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|
import py, re
import sys, os, math, weakref
from cffi import FFI, VerificationError, VerificationMissing, model, FFIError
from testing.support import *
lib_m = ['m']
if sys.platform == 'win32':
#there is a small chance this fails on Mingw via environ $CC
import distutils.ccompiler
if distutils.ccompiler.get_default_compiler() == 'msvc':
lib_m = ['msvcrt']
pass # no obvious -Werror equivalent on MSVC
else:
if (sys.platform == 'darwin' and
[int(x) for x in os.uname()[2].split('.')] >= [11, 0, 0]):
# assume a standard clang or gcc
extra_compile_args = ['-Werror', '-Wall', '-Wextra', '-Wconversion']
# special things for clang
extra_compile_args.append('-Qunused-arguments')
else:
# assume a standard gcc
extra_compile_args = ['-Werror', '-Wall', '-Wextra', '-Wconversion']
class FFI(FFI):
def verify(self, *args, **kwds):
return super(FFI, self).verify(
*args, extra_compile_args=extra_compile_args, **kwds)
def setup_module():
import cffi.verifier
cffi.verifier.cleanup_tmpdir()
#
# check that no $ sign is produced in the C file; it used to be the
# case that anonymous enums would produce '$enum_$1', which was
# used as part of a function name. GCC accepts such names, but it's
# apparently non-standard.
_r_comment = re.compile(r"/\*.*?\*/|//.*?$", re.DOTALL | re.MULTILINE)
_r_string = re.compile(r'\".*?\"')
def _write_source_and_check(self, file=None):
base_write_source(self, file)
if file is None:
f = open(self.sourcefilename)
data = f.read()
f.close()
data = _r_comment.sub(' ', data)
data = _r_string.sub('"skipped"', data)
assert '$' not in data
base_write_source = cffi.verifier.Verifier._write_source
cffi.verifier.Verifier._write_source = _write_source_and_check
def test_module_type():
import cffi.verifier
ffi = FFI()
lib = ffi.verify()
if hasattr(lib, '_cffi_python_module'):
print('verify got a PYTHON module')
if hasattr(lib, '_cffi_generic_module'):
print('verify got a GENERIC module')
expected_generic = (cffi.verifier._FORCE_GENERIC_ENGINE or
'__pypy__' in sys.builtin_module_names)
assert hasattr(lib, '_cffi_python_module') == (not expected_generic)
assert hasattr(lib, '_cffi_generic_module') == expected_generic
def test_missing_function(ffi=None):
# uses the FFI hacked above with '-Werror'
if ffi is None:
ffi = FFI()
ffi.cdef("void some_completely_unknown_function();")
try:
lib = ffi.verify()
except (VerificationError, OSError):
pass # expected case: we get a VerificationError
else:
# but depending on compiler and loader details, maybe
# 'lib' could actually be imported but will fail if we
# actually try to call the unknown function... Hard
# to test anything more.
pass
def test_missing_function_import_error():
# uses the original FFI that just gives a warning during compilation
import cffi
test_missing_function(ffi=cffi.FFI())
def test_simple_case():
ffi = FFI()
ffi.cdef("double sin(double x);")
lib = ffi.verify('#include <math.h>', libraries=lib_m)
assert lib.sin(1.23) == math.sin(1.23)
def _Wconversion(cdef, source, **kargs):
if sys.platform == 'win32':
py.test.skip("needs GCC or Clang")
ffi = FFI()
ffi.cdef(cdef)
py.test.raises(VerificationError, ffi.verify, source, **kargs)
extra_compile_args_orig = extra_compile_args[:]
extra_compile_args.remove('-Wconversion')
try:
lib = ffi.verify(source, **kargs)
finally:
extra_compile_args[:] = extra_compile_args_orig
return lib
def test_Wconversion_unsigned():
_Wconversion("unsigned foo(void);",
"int foo(void) { return -1;}")
def test_Wconversion_integer():
_Wconversion("short foo(void);",
"long long foo(void) { return 1<<sizeof(short);}")
def test_Wconversion_floating():
lib = _Wconversion("float sin(double);",
"#include <math.h>", libraries=lib_m)
res = lib.sin(1.23)
assert res != math.sin(1.23) # not exact, because of double->float
assert abs(res - math.sin(1.23)) < 1E-5
def test_Wconversion_float2int():
_Wconversion("int sinf(float);",
"#include <math.h>", libraries=lib_m)
def test_Wconversion_double2int():
_Wconversion("int sin(double);",
"#include <math.h>", libraries=lib_m)
def test_rounding_1():
ffi = FFI()
ffi.cdef("double sinf(float x);")
lib = ffi.verify('#include <math.h>', libraries=lib_m)
res = lib.sinf(1.23)
assert res != math.sin(1.23) # not exact, because of double->float
assert abs(res - math.sin(1.23)) < 1E-5
def test_rounding_2():
ffi = FFI()
ffi.cdef("double sin(float x);")
lib = ffi.verify('#include <math.h>', libraries=lib_m)
res = lib.sin(1.23)
assert res != math.sin(1.23) # not exact, because of double->float
assert abs(res - math.sin(1.23)) < 1E-5
def test_strlen_exact():
ffi = FFI()
ffi.cdef("size_t strlen(const char *s);")
lib = ffi.verify("#include <string.h>")
assert lib.strlen(b"hi there!") == 9
def test_strlen_approximate():
lib = _Wconversion("int strlen(char *s);",
"#include <string.h>")
assert lib.strlen(b"hi there!") == 9
def test_return_approximate():
for typename in ['short', 'int', 'long', 'long long']:
ffi = FFI()
ffi.cdef("%s foo(signed char x);" % typename)
lib = ffi.verify("signed char foo(signed char x) { return x;}")
assert lib.foo(-128) == -128
assert lib.foo(+127) == +127
def test_strlen_array_of_char():
ffi = FFI()
ffi.cdef("size_t strlen(char[]);")
lib = ffi.verify("#include <string.h>")
assert lib.strlen(b"hello") == 5
def test_longdouble():
ffi = FFI()
ffi.cdef("long double sinl(long double x);")
lib = ffi.verify('#include <math.h>', libraries=lib_m)
for input in [1.23,
ffi.cast("double", 1.23),
ffi.cast("long double", 1.23)]:
x = lib.sinl(input)
assert repr(x).startswith("<cdata 'long double'")
assert (float(x) - math.sin(1.23)) < 1E-10
def test_longdouble_precision():
# Test that we don't loose any precision of 'long double' when
# passing through Python and CFFI.
ffi = FFI()
ffi.cdef("long double step1(long double x);")
SAME_SIZE = ffi.sizeof("long double") == ffi.sizeof("double")
lib = ffi.verify("""
long double step1(long double x)
{
return 4*x-x*x;
}
""")
def do(cast_to_double):
x = 0.9789
for i in range(10000):
x = lib.step1(x)
if cast_to_double:
x = float(x)
return float(x)
more_precise = do(False)
less_precise = do(True)
if SAME_SIZE:
assert more_precise == less_precise
else:
assert abs(more_precise - less_precise) > 0.1
# Check the particular results on Intel
import platform
if (platform.machine().startswith('i386') or
platform.machine().startswith('x86')):
assert abs(more_precise - 0.656769) < 0.001
assert abs(less_precise - 3.99091) < 0.001
else:
py.test.skip("don't know the very exact precision of 'long double'")
all_primitive_types = model.PrimitiveType.ALL_PRIMITIVE_TYPES
if sys.platform == 'win32':
all_primitive_types = all_primitive_types.copy()
del all_primitive_types['ssize_t']
all_integer_types = sorted(tp for tp in all_primitive_types
if all_primitive_types[tp] == 'i')
all_float_types = sorted(tp for tp in all_primitive_types
if all_primitive_types[tp] == 'f')
def all_signed_integer_types(ffi):
return [x for x in all_integer_types if int(ffi.cast(x, -1)) < 0]
def all_unsigned_integer_types(ffi):
return [x for x in all_integer_types if int(ffi.cast(x, -1)) > 0]
def test_primitive_category():
for typename in all_primitive_types:
tp = model.PrimitiveType(typename)
C = tp.is_char_type()
F = tp.is_float_type()
I = tp.is_integer_type()
assert C == (typename in ('char', 'wchar_t'))
assert F == (typename in ('float', 'double', 'long double'))
assert I + F + C == 1 # one and only one of them is true
def test_all_integer_and_float_types():
typenames = []
for typename in all_primitive_types:
if (all_primitive_types[typename] == 'c' or
typename == '_Bool' or typename == 'long double'):
pass
else:
typenames.append(typename)
#
ffi = FFI()
ffi.cdef('\n'.join(["%s foo_%s(%s);" % (tp, tp.replace(' ', '_'), tp)
for tp in typenames]))
lib = ffi.verify('\n'.join(["%s foo_%s(%s x) { return (%s)(x+1); }" %
(tp, tp.replace(' ', '_'), tp, tp)
for tp in typenames]))
for typename in typenames:
foo = getattr(lib, 'foo_%s' % typename.replace(' ', '_'))
assert foo(42) == 43
if sys.version < '3':
assert foo(long(44)) == 45
assert foo(ffi.cast(typename, 46)) == 47
py.test.raises(TypeError, foo, ffi.NULL)
#
# check for overflow cases
if all_primitive_types[typename] == 'f':
continue
for value in [-2**80, -2**40, -2**20, -2**10, -2**5, -1,
2**5, 2**10, 2**20, 2**40, 2**80]:
overflows = int(ffi.cast(typename, value)) != value
if overflows:
py.test.raises(OverflowError, foo, value)
else:
assert foo(value) == value + 1
def test_var_signed_integer_types():
ffi = FFI()
lst = all_signed_integer_types(ffi)
csource = "\n".join(["%s somevar_%s;" % (tp, tp.replace(' ', '_'))
for tp in lst])
ffi.cdef(csource)
lib = ffi.verify(csource)
for tp in lst:
varname = 'somevar_%s' % tp.replace(' ', '_')
sz = ffi.sizeof(tp)
max = (1 << (8*sz-1)) - 1
min = -(1 << (8*sz-1))
setattr(lib, varname, max)
assert getattr(lib, varname) == max
setattr(lib, varname, min)
assert getattr(lib, varname) == min
py.test.raises(OverflowError, setattr, lib, varname, max+1)
py.test.raises(OverflowError, setattr, lib, varname, min-1)
def test_var_unsigned_integer_types():
ffi = FFI()
lst = all_unsigned_integer_types(ffi)
csource = "\n".join(["%s somevar_%s;" % (tp, tp.replace(' ', '_'))
for tp in lst])
ffi.cdef(csource)
lib = ffi.verify(csource)
for tp in lst:
varname = 'somevar_%s' % tp.replace(' ', '_')
sz = ffi.sizeof(tp)
if tp != '_Bool':
max = (1 << (8*sz)) - 1
else:
max = 1
setattr(lib, varname, max)
assert getattr(lib, varname) == max
setattr(lib, varname, 0)
assert getattr(lib, varname) == 0
py.test.raises(OverflowError, setattr, lib, varname, max+1)
py.test.raises(OverflowError, setattr, lib, varname, -1)
def test_fn_signed_integer_types():
ffi = FFI()
lst = all_signed_integer_types(ffi)
cdefsrc = "\n".join(["%s somefn_%s(%s);" % (tp, tp.replace(' ', '_'), tp)
for tp in lst])
ffi.cdef(cdefsrc)
verifysrc = "\n".join(["%s somefn_%s(%s x) { return x; }" %
(tp, tp.replace(' ', '_'), tp) for tp in lst])
lib = ffi.verify(verifysrc)
for tp in lst:
fnname = 'somefn_%s' % tp.replace(' ', '_')
sz = ffi.sizeof(tp)
max = (1 << (8*sz-1)) - 1
min = -(1 << (8*sz-1))
fn = getattr(lib, fnname)
assert fn(max) == max
assert fn(min) == min
py.test.raises(OverflowError, fn, max + 1)
py.test.raises(OverflowError, fn, min - 1)
def test_fn_unsigned_integer_types():
ffi = FFI()
lst = all_unsigned_integer_types(ffi)
cdefsrc = "\n".join(["%s somefn_%s(%s);" % (tp, tp.replace(' ', '_'), tp)
for tp in lst])
ffi.cdef(cdefsrc)
verifysrc = "\n".join(["%s somefn_%s(%s x) { return x; }" %
(tp, tp.replace(' ', '_'), tp) for tp in lst])
lib = ffi.verify(verifysrc)
for tp in lst:
fnname = 'somefn_%s' % tp.replace(' ', '_')
sz = ffi.sizeof(tp)
if tp != '_Bool':
max = (1 << (8*sz)) - 1
else:
max = 1
fn = getattr(lib, fnname)
assert fn(max) == max
assert fn(0) == 0
py.test.raises(OverflowError, fn, max + 1)
py.test.raises(OverflowError, fn, -1)
def test_char_type():
ffi = FFI()
ffi.cdef("char foo(char);")
lib = ffi.verify("char foo(char x) { return ++x; }")
assert lib.foo(b"A") == b"B"
py.test.raises(TypeError, lib.foo, b"bar")
py.test.raises(TypeError, lib.foo, "bar")
def test_wchar_type():
ffi = FFI()
if ffi.sizeof('wchar_t') == 2:
uniexample1 = u+'\u1234'
uniexample2 = u+'\u1235'
else:
uniexample1 = u+'\U00012345'
uniexample2 = u+'\U00012346'
#
ffi.cdef("wchar_t foo(wchar_t);")
lib = ffi.verify("wchar_t foo(wchar_t x) { return x+1; }")
assert lib.foo(uniexample1) == uniexample2
def test_no_argument():
ffi = FFI()
ffi.cdef("int foo(void);")
lib = ffi.verify("int foo(void) { return 42; }")
assert lib.foo() == 42
def test_two_arguments():
ffi = FFI()
ffi.cdef("int foo(int, int);")
lib = ffi.verify("int foo(int a, int b) { return a - b; }")
assert lib.foo(40, -2) == 42
def test_macro():
ffi = FFI()
ffi.cdef("int foo(int, int);")
lib = ffi.verify("#define foo(a, b) ((a) * (b))")
assert lib.foo(-6, -7) == 42
def test_ptr():
ffi = FFI()
ffi.cdef("int *foo(int *);")
lib = ffi.verify("int *foo(int *a) { return a; }")
assert lib.foo(ffi.NULL) == ffi.NULL
p = ffi.new("int *", 42)
q = ffi.new("int *", 42)
assert lib.foo(p) == p
assert lib.foo(q) != p
def test_bogus_ptr():
ffi = FFI()
ffi.cdef("int *foo(int *);")
lib = ffi.verify("int *foo(int *a) { return a; }")
py.test.raises(TypeError, lib.foo, ffi.new("short *", 42))
def test_verify_typedefs():
py.test.skip("ignored so far")
types = ['signed char', 'unsigned char', 'int', 'long']
for cdefed in types:
for real in types:
ffi = FFI()
ffi.cdef("typedef %s foo_t;" % cdefed)
if cdefed == real:
ffi.verify("typedef %s foo_t;" % real)
else:
py.test.raises(VerificationError, ffi.verify,
"typedef %s foo_t;" % real)
def test_nondecl_struct():
ffi = FFI()
ffi.cdef("typedef struct foo_s foo_t; int bar(foo_t *);")
lib = ffi.verify("typedef struct foo_s foo_t;\n"
"int bar(foo_t *f) { (void)f; return 42; }\n")
assert lib.bar(ffi.NULL) == 42
def test_ffi_full_struct():
ffi = FFI()
ffi.cdef("struct foo_s { char x; int y; long *z; };")
ffi.verify("struct foo_s { char x; int y; long *z; };")
#
if sys.platform != 'win32': # XXX fixme: only gives warnings
py.test.raises(VerificationError, ffi.verify,
"struct foo_s { char x; int y; int *z; };")
#
py.test.raises(VerificationError, ffi.verify,
"struct foo_s { int y; long *z; };")
#
e = py.test.raises(VerificationError, ffi.verify,
"struct foo_s { int y; char x; long *z; };")
assert str(e.value) == (
"struct foo_s: wrong offset for field 'x'"
" (we have 0, but C compiler says 4)")
#
e = py.test.raises(VerificationError, ffi.verify,
"struct foo_s { char x; int y; long *z; char extra; };")
assert str(e.value) == (
"struct foo_s: wrong total size"
" (we have %d, but C compiler says %d)" % (
ffi.sizeof("struct foo_s"),
ffi.sizeof("struct foo_s") + ffi.sizeof("long*")))
#
# a corner case that we cannot really detect, but where it has no
# bad consequences: the size is the same, but there is an extra field
# that replaces what is just padding in our declaration above
ffi.verify("struct foo_s { char x, extra; int y; long *z; };")
#
e = py.test.raises(VerificationError, ffi.verify,
"struct foo_s { char x; short pad; short y; long *z; };")
assert str(e.value) == (
"struct foo_s: wrong size for field 'y'"
" (we have 4, but C compiler says 2)")
def test_ffi_nonfull_struct():
ffi = FFI()
ffi.cdef("""
struct foo_s {
int x;
...;
};
""")
py.test.raises(VerificationMissing, ffi.sizeof, 'struct foo_s')
py.test.raises(VerificationMissing, ffi.offsetof, 'struct foo_s', 'x')
py.test.raises(VerificationMissing, ffi.new, 'struct foo_s *')
ffi.verify("""
struct foo_s {
int a, b, x, c, d, e;
};
""")
assert ffi.sizeof('struct foo_s') == 6 * ffi.sizeof('int')
assert ffi.offsetof('struct foo_s', 'x') == 2 * ffi.sizeof('int')
def test_ffi_nonfull_alignment():
ffi = FFI()
ffi.cdef("struct foo_s { char x; ...; };")
ffi.verify("struct foo_s { int a, b; char x; };")
assert ffi.sizeof('struct foo_s') == 3 * ffi.sizeof('int')
assert ffi.alignof('struct foo_s') == ffi.sizeof('int')
def _check_field_match(typename, real, expect_mismatch):
ffi = FFI()
testing_by_size = (expect_mismatch == 'by_size')
if testing_by_size:
expect_mismatch = ffi.sizeof(typename) != ffi.sizeof(real)
ffi.cdef("struct foo_s { %s x; ...; };" % typename)
try:
ffi.verify("struct foo_s { %s x; };" % real)
except VerificationError:
if not expect_mismatch:
if testing_by_size and typename != real:
print("ignoring mismatch between %s* and %s* even though "
"they have the same size" % (typename, real))
return
raise AssertionError("unexpected mismatch: %s should be accepted "
"as equal to %s" % (typename, real))
else:
if expect_mismatch:
raise AssertionError("mismatch not detected: "
"%s != %s" % (typename, real))
def test_struct_bad_sized_integer():
for typename in ['int8_t', 'int16_t', 'int32_t', 'int64_t']:
for real in ['int8_t', 'int16_t', 'int32_t', 'int64_t']:
_check_field_match(typename, real, "by_size")
def test_struct_bad_sized_float():
for typename in all_float_types:
for real in all_float_types:
_check_field_match(typename, real, "by_size")
def test_struct_signedness_ignored():
_check_field_match("int", "unsigned int", expect_mismatch=False)
_check_field_match("unsigned short", "signed short", expect_mismatch=False)
def test_struct_float_vs_int():
if sys.platform == 'win32':
py.test.skip("XXX fixme: only gives warnings")
ffi = FFI()
for typename in all_signed_integer_types(ffi):
for real in all_float_types:
_check_field_match(typename, real, expect_mismatch=True)
for typename in all_float_types:
for real in all_signed_integer_types(ffi):
_check_field_match(typename, real, expect_mismatch=True)
def test_struct_array_field():
ffi = FFI()
ffi.cdef("struct foo_s { int a[17]; ...; };")
ffi.verify("struct foo_s { int x; int a[17]; int y; };")
assert ffi.sizeof('struct foo_s') == 19 * ffi.sizeof('int')
s = ffi.new("struct foo_s *")
assert ffi.sizeof(s.a) == 17 * ffi.sizeof('int')
def test_struct_array_no_length():
ffi = FFI()
ffi.cdef("struct foo_s { int a[]; int y; ...; };\n"
"int bar(struct foo_s *);\n")
lib = ffi.verify("struct foo_s { int x; int a[17]; int y; };\n"
"int bar(struct foo_s *f) { return f->a[14]; }\n")
assert ffi.sizeof('struct foo_s') == 19 * ffi.sizeof('int')
s = ffi.new("struct foo_s *")
assert ffi.typeof(s.a) is ffi.typeof('int *') # because no length
s.a[14] = 4242
assert lib.bar(s) == 4242
# with no declared length, out-of-bound accesses are not detected
s.a[17] = -521
assert s.y == s.a[17] == -521
#
s = ffi.new("struct foo_s *", {'a': list(range(17))})
assert s.a[16] == 16
# overflows at construction time not detected either
s = ffi.new("struct foo_s *", {'a': list(range(18))})
assert s.y == s.a[17] == 17
def test_struct_array_guess_length():
ffi = FFI()
ffi.cdef("struct foo_s { int a[...]; };")
ffi.verify("struct foo_s { int x; int a[17]; int y; };")
assert ffi.sizeof('struct foo_s') == 19 * ffi.sizeof('int')
s = ffi.new("struct foo_s *")
assert ffi.sizeof(s.a) == 17 * ffi.sizeof('int')
py.test.raises(IndexError, 's.a[17]')
def test_struct_array_c99_1():
if sys.platform == 'win32':
py.test.skip("requires C99")
ffi = FFI()
ffi.cdef("struct foo_s { int x; int a[]; };")
ffi.verify("struct foo_s { int x; int a[]; };")
assert ffi.sizeof('struct foo_s') == 1 * ffi.sizeof('int')
s = ffi.new("struct foo_s *", [424242, 4])
assert ffi.sizeof(s[0]) == 1 * ffi.sizeof('int') # the same in C
assert s.a[3] == 0
s = ffi.new("struct foo_s *", [424242, [-40, -30, -20, -10]])
assert ffi.sizeof(s[0]) == 1 * ffi.sizeof('int')
assert s.a[3] == -10
s = ffi.new("struct foo_s *")
assert ffi.sizeof(s[0]) == 1 * ffi.sizeof('int')
s = ffi.new("struct foo_s *", [424242])
assert ffi.sizeof(s[0]) == 1 * ffi.sizeof('int')
def test_struct_array_c99_2():
if sys.platform == 'win32':
py.test.skip("requires C99")
ffi = FFI()
ffi.cdef("struct foo_s { int x; int a[]; ...; };")
ffi.verify("struct foo_s { int x, y; int a[]; };")
assert ffi.sizeof('struct foo_s') == 2 * ffi.sizeof('int')
s = ffi.new("struct foo_s *", [424242, 4])
assert ffi.sizeof(s[0]) == 2 * ffi.sizeof('int')
assert s.a[3] == 0
s = ffi.new("struct foo_s *", [424242, [-40, -30, -20, -10]])
assert ffi.sizeof(s[0]) == 2 * ffi.sizeof('int')
assert s.a[3] == -10
s = ffi.new("struct foo_s *")
assert ffi.sizeof(s[0]) == 2 * ffi.sizeof('int')
s = ffi.new("struct foo_s *", [424242])
assert ffi.sizeof(s[0]) == 2 * ffi.sizeof('int')
def test_struct_ptr_to_array_field():
ffi = FFI()
ffi.cdef("struct foo_s { int (*a)[17]; ...; }; struct bar_s { ...; };")
ffi.verify("struct foo_s { int x; int (*a)[17]; int y; };\n"
"struct bar_s { int x; int *a; int y; };")
assert ffi.sizeof('struct foo_s') == ffi.sizeof("struct bar_s")
s = ffi.new("struct foo_s *")
assert ffi.sizeof(s.a) == ffi.sizeof('int(*)[17]') == ffi.sizeof("int *")
def test_struct_with_bitfield_exact():
ffi = FFI()
ffi.cdef("struct foo_s { int a:2, b:3; };")
ffi.verify("struct foo_s { int a:2, b:3; };")
s = ffi.new("struct foo_s *")
s.b = 3
py.test.raises(OverflowError, "s.b = 4")
assert s.b == 3
def test_struct_with_bitfield_enum():
ffi = FFI()
code = """
typedef enum { AA, BB, CC } foo_e;
typedef struct { foo_e f:2; } foo_s;
"""
ffi.cdef(code)
ffi.verify(code)
s = ffi.new("foo_s *")
s.f = 2
assert s.f == 2
def test_unsupported_struct_with_bitfield_ellipsis():
ffi = FFI()
py.test.raises(NotImplementedError, ffi.cdef,
"struct foo_s { int a:2, b:3; ...; };")
def test_global_constants():
ffi = FFI()
# use 'static const int', as generally documented, although in this
# case the 'static' is completely ignored.
ffi.cdef("static const int AA, BB, CC, DD;")
lib = ffi.verify("#define AA 42\n"
"#define BB (-43) // blah\n"
"#define CC (22*2) /* foobar */\n"
"#define DD ((unsigned int)142) /* foo\nbar */\n")
assert lib.AA == 42
assert lib.BB == -43
assert lib.CC == 44
assert lib.DD == 142
def test_global_const_int_size():
# integer constants: ignore the declared type, always just use the value
for value in [-2**63, -2**31, -2**15,
2**15-1, 2**15, 2**31-1, 2**31, 2**32-1, 2**32,
2**63-1, 2**63, 2**64-1]:
ffi = FFI()
if value == int(ffi.cast("long long", value)):
if value < 0:
vstr = '(-%dLL-1)' % (~value,)
else:
vstr = '%dLL' % value
elif value == int(ffi.cast("unsigned long long", value)):
vstr = '%dULL' % value
else:
raise AssertionError(value)
ffi.cdef("static const unsigned short AA;")
lib = ffi.verify("#define AA %s\n" % vstr)
assert lib.AA == value
assert type(lib.AA) is type(int(lib.AA))
def test_global_constants_non_int():
ffi = FFI()
ffi.cdef("static char *const PP;")
lib = ffi.verify('static char *const PP = "testing!";\n')
assert ffi.typeof(lib.PP) == ffi.typeof("char *")
assert ffi.string(lib.PP) == b"testing!"
def test_nonfull_enum():
ffi = FFI()
ffi.cdef("enum ee { EE1, EE2, EE3, ... \n \t };")
py.test.raises(VerificationMissing, ffi.cast, 'enum ee', 'EE2')
ffi.verify("enum ee { EE1=10, EE2, EE3=-10, EE4 };")
assert ffi.string(ffi.cast('enum ee', 11)) == "EE2"
assert ffi.string(ffi.cast('enum ee', -10)) == "EE3"
#
# try again
ffi.verify("enum ee { EE1=10, EE2, EE3=-10, EE4 };")
assert ffi.string(ffi.cast('enum ee', 11)) == "EE2"
#
assert ffi.typeof("enum ee").relements == {'EE1': 10, 'EE2': 11, 'EE3': -10}
assert ffi.typeof("enum ee").elements == {10: 'EE1', 11: 'EE2', -10: 'EE3'}
def test_full_enum():
ffi = FFI()
ffi.cdef("enum ee { EE1, EE2, EE3 };")
ffi.verify("enum ee { EE1, EE2, EE3 };")
py.test.raises(VerificationError, ffi.verify, "enum ee { EE1, EE2 };")
e = py.test.raises(VerificationError, ffi.verify,
"enum ee { EE1, EE3, EE2 };")
assert str(e.value) == 'enum ee: EE2 has the real value 2, not 1'
# extra items cannot be seen and have no bad consequence anyway
lib = ffi.verify("enum ee { EE1, EE2, EE3, EE4 };")
assert lib.EE3 == 2
def test_enum_usage():
ffi = FFI()
ffi.cdef("enum ee { EE1,EE2 }; typedef struct { enum ee x; } *sp;")
lib = ffi.verify("enum ee { EE1,EE2 }; typedef struct { enum ee x; } *sp;")
assert lib.EE2 == 1
s = ffi.new("sp", [lib.EE2])
assert s.x == 1
s.x = 17
assert s.x == 17
def test_anonymous_enum():
ffi = FFI()
ffi.cdef("enum { EE1 }; enum { EE2, EE3 };")
lib = ffi.verify("enum { EE1 }; enum { EE2, EE3 };")
assert lib.EE1 == 0
assert lib.EE2 == 0
assert lib.EE3 == 1
def test_nonfull_anonymous_enum():
ffi = FFI()
ffi.cdef("enum { EE1, ... }; enum { EE3, ... };")
lib = ffi.verify("enum { EE2, EE1 }; enum { EE3 };")
assert lib.EE1 == 1
assert lib.EE3 == 0
def test_nonfull_enum_syntax2():
ffi = FFI()
ffi.cdef("enum ee { EE1, EE2=\t..., EE3 };")
py.test.raises(VerificationMissing, ffi.cast, 'enum ee', 'EE1')
ffi.verify("enum ee { EE1=10, EE2, EE3=-10, EE4 };")
assert ffi.string(ffi.cast('enum ee', 11)) == 'EE2'
assert ffi.string(ffi.cast('enum ee', -10)) == 'EE3'
#
ffi = FFI()
ffi.cdef("enum ee { EE1, EE2=\t... };")
py.test.raises(VerificationMissing, ffi.cast, 'enum ee', 'EE1')
ffi.verify("enum ee { EE1=10, EE2, EE3=-10, EE4 };")
assert ffi.string(ffi.cast('enum ee', 11)) == 'EE2'
#
ffi = FFI()
ffi.cdef("enum ee2 { EE4=..., EE5=..., ... };")
ffi.verify("enum ee2 { EE4=-1234-5, EE5 }; ")
assert ffi.string(ffi.cast('enum ee2', -1239)) == 'EE4'
assert ffi.string(ffi.cast('enum ee2', -1238)) == 'EE5'
def test_get_set_errno():
ffi = FFI()
ffi.cdef("int foo(int);")
lib = ffi.verify("""
static int foo(int x)
{
errno += 1;
return x * 7;
}
""")
ffi.errno = 15
assert lib.foo(6) == 42
assert ffi.errno == 16
def test_define_int():
ffi = FFI()
ffi.cdef("#define FOO ...\n"
"\t#\tdefine\tBAR\t...\t\n"
"#define BAZ ...\n")
lib = ffi.verify("#define FOO 42\n"
"#define BAR (-44)\n"
"#define BAZ 0xffffffffffffffffULL\n")
assert lib.FOO == 42
assert lib.BAR == -44
assert lib.BAZ == 0xffffffffffffffff
def test_access_variable():
ffi = FFI()
ffi.cdef("int foo(void);\n"
"int somenumber;")
lib = ffi.verify("""
static int somenumber = 2;
static int foo(void) {
return somenumber * 7;
}
""")
assert lib.somenumber == 2
assert lib.foo() == 14
lib.somenumber = -6
assert lib.foo() == -42
assert lib.somenumber == -6
lib.somenumber = 2 # reset for the next run, if any
def test_access_address_of_variable():
# access the address of 'somenumber': need a trick
ffi = FFI()
ffi.cdef("int somenumber; static int *const somenumberptr;")
lib = ffi.verify("""
static int somenumber = 2;
#define somenumberptr (&somenumber)
""")
assert lib.somenumber == 2
lib.somenumberptr[0] = 42
assert lib.somenumber == 42
lib.somenumber = 2 # reset for the next run, if any
def test_access_array_variable(length=5):
ffi = FFI()
ffi.cdef("int foo(int);\n"
"int somenumber[%s];" % (length,))
lib = ffi.verify("""
static int somenumber[] = {2, 2, 3, 4, 5};
static int foo(int i) {
return somenumber[i] * 7;
}
""")
if length == '':
# a global variable of an unknown array length is implicitly
# transformed into a global pointer variable, because we can only
# work with array instances whose length we know. using a pointer
# instead of an array gives the correct effects.
assert repr(lib.somenumber).startswith("<cdata 'int *' 0x")
py.test.raises(TypeError, len, lib.somenumber)
else:
assert repr(lib.somenumber).startswith("<cdata 'int[%s]' 0x" % length)
assert len(lib.somenumber) == 5
assert lib.somenumber[3] == 4
assert lib.foo(3) == 28
lib.somenumber[3] = -6
assert lib.foo(3) == -42
assert lib.somenumber[3] == -6
assert lib.somenumber[4] == 5
lib.somenumber[3] = 4 # reset for the next run, if any
def test_access_array_variable_length_hidden():
test_access_array_variable(length='')
def test_access_struct_variable():
ffi = FFI()
ffi.cdef("struct foo { int x; ...; };\n"
"int foo(int);\n"
"struct foo stuff;")
lib = ffi.verify("""
struct foo { int x, y, z; };
static struct foo stuff = {2, 5, 8};
static int foo(int i) {
switch (i) {
case 0: return stuff.x * 7;
case 1: return stuff.y * 7;
case 2: return stuff.z * 7;
}
return -1;
}
""")
assert lib.stuff.x == 2
assert lib.foo(0) == 14
assert lib.foo(1) == 35
assert lib.foo(2) == 56
lib.stuff.x = -6
assert lib.foo(0) == -42
assert lib.foo(1) == 35
lib.stuff.x = 2 # reset for the next run, if any
def test_access_callback():
ffi = FFI()
ffi.cdef("int (*cb)(int);\n"
"int foo(int);\n"
"void reset_cb(void);")
lib = ffi.verify("""
static int g(int x) { return x * 7; }
static int (*cb)(int);
static int foo(int i) { return cb(i) - 1; }
static void reset_cb(void) { cb = g; }
""")
lib.reset_cb()
assert lib.foo(6) == 41
my_callback = ffi.callback("int(*)(int)", lambda n: n * 222)
lib.cb = my_callback
assert lib.foo(4) == 887
def test_access_callback_function_typedef():
ffi = FFI()
ffi.cdef("typedef int mycallback_t(int);\n"
"mycallback_t *cb;\n"
"int foo(int);\n"
"void reset_cb(void);")
lib = ffi.verify("""
static int g(int x) { return x * 7; }
static int (*cb)(int);
static int foo(int i) { return cb(i) - 1; }
static void reset_cb(void) { cb = g; }
""")
lib.reset_cb()
assert lib.foo(6) == 41
my_callback = ffi.callback("int(*)(int)", lambda n: n * 222)
lib.cb = my_callback
assert lib.foo(4) == 887
def test_ctypes_backend_forces_generic_engine():
from cffi.backend_ctypes import CTypesBackend
ffi = FFI(backend=CTypesBackend())
ffi.cdef("int func(int a);")
lib = ffi.verify("int func(int a) { return a * 42; }")
assert not hasattr(lib, '_cffi_python_module')
assert hasattr(lib, '_cffi_generic_module')
assert lib.func(100) == 4200
def test_call_with_struct_ptr():
ffi = FFI()
ffi.cdef("typedef struct { int x; ...; } foo_t; int foo(foo_t *);")
lib = ffi.verify("""
typedef struct { int y, x; } foo_t;
static int foo(foo_t *f) { return f->x * 7; }
""")
f = ffi.new("foo_t *")
f.x = 6
assert lib.foo(f) == 42
def test_unknown_type():
ffi = FFI()
ffi.cdef("""
typedef ... token_t;
int foo(token_t *);
#define TOKEN_SIZE ...
""")
lib = ffi.verify("""
typedef float token_t;
static int foo(token_t *tk) {
if (!tk)
return -42;
*tk += 1.601f;
return (int)*tk;
}
#define TOKEN_SIZE sizeof(token_t)
""")
# we cannot let ffi.new("token_t *") work, because we don't know ahead of
# time if it's ok to ask 'sizeof(token_t)' in the C code or not.
# See test_unknown_type_2. Workaround.
tkmem = ffi.new("char[]", lib.TOKEN_SIZE) # zero-initialized
tk = ffi.cast("token_t *", tkmem)
results = [lib.foo(tk) for i in range(6)]
assert results == [1, 3, 4, 6, 8, 9]
assert lib.foo(ffi.NULL) == -42
def test_unknown_type_2():
ffi = FFI()
ffi.cdef("typedef ... token_t;")
lib = ffi.verify("typedef struct token_s token_t;")
# assert did not crash, even though 'sizeof(token_t)' is not valid in C.
def test_unknown_type_3():
ffi = FFI()
ffi.cdef("""
typedef ... *token_p;
token_p foo(token_p);
""")
lib = ffi.verify("""
typedef struct _token_s *token_p;
token_p foo(token_p arg) {
if (arg)
return (token_p)0x12347;
else
return (token_p)0x12345;
}
""")
p = lib.foo(ffi.NULL)
assert int(ffi.cast("intptr_t", p)) == 0x12345
q = lib.foo(p)
assert int(ffi.cast("intptr_t", q)) == 0x12347
def test_varargs():
ffi = FFI()
ffi.cdef("int foo(int x, ...);")
lib = ffi.verify("""
int foo(int x, ...) {
va_list vargs;
va_start(vargs, x);
x -= va_arg(vargs, int);
x -= va_arg(vargs, int);
va_end(vargs);
return x;
}
""")
assert lib.foo(50, ffi.cast("int", 5), ffi.cast("int", 3)) == 42
def test_varargs_exact():
if sys.platform == 'win32':
py.test.skip("XXX fixme: only gives warnings")
ffi = FFI()
ffi.cdef("int foo(int x, ...);")
py.test.raises(VerificationError, ffi.verify, """
int foo(long long x, ...) {
return x;
}
""")
def test_varargs_struct():
ffi = FFI()
ffi.cdef("struct foo_s { char a; int b; }; int foo(int x, ...);")
lib = ffi.verify("""
struct foo_s {
char a; int b;
};
int foo(int x, ...) {
va_list vargs;
struct foo_s s;
va_start(vargs, x);
s = va_arg(vargs, struct foo_s);
va_end(vargs);
return s.a - s.b;
}
""")
s = ffi.new("struct foo_s *", [b'B', 1])
assert lib.foo(50, s[0]) == ord('A')
def test_autofilled_struct_as_argument():
ffi = FFI()
ffi.cdef("struct foo_s { long a; double b; ...; };\n"
"int foo(struct foo_s);")
lib = ffi.verify("""
struct foo_s {
double b;
long a;
};
int foo(struct foo_s s) {
return (int)s.a - (int)s.b;
}
""")
s = ffi.new("struct foo_s *", [100, 1])
assert lib.foo(s[0]) == 99
assert lib.foo([100, 1]) == 99
def test_autofilled_struct_as_argument_dynamic():
ffi = FFI()
ffi.cdef("struct foo_s { long a; ...; };\n"
"int (*foo)(struct foo_s);")
lib = ffi.verify("""
struct foo_s {
double b;
long a;
};
int foo1(struct foo_s s) {
return (int)s.a - (int)s.b;
}
int (*foo)(struct foo_s s) = &foo1;
""")
e = py.test.raises(NotImplementedError, lib.foo, "?")
msg = ("ctype 'struct foo_s' not supported as argument (it is a struct "
'declared with "...;", but the C calling convention may depend '
'on the missing fields)')
assert str(e.value) == msg
def test_func_returns_struct():
ffi = FFI()
ffi.cdef("""
struct foo_s { int aa, bb; };
struct foo_s foo(int a, int b);
""")
lib = ffi.verify("""
struct foo_s { int aa, bb; };
struct foo_s foo(int a, int b) {
struct foo_s r;
r.aa = a*a;
r.bb = b*b;
return r;
}
""")
s = lib.foo(6, 7)
assert repr(s) == "<cdata 'struct foo_s' owning 8 bytes>"
assert s.aa == 36
assert s.bb == 49
def test_func_as_funcptr():
ffi = FFI()
ffi.cdef("int *(*const fooptr)(void);")
lib = ffi.verify("""
int *foo(void) {
return (int*)"foobar";
}
int *(*fooptr)(void) = foo;
""")
foochar = ffi.cast("char *(*)(void)", lib.fooptr)
s = foochar()
assert ffi.string(s) == b"foobar"
def test_funcptr_as_argument():
ffi = FFI()
ffi.cdef("""
void qsort(void *base, size_t nel, size_t width,
int (*compar)(const void *, const void *));
""")
ffi.verify("#include <stdlib.h>")
def test_func_as_argument():
ffi = FFI()
ffi.cdef("""
void qsort(void *base, size_t nel, size_t width,
int compar(const void *, const void *));
""")
ffi.verify("#include <stdlib.h>")
def test_array_as_argument():
ffi = FFI()
ffi.cdef("""
size_t strlen(char string[]);
""")
ffi.verify("#include <string.h>")
def test_enum_as_argument():
ffi = FFI()
ffi.cdef("""
enum foo_e { AA, BB, ... };
int foo_func(enum foo_e);
""")
lib = ffi.verify("""
enum foo_e { AA, CC, BB };
int foo_func(enum foo_e e) { return (int)e; }
""")
assert lib.foo_func(lib.BB) == 2
py.test.raises(TypeError, lib.foo_func, "BB")
def test_enum_as_function_result():
ffi = FFI()
ffi.cdef("""
enum foo_e { AA, BB, ... };
enum foo_e foo_func(int x);
""")
lib = ffi.verify("""
enum foo_e { AA, CC, BB };
enum foo_e foo_func(int x) { return (enum foo_e)x; }
""")
assert lib.foo_func(lib.BB) == lib.BB == 2
def test_enum_values():
ffi = FFI()
ffi.cdef("enum enum1_e { AA, BB };")
lib = ffi.verify("enum enum1_e { AA, BB };")
assert lib.AA == 0
assert lib.BB == 1
assert ffi.string(ffi.cast("enum enum1_e", 1)) == 'BB'
def test_typedef_complete_enum():
ffi = FFI()
ffi.cdef("typedef enum { AA, BB } enum1_t;")
lib = ffi.verify("typedef enum { AA, BB } enum1_t;")
assert ffi.string(ffi.cast("enum1_t", 1)) == 'BB'
assert lib.AA == 0
assert lib.BB == 1
def test_typedef_broken_complete_enum():
ffi = FFI()
ffi.cdef("typedef enum { AA, BB } enum1_t;")
py.test.raises(VerificationError, ffi.verify,
"typedef enum { AA, CC, BB } enum1_t;")
def test_typedef_incomplete_enum():
ffi = FFI()
ffi.cdef("typedef enum { AA, BB, ... } enum1_t;")
lib = ffi.verify("typedef enum { AA, CC, BB } enum1_t;")
assert ffi.string(ffi.cast("enum1_t", 1)) == '1'
assert ffi.string(ffi.cast("enum1_t", 2)) == 'BB'
assert lib.AA == 0
assert lib.BB == 2
def test_typedef_enum_as_argument():
ffi = FFI()
ffi.cdef("""
typedef enum { AA, BB, ... } foo_t;
int foo_func(foo_t);
""")
lib = ffi.verify("""
typedef enum { AA, CC, BB } foo_t;
int foo_func(foo_t e) { return (int)e; }
""")
assert lib.foo_func(lib.BB) == lib.BB == 2
py.test.raises(TypeError, lib.foo_func, "BB")
def test_typedef_enum_as_function_result():
ffi = FFI()
ffi.cdef("""
typedef enum { AA, BB, ... } foo_t;
foo_t foo_func(int x);
""")
lib = ffi.verify("""
typedef enum { AA, CC, BB } foo_t;
foo_t foo_func(int x) { return (foo_t)x; }
""")
assert lib.foo_func(lib.BB) == lib.BB == 2
def test_function_typedef():
ffi = FFI()
ffi.cdef("""
typedef double func_t(double);
func_t sin;
""")
lib = ffi.verify('#include <math.h>', libraries=lib_m)
assert lib.sin(1.23) == math.sin(1.23)
def test_callback_calling_convention():
py.test.skip("later")
if sys.platform != 'win32':
py.test.skip("Windows only")
ffi = FFI()
ffi.cdef("""
int call1(int(*__cdecl cb)(int));
int call2(int(*__stdcall cb)(int));
""")
lib = ffi.verify("""
int call1(int(*__cdecl cb)(int)) {
return cb(42) + 1;
}
int call2(int(*__stdcall cb)(int)) {
return cb(-42) - 6;
}
""")
xxx
def test_opaque_integer_as_function_result():
#import platform
#if platform.machine().startswith('sparc'):
# py.test.skip('Breaks horribly on sparc (SIGILL + corrupted stack)')
#elif platform.machine() == 'mips64' and sys.maxsize > 2**32:
# py.test.skip('Segfaults on mips64el')
# XXX bad abuse of "struct { ...; }". It only works a bit by chance
# anyway. XXX think about something better :-(
ffi = FFI()
ffi.cdef("""
typedef struct { ...; } myhandle_t;
myhandle_t foo(void);
""")
lib = ffi.verify("""
typedef short myhandle_t;
myhandle_t foo(void) { return 42; }
""")
h = lib.foo()
assert ffi.sizeof(h) == ffi.sizeof("short")
def test_return_partial_struct():
ffi = FFI()
ffi.cdef("""
typedef struct { int x; ...; } foo_t;
foo_t foo(void);
""")
lib = ffi.verify("""
typedef struct { int y, x; } foo_t;
foo_t foo(void) { foo_t r = { 45, 81 }; return r; }
""")
h = lib.foo()
assert ffi.sizeof(h) == 2 * ffi.sizeof("int")
assert h.x == 81
def test_take_and_return_partial_structs():
ffi = FFI()
ffi.cdef("""
typedef struct { int x; ...; } foo_t;
foo_t foo(foo_t, foo_t);
""")
lib = ffi.verify("""
typedef struct { int y, x; } foo_t;
foo_t foo(foo_t a, foo_t b) {
foo_t r = { 100, a.x * 5 + b.x * 7 };
return r;
}
""")
args = ffi.new("foo_t[3]")
args[0].x = 1000
args[2].x = -498
h = lib.foo(args[0], args[2])
assert ffi.sizeof(h) == 2 * ffi.sizeof("int")
assert h.x == 1000 * 5 - 498 * 7
def test_cannot_name_struct_type():
ffi = FFI()
ffi.cdef("typedef struct { int x; } **sp; void foo(sp);")
e = py.test.raises(VerificationError, ffi.verify,
"typedef struct { int x; } **sp; void foo(sp x) { }")
assert 'in argument of foo: unknown type name' in str(e.value)
def test_dont_check_unnamable_fields():
ffi = FFI()
ffi.cdef("struct foo_s { struct { int x; } someone; };")
ffi.verify("struct foo_s { struct { int x; } someone; };")
# assert did not crash
def test_nested_anonymous_struct_exact():
if sys.platform == 'win32':
py.test.skip("nested anonymous struct/union")
ffi = FFI()
ffi.cdef("""
struct foo_s { struct { int a; char b; }; union { char c, d; }; };
""")
ffi.verify("""
struct foo_s { struct { int a; char b; }; union { char c, d; }; };
""")
p = ffi.new("struct foo_s *")
assert ffi.sizeof(p[0]) == 3 * ffi.sizeof("int") # with alignment
p.a = 1234567
p.b = b'X'
p.c = b'Y'
assert p.a == 1234567
assert p.b == b'X'
assert p.c == b'Y'
assert p.d == b'Y'
def test_nested_anonymous_struct_exact_error():
if sys.platform == 'win32':
py.test.skip("nested anonymous struct/union")
ffi = FFI()
ffi.cdef("""
struct foo_s { struct { int a; char b; }; union { char c, d; }; };
""")
py.test.raises(VerificationError, ffi.verify, """
struct foo_s { struct { int a; short b; }; union { char c, d; }; };
""")
py.test.raises(VerificationError, ffi.verify, """
struct foo_s { struct { int a; char e, b; }; union { char c, d; }; };
""")
def test_nested_anonymous_struct_inexact_1():
ffi = FFI()
ffi.cdef("""
struct foo_s { struct { char b; ...; }; union { char c, d; }; };
""")
ffi.verify("""
struct foo_s { int a, padding; char c, d, b; };
""")
assert ffi.sizeof("struct foo_s") == 3 * ffi.sizeof("int")
def test_nested_anonymous_struct_inexact_2():
ffi = FFI()
ffi.cdef("""
struct foo_s { union { char c, d; }; struct { int a; char b; }; ...; };
""")
ffi.verify("""
struct foo_s { int a, padding; char c, d, b; };
""")
assert ffi.sizeof("struct foo_s") == 3 * ffi.sizeof("int")
def test_ffi_union():
ffi = FFI()
ffi.cdef("union foo_u { char x; long *z; };")
ffi.verify("union foo_u { char x; int y; long *z; };")
def test_ffi_union_partial():
ffi = FFI()
ffi.cdef("union foo_u { char x; ...; };")
ffi.verify("union foo_u { char x; int y; };")
assert ffi.sizeof("union foo_u") == 4
def test_ffi_union_with_partial_struct():
ffi = FFI()
ffi.cdef("struct foo_s { int x; ...; }; union foo_u { struct foo_s s; };")
ffi.verify("struct foo_s { int a; int x; }; "
"union foo_u { char b[32]; struct foo_s s; };")
assert ffi.sizeof("struct foo_s") == 8
assert ffi.sizeof("union foo_u") == 32
def test_ffi_union_partial_2():
ffi = FFI()
ffi.cdef("typedef union { char x; ...; } u1;")
ffi.verify("typedef union { char x; int y; } u1;")
assert ffi.sizeof("u1") == 4
def test_ffi_union_with_partial_struct_2():
ffi = FFI()
ffi.cdef("typedef struct { int x; ...; } s1;"
"typedef union { s1 s; } u1;")
ffi.verify("typedef struct { int a; int x; } s1; "
"typedef union { char b[32]; s1 s; } u1;")
assert ffi.sizeof("s1") == 8
assert ffi.sizeof("u1") == 32
assert ffi.offsetof("u1", "s") == 0
def test_ffi_struct_packed():
if sys.platform == 'win32':
py.test.skip("needs a GCC extension")
ffi = FFI()
ffi.cdef("struct foo_s { int b; ...; };")
ffi.verify("""
struct foo_s {
char a;
int b;
} __attribute__((packed));
""")
def test_tmpdir():
import tempfile, os
from testing.udir import udir
tmpdir = tempfile.mkdtemp(dir=str(udir))
ffi = FFI()
ffi.cdef("int foo(int);")
lib = ffi.verify("int foo(int a) { return a + 42; }", tmpdir=tmpdir)
assert os.listdir(tmpdir)
assert lib.foo(100) == 142
def test_relative_to():
import tempfile, os
from testing.udir import udir
tmpdir = tempfile.mkdtemp(dir=str(udir))
ffi = FFI()
ffi.cdef("int foo(int);")
f = open(os.path.join(tmpdir, 'foo.h'), 'w')
f.write("int foo(int a) { return a + 42; }\n")
f.close()
lib = ffi.verify('#include "foo.h"',
include_dirs=['.'],
relative_to=os.path.join(tmpdir, 'x'))
assert lib.foo(100) == 142
def test_bug1():
ffi = FFI()
ffi.cdef("""
typedef struct tdlhandle_s { ...; } *tdl_handle_t;
typedef struct my_error_code_ {
tdl_handle_t *rh;
} my_error_code_t;
""")
ffi.verify("""
typedef struct tdlhandle_s { int foo; } *tdl_handle_t;
typedef struct my_error_code_ {
tdl_handle_t *rh;
} my_error_code_t;
""")
def test_bool():
if sys.platform == 'win32':
py.test.skip("_Bool not in MSVC")
ffi = FFI()
ffi.cdef("struct foo_s { _Bool x; };"
"_Bool foo(_Bool);")
lib = ffi.verify("""
struct foo_s { _Bool x; };
int foo(int arg) {
return !arg;
}
""")
p = ffi.new("struct foo_s *")
p.x = 1
assert p.x == 1
py.test.raises(OverflowError, "p.x = -1")
py.test.raises(TypeError, "p.x = 0.0")
assert lib.foo(1) == 0
assert lib.foo(0) == 1
py.test.raises(OverflowError, lib.foo, 42)
py.test.raises(TypeError, lib.foo, 0.0)
assert int(ffi.cast("_Bool", long(1))) == 1
assert int(ffi.cast("_Bool", long(0))) == 0
assert int(ffi.cast("_Bool", long(-1))) == 1
assert int(ffi.cast("_Bool", 10**200)) == 1
assert int(ffi.cast("_Bool", 10**40000)) == 1
#
class Foo(object):
def __int__(self):
self.seen = 1
return result
f = Foo()
f.seen = 0
result = 42
assert int(ffi.cast("_Bool", f)) == 1
assert f.seen
f.seen = 0
result = 0
assert int(ffi.cast("_Bool", f)) == 0
assert f.seen
#
py.test.raises(TypeError, ffi.cast, "_Bool", [])
def test_bool_on_long_double():
if sys.platform == 'win32':
py.test.skip("_Bool not in MSVC")
f = 1E-250
if f == 0.0 or f*f != 0.0:
py.test.skip("unexpected precision")
ffi = FFI()
ffi.cdef("long double square(long double f); _Bool opposite(_Bool);")
lib = ffi.verify("long double square(long double f) { return f*f; }\n"
"_Bool opposite(_Bool x) { return !x; }")
f0 = lib.square(0.0)
f2 = lib.square(f)
f3 = lib.square(f * 2.0)
if repr(f2) == repr(f3):
py.test.skip("long double doesn't have enough precision")
assert float(f0) == float(f2) == float(f3) == 0.0 # too tiny for 'double'
assert int(ffi.cast("_Bool", f2)) == 1
assert int(ffi.cast("_Bool", f3)) == 1
assert int(ffi.cast("_Bool", f0)) == 0
py.test.raises(TypeError, lib.opposite, f2)
def test_cannot_pass_float():
for basetype in ['char', 'short', 'int', 'long', 'long long']:
for sign in ['signed', 'unsigned']:
type = '%s %s' % (sign, basetype)
ffi = FFI()
ffi.cdef("struct foo_s { %s x; };\n"
"int foo(%s);" % (type, type))
lib = ffi.verify("""
struct foo_s { %s x; };
int foo(%s arg) {
return !arg;
}
""" % (type, type))
p = ffi.new("struct foo_s *")
py.test.raises(TypeError, "p.x = 0.0")
assert lib.foo(42) == 0
assert lib.foo(0) == 1
py.test.raises(TypeError, lib.foo, 0.0)
def test_cast_from_int_type_to_bool():
ffi = FFI()
for basetype in ['char', 'short', 'int', 'long', 'long long']:
for sign in ['signed', 'unsigned']:
type = '%s %s' % (sign, basetype)
assert int(ffi.cast("_Bool", ffi.cast(type, 42))) == 1
assert int(ffi.cast("bool", ffi.cast(type, 42))) == 1
assert int(ffi.cast("_Bool", ffi.cast(type, 0))) == 0
def test_addressof():
ffi = FFI()
ffi.cdef("""
struct point_s { int x, y; };
struct foo_s { int z; struct point_s point; };
struct point_s sum_coord(struct point_s *);
""")
lib = ffi.verify("""
struct point_s { int x, y; };
struct foo_s { int z; struct point_s point; };
struct point_s sum_coord(struct point_s *point) {
struct point_s r;
r.x = point->x + point->y;
r.y = point->x - point->y;
return r;
}
""")
p = ffi.new("struct foo_s *")
p.point.x = 16
p.point.y = 9
py.test.raises(TypeError, lib.sum_coord, p.point)
res = lib.sum_coord(ffi.addressof(p.point))
assert res.x == 25
assert res.y == 7
res2 = lib.sum_coord(ffi.addressof(res))
assert res2.x == 32
assert res2.y == 18
py.test.raises(TypeError, lib.sum_coord, res2)
def test_callback_in_thread():
if sys.platform == 'win32':
py.test.skip("pthread only")
import os, subprocess, imp
arg = os.path.join(os.path.dirname(__file__), 'callback_in_thread.py')
g = subprocess.Popen([sys.executable, arg,
os.path.dirname(imp.find_module('cffi')[1])])
result = g.wait()
assert result == 0
def test_keepalive_lib():
ffi = FFI()
ffi.cdef("int foobar(void);")
lib = ffi.verify("int foobar(void) { return 42; }")
func = lib.foobar
ffi_r = weakref.ref(ffi)
lib_r = weakref.ref(lib)
del ffi
import gc; gc.collect() # lib stays alive
assert lib_r() is not None
assert ffi_r() is not None
assert func() == 42
def test_keepalive_ffi():
ffi = FFI()
ffi.cdef("int foobar(void);")
lib = ffi.verify("int foobar(void) { return 42; }")
func = lib.foobar
ffi_r = weakref.ref(ffi)
lib_r = weakref.ref(lib)
del lib
import gc; gc.collect() # ffi stays alive
assert ffi_r() is not None
assert lib_r() is not None
assert func() == 42
def test_FILE_stored_in_stdout():
if not sys.platform.startswith('linux'):
py.test.skip("likely, we cannot assign to stdout")
ffi = FFI()
ffi.cdef("int printf(const char *, ...); FILE *setstdout(FILE *);")
lib = ffi.verify("""
#include <stdio.h>
FILE *setstdout(FILE *f) {
FILE *result = stdout;
stdout = f;
return result;
}
""")
import os
fdr, fdw = os.pipe()
fw1 = os.fdopen(fdw, 'wb', 256)
old_stdout = lib.setstdout(fw1)
try:
#
fw1.write(b"X")
r = lib.printf(b"hello, %d!\n", ffi.cast("int", 42))
fw1.close()
assert r == len("hello, 42!\n")
#
finally:
lib.setstdout(old_stdout)
#
result = os.read(fdr, 256)
os.close(fdr)
# the 'X' might remain in the user-level buffer of 'fw1' and
# end up showing up after the 'hello, 42!\n'
assert result == b"Xhello, 42!\n" or result == b"hello, 42!\nX"
def test_FILE_stored_explicitly():
ffi = FFI()
ffi.cdef("int myprintf(const char *, int); FILE *myfile;")
lib = ffi.verify("""
#include <stdio.h>
FILE *myfile;
int myprintf(const char *out, int value) {
return fprintf(myfile, out, value);
}
""")
import os
fdr, fdw = os.pipe()
fw1 = os.fdopen(fdw, 'wb', 256)
lib.myfile = ffi.cast("FILE *", fw1)
#
fw1.write(b"X")
r = lib.myprintf(b"hello, %d!\n", ffi.cast("int", 42))
fw1.close()
assert r == len("hello, 42!\n")
#
result = os.read(fdr, 256)
os.close(fdr)
# the 'X' might remain in the user-level buffer of 'fw1' and
# end up showing up after the 'hello, 42!\n'
assert result == b"Xhello, 42!\n" or result == b"hello, 42!\nX"
def test_global_array_with_missing_length():
ffi = FFI()
ffi.cdef("int fooarray[];")
lib = ffi.verify("int fooarray[50];")
assert repr(lib.fooarray).startswith("<cdata 'int *'")
def test_global_array_with_dotdotdot_length():
ffi = FFI()
ffi.cdef("int fooarray[...];")
lib = ffi.verify("int fooarray[50];")
assert repr(lib.fooarray).startswith("<cdata 'int[50]'")
def test_bad_global_array_with_dotdotdot_length():
ffi = FFI()
ffi.cdef("int fooarray[...];")
py.test.raises(VerificationError, ffi.verify, "char fooarray[23];")
def test_struct_containing_struct():
ffi = FFI()
ffi.cdef("struct foo_s { ...; }; struct bar_s { struct foo_s f; ...; };")
ffi.verify("struct foo_s { int x; }; struct bar_s { struct foo_s f; };")
#
ffi = FFI()
ffi.cdef("struct foo_s { struct bar_s f; ...; }; struct bar_s { ...; };")
ffi.verify("struct bar_s { int x; }; struct foo_s { struct bar_s f; };")
def test_struct_returned_by_func():
ffi = FFI()
ffi.cdef("typedef ... foo_t; foo_t myfunc(void);")
e = py.test.raises(TypeError, ffi.verify,
"typedef struct { int x; } foo_t; "
"foo_t myfunc(void) { foo_t x = { 42 }; return x; }")
assert str(e.value) == (
"function myfunc: 'foo_t' is used as result type, but is opaque")
def test_include():
ffi1 = FFI()
ffi1.cdef("typedef struct { int x; ...; } foo_t;")
ffi1.verify("typedef struct { int y, x; } foo_t;")
ffi2 = FFI()
ffi2.include(ffi1)
ffi2.cdef("int myfunc(foo_t *);")
lib = ffi2.verify("typedef struct { int y, x; } foo_t;"
"int myfunc(foo_t *p) { return 42 * p->x; }")
res = lib.myfunc(ffi2.new("foo_t *", {'x': 10}))
assert res == 420
res = lib.myfunc(ffi1.new("foo_t *", {'x': -10}))
assert res == -420
def test_include_enum():
ffi1 = FFI()
ffi1.cdef("enum foo_e { AA, ... };")
lib1 = ffi1.verify("enum foo_e { CC, BB, AA };")
ffi2 = FFI()
ffi2.include(ffi1)
ffi2.cdef("int myfunc(enum foo_e);")
lib2 = ffi2.verify("enum foo_e { CC, BB, AA };"
"int myfunc(enum foo_e x) { return (int)x; }")
res = lib2.myfunc(lib2.AA)
assert res == 2
def test_named_pointer_as_argument():
ffi = FFI()
ffi.cdef("typedef struct { int x; } *mystruct_p;\n"
"mystruct_p ff5a(mystruct_p);")
lib = ffi.verify("typedef struct { int x; } *mystruct_p;\n"
"mystruct_p ff5a(mystruct_p p) { p->x += 40; return p; }")
p = ffi.new("mystruct_p", [-2])
q = lib.ff5a(p)
assert q == p
assert p.x == 38
def test_enum_size():
cases = [('123', 4, 4294967295),
('4294967295U', 4, 4294967295),
('-123', 4, -1),
('-2147483647-1', 4, -1),
]
if FFI().sizeof("long") == 8:
cases += [('4294967296L', 8, 2**64-1),
('%dUL' % (2**64-1), 8, 2**64-1),
('-2147483649L', 8, -1),
('%dL-1L' % (1-2**63), 8, -1)]
for hidden_value, expected_size, expected_minus1 in cases:
if sys.platform == 'win32' and 'U' in hidden_value:
continue # skipped on Windows
ffi = FFI()
ffi.cdef("enum foo_e { AA, BB, ... };")
lib = ffi.verify("enum foo_e { AA, BB=%s };" % hidden_value)
assert lib.AA == 0
assert lib.BB == eval(hidden_value.replace('U', '').replace('L', ''))
assert ffi.sizeof("enum foo_e") == expected_size
assert int(ffi.cast("enum foo_e", -1)) == expected_minus1
# test with the large value hidden:
# disabled so far, doesn't work
## for hidden_value, expected_size, expected_minus1 in cases:
## ffi = FFI()
## ffi.cdef("enum foo_e { AA, BB, ... };")
## lib = ffi.verify("enum foo_e { AA, BB=%s };" % hidden_value)
## assert lib.AA == 0
## assert ffi.sizeof("enum foo_e") == expected_size
## assert int(ffi.cast("enum foo_e", -1)) == expected_minus1
def test_enum_bug118():
maxulong = 256 ** FFI().sizeof("unsigned long") - 1
for c1, c2, c2c in [(0xffffffff, -1, ''),
(maxulong, -1, ''),
(-1, 0xffffffff, 'U'),
(-1, maxulong, 'UL')]:
if c2c and sys.platform == 'win32':
continue # enums may always be signed with MSVC
ffi = FFI()
ffi.cdef("enum foo_e { AA=%s };" % c1)
e = py.test.raises(VerificationError, ffi.verify,
"enum foo_e { AA=%s%s };" % (c2, c2c))
assert str(e.value) == ('enum foo_e: AA has the real value %d, not %d'
% (c2, c1))
def test_string_to_voidp_arg():
ffi = FFI()
ffi.cdef("int myfunc(void *);")
lib = ffi.verify("int myfunc(void *p) { return ((signed char *)p)[0]; }")
res = lib.myfunc(b"hi!")
assert res == ord(b"h")
p = ffi.new("char[]", b"gah")
res = lib.myfunc(p)
assert res == ord(b"g")
res = lib.myfunc(ffi.cast("void *", p))
assert res == ord(b"g")
res = lib.myfunc(ffi.cast("int *", p))
assert res == ord(b"g")
def test_callback_indirection():
ffi = FFI()
ffi.cdef("""
int (*python_callback)(int how_many, int *values);
int (*const c_callback)(int,...); /* pass this ptr to C routines */
int some_c_function(int(*cb)(int,...));
""")
lib = ffi.verify("""
#include <stdarg.h>
#ifdef _WIN32
#include <malloc.h>
#define alloca _alloca
#else
# ifdef __FreeBSD__
# include <stdlib.h>
# else
# include <alloca.h>
# endif
#endif
static int (*python_callback)(int how_many, int *values);
static int c_callback(int how_many, ...) {
va_list ap;
/* collect the "..." arguments into the values[] array */
int i, *values = alloca((size_t)how_many * sizeof(int));
va_start(ap, how_many);
for (i=0; i<how_many; i++)
values[i] = va_arg(ap, int);
va_end(ap);
return python_callback(how_many, values);
}
int some_c_function(int(*cb)(int,...)) {
int result = cb(2, 10, 20);
result += cb(3, 30, 40, 50);
return result;
}
""")
seen = []
@ffi.callback("int(int, int*)")
def python_callback(how_many, values):
seen.append([values[i] for i in range(how_many)])
return 42
lib.python_callback = python_callback
res = lib.some_c_function(lib.c_callback)
assert res == 84
assert seen == [[10, 20], [30, 40, 50]]
def test_floatstar_argument():
ffi = FFI()
ffi.cdef("float sum3floats(float *);")
lib = ffi.verify("""
float sum3floats(float *f) {
return f[0] + f[1] + f[2];
}
""")
assert lib.sum3floats((1.5, 2.5, 3.5)) == 7.5
p = ffi.new("float[]", (1.5, 2.5, 3.5))
assert lib.sum3floats(p) == 7.5
def test_charstar_argument():
ffi = FFI()
ffi.cdef("char sum3chars(char *);")
lib = ffi.verify("""
char sum3chars(char *f) {
return (char)(f[0] + f[1] + f[2]);
}
""")
assert lib.sum3chars((b'\x10', b'\x20', b'\x30')) == b'\x60'
p = ffi.new("char[]", b'\x10\x20\x30')
assert lib.sum3chars(p) == b'\x60'
def test_passing_string_or_NULL():
ffi = FFI()
ffi.cdef("int seeme1(char *); int seeme2(int *);")
lib = ffi.verify("""
int seeme1(char *x) {
return (x == NULL);
}
int seeme2(int *x) {
return (x == NULL);
}
""")
assert lib.seeme1(b"foo") == 0
assert lib.seeme1(ffi.NULL) == 1
assert lib.seeme2([42, 43]) == 0
assert lib.seeme2(ffi.NULL) == 1
py.test.raises(TypeError, lib.seeme1, None)
py.test.raises(TypeError, lib.seeme2, None)
py.test.raises(TypeError, lib.seeme1, 0.0)
py.test.raises(TypeError, lib.seeme2, 0.0)
py.test.raises(TypeError, lib.seeme1, 0)
py.test.raises(TypeError, lib.seeme2, 0)
zeroL = 99999999999999999999
zeroL -= 99999999999999999999
py.test.raises(TypeError, lib.seeme2, zeroL)
def test_typeof_function():
ffi = FFI()
ffi.cdef("int foo(int, char);")
lib = ffi.verify("int foo(int x, char y) { (void)x; (void)y; return 42; }")
ctype = ffi.typeof(lib.foo)
assert len(ctype.args) == 2
assert ctype.result == ffi.typeof("int")
def test_call_with_voidstar_arg():
ffi = FFI()
ffi.cdef("int f(void *);")
lib = ffi.verify("int f(void *x) { return ((char*)x)[0]; }")
assert lib.f(b"foobar") == ord(b"f")
def test_dir():
ffi = FFI()
ffi.cdef("""void somefunc(void);
extern int somevar, somearray[2];
static char *const sv2;
enum my_e { AA, BB, ... };
#define FOO ...""")
lib = ffi.verify("""void somefunc(void) { }
int somevar, somearray[2];
#define sv2 "text"
enum my_e { AA, BB };
#define FOO 42""")
assert dir(lib) == ['AA', 'BB', 'FOO', 'somearray',
'somefunc', 'somevar', 'sv2']
def test_typeof_func_with_struct_argument():
ffi = FFI()
ffi.cdef("""struct s { int a; }; int foo(struct s);""")
lib = ffi.verify("""struct s { int a; };
int foo(struct s x) { return x.a; }""")
s = ffi.new("struct s *", [-1234])
m = lib.foo(s[0])
assert m == -1234
assert repr(ffi.typeof(lib.foo)) == "<ctype 'int(*)(struct s)'>"
def test_bug_const_char_ptr_array_1():
ffi = FFI()
ffi.cdef("""const char *a[...];""")
lib = ffi.verify("""const char *a[5];""")
assert repr(ffi.typeof(lib.a)) == "<ctype 'char *[5]'>"
def test_bug_const_char_ptr_array_2():
from cffi import FFI # ignore warnings
ffi = FFI()
ffi.cdef("""const int a[];""")
lib = ffi.verify("""const int a[5];""")
assert repr(ffi.typeof(lib.a)) == "<ctype 'int *'>"
def _test_various_calls(force_libffi):
cdef_source = """
int xvalue;
long long ivalue, rvalue;
float fvalue;
double dvalue;
long double Dvalue;
signed char tf_bb(signed char x, signed char c);
unsigned char tf_bB(signed char x, unsigned char c);
short tf_bh(signed char x, short c);
unsigned short tf_bH(signed char x, unsigned short c);
int tf_bi(signed char x, int c);
unsigned int tf_bI(signed char x, unsigned int c);
long tf_bl(signed char x, long c);
unsigned long tf_bL(signed char x, unsigned long c);
long long tf_bq(signed char x, long long c);
unsigned long long tf_bQ(signed char x, unsigned long long c);
float tf_bf(signed char x, float c);
double tf_bd(signed char x, double c);
long double tf_bD(signed char x, long double c);
"""
if force_libffi:
cdef_source = (cdef_source
.replace('tf_', '(*const tf_')
.replace('(signed char x', ')(signed char x'))
ffi = FFI()
ffi.cdef(cdef_source)
lib = ffi.verify("""
int xvalue;
long long ivalue, rvalue;
float fvalue;
double dvalue;
long double Dvalue;
typedef signed char b_t;
typedef unsigned char B_t;
typedef short h_t;
typedef unsigned short H_t;
typedef int i_t;
typedef unsigned int I_t;
typedef long l_t;
typedef unsigned long L_t;
typedef long long q_t;
typedef unsigned long long Q_t;
typedef float f_t;
typedef double d_t;
typedef long double D_t;
#define S(letter) xvalue = (int)x; letter##value = (letter##_t)c;
#define R(letter) return (letter##_t)rvalue;
signed char tf_bb(signed char x, signed char c) { S(i) R(b) }
unsigned char tf_bB(signed char x, unsigned char c) { S(i) R(B) }
short tf_bh(signed char x, short c) { S(i) R(h) }
unsigned short tf_bH(signed char x, unsigned short c) { S(i) R(H) }
int tf_bi(signed char x, int c) { S(i) R(i) }
unsigned int tf_bI(signed char x, unsigned int c) { S(i) R(I) }
long tf_bl(signed char x, long c) { S(i) R(l) }
unsigned long tf_bL(signed char x, unsigned long c) { S(i) R(L) }
long long tf_bq(signed char x, long long c) { S(i) R(q) }
unsigned long long tf_bQ(signed char x, unsigned long long c) { S(i) R(Q) }
float tf_bf(signed char x, float c) { S(f) R(f) }
double tf_bd(signed char x, double c) { S(d) R(d) }
long double tf_bD(signed char x, long double c) { S(D) R(D) }
""")
lib.rvalue = 0x7182838485868788
for kind, cname in [('b', 'signed char'),
('B', 'unsigned char'),
('h', 'short'),
('H', 'unsigned short'),
('i', 'int'),
('I', 'unsigned int'),
('l', 'long'),
('L', 'unsigned long'),
('q', 'long long'),
('Q', 'unsigned long long'),
('f', 'float'),
('d', 'double'),
('D', 'long double')]:
sign = +1 if 'unsigned' in cname else -1
lib.xvalue = 0
lib.ivalue = 0
lib.fvalue = 0
lib.dvalue = 0
lib.Dvalue = 0
fun = getattr(lib, 'tf_b' + kind)
res = fun(-42, sign * 99)
if kind == 'D':
res = float(res)
assert res == int(ffi.cast(cname, 0x7182838485868788))
assert lib.xvalue == -42
if kind in 'fdD':
assert float(getattr(lib, kind + 'value')) == -99.0
else:
assert lib.ivalue == sign * 99
def test_various_calls_direct():
_test_various_calls(force_libffi=False)
def test_various_calls_libffi():
_test_various_calls(force_libffi=True)
def test_ptr_to_opaque():
ffi = FFI()
ffi.cdef("typedef ... foo_t; int f1(foo_t*); foo_t *f2(int);")
lib = ffi.verify("""
#include <stdlib.h>
typedef struct { int x; } foo_t;
int f1(foo_t* p) {
int x = p->x;
free(p);
return x;
}
foo_t *f2(int x) {
foo_t *p = malloc(sizeof(foo_t));
p->x = x;
return p;
}
""")
p = lib.f2(42)
x = lib.f1(p)
assert x == 42
def _run_in_multiple_threads(test1):
test1()
import sys
try:
import thread
except ImportError:
import _thread as thread
errors = []
def wrapper(lock):
try:
test1()
except:
errors.append(sys.exc_info())
lock.release()
locks = []
for i in range(10):
_lock = thread.allocate_lock()
_lock.acquire()
thread.start_new_thread(wrapper, (_lock,))
locks.append(_lock)
for _lock in locks:
_lock.acquire()
if errors:
raise errors[0][1]
def test_errno_working_even_with_pypys_jit():
ffi = FFI()
ffi.cdef("int f(int);")
lib = ffi.verify("""
#include <errno.h>
int f(int x) { return (errno = errno + x); }
""")
@_run_in_multiple_threads
def test1():
ffi.errno = 0
for i in range(10000):
e = lib.f(1)
assert e == i + 1
assert ffi.errno == e
for i in range(10000):
ffi.errno = i
e = lib.f(42)
assert e == i + 42
def test_getlasterror_working_even_with_pypys_jit():
if sys.platform != 'win32':
py.test.skip("win32-only test")
ffi = FFI()
ffi.cdef("void SetLastError(DWORD);")
lib = ffi.dlopen("Kernel32.dll")
@_run_in_multiple_threads
def test1():
for i in range(10000):
n = (1 << 29) + i
lib.SetLastError(n)
assert ffi.getwinerror()[0] == n
def test_verify_dlopen_flags():
# Careful with RTLD_GLOBAL. If by chance the FFI is not deleted
# promptly, like on PyPy, then other tests may see the same
# exported symbols as well. So we must not export a simple name
# like 'foo'!
ffi1 = FFI()
ffi1.cdef("int foo_verify_dlopen_flags;")
lib1 = ffi1.verify("int foo_verify_dlopen_flags;",
flags=ffi1.RTLD_GLOBAL | ffi1.RTLD_LAZY)
lib2 = get_second_lib()
lib1.foo_verify_dlopen_flags = 42
assert lib2.foo_verify_dlopen_flags == 42
lib2.foo_verify_dlopen_flags += 1
assert lib1.foo_verify_dlopen_flags == 43
def get_second_lib():
# Hack, using modulename makes the test fail
ffi2 = FFI()
ffi2.cdef("int foo_verify_dlopen_flags;")
lib2 = ffi2.verify("int foo_verify_dlopen_flags;",
flags=ffi2.RTLD_GLOBAL | ffi2.RTLD_LAZY)
return lib2
def test_consider_not_implemented_function_type():
ffi = FFI()
ffi.cdef("typedef union { int a; float b; } Data;"
"typedef struct { int a:2; } MyStr;"
"typedef void (*foofunc_t)(Data);"
"typedef Data (*bazfunc_t)(void);"
"typedef MyStr (*barfunc_t)(void);")
fooptr = ffi.cast("foofunc_t", 123)
bazptr = ffi.cast("bazfunc_t", 123)
barptr = ffi.cast("barfunc_t", 123)
# assert did not crash so far
e = py.test.raises(NotImplementedError, fooptr, ffi.new("Data *"))
assert str(e.value) == (
"ctype 'Data' (size 4) not supported as argument")
e = py.test.raises(NotImplementedError, bazptr)
assert str(e.value) == (
"ctype 'Data' (size 4) not supported as return value")
e = py.test.raises(NotImplementedError, barptr)
assert str(e.value) == (
"ctype 'MyStr' not supported as return value "
"(it is a struct with bit fields)")
def test_verify_extra_arguments():
ffi = FFI()
ffi.cdef("#define ABA ...")
lib = ffi.verify("", define_macros=[('ABA', '42')])
assert lib.ABA == 42
def test_implicit_unicode_on_windows():
if sys.platform != 'win32':
py.test.skip("win32-only test")
ffi = FFI()
e = py.test.raises(FFIError, ffi.cdef, "int foo(LPTSTR);")
assert str(e.value) == ("The Windows type 'LPTSTR' is only available after"
" you call ffi.set_unicode()")
for with_unicode in [True, False]:
ffi = FFI()
ffi.set_unicode(with_unicode)
ffi.cdef("""
DWORD GetModuleFileName(HMODULE hModule, LPTSTR lpFilename,
DWORD nSize);
""")
lib = ffi.verify("""
#include <windows.h>
""", libraries=['Kernel32'])
outbuf = ffi.new("TCHAR[]", 200)
n = lib.GetModuleFileName(ffi.NULL, outbuf, 500)
assert 0 < n < 500
for i in range(n):
#print repr(outbuf[i])
assert ord(outbuf[i]) != 0
assert ord(outbuf[n]) == 0
assert ord(outbuf[0]) < 128 # should be a letter, or '\'
def test_use_local_dir():
ffi = FFI()
lib = ffi.verify("", modulename="test_use_local_dir")
this_dir = os.path.dirname(__file__)
pycache_files = os.listdir(os.path.join(this_dir, '__pycache__'))
assert any('test_use_local_dir' in s for s in pycache_files)
def test_define_known_value():
ffi = FFI()
ffi.cdef("#define FOO 0x123")
lib = ffi.verify("#define FOO 0x123")
assert lib.FOO == 0x123
def test_define_wrong_value():
ffi = FFI()
ffi.cdef("#define FOO 123")
e = py.test.raises(VerificationError, ffi.verify, "#define FOO 124")
assert str(e.value).endswith("FOO has the real value 124, not 123")
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