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gh-61103: Support float and long double complex types in ctypes module (#121248)
This amends 6988ff02a5
: memory allocation for
stginfo->ffi_type_pointer.elements in PyCSimpleType_init() should be
more generic (perhaps someday fmt->pffi_type->elements will be not a
two-elements array).
It should finally resolve #61103.
Co-authored-by: Victor Stinner <vstinner@python.org>
Co-authored-by: Bénédikt Tran <10796600+picnixz@users.noreply.github.com>
This commit is contained in:
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c9bdfbe868
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@ -272,8 +272,12 @@ complex types are available:
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+----------------------------------+---------------------------------+-----------------+
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| ctypes type | C type | Python type |
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+==================================+=================================+=================+
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| :class:`c_float_complex` | :c:expr:`float complex` | complex |
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+----------------------------------+---------------------------------+-----------------+
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| :class:`c_double_complex` | :c:expr:`double complex` | complex |
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+----------------------------------+---------------------------------+-----------------+
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| :class:`c_longdouble_complex` | :c:expr:`long double complex` | complex |
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+----------------------------------+---------------------------------+-----------------+
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All these types can be created by calling them with an optional initializer of
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@ -2302,6 +2306,22 @@ These are the fundamental ctypes data types:
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.. versionadded:: 3.14
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.. class:: c_float_complex
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Represents the C :c:expr:`float complex` datatype, if available. The
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constructor accepts an optional :class:`complex` initializer.
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.. versionadded:: 3.14
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.. class:: c_longdouble_complex
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Represents the C :c:expr:`long double complex` datatype, if available. The
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constructor accepts an optional :class:`complex` initializer.
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.. versionadded:: 3.14
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.. class:: c_int
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Represents the C :c:expr:`signed int` datatype. The constructor accepts an
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@ -208,6 +208,10 @@ if sizeof(c_longdouble) == sizeof(c_double):
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try:
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class c_double_complex(_SimpleCData):
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_type_ = "C"
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class c_float_complex(_SimpleCData):
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_type_ = "E"
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class c_longdouble_complex(_SimpleCData):
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_type_ = "F"
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except AttributeError:
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pass
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@ -33,6 +33,20 @@ class LibTest(unittest.TestCase):
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self.assertAlmostEqual(lib.my_csqrt(-1-0.01j),
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0.004999937502734214-1.0000124996093955j)
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lib.my_csqrtf.argtypes = ctypes.c_float_complex,
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lib.my_csqrtf.restype = ctypes.c_float_complex
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self.assertAlmostEqual(lib.my_csqrtf(-1+0.01j),
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0.004999937502734214+1.0000124996093955j)
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self.assertAlmostEqual(lib.my_csqrtf(-1-0.01j),
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0.004999937502734214-1.0000124996093955j)
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lib.my_csqrtl.argtypes = ctypes.c_longdouble_complex,
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lib.my_csqrtl.restype = ctypes.c_longdouble_complex
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self.assertAlmostEqual(lib.my_csqrtl(-1+0.01j),
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0.004999937502734214+1.0000124996093955j)
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self.assertAlmostEqual(lib.my_csqrtl(-1-0.01j),
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0.004999937502734214-1.0000124996093955j)
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def test_qsort(self):
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comparefunc = CFUNCTYPE(c_int, POINTER(c_char), POINTER(c_char))
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lib.my_qsort.argtypes = c_void_p, c_size_t, c_size_t, comparefunc
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@ -146,7 +146,8 @@ class NumberTestCase(unittest.TestCase):
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@unittest.skipUnless(hasattr(ctypes, "c_double_complex"),
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"requires C11 complex type")
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def test_complex(self):
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for t in [ctypes.c_double_complex]:
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for t in [ctypes.c_double_complex, ctypes.c_float_complex,
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ctypes.c_longdouble_complex]:
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self.assertEqual(t(1).value, 1+0j)
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self.assertEqual(t(1.0).value, 1+0j)
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self.assertEqual(t(1+0.125j).value, 1+0.125j)
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@ -162,9 +163,10 @@ class NumberTestCase(unittest.TestCase):
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values = [complex(*_) for _ in combinations([1, -1, 0.0, -0.0, 2,
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-3, INF, -INF, NAN], 2)]
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for z in values:
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with self.subTest(z=z):
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z2 = ctypes.c_double_complex(z).value
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self.assertComplexesAreIdentical(z, z2)
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for t in [ctypes.c_double_complex, ctypes.c_float_complex,
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ctypes.c_longdouble_complex]:
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with self.subTest(z=z, type=t):
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self.assertComplexesAreIdentical(z, t(z).value)
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def test_integers(self):
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f = FloatLike()
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@ -1,3 +1,5 @@
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Support :c:expr:`double complex` C type in :mod:`ctypes` via
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:class:`~ctypes.c_double_complex` if compiler has C11 complex
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arithmetic. Patch by Sergey B Kirpichev.
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Support :c:expr:`float complex`, :c:expr:`double complex` and
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:c:expr:`long double complex` C types in :mod:`ctypes` as
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:class:`~ctypes.c_float_complex`, :class:`~ctypes.c_double_complex` and
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:class:`~ctypes.c_longdouble_complex` if the compiler has C11 complex arithmetic.
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Patch by Sergey B Kirpichev.
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@ -21,6 +21,8 @@
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#if !defined(CMPLX)
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# if defined(__clang__) && __has_builtin(__builtin_complex)
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# define CMPLX(x, y) __builtin_complex ((double) (x), (double) (y))
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# define CMPLXF(x, y) __builtin_complex ((float) (x), (float) (y))
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# define CMPLXL(x, y) __builtin_complex ((long double) (x), (long double) (y))
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# else
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static inline double complex
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CMPLX(double real, double imag)
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@ -30,5 +32,23 @@ CMPLX(double real, double imag)
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((double *)(&z))[1] = imag;
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return z;
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}
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static inline float complex
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CMPLXF(float real, float imag)
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{
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float complex z;
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((float *)(&z))[0] = real;
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((float *)(&z))[1] = imag;
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return z;
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}
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static inline long double complex
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CMPLXL(long double real, long double imag)
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{
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long double complex z;
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((long double *)(&z))[0] = real;
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((long double *)(&z))[1] = imag;
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return z;
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}
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# endif
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#endif
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@ -1751,7 +1751,7 @@ class _ctypes.c_void_p "PyObject *" "clinic_state_sub()->PyCSimpleType_Type"
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/*[clinic end generated code: output=da39a3ee5e6b4b0d input=dd4d9646c56f43a9]*/
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#if defined(Py_HAVE_C_COMPLEX) && defined(FFI_TARGET_HAS_COMPLEX_TYPE)
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static const char SIMPLE_TYPE_CHARS[] = "cbBhHiIlLdCfuzZqQPXOv?g";
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static const char SIMPLE_TYPE_CHARS[] = "cbBhHiIlLdCEFfuzZqQPXOv?g";
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#else
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static const char SIMPLE_TYPE_CHARS[] = "cbBhHiIlLdfuzZqQPXOv?g";
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#endif
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@ -2234,12 +2234,13 @@ PyCSimpleType_init(PyObject *self, PyObject *args, PyObject *kwds)
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stginfo->ffi_type_pointer = *fmt->pffi_type;
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}
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else {
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const size_t els_size = sizeof(fmt->pffi_type->elements);
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stginfo->ffi_type_pointer.size = fmt->pffi_type->size;
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stginfo->ffi_type_pointer.alignment = fmt->pffi_type->alignment;
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stginfo->ffi_type_pointer.type = fmt->pffi_type->type;
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stginfo->ffi_type_pointer.elements = PyMem_Malloc(2 * sizeof(ffi_type));
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stginfo->ffi_type_pointer.elements = PyMem_Malloc(els_size);
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memcpy(stginfo->ffi_type_pointer.elements,
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fmt->pffi_type->elements, 2 * sizeof(ffi_type));
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fmt->pffi_type->elements, els_size);
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}
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stginfo->align = fmt->pffi_type->alignment;
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stginfo->length = 0;
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@ -454,6 +454,16 @@ EXPORT(double complex) my_csqrt(double complex a)
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{
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return csqrt(a);
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}
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EXPORT(float complex) my_csqrtf(float complex a)
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{
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return csqrtf(a);
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}
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EXPORT(long double complex) my_csqrtl(long double complex a)
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{
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return csqrtl(a);
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}
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#endif
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EXPORT(void) my_qsort(void *base, size_t num, size_t width, int(*compare)(const void*, const void*))
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@ -657,6 +657,8 @@ union result {
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void *p;
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#if defined(Py_HAVE_C_COMPLEX) && defined(FFI_TARGET_HAS_COMPLEX_TYPE)
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double complex C;
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float complex E;
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long double complex F;
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#endif
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};
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@ -1112,6 +1112,50 @@ C_get(void *ptr, Py_ssize_t size)
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memcpy(&x, ptr, sizeof(x));
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return PyComplex_FromDoubles(creal(x), cimag(x));
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}
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static PyObject *
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E_set(void *ptr, PyObject *value, Py_ssize_t size)
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{
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Py_complex c = PyComplex_AsCComplex(value);
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if (c.real == -1 && PyErr_Occurred()) {
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return NULL;
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}
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float complex x = CMPLXF((float)c.real, (float)c.imag);
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memcpy(ptr, &x, sizeof(x));
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_RET(value);
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}
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static PyObject *
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E_get(void *ptr, Py_ssize_t size)
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{
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float complex x;
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memcpy(&x, ptr, sizeof(x));
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return PyComplex_FromDoubles(crealf(x), cimagf(x));
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}
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static PyObject *
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F_set(void *ptr, PyObject *value, Py_ssize_t size)
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{
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Py_complex c = PyComplex_AsCComplex(value);
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if (c.real == -1 && PyErr_Occurred()) {
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return NULL;
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}
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long double complex x = CMPLXL(c.real, c.imag);
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memcpy(ptr, &x, sizeof(x));
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_RET(value);
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}
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static PyObject *
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F_get(void *ptr, Py_ssize_t size)
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{
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long double complex x;
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memcpy(&x, ptr, sizeof(x));
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return PyComplex_FromDoubles((double)creall(x), (double)cimagl(x));
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}
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#endif
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static PyObject *
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@ -1621,6 +1665,8 @@ static struct fielddesc formattable[] = {
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{ 'd', d_set, d_get, NULL, d_set_sw, d_get_sw},
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#if defined(Py_HAVE_C_COMPLEX) && defined(FFI_TARGET_HAS_COMPLEX_TYPE)
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{ 'C', C_set, C_get, NULL},
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{ 'E', E_set, E_get, NULL},
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{ 'F', F_set, F_get, NULL},
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#endif
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{ 'g', g_set, g_get, NULL},
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{ 'f', f_set, f_get, NULL, f_set_sw, f_get_sw},
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@ -1674,6 +1720,8 @@ _ctypes_init_fielddesc(void)
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case 'd': fd->pffi_type = &ffi_type_double; break;
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#if defined(Py_HAVE_C_COMPLEX) && defined(FFI_TARGET_HAS_COMPLEX_TYPE)
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case 'C': fd->pffi_type = &ffi_type_complex_double; break;
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case 'E': fd->pffi_type = &ffi_type_complex_float; break;
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case 'F': fd->pffi_type = &ffi_type_complex_longdouble; break;
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#endif
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case 'g': fd->pffi_type = &ffi_type_longdouble; break;
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case 'f': fd->pffi_type = &ffi_type_float; break;
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@ -401,6 +401,8 @@ struct tagPyCArgObject {
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void *p;
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#if defined(Py_HAVE_C_COMPLEX) && defined(FFI_TARGET_HAS_COMPLEX_TYPE)
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double complex C;
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float complex E;
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long double complex F;
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#endif
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} value;
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PyObject *obj;
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