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v0.5.1
https://github.com/python/cpython
09 December 2020, 11:06:31 UTC
Revision 9993a364f7ede91b1a84d4592893d48652cf5d90 authored by Jack Jansen on 25 March 2002, 11:14:28 UTC, committed by Jack Jansen on 25 March 2002, 11:14:28 UTC 
Backport of _Evtmodule.c 1.6, evtsupport.py 1.15:
 
Weaklink most toolbox modules, improving backward compatibility. Modules will no longer fail to load if a single routine is missing on the curent OS version, in stead calling the missing routine will raise an exception.

Should finally fix 531398. 2.2.1 candidate.

Also blacklisted some constants with definitions that were not Python-compatible.
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Tip revision: 9993a364f7ede91b1a84d4592893d48652cf5d90 authored by Jack Jansen on 25 March 2002, 11:14:28 UTC
Backport of _Evtmodule.c 1.6, evtsupport.py 1.15:
Tip revision: 9993a36
testcapi_long.h 
/* Poor-man's template.  Macros used:
   TESTNAME	name of the test (like test_long_api_inner)
   TYPENAME	the signed type (like long)
   F_S_TO_PY	convert signed to pylong; TYPENAME -> PyObject*
   F_PY_TO_S	convert pylong to signed; PyObject* -> TYPENAME
   F_U_TO_PY	convert unsigned to pylong; unsigned TYPENAME -> PyObject*
   F_PY_TO_U    convert pylong to unsigned; PyObject* -> unsigned TYPENAME
*/

static PyObject *
TESTNAME(PyObject *error(const char*))
{
	const int NBITS = sizeof(TYPENAME) * 8;
	unsigned TYPENAME base;
	PyObject *pyresult;
	int i;

	/* Note:  This test lets PyObjects leak if an error is raised.  Since
	   an error should never be raised, leaks are impossible <wink>. */

	/* Test native -> PyLong -> native roundtrip identity.
	 * Generate all powers of 2, and test them and their negations,
	 * plus the numbers +-1 off from them.
	 */
	base = 1;
	for (i = 0;
	     i < NBITS + 1;  /* on last, base overflows to 0 */
	     ++i, base <<= 1)
	{
		int j;
		for (j = 0; j < 6; ++j) {
			TYPENAME in, out;
			unsigned TYPENAME uin, uout;

			/* For 0, 1, 2 use base; for 3, 4, 5 use -base */
			uin = j < 3 ? base
				    : (unsigned TYPENAME)(-(TYPENAME)base);

			/* For 0 & 3, subtract 1.
			 * For 1 & 4, leave alone.
			 * For 2 & 5, add 1.
			 */
			uin += (unsigned TYPENAME)(TYPENAME)(j % 3 - 1);

			pyresult = F_U_TO_PY(uin);
			if (pyresult == NULL)
				return error(
				 "unsigned unexpected null result");

			uout = F_PY_TO_U(pyresult);
			if (uout == (unsigned TYPENAME)-1 && PyErr_Occurred())
				return error(
					"unsigned unexpected -1 result");
			if (uout != uin)
				return error(
					"unsigned output != input");
			UNBIND(pyresult);

			in = (TYPENAME)uin;
			pyresult = F_S_TO_PY(in);
			if (pyresult == NULL)
				return error(
					"signed unexpected null result");

			out = F_PY_TO_S(pyresult);
			if (out == (TYPENAME)-1 && PyErr_Occurred())
				return error(
					"signed unexpected -1 result");
			if (out != in)
				return error(
					"signed output != input");
			UNBIND(pyresult);
		}
	}

	/* Overflow tests.  The loop above ensured that all limit cases that
	 * should not overflow don't overflow, so all we need to do here is
	 * provoke one-over-the-limit cases (not exhaustive, but sharp).
	 */
	{
		PyObject *one, *x, *y;
		TYPENAME out;
		unsigned TYPENAME uout;

		one = PyLong_FromLong(1);
		if (one == NULL)
			return error(
				"unexpected NULL from PyLong_FromLong");

		/* Unsigned complains about -1? */
		x = PyNumber_Negative(one);
		if (x == NULL)
			return error(
				"unexpected NULL from PyNumber_Negative");

		uout = F_PY_TO_U(x);
		if (uout != (unsigned TYPENAME)-1 || !PyErr_Occurred())
			return error(
				"PyLong_AsUnsignedXXX(-1) didn't complain");
		PyErr_Clear();
		UNBIND(x);

		/* Unsigned complains about 2**NBITS? */
		y = PyLong_FromLong((long)NBITS);
		if (y == NULL)
			return error(
				"unexpected NULL from PyLong_FromLong");

		x = PyNumber_Lshift(one, y); /* 1L << NBITS, == 2**NBITS */
		UNBIND(y);
		if (x == NULL)
			return error(
				"unexpected NULL from PyNumber_Lshift");

  		uout = F_PY_TO_U(x);
		if (uout != (unsigned TYPENAME)-1 || !PyErr_Occurred())
			return error(
				"PyLong_AsUnsignedXXX(2**NBITS) didn't "
				"complain");
		PyErr_Clear();

		/* Signed complains about 2**(NBITS-1)?
		   x still has 2**NBITS. */
		y = PyNumber_Rshift(x, one); /* 2**(NBITS-1) */
		UNBIND(x);
		if (y == NULL)
			return error(
				"unexpected NULL from PyNumber_Rshift");

		out = F_PY_TO_S(y);
		if (out != (TYPENAME)-1 || !PyErr_Occurred())
			return error(
				"PyLong_AsXXX(2**(NBITS-1)) didn't "
				"complain");
		PyErr_Clear();

		/* Signed complains about -2**(NBITS-1)-1?;
		   y still has 2**(NBITS-1). */
		x = PyNumber_Negative(y);  /* -(2**(NBITS-1)) */
		UNBIND(y);
		if (x == NULL)
			return error(
				"unexpected NULL from PyNumber_Negative");

		y = PyNumber_Subtract(x, one); /* -(2**(NBITS-1))-1 */
		UNBIND(x);
		if (y == NULL)
			return error(
				"unexpected NULL from PyNumber_Subtract");

		out = F_PY_TO_S(y);
		if (out != (TYPENAME)-1 || !PyErr_Occurred())
			return error(
				"PyLong_AsXXX(-2**(NBITS-1)-1) didn't "
				"complain");
		PyErr_Clear();
		UNBIND(y);

		Py_XDECREF(x);
		Py_XDECREF(y);
		Py_DECREF(one);
	}

	Py_INCREF(Py_None);
	return Py_None;
}
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