirs, libraries, library_dirs)
tool/cpyext/extbuild.py:200:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
cfilenames = [local('/tmp/buildbot-arm64/usession-py3.11-3680/multiphase-2/source_0.c')]
outputfilename = local('/tmp/buildbot-arm64/usession-py3.11-3680/multiphase-2/multiphase.so')
compile_extra = [], link_extra = []
include_dirs = [local('/tmp/buildbot-arm64/usession-py3.11-3680'), local('/Users/matti/build-worker-arm64/own-macos-arm64/build/pypy/.../build/pypy/module/cpyext/parse'), local('/Users/matti/build-worker-arm64/own-macos-arm64/build/rpython/translator/c')]
libraries = [], library_dirs = []
def _build(cfilenames, outputfilename, compile_extra, link_extra,
include_dirs, libraries, library_dirs):
try:
# monkeypatch distutils for some versions of msvc compiler
import setuptools
except ImportError:
# XXX if this fails and is required,
# we must call pypy -mensurepip after translation
pass
from distutils.ccompiler import new_compiler
from distutils import sysconfig
# XXX for Darwin running old versions of CPython 2.7.x
sysconfig.get_config_vars()
compiler = new_compiler(force=1)
sysconfig.customize_compiler(compiler) # XXX
objects = []
for cfile in cfilenames:
cfile = py.path.local(cfile)
old = cfile.dirpath().chdir()
try:
res = compiler.compile([cfile.basename],
> include_dirs=include_dirs, extra_preargs=compile_extra)
tool/cpyext/extbuild.py:232:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <distutils.unixccompiler.UnixCCompiler instance at 0x000000010afe6d20>
sources = ['source_0.c'], output_dir = None, macros = []
include_dirs = [local('/tmp/buildbot-arm64/usession-py3.11-3680'), local('/Users/matti/build-worker-arm64/own-macos-arm64/build/pypy/.../build/pypy/module/cpyext/parse'), local('/Users/matti/build-worker-arm64/own-macos-arm64/build/rpython/translator/c')]
debug = 0, extra_preargs = [], extra_postargs = [], depends = None
def compile(self, sources, output_dir=None, macros=None,
include_dirs=None, debug=0, extra_preargs=None,
extra_postargs=None, depends=None):
"""Compile one or more source files.
'sources' must be a list of filenames, most likely C/C++
files, but in reality anything that can be handled by a
particular compiler and compiler class (eg. MSVCCompiler can
handle resource files in 'sources'). Return a list of object
filenames, one per source filename in 'sources'. Depending on
the implementation, not all source files will necessarily be
compiled, but all corresponding object filenames will be
returned.
If 'output_dir' is given, object files will be put under it, while
retaining their original path component. That is, "foo/bar.c"
normally compiles to "foo/bar.o" (for a Unix implementation); if
'output_dir' is "build", then it would compile to
"build/foo/bar.o".
'macros', if given, must be a list of macro definitions. A macro
definition is either a (name, value) 2-tuple or a (name,) 1-tuple.
The former defines a macro; if the value is None, the macro is
defined without an explicit value. The 1-tuple case undefines a
macro. Later definitions/redefinitions/ undefinitions take
precedence.
'include_dirs', if given, must be a list of strings, the
directories to add to the default include file search path for this
compilation only.
'debug' is a boolean; if true, the compiler will be instructed to
output debug symbols in (or alongside) the object file(s).
'extra_preargs' and 'extra_postargs' are implementation- dependent.
On platforms that have the notion of a command-line (e.g. Unix,
DOS/Windows), they are most likely lists of strings: extra
command-line arguments to prepand/append to the compiler command
line. On other platforms, consult the implementation class
documentation. In any event, they are intended as an escape hatch
for those occasions when the abstract compiler framework doesn't
cut the mustard.
'depends', if given, is a list of filenames that all targets
depend on. If a source file is older than any file in
depends, then the source file will be recompiled. This
supports dependency tracking, but only at a coarse
granularity.
Raises CompileError on failure.
"""
# A concrete compiler class can either override this method
# entirely or implement _compile().
macros, objects, extra_postargs, pp_opts, build = \
self._setup_compile(output_dir, macros, include_dirs, sources,
depends, extra_postargs)
cc_args = self._get_cc_args(pp_opts, debug, extra_preargs)
for obj in objects:
try:
src, ext = build[obj]
except KeyError:
continue
> self._compile(obj, src, ext, cc_args, extra_postargs, pp_opts)
../../../../oss/pypy-arm64-buildbot/lib-python/2.7/distutils/ccompiler.py:574:
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
self = <distutils.unixccompiler.UnixCCompiler instance at 0x000000010afe6d20>
obj = 'source_0.o', src = 'source_0.c', ext = '.c'
cc_args = ['-I/tmp/buildbot-arm64/usession-py3.11-3680', '-I/Users/matti/build-worker-arm64/own-macos-arm64/build/pypy/module/cp.../build/pypy/module/cpyext/parse', '-I/Users/matti/build-worker-arm64/own-macos-arm64/build/rpython/translator/c', '-c']
extra_postargs = []
pp_opts = ['-I/tmp/buildbot-arm64/usession-py3.11-3680', '-I/Users/matti/build-worker-arm64/own-macos-arm64/build/pypy/module/cp...-arm64/build/pypy/module/cpyext/parse', '-I/Users/matti/build-worker-arm64/own-macos-arm64/build/rpython/translator/c']
def _compile(self, obj, src, ext, cc_args, extra_postargs, pp_opts):
compiler_so = self.compiler_so
if sys.platform == 'darwin':
compiler_so = _osx_support.compiler_fixup(compiler_so,
cc_args + extra_postargs)
try:
self.spawn(compiler_so + cc_args + [src, '-o', obj] +
extra_postargs)
except DistutilsExecError, msg:
> raise CompileError, msg
E CompileError: command 'cc' terminated by signal 10
../../../../oss/pypy-arm64-buildbot/lib-python/2.7/distutils/unixccompiler.py:139: CompileError
builder: own-macos-arm64 build #1204
test: pypy/module/cpyext/test/test_module/py/AppTestModuleObject/()/test_slots2