Modules/testcapi_long.h - platform/external/python/cpython3 - Gitiles

 /* 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");
         if (!PyErr_ExceptionMatches(PyExc_OverflowError))
             return error(
                 "PyLong_AsUnsignedXXX(-1) raised "
                 "something other than OverflowError");
         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");
         if (!PyErr_ExceptionMatches(PyExc_OverflowError))
             return error(
                 "PyLong_AsUnsignedXXX(2**NBITS) raised "
                 "something other than OverflowError");
         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");
         if (!PyErr_ExceptionMatches(PyExc_OverflowError))
             return error(
                 "PyLong_AsXXX(2**(NBITS-1)) raised "
                 "something other than OverflowError");
         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");
         if (!PyErr_ExceptionMatches(PyExc_OverflowError))
             return error(
                 "PyLong_AsXXX(-2**(NBITS-1)-1) raised "
                 "something other than OverflowError");
         PyErr_Clear();
         UNBIND(y);

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

     Py_INCREF(Py_None);
     return Py_None;
 }
	/* 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");
	if (!PyErr_ExceptionMatches(PyExc_OverflowError))
	return error(
	"PyLong_AsUnsignedXXX(-1) raised "
	"something other than OverflowError");
	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");
	if (!PyErr_ExceptionMatches(PyExc_OverflowError))
	return error(
	"PyLong_AsUnsignedXXX(2**NBITS) raised "
	"something other than OverflowError");
	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");
	if (!PyErr_ExceptionMatches(PyExc_OverflowError))
	return error(
	"PyLong_AsXXX(2**(NBITS-1)) raised "
	"something other than OverflowError");
	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");
	if (!PyErr_ExceptionMatches(PyExc_OverflowError))
	return error(
	"PyLong_AsXXX(-2**(NBITS-1)-1) raised "
	"something other than OverflowError");
	PyErr_Clear();
	UNBIND(y);

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

	Py_INCREF(Py_None);
	return Py_None;
	}