def test_framework_simple():
def g(x):
return x + 1
class A(object):
pass
def entrypoint(argv):
a = A()
a.b = g(1)
return str(a.b)
from rpython.rtyper.llinterp import LLInterpreter
from rpython.translator.c.genc import CStandaloneBuilder
t = rtype(entrypoint, [s_list_of_strings])
t.config.translation.gc = "minimark"
cbuild = CStandaloneBuilder(t, entrypoint, t.config,
gcpolicy=FrameworkGcPolicy2)
db = cbuild.generate_graphs_for_llinterp()
entrypointptr = cbuild.getentrypointptr()
entrygraph = entrypointptr._obj.graph
r_list_of_strings = t.rtyper.getrepr(s_list_of_strings)
ll_argv = r_list_of_strings.convert_const([])
llinterp = LLInterpreter(t.rtyper)
# FIIIIISH
setupgraph = db.gctransformer.frameworkgc_setup_ptr.value._obj.graph
llinterp.eval_graph(setupgraph, [])
res = llinterp.eval_graph(entrygraph, [ll_argv])
assert ''.join(res.chars) == "2"
def test_framework_simple():
def g(x):
return x + 1
class A(object):
pass
def entrypoint(argv):
a = A()
a.b = g(1)
return str(a.b)
from rpython.rtyper.llinterp import LLInterpreter
from rpython.translator.c.genc import CStandaloneBuilder
t = rtype(entrypoint, [s_list_of_strings])
t.config.translation.gc = "minimark"
cbuild = CStandaloneBuilder(t, entrypoint, t.config,
gcpolicy=FrameworkGcPolicy2)
cbuild.make_entrypoint_wrapper = False
db = cbuild.build_database()
entrypointptr = cbuild.getentrypointptr()
entrygraph = entrypointptr._obj.graph
r_list_of_strings = t.rtyper.getrepr(s_list_of_strings)
ll_argv = r_list_of_strings.convert_const([])
llinterp = LLInterpreter(t.rtyper)
# FIIIIISH
setupgraph = db.gctransformer.frameworkgc_setup_ptr.value._obj.graph
llinterp.eval_graph(setupgraph, [])
res = llinterp.eval_graph(entrygraph, [ll_argv])
assert ''.join(res.chars) == "2"
def llinterpreter_for_transformed_graph(self, f, args_s):
from rpython.rtyper.llinterp import LLInterpreter
from rpython.translator.c.genc import CStandaloneBuilder
t = rtype(f, args_s)
# XXX we shouldn't need an actual gcpolicy here.
cbuild = CStandaloneBuilder(t, f, t.config, gcpolicy=self.gcpolicy)
cbuild.generate_graphs_for_llinterp()
graph = cbuild.getentrypointptr()._obj.graph
# arguments cannot be GC objects because nobody would put a
# proper header on them
for v in graph.getargs():
if isinstance(v.concretetype, lltype.Ptr):
assert v.concretetype.TO._gckind != 'gc', "fix the test!"
llinterp = LLInterpreter(t.rtyper)
if option.view:
t.view()
return llinterp, graph
def llinterpreter_for_transformed_graph(self, f, args_s):
from rpython.rtyper.llinterp import LLInterpreter
from rpython.translator.c.genc import CStandaloneBuilder
t = rtype(f, args_s)
# XXX we shouldn't need an actual gcpolicy here.
cbuild = CStandaloneBuilder(t, f, t.config, gcpolicy=self.gcpolicy)
cbuild.generate_graphs_for_llinterp()
graph = cbuild.getentrypointptr()._obj.graph
# arguments cannot be GC objects because nobody would put a
# proper header on them
for v in graph.getargs():
if isinstance(v.concretetype, lltype.Ptr):
assert v.concretetype.TO._gckind != 'gc', "fix the test!"
llinterp = LLInterpreter(t.rtyper)
if option.view:
t.view()
return llinterp, graph
def setup_class(cls):
cls.marker = lltype.malloc(rffi.CArray(lltype.Signed),
1,
flavor='raw',
zero=True)
funcs0 = []
funcs2 = []
cleanups = []
name_to_func = {}
mixlevelstuff = []
for fullname in dir(cls):
if not fullname.startswith('define'):
continue
definefunc = getattr(cls, fullname)
_, name = fullname.split('_', 1)
func_fixup = definefunc.im_func(cls)
cleanup = None
if isinstance(func_fixup, tuple):
func, cleanup, fixup = func_fixup
mixlevelstuff.append(fixup)
else:
func = func_fixup
func.func_name = "f_%s" % name
if cleanup:
cleanup.func_name = "clean_%s" % name
nargs = len(inspect.getargspec(func)[0])
name_to_func[name] = len(funcs0)
if nargs == 2:
funcs2.append(func)
funcs0.append(None)
elif nargs == 0:
funcs0.append(func)
funcs2.append(None)
else:
raise NotImplementedError(
"defined test functions should have 0/2 arguments")
# used to let test cleanup static root pointing to runtime
# allocated stuff
cleanups.append(cleanup)
def entrypoint(args):
num = args[0]
func = funcs0[num]
if func:
res = func()
else:
func = funcs2[num]
res = func(args[1], args[2])
cleanup = cleanups[num]
if cleanup:
cleanup()
return res
from rpython.translator.c.genc import CStandaloneBuilder
s_args = SomePtr(lltype.Ptr(ARGS))
t = rtype(entrypoint, [s_args],
gcname=cls.gcname,
taggedpointers=cls.taggedpointers)
for fixup in mixlevelstuff:
if fixup:
fixup(t)
cbuild = CStandaloneBuilder(t,
entrypoint,
config=t.config,
gcpolicy=cls.gcpolicy)
db = cbuild.generate_graphs_for_llinterp()
entrypointptr = cbuild.getentrypointptr()
entrygraph = entrypointptr._obj.graph
if option.view:
t.viewcg()
cls.name_to_func = name_to_func
cls.entrygraph = entrygraph
cls.rtyper = t.rtyper
cls.db = db
def setup_class(cls):
cls.marker = lltype.malloc(rffi.CArray(lltype.Signed), 1,
flavor='raw', zero=True)
funcs0 = []
funcs2 = []
cleanups = []
name_to_func = {}
mixlevelstuff = []
for fullname in dir(cls):
if not fullname.startswith('define'):
continue
definefunc = getattr(cls, fullname)
_, name = fullname.split('_', 1)
func_fixup = definefunc.im_func(cls)
cleanup = None
if isinstance(func_fixup, tuple):
func, cleanup, fixup = func_fixup
mixlevelstuff.append(fixup)
else:
func = func_fixup
func.func_name = "f_%s" % name
if cleanup:
cleanup.func_name = "clean_%s" % name
nargs = len(inspect.getargspec(func)[0])
name_to_func[name] = len(funcs0)
if nargs == 2:
funcs2.append(func)
funcs0.append(None)
elif nargs == 0:
funcs0.append(func)
funcs2.append(None)
else:
raise NotImplementedError(
"defined test functions should have 0/2 arguments")
# used to let test cleanup static root pointing to runtime
# allocated stuff
cleanups.append(cleanup)
def entrypoint(args):
num = args[0]
func = funcs0[num]
if func:
res = func()
else:
func = funcs2[num]
res = func(args[1], args[2])
cleanup = cleanups[num]
if cleanup:
cleanup()
return res
from rpython.translator.c.genc import CStandaloneBuilder
s_args = SomePtr(lltype.Ptr(ARGS))
t = rtype(entrypoint, [s_args], gcname=cls.gcname,
taggedpointers=cls.taggedpointers)
for fixup in mixlevelstuff:
if fixup:
fixup(t)
cbuild = CStandaloneBuilder(t, entrypoint, config=t.config,
gcpolicy=cls.gcpolicy)
db = cbuild.generate_graphs_for_llinterp()
entrypointptr = cbuild.getentrypointptr()
entrygraph = entrypointptr._obj.graph
if option.view:
t.viewcg()
cls.name_to_func = name_to_func
cls.entrygraph = entrygraph
cls.rtyper = t.rtyper
cls.db = db
