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|
""" Test refcounting and behavior of SCXX.
"""
import time
import os,sys
from numpy.testing import *
set_package_path()
from weave import inline_tools
restore_path()
class test_object_construct(NumpyTestCase):
#------------------------------------------------------------------------
# Check that construction from basic types is allowed and have correct
# reference counts
#------------------------------------------------------------------------
def check_int(self,level=5):
# strange int value used to try and make sure refcount is 2.
code = """
py::object val = 1001;
return_val = val;
"""
res = inline_tools.inline(code)
assert_equal(sys.getrefcount(res),2)
assert_equal(res,1001)
def check_float(self,level=5):
code = """
py::object val = (float)1.0;
return_val = val;
"""
res = inline_tools.inline(code)
assert_equal(sys.getrefcount(res),2)
assert_equal(res,1.0)
def check_double(self,level=5):
code = """
py::object val = 1.0;
return_val = val;
"""
res = inline_tools.inline(code)
assert_equal(sys.getrefcount(res),2)
assert_equal(res,1.0)
def check_complex(self,level=5):
code = """
std::complex<double> num = std::complex<double>(1.0,1.0);
py::object val = num;
return_val = val;
"""
res = inline_tools.inline(code)
assert_equal(sys.getrefcount(res),2)
assert_equal(res,1.0+1.0j)
def check_string(self,level=5):
code = """
py::object val = "hello";
return_val = val;
"""
res = inline_tools.inline(code)
assert_equal(sys.getrefcount(res),2)
assert_equal(res,"hello")
def check_std_string(self,level=5):
code = """
std::string s = std::string("hello");
py::object val = s;
return_val = val;
"""
res = inline_tools.inline(code)
assert_equal(sys.getrefcount(res),2)
assert_equal(res,"hello")
class test_object_print(NumpyTestCase):
#------------------------------------------------------------------------
# Check the object print protocol.
#------------------------------------------------------------------------
def check_stdout(self,level=5):
code = """
py::object val = "how now brown cow";
val.print(stdout);
"""
res = inline_tools.inline(code)
# visual check on this one.
def check_stringio(self,level=5):
import cStringIO
file_imposter = cStringIO.StringIO()
code = """
py::object val = "how now brown cow";
val.print(file_imposter);
"""
res = inline_tools.inline(code,['file_imposter'])
print file_imposter.getvalue()
assert_equal(file_imposter.getvalue(),"'how now brown cow'")
## def check_failure(self,level=5):
## code = """
## FILE* file = 0;
## py::object val = "how now brown cow";
## val.print(file);
## """
## try:
## res = inline_tools.inline(code)
## except:
## # error was supposed to occur.
## pass
class test_object_cast(NumpyTestCase):
def check_int_cast(self,level=5):
code = """
py::object val = 1;
int raw_val = val;
"""
inline_tools.inline(code)
def check_double_cast(self,level=5):
code = """
py::object val = 1.0;
double raw_val = val;
"""
inline_tools.inline(code)
def check_float_cast(self,level=5):
code = """
py::object val = 1.0;
float raw_val = val;
"""
inline_tools.inline(code)
def check_complex_cast(self,level=5):
code = """
std::complex<double> num = std::complex<double>(1.0,1.0);
py::object val = num;
std::complex<double> raw_val = val;
"""
inline_tools.inline(code)
def check_string_cast(self,level=5):
code = """
py::object val = "hello";
std::string raw_val = val;
"""
inline_tools.inline(code)
# test class used for testing python class access from C++.
class foo:
def bar(self):
return "bar results"
def bar2(self,val1,val2):
return val1, val2
def bar3(self,val1,val2,val3=1):
return val1, val2, val3
class str_obj:
def __str__(self):
return "b"
class test_object_hasattr(NumpyTestCase):
def check_string(self,level=5):
a = foo()
a.b = 12345
code = """
return_val = a.hasattr("b");
"""
res = inline_tools.inline(code,['a'])
assert res
def check_std_string(self,level=5):
a = foo()
a.b = 12345
attr_name = "b"
code = """
return_val = a.hasattr(attr_name);
"""
res = inline_tools.inline(code,['a','attr_name'])
assert res
def check_string_fail(self,level=5):
a = foo()
a.b = 12345
code = """
return_val = a.hasattr("c");
"""
res = inline_tools.inline(code,['a'])
assert not res
def check_inline(self,level=5):
""" THIS NEEDS TO MOVE TO THE INLINE TEST SUITE
"""
a = foo()
a.b = 12345
code = """
throw_error(PyExc_AttributeError,"bummer");
"""
try:
before = sys.getrefcount(a)
res = inline_tools.inline(code,['a'])
except AttributeError:
after = sys.getrefcount(a)
try:
res = inline_tools.inline(code,['a'])
except:
after2 = sys.getrefcount(a)
print "after and after2 should be equal in the following"
print 'before, after, after2:', before, after, after2
pass
def check_func(self,level=5):
a = foo()
a.b = 12345
code = """
return_val = a.hasattr("bar");
"""
res = inline_tools.inline(code,['a'])
assert res
class test_object_attr(NumpyTestCase):
def generic_attr(self,code,args=['a']):
a = foo()
a.b = 12345
before = sys.getrefcount(a.b)
res = inline_tools.inline(code,args)
assert_equal(res,a.b)
del res
after = sys.getrefcount(a.b)
assert_equal(after,before)
def check_char(self,level=5):
self.generic_attr('return_val = a.attr("b");')
def check_char_fail(self,level=5):
try:
self.generic_attr('return_val = a.attr("c");')
except AttributeError:
pass
def check_string(self,level=5):
self.generic_attr('return_val = a.attr(std::string("b"));')
def check_string_fail(self,level=5):
try:
self.generic_attr('return_val = a.attr(std::string("c"));')
except AttributeError:
pass
def check_obj(self,level=5):
code = """
py::object name = "b";
return_val = a.attr(name);
"""
self.generic_attr(code,['a'])
def check_obj_fail(self,level=5):
try:
code = """
py::object name = "c";
return_val = a.attr(name);
"""
self.generic_attr(code,['a'])
except AttributeError:
pass
def check_attr_call(self,level=5):
a = foo()
res = inline_tools.inline('return_val = a.attr("bar").call();',['a'])
first = sys.getrefcount(res)
del res
res = inline_tools.inline('return_val = a.attr("bar").call();',['a'])
second = sys.getrefcount(res)
assert_equal(res,"bar results")
assert_equal(first,second)
class test_object_set_attr(NumpyTestCase):
def generic_existing(self, code, desired):
args = ['a']
a = foo()
a.b = 12345
res = inline_tools.inline(code,args)
assert_equal(a.b,desired)
def generic_new(self, code, desired):
args = ['a']
a = foo()
res = inline_tools.inline(code,args)
assert_equal(a.b,desired)
def check_existing_char(self,level=5):
self.generic_existing('a.set_attr("b","hello");',"hello")
def check_new_char(self,level=5):
self.generic_new('a.set_attr("b","hello");',"hello")
def check_existing_string(self,level=5):
self.generic_existing('a.set_attr("b",std::string("hello"));',"hello")
def check_new_string(self,level=5):
self.generic_new('a.set_attr("b",std::string("hello"));',"hello")
def check_existing_object(self,level=5):
code = """
py::object obj = "hello";
a.set_attr("b",obj);
"""
self.generic_existing(code,"hello")
def check_new_object(self,level=5):
code = """
py::object obj = "hello";
a.set_attr("b",obj);
"""
self.generic_new(code,"hello")
def check_new_fail(self,level=5):
try:
code = """
py::object obj = 1;
a.set_attr(obj,"hello");
"""
self.generic_new(code,"hello")
except:
pass
def check_existing_int(self,level=5):
self.generic_existing('a.set_attr("b",1);',1)
def check_existing_double(self,level=5):
self.generic_existing('a.set_attr("b",1.0);',1.0)
def check_existing_complex(self,level=5):
code = """
std::complex<double> obj = std::complex<double>(1,1);
a.set_attr("b",obj);
"""
self.generic_existing(code,1+1j)
def check_existing_char1(self,level=5):
self.generic_existing('a.set_attr("b","hello");',"hello")
def check_existing_string1(self,level=5):
code = """
std::string obj = std::string("hello");
a.set_attr("b",obj);
"""
self.generic_existing(code,"hello")
class test_object_del(NumpyTestCase):
def generic(self, code):
args = ['a']
a = foo()
a.b = 12345
res = inline_tools.inline(code,args)
assert not hasattr(a,"b")
def check_char(self,level=5):
self.generic('a.del("b");')
def check_string(self,level=5):
code = """
std::string name = std::string("b");
a.del(name);
"""
self.generic(code)
def check_object(self,level=5):
code = """
py::object name = py::object("b");
a.del(name);
"""
self.generic(code)
class test_object_cmp(NumpyTestCase):
def check_equal(self,level=5):
a,b = 1,1
res = inline_tools.inline('return_val = (a == b);',['a','b'])
assert_equal(res,(a == b))
def check_equal_objects(self,level=5):
class foo:
def __init__(self,x):
self.x = x
def __cmp__(self,other):
return cmp(self.x,other.x)
a,b = foo(1),foo(2)
res = inline_tools.inline('return_val = (a == b);',['a','b'])
assert_equal(res,(a == b))
def check_lt(self,level=5):
a,b = 1,2
res = inline_tools.inline('return_val = (a < b);',['a','b'])
assert_equal(res,(a < b))
def check_gt(self,level=5):
a,b = 1,2
res = inline_tools.inline('return_val = (a > b);',['a','b'])
assert_equal(res,(a > b))
def check_gte(self,level=5):
a,b = 1,2
res = inline_tools.inline('return_val = (a >= b);',['a','b'])
assert_equal(res,(a >= b))
def check_lte(self,level=5):
a,b = 1,2
res = inline_tools.inline('return_val = (a <= b);',['a','b'])
assert_equal(res,(a <= b))
def check_not_equal(self,level=5):
a,b = 1,2
res = inline_tools.inline('return_val = (a != b);',['a','b'])
assert_equal(res,(a != b))
def check_int(self,level=5):
a = 1
res = inline_tools.inline('return_val = (a == 1);',['a'])
assert_equal(res,(a == 1))
def check_int2(self,level=5):
a = 1
res = inline_tools.inline('return_val = (1 == a);',['a'])
assert_equal(res,(a == 1))
def check_unsigned_long(self,level=5):
a = 1
res = inline_tools.inline('return_val = (a == (unsigned long)1);',['a'])
assert_equal(res,(a == 1))
def check_double(self,level=5):
a = 1
res = inline_tools.inline('return_val = (a == 1.0);',['a'])
assert_equal(res,(a == 1.0))
def check_char(self,level=5):
a = "hello"
res = inline_tools.inline('return_val = (a == "hello");',['a'])
assert_equal(res,(a == "hello"))
def check_std_string(self,level=5):
a = "hello"
code = """
std::string hello = std::string("hello");
return_val = (a == hello);
"""
res = inline_tools.inline(code,['a'])
assert_equal(res,(a == "hello"))
class test_object_repr(NumpyTestCase):
def check_repr(self,level=5):
class foo:
def __str__(self):
return "str return"
def __repr__(self):
return "repr return"
a = foo()
res = inline_tools.inline('return_val = a.repr();',['a'])
first = sys.getrefcount(res)
del res
res = inline_tools.inline('return_val = a.repr();',['a'])
second = sys.getrefcount(res)
assert_equal(first,second)
assert_equal(res,"repr return")
class test_object_str(NumpyTestCase):
def check_str(self,level=5):
class foo:
def __str__(self):
return "str return"
def __repr__(self):
return "repr return"
a = foo()
res = inline_tools.inline('return_val = a.str();',['a'])
first = sys.getrefcount(res)
del res
res = inline_tools.inline('return_val = a.str();',['a'])
second = sys.getrefcount(res)
assert_equal(first,second)
print res
assert_equal(res,"str return")
class test_object_unicode(NumpyTestCase):
# This ain't going to win awards for test of the year...
def check_unicode(self,level=5):
class foo:
def __repr__(self):
return "repr return"
def __str__(self):
return "unicode"
a= foo()
res = inline_tools.inline('return_val = a.unicode();',['a'])
first = sys.getrefcount(res)
del res
res = inline_tools.inline('return_val = a.unicode();',['a'])
second = sys.getrefcount(res)
assert_equal(first,second)
assert_equal(res,"unicode")
class test_object_is_callable(NumpyTestCase):
def check_true(self,level=5):
class foo:
def __call__(self):
return 0
a= foo()
res = inline_tools.inline('return_val = a.is_callable();',['a'])
assert res
def check_false(self,level=5):
class foo:
pass
a= foo()
res = inline_tools.inline('return_val = a.is_callable();',['a'])
assert not res
class test_object_call(NumpyTestCase):
def check_noargs(self,level=5):
def foo():
return (1,2,3)
res = inline_tools.inline('return_val = foo.call();',['foo'])
assert_equal(res,(1,2,3))
assert_equal(sys.getrefcount(res),2)
def check_args(self,level=5):
def foo(val1,val2):
return (val1,val2)
code = """
py::tuple args(2);
args[0] = 1;
args[1] = "hello";
return_val = foo.call(args);
"""
res = inline_tools.inline(code,['foo'])
assert_equal(res,(1,"hello"))
assert_equal(sys.getrefcount(res),2)
def check_args_kw(self,level=5):
def foo(val1,val2,val3=1):
return (val1,val2,val3)
code = """
py::tuple args(2);
args[0] = 1;
args[1] = "hello";
py::dict kw;
kw["val3"] = 3;
return_val = foo.call(args,kw);
"""
res = inline_tools.inline(code,['foo'])
assert_equal(res,(1,"hello",3))
assert_equal(sys.getrefcount(res),2)
def check_noargs_with_args(self,level=5):
# calling a function that does take args with args
# should fail.
def foo():
return "blah"
code = """
py::tuple args(2);
args[0] = 1;
args[1] = "hello";
return_val = foo.call(args);
"""
try:
first = sys.getrefcount(foo)
res = inline_tools.inline(code,['foo'])
except TypeError:
second = sys.getrefcount(foo)
try:
res = inline_tools.inline(code,['foo'])
except TypeError:
third = sys.getrefcount(foo)
# first should == second, but the weird refcount error
assert_equal(second,third)
class test_object_mcall(NumpyTestCase):
def check_noargs(self,level=5):
a = foo()
res = inline_tools.inline('return_val = a.mcall("bar");',['a'])
assert_equal(res,"bar results")
first = sys.getrefcount(res)
del res
res = inline_tools.inline('return_val = a.mcall("bar");',['a'])
assert_equal(res,"bar results")
second = sys.getrefcount(res)
assert_equal(first,second)
def check_args(self,level=5):
a = foo()
code = """
py::tuple args(2);
args[0] = 1;
args[1] = "hello";
return_val = a.mcall("bar2",args);
"""
res = inline_tools.inline(code,['a'])
assert_equal(res,(1,"hello"))
assert_equal(sys.getrefcount(res),2)
def check_args_kw(self,level=5):
a = foo()
code = """
py::tuple args(2);
args[0] = 1;
args[1] = "hello";
py::dict kw;
kw["val3"] = 3;
return_val = a.mcall("bar3",args,kw);
"""
res = inline_tools.inline(code,['a'])
assert_equal(res,(1,"hello",3))
assert_equal(sys.getrefcount(res),2)
def check_std_noargs(self,level=5):
a = foo()
method = "bar"
res = inline_tools.inline('return_val = a.mcall(method);',['a','method'])
assert_equal(res,"bar results")
first = sys.getrefcount(res)
del res
res = inline_tools.inline('return_val = a.mcall(method);',['a','method'])
assert_equal(res,"bar results")
second = sys.getrefcount(res)
assert_equal(first,second)
def check_std_args(self,level=5):
a = foo()
method = "bar2"
code = """
py::tuple args(2);
args[0] = 1;
args[1] = "hello";
return_val = a.mcall(method,args);
"""
res = inline_tools.inline(code,['a','method'])
assert_equal(res,(1,"hello"))
assert_equal(sys.getrefcount(res),2)
def check_std_args_kw(self,level=5):
a = foo()
method = "bar3"
code = """
py::tuple args(2);
args[0] = 1;
args[1] = "hello";
py::dict kw;
kw["val3"] = 3;
return_val = a.mcall(method,args,kw);
"""
res = inline_tools.inline(code,['a','method'])
assert_equal(res,(1,"hello",3))
assert_equal(sys.getrefcount(res),2)
def check_noargs_with_args(self,level=5):
# calling a function that does take args with args
# should fail.
a = foo()
code = """
py::tuple args(2);
args[0] = 1;
args[1] = "hello";
return_val = a.mcall("bar",args);
"""
try:
first = sys.getrefcount(a)
res = inline_tools.inline(code,['a'])
except TypeError:
second = sys.getrefcount(a)
try:
res = inline_tools.inline(code,['a'])
except TypeError:
third = sys.getrefcount(a)
# first should == second, but the weird refcount error
assert_equal(second,third)
class test_object_hash(NumpyTestCase):
def check_hash(self,level=5):
class foo:
def __hash__(self):
return 123
a= foo()
res = inline_tools.inline('return_val = a.hash(); ',['a'])
print 'hash:', res
assert_equal(res,123)
class test_object_is_true(NumpyTestCase):
def check_true(self,level=5):
class foo:
pass
a= foo()
res = inline_tools.inline('return_val = a.is_true();',['a'])
assert_equal(res,1)
def check_false(self,level=5):
a= None
res = inline_tools.inline('return_val = a.is_true();',['a'])
assert_equal(res,0)
class test_object_is_true(NumpyTestCase):
def check_false(self,level=5):
class foo:
pass
a= foo()
res = inline_tools.inline('return_val = a.mcall("not");',['a'])
assert_equal(res,0)
def check_true(self,level=5):
a= None
res = inline_tools.inline('return_val = a.mcall("not");',['a'])
assert_equal(res,1)
class test_object_type(NumpyTestCase):
def check_type(self,level=5):
class foo:
pass
a= foo()
res = inline_tools.inline('return_val = a.type();',['a'])
assert_equal(res,type(a))
class test_object_size(NumpyTestCase):
def check_size(self,level=5):
class foo:
def __len__(self):
return 10
a= foo()
res = inline_tools.inline('return_val = a.size();',['a'])
assert_equal(res,len(a))
def check_len(self,level=5):
class foo:
def __len__(self):
return 10
a= foo()
res = inline_tools.inline('return_val = a.len();',['a'])
assert_equal(res,len(a))
def check_length(self,level=5):
class foo:
def __len__(self):
return 10
a= foo()
res = inline_tools.inline('return_val = a.length();',['a'])
assert_equal(res,len(a))
from UserList import UserList
class test_object_set_item_op_index(NumpyTestCase):
def check_list_refcount(self,level=5):
a = UserList([1,2,3])
# temporary refcount fix until I understand why it incs by one.
inline_tools.inline("a[1] = 1234;",['a'])
before1 = sys.getrefcount(a)
after1 = sys.getrefcount(a)
assert_equal(after1,before1)
def check_set_int(self,level=5):
a = UserList([1,2,3])
inline_tools.inline("a[1] = 1234;",['a'])
assert_equal(sys.getrefcount(a[1]),2)
assert_equal(a[1],1234)
def check_set_double(self,level=5):
a = UserList([1,2,3])
inline_tools.inline("a[1] = 123.0;",['a'])
assert_equal(sys.getrefcount(a[1]),2)
assert_equal(a[1],123.0)
def check_set_char(self,level=5):
a = UserList([1,2,3])
inline_tools.inline('a[1] = "bubba";',['a'])
assert_equal(sys.getrefcount(a[1]),2)
assert_equal(a[1],'bubba')
def check_set_string(self,level=5):
a = UserList([1,2,3])
inline_tools.inline('a[1] = std::string("sissy");',['a'])
assert_equal(sys.getrefcount(a[1]),2)
assert_equal(a[1],'sissy')
def check_set_string(self,level=5):
a = UserList([1,2,3])
inline_tools.inline('a[1] = std::complex<double>(1,1);',['a'])
assert_equal(sys.getrefcount(a[1]),2)
assert_equal(a[1],1+1j)
from UserDict import UserDict
class test_object_set_item_op_key(NumpyTestCase):
def check_key_refcount(self,level=5):
a = UserDict()
code = """
py::object one = 1;
py::object two = 2;
py::tuple ref_counts(3);
py::tuple obj_counts(3);
py::tuple val_counts(3);
py::tuple key_counts(3);
obj_counts[0] = a.refcount();
key_counts[0] = one.refcount();
val_counts[0] = two.refcount();
a[1] = 2;
obj_counts[1] = a.refcount();
key_counts[1] = one.refcount();
val_counts[1] = two.refcount();
a[1] = 2;
obj_counts[2] = a.refcount();
key_counts[2] = one.refcount();
val_counts[2] = two.refcount();
ref_counts[0] = obj_counts;
ref_counts[1] = key_counts;
ref_counts[2] = val_counts;
return_val = ref_counts;
"""
obj,key,val = inline_tools.inline(code,['a'])
assert_equal(obj[0],obj[1])
assert_equal(obj[1],obj[2])
assert_equal(key[0] + 1, key[1])
assert_equal(key[1], key[2])
assert_equal(val[0] + 1, val[1])
assert_equal(val[1], val[2])
def check_set_double_exists(self,level=5):
a = UserDict()
key = 10.0
a[key] = 100.0
inline_tools.inline('a[key] = 123.0;',['a','key'])
first = sys.getrefcount(key)
inline_tools.inline('a[key] = 123.0;',['a','key'])
second = sys.getrefcount(key)
assert_equal(first,second)
# !! I think the following should be 3
assert_equal(sys.getrefcount(key),5)
assert_equal(sys.getrefcount(a[key]),2)
assert_equal(a[key],123.0)
def check_set_double_new(self,level=5):
a = UserDict()
key = 1.0
inline_tools.inline('a[key] = 123.0;',['a','key'])
assert_equal(sys.getrefcount(key),4) # should be 3
assert_equal(sys.getrefcount(a[key]),2)
assert_equal(a[key],123.0)
def check_set_complex(self,level=5):
a = UserDict()
key = 1+1j
inline_tools.inline("a[key] = 1234;",['a','key'])
assert_equal(sys.getrefcount(key),3)
assert_equal(sys.getrefcount(a[key]),2)
assert_equal(a[key],1234)
def check_set_char(self,level=5):
a = UserDict()
inline_tools.inline('a["hello"] = 123.0;',['a'])
assert_equal(sys.getrefcount(a["hello"]),2)
assert_equal(a["hello"],123.0)
def check_set_class(self,level=5):
a = UserDict()
class foo:
def __init__(self,val):
self.val = val
def __hash__(self):
return self.val
key = foo(4)
inline_tools.inline('a[key] = "bubba";',['a','key'])
first = sys.getrefcount(key)
inline_tools.inline('a[key] = "bubba";',['a','key'])
second = sys.getrefcount(key)
# I don't think we're leaking if this is true
assert_equal(first,second)
# !! BUT -- I think this should be 3
assert_equal(sys.getrefcount(key),4)
assert_equal(sys.getrefcount(a[key]),2)
assert_equal(a[key],'bubba')
def check_set_from_member(self,level=5):
a = UserDict()
a['first'] = 1
a['second'] = 2
inline_tools.inline('a["first"] = a["second"];',['a'])
assert_equal(a['first'],a['second'])
if __name__ == "__main__":
import sys
if len(sys.argv) == 1:
sys.argv.extend(["--level=5"])
NumpyTest().run()
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