cpython/Modules/mpzmodule.c

1745 lines
40 KiB
C
Raw Normal View History

/* MPZ module */
/* This module provides an interface to an alternate Multi-Precision
library, GNU MP in this case */
/* XXX note: everywhere where mpz_size is called,
sizeof (limb) == sizeof (long) has been assumed. */
/* MPZ objects */
#include "Python.h"
#include <assert.h>
#include <sys/types.h> /* For size_t */
/*
** These are the cpp-flags used in this file...
**
**
** MPZ_MDIV_BUG works around the mpz_m{div,mod,...} routines.
** This bug has been fixed in a later release of
** GMP.
**
** MPZ_GET_STR_BUG mpz_get_str corrupts memory, seems to be fixed
** in a later release
**
** MPZ_DEBUG generates a bunch of diagnostic messages
**
** MPZ_SPARE_MALLOC if set, results in extra code that tries to
** minimize the creation of extra objects.
**
** MPZ_TEST_DIV extra diagnostic output on stderr, when division
** routines are involved
**
** MPZ_LIB_DOES_CHECKING if set, assumes that mpz library doesn't call
** alloca with arg < 0 (when casted to a signed
** integral type).
**
** MPZ_CONVERSIONS_AS_METHODS if set, presents the conversions as
** methods. e.g., `mpz(5).long() == 5L'
** Later, Guido provided an interface to the
** standard functions. So this flag has no been
** cleared, and `long(mpz(5)) == 5L'
**
** MP_TEST_ALLOC If set, you would discover why MPZ_GET_STR_BUG
** is needed
**
** MAKEDUMMYINT Must be set if dynamic linking will be used
*/
/*
** IMHO, mpz_m{div,mod,divmod}() do the wrong things when the denominator < 0
1996-08-19 23:06:45 +00:00
** This has been fixed with gmp release 2.0
*/
/*#define MPZ_MDIV_BUG fixed the (for me) nexessary parts in libgmp.a */
/*
** IMO, mpz_get_str() assumes a bit too large target space, if he doesn't
** allocate it himself
*/
#include "gmp.h"
#if __GNU_MP__ + 0 == 2
1996-08-19 23:06:45 +00:00
#define GMP2
#define BITS_PER_MP_LIMB mp_bits_per_limb
1996-08-19 23:06:45 +00:00
#else
#define MPZ_GET_STR_BUG
#include "gmp-mparam.h"
1996-08-19 23:06:45 +00:00
#endif
typedef struct {
PyObject_HEAD
MP_INT mpz; /* the actual number */
} mpzobject;
staticforward PyTypeObject MPZtype;
#define is_mpzobject(v) ((v)->ob_type == &MPZtype)
static const char initialiser_name[] = "mpz";
/* #define MPZ_DEBUG */
static mpzobject *
newmpzobject(void)
{
mpzobject *mpzp;
#ifdef MPZ_DEBUG
fputs( "mpz_object() called...\n", stderr );
#endif /* def MPZ_DEBUG */
mpzp = PyObject_New(mpzobject, &MPZtype);
if (mpzp == NULL)
return NULL;
mpz_init(&mpzp->mpz); /* actual initialisation */
return mpzp;
} /* newmpzobject() */
#ifdef MPZ_GET_STR_BUG
#include "longlong.h"
#endif /* def MPZ_GET_STR_BUG */
static PyObject *
mpz_format(PyObject *objp, int base, unsigned char withname)
{
mpzobject *mpzp = (mpzobject *)objp;
PyStringObject *strobjp;
size_t i;
int cmpres;
int taglong;
char *cp;
char prefix[5], *tcp;
tcp = &prefix[0];
if (mpzp == NULL || !is_mpzobject(mpzp)) {
PyErr_BadInternalCall();
return NULL;
}
assert(base >= 2 && base <= 36);
if (withname)
i = strlen(initialiser_name) + 2; /* e.g. 'mpz(' + ')' */
else
i = 0;
if ((cmpres = mpz_cmp_si(&mpzp->mpz, 0L)) == 0)
base = 10; /* '0' in every base, right */
else if (cmpres < 0) {
*tcp++ = '-';
i += 1; /* space to hold '-' */
}
#ifdef MPZ_DEBUG
fprintf(stderr, "mpz_format: mpz_sizeinbase %d\n",
(int)mpz_sizeinbase(&mpzp->mpz, base));
#endif /* def MPZ_DEBUG */
#ifdef MPZ_GET_STR_BUG
1996-08-19 23:06:45 +00:00
#ifdef GMP2
i += ((size_t) abs(mpzp->mpz._mp_size) * BITS_PER_MP_LIMB
* __mp_bases[base].chars_per_bit_exactly) + 1;
#else
i += ((size_t) abs(mpzp->mpz.size) * BITS_PER_MP_LIMB
* __mp_bases[base].chars_per_bit_exactly) + 1;
1996-08-19 23:06:45 +00:00
#endif
#else /* def MPZ_GET_STR_BUG */
i += (int)mpz_sizeinbase(&mpzp->mpz, base);
#endif /* def MPZ_GET_STR_BUG else */
if (base == 16) {
*tcp++ = '0';
*tcp++ = 'x';
i += 2; /* space to hold '0x' */
}
else if (base == 8) {
*tcp++ = '0';
i += 1; /* space to hold the extra '0' */
}
else if (base > 10) {
*tcp++ = '0' + base / 10;
*tcp++ = '0' + base % 10;
*tcp++ = '#';
i += 3; /* space to hold e.g. '12#' */
}
else if (base < 10) {
*tcp++ = '0' + base;
*tcp++ = '#';
i += 2; /* space to hold e.g. '6#' */
}
/*
** the following code looks if we need a 'L' attached to the number
** it will also attach an 'L' to the value -0x80000000
*/
taglong = 0;
if (mpz_size(&mpzp->mpz) > 1
|| (long)mpz_get_ui(&mpzp->mpz) < 0L) {
taglong = 1;
i += 1; /* space to hold 'L' */
}
#ifdef MPZ_DEBUG
fprintf(stderr, "mpz_format: requesting string size %d\n", i);
#endif /* def MPZ_DEBUG */
if ((strobjp =
(PyStringObject *)PyString_FromStringAndSize((char *)0, i))
== NULL)
return NULL;
/* get the beginning of the string memory and start copying things */
cp = PyString_AS_STRING(strobjp);
if (withname) {
strcpy(cp, initialiser_name);
cp += strlen(initialiser_name);
*cp++ = '('; /*')'*/
}
/* copy the already prepared prefix; e.g. sign and base indicator */
*tcp = '\0';
strcpy(cp, prefix);
cp += tcp - prefix;
/* since' we have the sign already, let the lib think it's a positive
number */
if (cmpres < 0)
mpz_neg(&mpzp->mpz,&mpzp->mpz); /* hack Hack HAck HACk HACK */
(void)mpz_get_str(cp, base, &mpzp->mpz);
if (cmpres < 0)
mpz_neg(&mpzp->mpz,&mpzp->mpz); /* hack Hack HAck HACk HACK */
#ifdef MPZ_DEBUG
fprintf(stderr, "mpz_format: base (ultim) %d, mpz_get_str: %s\n",
base, cp);
#endif /* def MPZ_DEBUG */
cp += strlen(cp);
if (taglong)
*cp++ = 'L';
if (withname)
*cp++ = /*'('*/ ')';
*cp = '\0';
#ifdef MPZ_DEBUG
fprintf(stderr,
"mpz_format: cp (str end) %p, begin %p, diff %d, i %d\n",
cp, PyString_AS_STRING(strobjp),
cp - PyString_AS_STRING(strobjp), i);
#endif /* def MPZ_DEBUG */
assert(cp - PyString_AS_STRING(strobjp) <= i);
if (cp - PyString_AS_STRING(strobjp) != i) {
strobjp->ob_size -= i - (cp - PyString_AS_STRING(strobjp));
}
return (PyObject *)strobjp;
} /* mpz_format() */
/* MPZ methods */
static void
mpz_dealloc(mpzobject *mpzp)
{
#ifdef MPZ_DEBUG
fputs( "mpz_dealloc() called...\n", stderr );
#endif /* def MPZ_DEBUG */
mpz_clear(&mpzp->mpz);
PyObject_Del(mpzp);
} /* mpz_dealloc() */
/* pointers to frequently used values 0, 1 and -1 */
static mpzobject *mpz_value_zero, *mpz_value_one, *mpz_value_mone;
static int
mpz_compare(mpzobject *a, mpzobject *b)
{
int cmpres;
/* guido sez it's better to return -1, 0 or 1 */
return (cmpres = mpz_cmp( &a->mpz, &b->mpz )) == 0 ? 0
: cmpres > 0 ? 1 : -1;
} /* mpz_compare() */
static PyObject *
mpz_addition(mpzobject *a, mpzobject *b)
{
mpzobject *z;
#ifdef MPZ_SPARE_MALLOC
if (mpz_cmp_ui(&a->mpz, (unsigned long int)0) == 0) {
Py_INCREF(b);
return (PyObject *)b;
}
if (mpz_cmp_ui(&b->mpz, (unsigned long int)0) == 0) {
Py_INCREF(a);
return (PyObject *)a;
}
#endif /* def MPZ_SPARE_MALLOC */
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_add(&z->mpz, &a->mpz, &b->mpz);
return (PyObject *)z;
} /* mpz_addition() */
static PyObject *
mpz_substract(mpzobject *a, mpzobject *b)
{
mpzobject *z;
#ifdef MPZ_SPARE_MALLOC
if (mpz_cmp_ui(&b->mpz, (unsigned long int)0) == 0) {
Py_INCREF(a);
return (PyObject *)a;
}
#endif /* MPZ_SPARE_MALLOC */
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_sub(&z->mpz, &a->mpz, &b->mpz);
return (PyObject *)z;
} /* mpz_substract() */
static PyObject *
mpz_multiply(mpzobject *a, mpzobject *b)
{
#ifdef MPZ_SPARE_MALLOC
int cmpres;
#endif /* def MPZ_SPARE_MALLOC */
mpzobject *z;
#ifdef MPZ_SPARE_MALLOC
if ((cmpres = mpz_cmp_ui(&a->mpz, (unsigned long int)0)) == 0) {
Py_INCREF(mpz_value_zero);
return (PyObject *)mpz_value_zero;
}
if (cmpres > 0 && mpz_cmp_ui(&a->mpz, (unsigned long int)1) == 0) {
Py_INCREF(b);
return (PyObject *)b;
}
if ((cmpres = mpz_cmp_ui(&b->mpz, (unsigned long_int)0)) == 0) {
Py_INCREF(mpz_value_zero);
return (PyObject *)mpz_value_zero;
}
if (cmpres > 0 && mpz_cmp_ui(&b->mpz, (unsigned long int)1) == 0) {
Py_INCREF(a);
return (PyObject *)a;
}
#endif /* MPZ_SPARE_MALLOC */
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_mul( &z->mpz, &a->mpz, &b->mpz );
return (PyObject *)z;
} /* mpz_multiply() */
static PyObject *
mpz_divide(mpzobject *a, mpzobject *b)
{
#ifdef MPZ_SPARE_MALLOC
int cmpres;
#endif /* def MPZ_SPARE_MALLOC */
mpzobject *z;
if ((
#ifdef MPZ_SPARE_MALLOC
cmpres =
#endif /* def MPZ_SPARE_MALLOC */
mpz_cmp_ui(&b->mpz, (unsigned long int)0)) == 0) {
PyErr_SetString(PyExc_ZeroDivisionError, "mpz./ by zero");
return NULL;
}
#ifdef MPZ_SPARE_MALLOC
if (cmpres > 0 && mpz_cmp_ui(&b->mpz(unsigned long int)1) == 0) {
Py_INCREF(a);
return (PyObject *)a;
}
#endif /* def MPZ_SPARE_MALLOC */
if ((z = newmpzobject()) == NULL)
return NULL;
#ifdef MPZ_TEST_DIV
fputs("mpz_divide: div result", stderr);
mpz_div(&z->mpz, &a->mpz, &b->mpz);
mpz_out_str(stderr, 10, &z->mpz);
putc('\n', stderr);
#endif /* def MPZ_TEST_DIV */
#ifdef MPZ_MDIV_BUG
if ((mpz_cmp_ui(&a->mpz, (unsigned long int)0) < 0)
!= (mpz_cmp_ui(&b->mpz, (unsigned long int)0) < 0)) {
/*
** numerator has other sign than denominator: we have
** to look at the remainder for a correction, since mpz_mdiv
** also calls mpz_divmod, I can as well do it myself
*/
MP_INT tmpmpz;
mpz_init(&tmpmpz);
mpz_divmod(&z->mpz, &tmpmpz, &a->mpz, &b->mpz);
if (mpz_cmp_ui(&tmpmpz, (unsigned long int)0) != 0)
mpz_sub_ui(&z->mpz, &z->mpz, (unsigned long int)1);
mpz_clear(&tmpmpz);
}
else
mpz_div(&z->mpz, &a->mpz, &b->mpz);
/* the ``naive'' implementation does it right for operands
having the same sign */
#else /* def MPZ_MDIV_BUG */
mpz_mdiv(&z->mpz, &a->mpz, &b->mpz);
#endif /* def MPZ_MDIV_BUG else */
#ifdef MPZ_TEST_DIV
fputs("mpz_divide: mdiv result", stderr);
mpz_out_str(stderr, 10, &z->mpz);
putc('\n', stderr);
#endif /* def MPZ_TEST_DIV */
return (PyObject *)z;
} /* mpz_divide() */
static PyObject *
mpz_remainder(mpzobject *a, mpzobject *b)
{
#ifdef MPZ_SPARE_MALLOC
int cmpres;
#endif /* def MPZ_SPARE_MALLOC */
mpzobject *z;
if ((
#ifdef MPZ_SPARE_MALLOC
cmpres =
#endif /* def MPZ_SPARE_MALLOC */
mpz_cmp_ui(&b->mpz, (unsigned long int)0)) == 0) {
PyErr_SetString(PyExc_ZeroDivisionError, "mpz.% by zero");
return NULL;
}
#ifdef MPZ_SPARE_MALLOC
if (cmpres > 0) {
if ((cmpres = mpz_cmp_ui(&b->mpz, (unsigned long int)2)) == 0)
{
Py_INCREF(mpz_value_one);
return (PyObject *)mpz_value_one;
}
if (cmpres < 0) {
/* b must be 1 now */
Py_INCREF(mpz_value_zero);
return (PyObject *)mpz_value_zero;
}
}
#endif /* def MPZ_SPARE_MALLOC */
if ((z = newmpzobject()) == NULL)
return NULL;
#ifdef MPZ_TEST_DIV
fputs("mpz_remain: mod result", stderr);
mpz_mod(&z->mpz, &a->mpz, &b->mpz);
mpz_out_str(stderr, 10, &z->mpz);
putc('\n', stderr);
#endif /* def MPZ_TEST_DIV */
#ifdef MPZ_MDIV_BUG
/* the ``naive'' implementation does it right for operands
having the same sign */
mpz_mod(&z->mpz, &a->mpz, &b->mpz);
/* assumption: z, a and b all point to different locations */
if ((mpz_cmp_ui(&a->mpz, (unsigned long int)0) < 0)
!= (mpz_cmp_ui(&b->mpz, (unsigned long int)0) < 0)
&& mpz_cmp_ui(&z->mpz, (unsigned long int)0) != 0)
mpz_add(&z->mpz, &z->mpz, &b->mpz);
/*
** numerator has other sign than denominator: we have
** to look at the remainder for a correction, since mpz_mdiv
** also calls mpz_divmod, I can as well do it myself
*/
#else /* def MPZ_MDIV_BUG */
mpz_mmod(&z->mpz, &a->mpz, &b->mpz);
#endif /* def MPZ_MDIV_BUG else */
#ifdef MPZ_TEST_DIV
fputs("mpz_remain: mmod result", stderr);
mpz_out_str(stderr, 10, &z->mpz);
putc('\n', stderr);
#endif /* def MPZ_TEST_DIV */
return (PyObject *)z;
} /* mpz_remainder() */
static PyObject *
mpz_div_and_mod(mpzobject *a, mpzobject *b)
{
PyObject *z = NULL;
mpzobject *x = NULL, *y = NULL;
if (mpz_cmp_ui(&b->mpz, (unsigned long int)0) == 0) {
PyErr_SetString(PyExc_ZeroDivisionError, "mpz.divmod by zero");
return NULL;
}
if ((z = PyTuple_New(2)) == NULL
|| (x = newmpzobject()) == NULL
|| (y = newmpzobject()) == NULL) {
Py_XDECREF(z);
Py_XDECREF(x);
Py_XDECREF(y);
return NULL;
}
#ifdef MPZ_TEST_DIV
fputs("mpz_divmod: dm result", stderr);
mpz_divmod(&x->mpz, &y->mpz, &a->mpz, &b->mpz);
mpz_out_str(stderr, 10, &x->mpz);
putc('\n', stderr);
mpz_out_str(stderr, 10, &y->mpz);
putc('\n', stderr);
#endif /* def MPZ_TEST_DIV */
#ifdef MPZ_MDIV_BUG
mpz_divmod(&x->mpz, &y->mpz, &a->mpz, &b->mpz);
if ((mpz_cmp_ui(&a->mpz, (unsigned long int)0) < 0)
!= (mpz_cmp_ui(&b->mpz, (unsigned long int)0) < 0)
&& mpz_cmp_ui(&y->mpz, (unsigned long int)0) != 0) {
/*
** numerator has other sign than denominator: we have
** to look at the remainder for a correction.
*/
mpz_add(&y->mpz, &y->mpz, &b->mpz);
mpz_sub_ui(&x->mpz, &x->mpz, (unsigned long int)1);
}
#else /* def MPZ_MDIV_BUG */
mpz_mdivmod( &x->mpz, &y->mpz, &a->mpz, &b->mpz );
#endif /* def MPZ_MDIV_BUG else */
#ifdef MPZ_TEST_DIV
fputs("mpz_divmod: mdm result", stderr);
mpz_out_str(stderr, 10, &x->mpz);
putc('\n', stderr);
mpz_out_str(stderr, 10, &y->mpz);
putc('\n', stderr);
#endif /* def MPZ_TEST_DIV */
(void)PyTuple_SetItem(z, 0, (PyObject *)x);
(void)PyTuple_SetItem(z, 1, (PyObject *)y);
return z;
} /* mpz_div_and_mod() */
static PyObject *
mpz_power(mpzobject *a, mpzobject *b, mpzobject *m)
{
mpzobject *z;
int cmpres;
if ((PyObject *)m != Py_None) {
mpzobject *z2;
Py_INCREF(Py_None);
z=(mpzobject *)mpz_power(a, b, (mpzobject *)Py_None);
Py_DECREF(Py_None);
if (z==NULL) return((PyObject *)z);
z2=(mpzobject *)mpz_remainder(z, m);
Py_DECREF(z);
return((PyObject *)z2);
}
if ((cmpres = mpz_cmp_ui(&b->mpz, (unsigned long int)0)) == 0) {
/* the gnu-mp lib sets pow(0,0) to 0, we to 1 */
Py_INCREF(mpz_value_one);
return (PyObject *)mpz_value_one;
}
if (cmpres < 0) {
PyErr_SetString(PyExc_ValueError,
"mpz.pow to negative exponent");
return NULL;
}
if ((cmpres = mpz_cmp_ui(&a->mpz, (unsigned long int)0)) == 0) {
/* the base is 0 */
Py_INCREF(mpz_value_zero);
return (PyObject *)mpz_value_zero;
}
else if (cmpres > 0
&& mpz_cmp_ui(&a->mpz, (unsigned long int)1) == 0) {
/* the base is 1 */
Py_INCREF(mpz_value_one);
return (PyObject *)mpz_value_one;
}
else if (cmpres < 0
&& mpz_cmp_si(&a->mpz, (long int)-1) == 0) {
MP_INT tmpmpz;
/* the base is -1: pow(-1, any) == 1,-1 for even,uneven b */
/* XXX this code needs to be optimized: what's better?
mpz_mmod_ui or mpz_mod_2exp, I choose for the latter
for *un*obvious reasons */
/* is the exponent even? */
mpz_init(&tmpmpz);
/* look to the remainder after a division by (1 << 1) */
mpz_mod_2exp(&tmpmpz, &b->mpz, (unsigned long int)1);
if (mpz_cmp_ui(&tmpmpz, (unsigned int)0) == 0) {
mpz_clear(&tmpmpz);
Py_INCREF(mpz_value_one);
return (PyObject *)mpz_value_one;
}
mpz_clear(&tmpmpz);
Py_INCREF(mpz_value_mone);
return (PyObject *)mpz_value_mone;
}
#ifdef MPZ_LIB_DOES_CHECKING
/* check if it's doable: sizeof(exp) > sizeof(long) &&
abs(base) > 1 ?? --> No Way */
if (mpz_size(&b->mpz) > 1)
return (PyObject *)PyErr_NoMemory();
#else /* def MPZ_LIB_DOES_CHECKING */
/* wet finger method */
if (mpz_cmp_ui(&b->mpz, (unsigned long int)0x10000) >= 0) {
PyErr_SetString(PyExc_ValueError,
"mpz.pow outrageous exponent");
return NULL;
}
#endif /* def MPZ_LIB_DOES_CHECKING else */
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_pow_ui(&z->mpz, &a->mpz, mpz_get_ui(&b->mpz));
return (PyObject *)z;
} /* mpz_power() */
static PyObject *
mpz_negative(mpzobject *v)
{
mpzobject *z;
#ifdef MPZ_SPARE_MALLOC
if (mpz_cmp_ui(&v->mpz, (unsigned long int)0) == 0) {
/* -0 == 0 */
Py_INCREF(v);
return (PyObject *)v;
}
#endif /* def MPZ_SPARE_MALLOC */
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_neg(&z->mpz, &v->mpz);
return (PyObject *)z;
} /* mpz_negative() */
static PyObject *
mpz_positive(mpzobject *v)
{
Py_INCREF(v);
return (PyObject *)v;
} /* mpz_positive() */
static PyObject *
mpz_absolute(mpzobject *v)
{
mpzobject *z;
if (mpz_cmp_ui(&v->mpz, (unsigned long int)0) >= 0) {
Py_INCREF(v);
return (PyObject *)v;
}
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_neg(&z->mpz, &v->mpz);
return (PyObject *)z;
} /* mpz_absolute() */
static int
mpz_nonzero(mpzobject *v)
{
return mpz_cmp_ui(&v->mpz, (unsigned long int)0) != 0;
} /* mpz_nonzero() */
static PyObject *
py_mpz_invert(mpzobject *v)
{
mpzobject *z;
/* I think mpz_com does exactly what needed */
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_com(&z->mpz, &v->mpz);
return (PyObject *)z;
1996-08-19 23:06:45 +00:00
} /* py_mpz_invert() */
static PyObject *
mpz_lshift(mpzobject *a, mpzobject *b)
{
int cmpres;
mpzobject *z;
if ((cmpres = mpz_cmp_ui(&b->mpz, (unsigned long int)0)) == 0) {
/* a << 0 == a */
Py_INCREF(a);
return (PyObject *)a;
}
if (cmpres < 0) {
PyErr_SetString(PyExc_ValueError,
"mpz.<< negative shift count");
return NULL;
}
#ifdef MPZ_LIB_DOES_CHECKING
if (mpz_size(&b->mpz) > 1)
return (PyObject *)PyErr_NoMemory();
#else /* def MPZ_LIB_DOES_CHECKING */
/* wet finger method */
if (mpz_cmp_ui(&b->mpz, (unsigned long int)0x10000) >= 0) {
PyErr_SetString(PyExc_ValueError,
"mpz.<< outrageous shift count");
return NULL;
}
#endif /* def MPZ_LIB_DOES_CHECKING else */
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_mul_2exp(&z->mpz, &a->mpz, mpz_get_ui(&b->mpz));
return (PyObject *)z;
} /* mpz_lshift() */
static PyObject *
mpz_rshift(mpzobject *a, mpzobject *b)
{
int cmpres;
mpzobject *z;
if ((cmpres = mpz_cmp_ui(&b->mpz, (unsigned long int)0)) == 0) {
/* a >> 0 == a */
Py_INCREF(a);
return (PyObject *)a;
}
if (cmpres < 0) {
PyErr_SetString(PyExc_ValueError,
"mpz.>> negative shift count");
return NULL;
}
if (mpz_size(&b->mpz) > 1)
return (PyObject *)PyErr_NoMemory();
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_div_2exp(&z->mpz, &a->mpz, mpz_get_ui(&b->mpz));
return (PyObject *)z;
} /* mpz_rshift() */
static PyObject *
mpz_andfunc(mpzobject *a, mpzobject *b)
{
mpzobject *z;
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_and(&z->mpz, &a->mpz, &b->mpz);
return (PyObject *)z;
} /* mpz_andfunc() */
/* hack Hack HAck HACk HACK, XXX this code is dead slow */
void
mpz_xor(MP_INT *res, const MP_INT *op1, const MP_INT *op2)
{
MP_INT tmpmpz;
mpz_init(&tmpmpz);
mpz_and(res, op1, op2);
mpz_com(&tmpmpz, res);
mpz_ior(res, op1, op2);
mpz_and(res, res, &tmpmpz);
mpz_clear(&tmpmpz);
} /* mpz_xor() HACK */
static PyObject *
mpz_xorfunc(mpzobject *a, mpzobject *b)
{
mpzobject *z;
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_xor(&z->mpz, &a->mpz, &b->mpz);
return (PyObject *)z;
} /* mpz_xorfunc() */
static PyObject *
mpz_orfunc(mpzobject *a, mpzobject *b)
{
mpzobject *z;
if ((z = newmpzobject()) == NULL)
return NULL;
mpz_ior(&z->mpz, &a->mpz, &b->mpz);
return (PyObject *)z;
} /* mpz_orfunc() */
/* MPZ initialisation */
#include "longintrepr.h"
static PyObject *
MPZ_mpz(PyObject *self, PyObject *args)
{
mpzobject *mpzp;
PyObject *objp;
#ifdef MPZ_DEBUG
fputs("MPZ_mpz() called...\n", stderr);
#endif /* def MPZ_DEBUG */
if (!PyArg_Parse(args, "O", &objp))
return NULL;
/* at least we know it's some object */
/* note DON't Py_DECREF args NEITHER objp */
if (PyInt_Check(objp)) {
long lval;
if (!PyArg_Parse(objp, "l", &lval))
return NULL;
if (lval == (long)0) {
Py_INCREF(mpz_value_zero);
mpzp = mpz_value_zero;
}
else if (lval == (long)1) {
Py_INCREF(mpz_value_one);
mpzp = mpz_value_one;
}
else if ((mpzp = newmpzobject()) == NULL)
return NULL;
else mpz_set_si(&mpzp->mpz, lval);
}
else if (PyLong_Check(objp)) {
MP_INT mplongdigit;
int i;
unsigned char isnegative;
if ((mpzp = newmpzobject()) == NULL)
return NULL;
mpz_set_si(&mpzp->mpz, 0L);
mpz_init(&mplongdigit);
/* how we're gonna handle this? */
if ((isnegative =
((i = ((PyLongObject *)objp)->ob_size) < 0) ))
i = -i;
while (i--) {
mpz_set_ui(&mplongdigit,
(unsigned long)
((PyLongObject *)objp)->ob_digit[i]);
mpz_mul_2exp(&mplongdigit,&mplongdigit,
(unsigned long int)i * SHIFT);
mpz_ior(&mpzp->mpz, &mpzp->mpz, &mplongdigit);
}
if (isnegative)
mpz_neg(&mpzp->mpz, &mpzp->mpz);
/* get rid of allocation for tmp variable */
mpz_clear(&mplongdigit);
}
else if (PyString_Check(objp)) {
unsigned char *cp = (unsigned char *)PyString_AS_STRING(objp);
int len = PyString_GET_SIZE(objp);
MP_INT mplongdigit;
if ((mpzp = newmpzobject()) == NULL)
return NULL;
mpz_set_si(&mpzp->mpz, 0L);
mpz_init(&mplongdigit);
/* let's do it the same way as with the long conversion:
without thinking how it can be faster (-: :-) */
cp += len;
while (len--) {
mpz_set_ui(&mplongdigit, (unsigned long)*--cp );
mpz_mul_2exp(&mplongdigit,&mplongdigit,
(unsigned long int)len * 8);
mpz_ior(&mpzp->mpz, &mpzp->mpz, &mplongdigit);
}
/* get rid of allocation for tmp variable */
mpz_clear(&mplongdigit);
}
else if (is_mpzobject(objp)) {
Py_INCREF(objp);
mpzp = (mpzobject *)objp;
}
else {
PyErr_SetString(PyExc_TypeError,
"mpz.mpz() expects integer, long, string or mpz object argument");
return NULL;
}
#ifdef MPZ_DEBUG
fputs("MPZ_mpz: created mpz=", stderr);
mpz_out_str(stderr, 10, &mpzp->mpz);
putc('\n', stderr);
#endif /* def MPZ_DEBUG */
return (PyObject *)mpzp;
} /* MPZ_mpz() */
static mpzobject *
mpz_mpzcoerce(PyObject *z)
{
/* shortcut: 9 out of 10 times the type is already ok */
if (is_mpzobject(z)) {
Py_INCREF(z);
return (mpzobject *)z; /* coercion succeeded */
}
/* what types do we accept?: intobjects and longobjects */
if (PyInt_Check(z) || PyLong_Check(z))
return (mpzobject *)MPZ_mpz((PyObject *)NULL, z);
PyErr_SetString(PyExc_TypeError,
"number coercion (to mpzobject) failed");
return NULL;
} /* mpz_mpzcoerce() */
/* Forward */
static void mpz_divm(MP_INT *res, const MP_INT *num,
const MP_INT *den, const MP_INT *mod);
static PyObject *
MPZ_powm(PyObject *self, PyObject *args)
{
PyObject *base, *exp, *mod;
mpzobject *mpzbase = NULL, *mpzexp = NULL, *mpzmod = NULL;
mpzobject *z;
int tstres;
if (!PyArg_Parse(args, "(OOO)", &base, &exp, &mod))
return NULL;
if ((mpzbase = mpz_mpzcoerce(base)) == NULL
|| (mpzexp = mpz_mpzcoerce(exp)) == NULL
|| (mpzmod = mpz_mpzcoerce(mod)) == NULL
|| (z = newmpzobject()) == NULL) {
Py_XDECREF(mpzbase);
Py_XDECREF(mpzexp);
Py_XDECREF(mpzmod);
return NULL;
}
if ((tstres=mpz_cmp_ui(&mpzexp->mpz, (unsigned long int)0)) == 0) {
Py_INCREF(mpz_value_one);
return (PyObject *)mpz_value_one;
}
if (tstres < 0) {
MP_INT absexp;
/* negative exp */
mpz_init_set(&absexp, &mpzexp->mpz);
mpz_abs(&absexp, &absexp);
mpz_powm(&z->mpz, &mpzbase->mpz, &absexp, &mpzmod->mpz);
mpz_divm(&z->mpz, &mpz_value_one->mpz, &z->mpz, &mpzmod->mpz);
mpz_clear(&absexp);
}
else {
mpz_powm(&z->mpz, &mpzbase->mpz, &mpzexp->mpz, &mpzmod->mpz);
}
Py_DECREF(mpzbase);
Py_DECREF(mpzexp);
Py_DECREF(mpzmod);
return (PyObject *)z;
} /* MPZ_powm() */
static PyObject *
MPZ_gcd(PyObject *self, PyObject *args)
{
PyObject *op1, *op2;
mpzobject *mpzop1 = NULL, *mpzop2 = NULL;
mpzobject *z;
if (!PyArg_Parse(args, "(OO)", &op1, &op2))
return NULL;
if ((mpzop1 = mpz_mpzcoerce(op1)) == NULL
|| (mpzop2 = mpz_mpzcoerce(op2)) == NULL
|| (z = newmpzobject()) == NULL) {
Py_XDECREF(mpzop1);
Py_XDECREF(mpzop2);
return NULL;
}
/* ok, we have three mpzobjects, and an initialised result holder */
mpz_gcd(&z->mpz, &mpzop1->mpz, &mpzop2->mpz);
Py_DECREF(mpzop1);
Py_DECREF(mpzop2);
return (PyObject *)z;
} /* MPZ_gcd() */
static PyObject *
MPZ_gcdext(PyObject *self, PyObject *args)
{
PyObject *op1, *op2, *z = NULL;
mpzobject *mpzop1 = NULL, *mpzop2 = NULL;
mpzobject *g = NULL, *s = NULL, *t = NULL;
if (!PyArg_Parse(args, "(OO)", &op1, &op2))
return NULL;
if ((mpzop1 = mpz_mpzcoerce(op1)) == NULL
|| (mpzop2 = mpz_mpzcoerce(op2)) == NULL
|| (z = PyTuple_New(3)) == NULL
|| (g = newmpzobject()) == NULL
|| (s = newmpzobject()) == NULL
|| (t = newmpzobject()) == NULL) {
Py_XDECREF(mpzop1);
Py_XDECREF(mpzop2);
Py_XDECREF(z);
Py_XDECREF(g);
Py_XDECREF(s);
/*Py_XDECREF(t);*/
return NULL;
}
mpz_gcdext(&g->mpz, &s->mpz, &t->mpz, &mpzop1->mpz, &mpzop2->mpz);
Py_DECREF(mpzop1);
Py_DECREF(mpzop2);
(void)PyTuple_SetItem(z, 0, (PyObject *)g);
(void)PyTuple_SetItem(z, 1, (PyObject *)s);
(void)PyTuple_SetItem(z, 2, (PyObject *)t);
return (PyObject *)z;
} /* MPZ_gcdext() */
static PyObject *
MPZ_sqrt(PyObject *self, PyObject *args)
{
PyObject *op;
mpzobject *mpzop = NULL;
mpzobject *z;
if (!PyArg_Parse(args, "O", &op))
return NULL;
if ((mpzop = mpz_mpzcoerce(op)) == NULL
|| (z = newmpzobject()) == NULL) {
Py_XDECREF(mpzop);
return NULL;
}
mpz_sqrt(&z->mpz, &mpzop->mpz);
Py_DECREF(mpzop);
return (PyObject *)z;
} /* MPZ_sqrt() */
static PyObject *
MPZ_sqrtrem(PyObject *self, PyObject *args)
{
PyObject *op, *z = NULL;
mpzobject *mpzop = NULL;
mpzobject *root = NULL, *rem = NULL;
if (!PyArg_Parse(args, "O", &op))
return NULL;
if ((mpzop = mpz_mpzcoerce(op)) == NULL
|| (z = PyTuple_New(2)) == NULL
|| (root = newmpzobject()) == NULL
|| (rem = newmpzobject()) == NULL) {
Py_XDECREF(mpzop);
Py_XDECREF(z);
Py_XDECREF(root);
/*Py_XDECREF(rem);*/
return NULL;
}
mpz_sqrtrem(&root->mpz, &rem->mpz, &mpzop->mpz);
Py_DECREF(mpzop);
(void)PyTuple_SetItem(z, 0, (PyObject *)root);
(void)PyTuple_SetItem(z, 1, (PyObject *)rem);
return (PyObject *)z;
} /* MPZ_sqrtrem() */
static void
mpz_divm(MP_INT *res, const MP_INT *num, const MP_INT *den, const MP_INT *mod)
{
MP_INT s0, s1, q, r, x, d0, d1;
mpz_init_set(&s0, num);
mpz_init_set_ui(&s1, 0);
mpz_init(&q);
mpz_init(&r);
mpz_init(&x);
mpz_init_set(&d0, den);
mpz_init_set(&d1, mod);
1996-08-19 23:06:45 +00:00
#ifdef GMP2
while (d1._mp_size != 0) {
#else
while (d1.size != 0) {
1996-08-19 23:06:45 +00:00
#endif
mpz_divmod(&q, &r, &d0, &d1);
mpz_set(&d0, &d1);
mpz_set(&d1, &r);
mpz_mul(&x, &s1, &q);
mpz_sub(&x, &s0, &x);
mpz_set(&s0, &s1);
mpz_set(&s1, &x);
}
1996-08-19 23:06:45 +00:00
#ifdef GMP2
if (d0._mp_size != 1 || d0._mp_d[0] != 1)
res->_mp_size = 0; /* trouble: the gcd != 1; set s to zero */
#else
if (d0.size != 1 || d0.d[0] != 1)
res->size = 0; /* trouble: the gcd != 1; set s to zero */
1996-08-19 23:06:45 +00:00
#endif
else {
#ifdef MPZ_MDIV_BUG
/* watch out here! first check the signs, and then perform
the mpz_mod() since mod could point to res */
if ((s0.size < 0) != (mod->size < 0)) {
mpz_mod(res, &s0, mod);
if (res->size)
mpz_add(res, res, mod);
}
else
mpz_mod(res, &s0, mod);
#else /* def MPZ_MDIV_BUG */
mpz_mmod(res, &s0, mod);
#endif /* def MPZ_MDIV_BUG else */
}
mpz_clear(&s0);
mpz_clear(&s1);
mpz_clear(&q);
mpz_clear(&r);
mpz_clear(&x);
mpz_clear(&d0);
mpz_clear(&d1);
} /* mpz_divm() */
static PyObject *
MPZ_divm(PyObject *self, PyObject *args)
{
PyObject *num, *den, *mod;
mpzobject *mpznum, *mpzden, *mpzmod = NULL;
mpzobject *z = NULL;
if (!PyArg_Parse(args, "(OOO)", &num, &den, &mod))
return NULL;
if ((mpznum = mpz_mpzcoerce(num)) == NULL
|| (mpzden = mpz_mpzcoerce(den)) == NULL
|| (mpzmod = mpz_mpzcoerce(mod)) == NULL
|| (z = newmpzobject()) == NULL ) {
Py_XDECREF(mpznum);
Py_XDECREF(mpzden);
Py_XDECREF(mpzmod);
return NULL;
}
mpz_divm(&z->mpz, &mpznum->mpz, &mpzden->mpz, &mpzmod->mpz);
Py_DECREF(mpznum);
Py_DECREF(mpzden);
Py_DECREF(mpzmod);
if (mpz_cmp_ui(&z->mpz, (unsigned long int)0) == 0) {
Py_DECREF(z);
PyErr_SetString(PyExc_ValueError,
"gcd(den, mod) != 1 or num == 0");
return NULL;
}
return (PyObject *)z;
} /* MPZ_divm() */
/* MPZ methods-as-attributes */
#ifdef MPZ_CONVERSIONS_AS_METHODS
static PyObject *
mpz_int(mpzobject *self, PyObject *args)
#else /* def MPZ_CONVERSIONS_AS_METHODS */
static PyObject *
mpz_int(mpzobject *self)
#endif /* def MPZ_CONVERSIONS_AS_METHODS else */
{
long sli;
#ifdef MPZ_CONVERSIONS_AS_METHODS
if (!PyArg_NoArgs(args))
return NULL;
#endif /* def MPZ_CONVERSIONS_AS_METHODS */
if (mpz_size(&self->mpz) > 1
|| (sli = (long)mpz_get_ui(&self->mpz)) < (long)0 ) {
PyErr_SetString(PyExc_ValueError,
"mpz.int() arg too long to convert");
return NULL;
}
if (mpz_cmp_ui(&self->mpz, (unsigned long)0) < 0)
sli = -sli;
return PyInt_FromLong(sli);
} /* mpz_int() */
static PyObject *
#ifdef MPZ_CONVERSIONS_AS_METHODS
mpz_long(mpzobject *self, PyObject *args)
#else /* def MPZ_CONVERSIONS_AS_METHODS */
mpz_long(mpzobject *self)
#endif /* def MPZ_CONVERSIONS_AS_METHODS else */
{
int i, isnegative;
unsigned long int uli;
PyLongObject *longobjp;
int ldcount;
int bitpointer, newbitpointer;
MP_INT mpzscratch;
#ifdef MPZ_CONVERSIONS_AS_METHODS
if (!PyArg_NoArgs(args))
return NULL;
#endif /* def MPZ_CONVERSIONS_AS_METHODS */
/* determine length of python-long to be allocated */
if ((longobjp = _PyLong_New(i = (int)
((mpz_size(&self->mpz) * BITS_PER_MP_LIMB
+ SHIFT - 1) /
SHIFT))) == NULL)
return NULL;
/* determine sign, and copy self to scratch var */
mpz_init_set(&mpzscratch, &self->mpz);
1996-08-19 23:06:45 +00:00
if ((isnegative = (mpz_cmp_ui(&self->mpz, (unsigned long int)0) < 0)))
mpz_neg(&mpzscratch, &mpzscratch);
/* let those bits come, let those bits go,
e.g. dismantle mpzscratch, build PyLongObject */
bitpointer = 0; /* the number of valid bits in stock */
newbitpointer = 0;
ldcount = 0; /* the python-long limb counter */
uli = (unsigned long int)0;
while (i--) {
longobjp->ob_digit[ldcount] = uli & MASK;
/* check if we've had enough bits for this digit */
if (bitpointer < SHIFT) {
uli = mpz_get_ui(&mpzscratch);
longobjp->ob_digit[ldcount] |=
(uli << bitpointer) & MASK;
uli >>= SHIFT-bitpointer;
bitpointer += BITS_PER_MP_LIMB;
mpz_div_2exp(&mpzscratch, &mpzscratch,
BITS_PER_MP_LIMB);
}
else
uli >>= SHIFT;
bitpointer -= SHIFT;
ldcount++;
}
assert(mpz_cmp_ui(&mpzscratch, (unsigned long int)0) == 0);
mpz_clear(&mpzscratch);
assert(ldcount <= longobjp->ob_size);
/* long_normalize() is file-static */
/* longobjp = long_normalize(longobjp); */
while (ldcount > 0 && longobjp->ob_digit[ldcount-1] == 0)
ldcount--;
longobjp->ob_size = ldcount;
if (isnegative)
longobjp->ob_size = -longobjp->ob_size;
return (PyObject *)longobjp;
} /* mpz_long() */
/* I would have avoided pow() anyways, so ... */
static const double multiplier = 256.0 * 256.0 * 256.0 * 256.0;
#ifdef MPZ_CONVERSIONS_AS_METHODS
static PyObject *
mpz_float(mpzobject *self, PyObject *args)
#else /* def MPZ_CONVERSIONS_AS_METHODS */
static PyObject *
mpz_float(mpzobject *self)
#endif /* def MPZ_CONVERSIONS_AS_METHODS else */
{
int i, isnegative;
double x;
double mulstate;
MP_INT mpzscratch;
#ifdef MPZ_CONVERSIONS_AS_METHODS
if (!PyArg_NoArgs(args))
return NULL;
#endif /* def MPZ_CONVERSIONS_AS_METHODS */
i = (int)mpz_size(&self->mpz);
/* determine sign, and copy abs(self) to scratch var */
if ((isnegative = (mpz_cmp_ui(&self->mpz, (unsigned long int)0) < 0)))
{
mpz_init(&mpzscratch);
mpz_neg(&mpzscratch, &self->mpz);
}
else
mpz_init_set(&mpzscratch, &self->mpz);
/* let those bits come, let those bits go,
e.g. dismantle mpzscratch, build PyFloatObject */
/* Can this overflow? Dunno, protect against that possibility. */
PyFPE_START_PROTECT("mpz_float", return 0)
x = 0.0;
mulstate = 1.0;
while (i--) {
x += mulstate * mpz_get_ui(&mpzscratch);
mulstate *= multiplier;
mpz_div_2exp(&mpzscratch, &mpzscratch, BITS_PER_MP_LIMB);
}
1997-03-14 04:32:50 +00:00
PyFPE_END_PROTECT(mulstate)
assert(mpz_cmp_ui(&mpzscratch, (unsigned long int)0) == 0);
mpz_clear(&mpzscratch);
if (isnegative)
x = -x;
return PyFloat_FromDouble(x);
} /* mpz_float() */
#ifdef MPZ_CONVERSIONS_AS_METHODS
static PyObject *
mpz_hex(mpzobject *self, PyObject *args)
#else /* def MPZ_CONVERSIONS_AS_METHODS */
static PyObject *
mpz_hex(mpzobject *self)
#endif /* def MPZ_CONVERSIONS_AS_METHODS else */
{
#ifdef MPZ_CONVERSIONS_AS_METHODS
if (!PyArg_NoArgs(args))
return NULL;
#endif /* def MPZ_CONVERSIONS_AS_METHODS */
return mpz_format((PyObject *)self, 16, (unsigned char)1);
} /* mpz_hex() */
#ifdef MPZ_CONVERSIONS_AS_METHODS
static PyObject *
mpz_oct(mpzobject *self, PyObject *args)
#else /* def MPZ_CONVERSIONS_AS_METHODS */
static PyObject *
mpz_oct(mpzobject *self)
#endif /* def MPZ_CONVERSIONS_AS_METHODS else */
{
#ifdef MPZ_CONVERSIONS_AS_METHODS
if (!PyArg_NoArgs(args))
return NULL;
#endif /* def MPZ_CONVERSIONS_AS_METHODS */
return mpz_format((PyObject *)self, 8, (unsigned char)1);
} /* mpz_oct() */
static PyObject *
mpz_binary(mpzobject *self, PyObject *args)
{
int size;
PyStringObject *strobjp;
char *cp;
MP_INT mp;
unsigned long ldigit;
if (!PyArg_NoArgs(args))
return NULL;
if (mpz_cmp_ui(&self->mpz, (unsigned long int)0) < 0) {
PyErr_SetString(PyExc_ValueError,
"mpz.binary() arg must be >= 0");
return NULL;
}
mpz_init_set(&mp, &self->mpz);
size = (int)mpz_size(&mp);
if ((strobjp = (PyStringObject *)
PyString_FromStringAndSize(
(char *)0, size * sizeof (unsigned long int))) == NULL)
return NULL;
/* get the beginning of the string memory and start copying things */
cp = PyString_AS_STRING(strobjp);
/* this has been programmed using a (fairly) decent lib-i/f it could
be must faster if we looked into the GMP lib */
while (size--) {
ldigit = mpz_get_ui(&mp);
mpz_div_2exp(&mp, &mp, BITS_PER_MP_LIMB);
*cp++ = (unsigned char)(ldigit & 0xFF);
*cp++ = (unsigned char)((ldigit >>= 8) & 0xFF);
*cp++ = (unsigned char)((ldigit >>= 8) & 0xFF);
*cp++ = (unsigned char)((ldigit >>= 8) & 0xFF);
}
while (strobjp->ob_size && !*--cp)
strobjp->ob_size--;
return (PyObject *)strobjp;
} /* mpz_binary() */
static PyMethodDef mpz_methods[] = {
#ifdef MPZ_CONVERSIONS_AS_METHODS
{"int", mpz_int},
{"long", mpz_long},
{"float", mpz_float},
{"hex", mpz_hex},
{"oct", mpz_oct},
#endif /* def MPZ_CONVERSIONS_AS_METHODS */
{"binary", (PyCFunction)mpz_binary},
{NULL, NULL} /* sentinel */
};
static PyObject *
mpz_getattr(mpzobject *self, char *name)
{
return Py_FindMethod(mpz_methods, (PyObject *)self, name);
} /* mpz_getattr() */
static int
mpz_coerce(PyObject **pv, PyObject **pw)
{
PyObject *z;
#ifdef MPZ_DEBUG
fputs("mpz_coerce() called...\n", stderr);
#endif /* def MPZ_DEBUG */
assert(is_mpzobject(*pv));
/* always convert other arg to mpz value, except for floats */
if (!PyFloat_Check(*pw)) {
if ((z = (PyObject *)mpz_mpzcoerce(*pw)) == NULL)
return -1; /* -1: an error always has been set */
Py_INCREF(*pv);
*pw = z;
}
else {
#ifdef MPZ_CONVERSIONS_AS_METHODS
if ((z = mpz_float((mpzobject *)(*pv), NULL)) == NULL)
return -1;
#else /* def MPZ_CONVERSIONS_AS_METHODS */
if ((z = mpz_float((mpzobject *)(*pv))) == NULL)
return -1;
#endif /* def MPZ_CONVERSIONS_AS_METHODS else */
Py_INCREF(*pw);
*pv = z;
}
return 0; /* coercion succeeded */
} /* mpz_coerce() */
static PyObject *
mpz_repr(PyObject *v)
{
return mpz_format(v, 10, (unsigned char)1);
} /* mpz_repr() */
#define UF (unaryfunc)
#define BF (binaryfunc)
#define TF (ternaryfunc)
#define IF (inquiry)
#define CF (coercion)
static PyNumberMethods mpz_as_number = {
BF mpz_addition, /*nb_add*/
BF mpz_substract, /*nb_subtract*/
BF mpz_multiply, /*nb_multiply*/
BF mpz_divide, /*nb_divide*/
BF mpz_remainder, /*nb_remainder*/
BF mpz_div_and_mod, /*nb_divmod*/
TF mpz_power, /*nb_power*/
UF mpz_negative, /*nb_negative*/
UF mpz_positive, /*tp_positive*/
UF mpz_absolute, /*tp_absolute*/
IF mpz_nonzero, /*tp_nonzero*/
1996-08-19 23:06:45 +00:00
UF py_mpz_invert, /*nb_invert*/
BF mpz_lshift, /*nb_lshift*/
BF mpz_rshift, /*nb_rshift*/
BF mpz_andfunc, /*nb_and*/
BF mpz_xorfunc, /*nb_xor*/
BF mpz_orfunc, /*nb_or*/
CF mpz_coerce, /*nb_coerce*/
#ifndef MPZ_CONVERSIONS_AS_METHODS
UF mpz_int, /*nb_int*/
UF mpz_long, /*nb_long*/
UF mpz_float, /*nb_float*/
UF mpz_oct, /*nb_oct*/
UF mpz_hex, /*nb_hex*/
#endif /* ndef MPZ_CONVERSIONS_AS_METHODS */
};
static PyTypeObject MPZtype = {
PyObject_HEAD_INIT(&PyType_Type)
0, /*ob_size*/
"mpz", /*tp_name*/
sizeof(mpzobject), /*tp_size*/
0, /*tp_itemsize*/
/* methods */
(destructor)mpz_dealloc, /*tp_dealloc*/
0, /*tp_print*/
(getattrfunc)mpz_getattr, /*tp_getattr*/
0, /*tp_setattr*/
(cmpfunc)mpz_compare, /*tp_compare*/
(reprfunc)mpz_repr, /*tp_repr*/
&mpz_as_number, /*tp_as_number*/
};
/* List of functions exported by this module */
static PyMethodDef mpz_functions[] = {
#if 0
{initialiser_name, MPZ_mpz},
#else /* 0 */
/* until guido ``fixes'' struct PyMethodDef */
{(char *)initialiser_name, MPZ_mpz},
#endif /* 0 else */
{"powm", MPZ_powm},
{"gcd", MPZ_gcd},
{"gcdext", MPZ_gcdext},
{"sqrt", MPZ_sqrt},
{"sqrtrem", MPZ_sqrtrem},
{"divm", MPZ_divm},
{NULL, NULL} /* Sentinel */
};
/* #define MP_TEST_ALLOC */
#ifdef MP_TEST_ALLOC
#define MP_TEST_SIZE 4
static const char mp_test_magic[MP_TEST_SIZE] = {'\xAA','\xAA','\xAA','\xAA'};
static mp_test_error(int *location)
{
/* assumptions: *alloc returns address divisible by 4,
mpz_* routines allocate in chunks divisible by four */
fprintf(stderr, "MP_TEST_ERROR: location holds 0x%08d\n", *location );
Py_FatalError("MP_TEST_ERROR");
} /* static mp_test_error() */
#define MP_EXTRA_ALLOC(size) ((size) + MP_TEST_SIZE)
#define MP_SET_TEST(basep,size) (void)memcpy( ((char *)(basep))+(size), mp_test_magic, MP_TEST_SIZE)
#define MP_DO_TEST(basep,size) if ( !memcmp( ((char *)(basep))+(size), mp_test_magic, MP_TEST_SIZE ) ) \
; \
else \
mp_test_error((int *)((char *)(basep) + size))
#else /* def MP_TEST_ALLOC */
#define MP_EXTRA_ALLOC(size) (size)
#define MP_SET_TEST(basep,size)
#define MP_DO_TEST(basep,size)
#endif /* def MP_TEST_ALLOC else */
void *mp_allocate(size_t alloc_size)
{
void *res;
#ifdef MPZ_DEBUG
fprintf(stderr, "mp_allocate : size %ld\n",
alloc_size);
#endif /* def MPZ_DEBUG */
if ( (res = malloc(MP_EXTRA_ALLOC(alloc_size))) == NULL )
Py_FatalError("mp_allocate failure");
#ifdef MPZ_DEBUG
fprintf(stderr, "mp_allocate : address %08p\n", res);
#endif /* def MPZ_DEBUG */
MP_SET_TEST(res,alloc_size);
return res;
} /* mp_allocate() */
void *mp_reallocate(void *ptr, size_t old_size, size_t new_size)
{
void *res;
#ifdef MPZ_DEBUG
fprintf(stderr, "mp_reallocate: old address %08p, old size %ld\n",
ptr, old_size);
#endif /* def MPZ_DEBUG */
MP_DO_TEST(ptr, old_size);
if ( (res = realloc(ptr, MP_EXTRA_ALLOC(new_size))) == NULL )
Py_FatalError("mp_reallocate failure");
#ifdef MPZ_DEBUG
fprintf(stderr, "mp_reallocate: new address %08p, new size %ld\n",
res, new_size);
#endif /* def MPZ_DEBUG */
MP_SET_TEST(res, new_size);
return res;
} /* mp_reallocate() */
void mp_free(void *ptr, size_t size)
{
#ifdef MPZ_DEBUG
fprintf(stderr, "mp_free : old address %08p, old size %ld\n",
ptr, size);
#endif /* def MPZ_DEBUG */
MP_DO_TEST(ptr, size);
free(ptr);
} /* mp_free() */
/* Initialize this module. */
DL_EXPORT(void)
initmpz(void)
{
PyObject *module;
PyObject *dict;
#ifdef MPZ_DEBUG
fputs( "initmpz() called...\n", stderr );
#endif /* def MPZ_DEBUG */
mp_set_memory_functions( mp_allocate, mp_reallocate, mp_free );
module = Py_InitModule("mpz", mpz_functions);
/* create some frequently used constants */
if ((mpz_value_zero = newmpzobject()) == NULL)
goto finally;
mpz_set_ui(&mpz_value_zero->mpz, (unsigned long int)0);
if ((mpz_value_one = newmpzobject()) == NULL)
goto finally;
mpz_set_ui(&mpz_value_one->mpz, (unsigned long int)1);
if ((mpz_value_mone = newmpzobject()) == NULL)
goto finally;
mpz_set_si(&mpz_value_mone->mpz, (long)-1);
dict = PyModule_GetDict(module);
if (dict != NULL) {
PyDict_SetItemString(dict, "MPZType", (PyObject*)&MPZtype);
}
finally:
return;
} /* initmpz() */
#ifdef MAKEDUMMYINT
int _mpz_dummy_int; /* XXX otherwise, we're .bss-less (DYNLOAD->Jack?) */
#endif /* def MAKEDUMMYINT */