double AB_Value_GetValueAsDouble(const AB_VALUE *v) {
assert(v);
if (mpz_fits_slong_p(mpq_numref(v->value)) && mpz_fits_slong_p(mpq_denref(v->value))) {
return (double) (mpz_get_d(mpq_numref(v->value)) / mpz_get_d(mpq_denref(v->value)));
}
else {
return mpq_get_d(v->value);
}
}
Term
Yap_MkBigIntTerm(MP_INT *big)
{
CACHE_REGS
Int nlimbs;
MP_INT *dst = (MP_INT *)(H+2);
CELL *ret = H;
Int bytes;
if (mpz_fits_slong_p(big)) {
long int out = mpz_get_si(big);
return MkIntegerTerm((Int)out);
}
// bytes = big->_mp_alloc * sizeof(mp_limb_t);
// nlimbs = ALIGN_YAPTYPE(bytes,CELL)/CellSize;
// this works, but it shouldn't need to do this...
nlimbs = big->_mp_alloc;
bytes = nlimbs*sizeof(CELL);
if (nlimbs > (ASP-ret)-1024) {
return TermNil;
}
H[0] = (CELL)FunctorBigInt;
H[1] = BIG_INT;
dst->_mp_size = big->_mp_size;
dst->_mp_alloc = nlimbs*(CellSize/sizeof(mp_limb_t));
memmove((void *)(dst+1), (const void *)(big->_mp_d), bytes);
H = (CELL *)(dst+1)+nlimbs;
H[0] = EndSpecials;
H++;
return AbsAppl(ret);
}
int qsieve_getsize(mpz_t x)
{
int t;
t = mpz_get_si(x);
if(mpz_fits_slong_p(x)) return t;
return (t<0 ? -0x7FFFFFFF : +0x7FFFFFFF);
}
ecl_long_long_t
ecl_to_long_long(cl_object x)
{
if (ECL_FIXNUMP(x)) {
return (ecl_long_long_t)ecl_fixnum(x);
} else if (!ECL_BIGNUMP(x)) {
(void)0;
} else if (mpz_fits_slong_p(x->big.big_num)) {
return (ecl_long_long_t)mpz_get_si(x->big.big_num);
} else {
cl_object copy = _ecl_big_register0();
int i = ECL_LONG_LONG_BITS - FIXNUM_BITS;
mpz_fdiv_q_2exp(copy->bit.big_num, x->big.big_num, i);
if (mpz_fits_ulong_p(copy->big.big_num)) {
volatile ecl_long_long_t output;
output = mpz_get_si(copy->big.big_num);
for (i -= FIXNUM_BITS; i; i-= FIXNUM_BITS) {
output = (output << FIXNUM_BITS);
output += mpz_get_ui(x->big.big_num);
}
return output;
}
}
FEwrong_type_argument(cl_list(3,ECL_SYM("INTEGER",437),
ecl_negate(ecl_ash(ecl_make_fixnum(1), ECL_LONG_LONG_BITS-1)),
ecl_one_minus(ecl_ash(ecl_make_fixnum(1), ECL_LONG_LONG_BITS-1))),
x);
}
/* This function is used by Miller */
int step3(int j, mpz_t m, mpz_t x, mpz_t a, mpz_t p, mpz_t p1){
int newm;
int somethi = (int) pow(2.0,(double)j);
printf("something = %d\n", somethi);
if(mpz_fits_slong_p(m) == 0){
printf("this is problematic cause m is too huge for gmp to handle");
return 0;
}
else{
newm = mpz_get_si(m);
}
somethi = somethi*newm;
printf("something (after new M) = %d\n", somethi);
gmp_printf("x (before mod): %Zd\t & p1: %Zd\n", x, p1);
mpz_powm_ui(x, a, somethi, p);
gmp_printf("x (step 3) = %Zd\n", x);
if(mpz_cmp_ui(x, 1) == 0){
printf("entered if\n");
return 0;
}
else if(mpz_cmp(x, p1) == 0){
printf("enter else if\n");
return 1;
}
else{
printf("enter else, let's see j's value, %d\n", j);
return ++j;
}
}
std::pair<bool, int> RingZZ::get_si(mpz_t n)
{
if (not mpz_fits_slong_p(n)) return std::make_pair<bool, int>(false, 0);
long a = mpz_get_si(n);
int b = static_cast<int>(a);
if (a == b) return std::make_pair<bool, int>(true, std::move(b));
return std::make_pair<bool, int>(false, 0);
}
/* mpz -> pyint/pylong conversion; if the value fits in a python int, it
returns a python int (optimised for that pathway), otherwise returns
a python long */
PyObject *
mpz_get_pyintlong(mpz_srcptr z)
{
if (mpz_fits_slong_p(z))
return PyInt_FromLong(mpz_get_si(z));
return mpz_get_pylong(z);
}
object
make_integer(__mpz_struct *u)
{
if ((u)->_mp_size == 0) return small_fixnum(0);
if (mpz_fits_slong_p(u)) {
return make_fixnum(mpz_get_si(u));
}
return make_bignum(u);
}
/*
void camlidl_mpq_ml2c(value val, __mpq_struct* mpq)
{
*mpq = *((mpq_ptr)(Data_custom_val(val)));
}
*/
int mpz_fits_int_p (mpz_t OP)
{
if (mpz_fits_slong_p(OP)) {
long v = mpz_get_si(OP);
return (Min_long <= v && v<=Max_long);
}
else {
return 0;
}
}
static CBIGINT *_pow(CBIGINT *a, CBIGINT *b, bool invert)
{
if (!mpz_fits_slong_p(b->n))
{
GB.Error(GB_ERR_OVERFLOW);
return NULL;
}
return BIGINT_make_int(a, mpz_get_si(b->n), mpz_pow_ui);
}
int fmpz_fits_si(const fmpz_t f)
{
if (!COEFF_IS_MPZ(*f))
{
return 1;
}
else
{
return mpz_fits_slong_p(COEFF_TO_PTR(*f));
}
}
cl_fixnum
fixint(cl_object x)
{
if (ECL_FIXNUMP(x))
return ecl_fixnum(x);
if (ECL_BIGNUMP(x)) {
if (mpz_fits_slong_p(x->big.big_num)) {
return mpz_get_si(x->big.big_num);
}
}
FEwrong_type_argument(ecl_make_fixnum(/*FIXNUM*/372), x);
}
void power_mpz(ElementType &result, const ElementType& a, mpz_ptr n) const
{
if (mpz_fits_slong_p(n))
{
int n1 = static_cast<int>(mpz_get_si(n));
power(result,a,n1);
}
else
{
ERROR("exponent too large");
set_from_long(result, 1);
}
}
extern "C" Py_ssize_t PyLong_AsSsize_t(PyObject* vv) noexcept {
RELEASE_ASSERT(PyLong_Check(vv), "");
if (PyLong_Check(vv)) {
BoxedLong* l = static_cast<BoxedLong*>(vv);
if (mpz_fits_slong_p(l->n)) {
return mpz_get_si(l->n);
} else {
PyErr_SetString(PyExc_OverflowError, "long int too large to convert to int");
return -1;
}
}
Py_FatalError("unimplemented");
}
ecl_int64_t
ecl_to_int64_t(cl_object x) {
if (ECL_FIXNUMP(x)) {
return (ecl_int64_t)ecl_fixnum(x);
} else if (!ECL_BIGNUMP(x)) {
(void)0;
} else if (mpz_fits_slong_p(x->big.big_num)) {
return (ecl_int64_t)mpz_get_si(x->big.big_num);
} else {
cl_object copy = _ecl_big_register0();
mpz_fdiv_q_2exp(copy->big.big_num, x->big.big_num, 32);
if (mpz_fits_slong_p(copy->big.big_num)) {
ecl_int64_t output;
output = (ecl_int64_t)mpz_get_si(copy->big.big_num);
mpz_fdiv_r_2exp(copy->big.big_num, x->big.big_num, 32);
return (output << 32) + mpz_get_ui(copy->big.big_num);
}
}
FEwrong_type_argument(cl_list(3,ECL_SYM("INTEGER",437),
ecl_negate(ecl_ash(ecl_make_fixnum(1), 63)),
ecl_one_minus(ecl_ash(ecl_make_fixnum(1), 63))),
x);
}
int fmpz_fits_si(const fmpz_t f)
{
if (!COEFF_IS_MPZ(*f))
{
return 1;
}
else
{
#if defined(_WIN64)
return flint_mpz_fits_si_p(COEFF_TO_PTR(*f));
#else
return mpz_fits_slong_p(COEFF_TO_PTR(*f));
#endif
}
}
/* Converts a GMP integer into a backend tree node. */
tree
gfc_conv_mpz_to_tree (mpz_t i, int kind)
{
HOST_WIDE_INT high;
unsigned HOST_WIDE_INT low;
if (mpz_fits_slong_p (i))
{
/* Note that HOST_WIDE_INT is never smaller than long. */
low = mpz_get_si (i);
high = mpz_sgn (i) < 0 ? -1 : 0;
}
else
{
unsigned HOST_WIDE_INT words[2];
size_t count;
/* Since we know that the value is not zero (mpz_fits_slong_p),
we know that at one word will be written, but we don't know
about the second. It's quicker to zero the second word before
that conditionally clear it later. */
words[1] = 0;
/* Extract the absolute value into words. */
mpz_export (words, &count, -1, sizeof (HOST_WIDE_INT), 0, 0, i);
/* We assume that all numbers are in range for its type, and that
we never create a type larger than 2*HWI, which is the largest
that the middle-end can handle. */
gcc_assert (count == 1 || count == 2);
low = words[0];
high = words[1];
/* Negate if necessary. */
if (mpz_sgn (i) < 0)
{
if (low == 0)
high = -high;
else
low = -low, high = ~high;
}
}
return build_int_cst_wide (gfc_get_int_type (kind), low, high);
}
static CRATIONAL *_powo(CRATIONAL *a, void *o, bool invert)
{
CBIGINT *b;
if (invert || !GB.Is(o, CLASS_BigInt))
return NULL;
b = (CBIGINT *)o;
if (!mpz_fits_slong_p(b->n))
{
GB.Error(GB_ERR_OVERFLOW);
return NULL;
}
return _powf(a, (double)mpz_get_si(b->n), invert);
}
static CBIGINT *_powf(CBIGINT *a, double f, bool invert)
{
if (invert)
{
mpz_t b;
if (!mpz_fits_slong_p(a->n))
return NULL;
mpz_init_set_si(b, (long)f);
mpz_pow_ui(b, b, mpz_get_si(a->n));
return BIGINT_create(b);
}
else
return BIGINT_make_int(a, f, mpz_pow_ui);
}
int
check_si (mpz_t sz, mpz_t oz, long si, long oi, int c)
{
mpz_t t;
int fail;
if (mpz_cmp_si (sz, oi) != c)
{
printf ("mpz_cmp_si (sz, %ld) != %i.\n", oi, c);
printf (" sz="); mpz_out_str (stdout, 10, sz); printf ("\n");
abort ();
}
if ((si < oi ? -1 : si > oi) != c)
return 1;
mpz_init_set_si (t, si);
if ((fail = mpz_cmp_si (sz, si)) != 0)
printf ("mpz_cmp_si (sz, %ld) != 0.\n", si);
if (mpz_cmp_si (oz, si) != -c)
printf ("mpz_cmp_si (oz, %ld) != %i.\n", si, -c), fail = 1;
if (! mpz_fits_slong_p (sz))
printf ("mpz_fits_slong_p (sz) != 1.\n"), fail = 1;
if (mpz_get_si (sz) != si)
printf ("mpz_get_si (sz) != %ld.\n", si), fail = 1;
if (mpz_cmp (t, sz) != 0)
{
printf ("mpz_init_set_si (%ld) failed.\n", si);
printf (" got="); mpz_out_str (stdout, 10, t); printf ("\n");
fail = 1;
}
mpz_clear (t);
if (fail)
{
printf (" sz="); mpz_out_str (stdout, 10, sz); printf ("\n");
printf (" oz="); mpz_out_str (stdout, 10, oz); printf ("\n");
printf (" si=%ld\n", si);
abort ();
}
return 0;
}
signed long vanilla::int_object_to_signed_long(object::ptr const& obj)
{
if(obj->type_id() != OBJECT_ID_INT)
{
BOOST_THROW_EXCEPTION(error::bad_cast_error()
<< error::first_operand(obj)
<< error::cast_target_name("int"));
}
mpz_t& mpz = static_cast<int_object const*>(obj.get())->value().mpz();
if(!mpz_fits_slong_p(mpz))
{
BOOST_THROW_EXCEPTION(error::integer_conversion_overflow_error()
<< error::first_operand(obj)
<< error::integer_conversion_target_type("signed long"));
}
return mpz_get_si(mpz);
}
extern "C" long PyLong_AsLongAndOverflow(Box* vv, int* overflow) noexcept {
// Ported from CPython; original comment:
/* This version by Tim Peters */
*overflow = 0;
if (vv == NULL) {
PyErr_BadInternalCall();
return -1;
}
if (PyInt_Check(vv))
return PyInt_AsLong(vv);
if (!PyLong_Check(vv)) {
PyNumberMethods* nb;
nb = vv->cls->tp_as_number;
if (nb == NULL || nb->nb_int == NULL) {
PyErr_SetString(PyExc_TypeError, "an integer is required");
return -1;
}
vv = (*nb->nb_int)(vv);
if (vv == NULL)
return -1;
if (PyInt_Check(vv))
return PyInt_AsLong(vv);
if (!PyLong_Check(vv)) {
PyErr_SetString(PyExc_TypeError, "nb_int should return int object");
return -1;
}
// fallthrough: this has to be a long
}
BoxedLong* l = static_cast<BoxedLong*>(vv);
if (mpz_fits_slong_p(l->n)) {
return mpz_get_si(l->n);
} else {
*overflow = mpz_sgn(l->n);
return -1;
}
}
Value Bignum::add(long n) const
{
mpz_t result;
mpz_init_set(result, _z);
if (n >= 0)
mpz_add_ui(result, result, (unsigned long) n);
else
mpz_sub_ui(result, result, (unsigned long) -n);
if (mpz_fits_slong_p(result))
{
long n = mpz_get_si(result);
if (n >= MOST_NEGATIVE_FIXNUM && n <= MOST_POSITIVE_FIXNUM)
{
MPZ_CLEAR(result);
return make_fixnum(n);
}
}
return make_value(new Bignum(result, false));
}
APLRAT PrimFnMonQuoteDotRisR
(APLRAT aplRatRht,
LPPRIMSPEC lpPrimSpec)
{
APLRAT mpqRes = {0};
UINT uRht;
// Check for indeterminates: !N for integer N < 0
if (mpq_integer_p (&aplRatRht)
&& mpq_cmp_ui (&aplRatRht, 0, 1) < 0)
return *mpq_QuadICValue (&aplRatRht, // No left arg
ICNDX_QDOTn,
&aplRatRht,
&mpqRes,
FALSE);
// Check for PosInfinity
if (IsMpqPosInfinity (&aplRatRht))
return mpqPosInfinity;
// If the denominator is 1,
// and the numerator fts in a UINT, ...
if (mpq_integer_p (&aplRatRht)
&& mpz_fits_slong_p (mpq_numref (&aplRatRht)) NE 0)
{
// Initialize the result to 0/1
mpq_init (&mpqRes);
// Extract the numerator
uRht = (UINT) mpz_get_si (mpq_numref (&aplRatRht));
// Compute the factorial
mpz_fac_ui (mpq_numref (&mpqRes), uRht);
} else
RaiseException (EXCEPTION_RESULT_VFP, 0, 0, NULL);
return mpqRes;
} // End PrimFnMonQuoteDotRisR
void
try_op_si (int c)
{
long si, oi;
mpz_t sz, oz;
si = c;
mpz_init_set_si (sz, si);
oi = si;
mpz_init_set (oz, sz);
do {
si *= 2; /* c * 2^k */
mpz_mul_2exp (sz, sz, 1);
if (check_si (sz, oz, si, oi, c))
{
mpz_set (oz, sz);
break;
}
oi = si + c; /* c * (2^k + 1) */
if (c == -1)
mpz_sub_ui (oz, sz, 1);
else
mpz_add_ui (oz, sz, 1);
if (check_si (oz, sz, oi, si, c))
break;
oi = (si - c) * 2 + c; /* c * (2^K - 1) */
mpz_mul_si (oz, sz, 2*c);
if (c == -1)
mpz_ui_sub (oz, 1, oz); /* oz = sz * 2 + 1 */
else
mpz_sub_ui (oz, oz, 1); /* oz = sz * 2 - 1 */
} while (check_si (oz, sz, oi, si, c) == 0);
mpz_clear (sz);
if (mpz_fits_slong_p (oz))
{
printf ("Should not fit a signed long any more.\n");
printf (" oz="); mpz_out_str (stdout, 10, oz); printf ("\n");
abort ();
}
if (mpz_cmp_si (oz, -c) != c)
{
printf ("mpz_cmp_si (oz, %i) != %i.\n", c, c);
printf (" oz="); mpz_out_str (stdout, 10, oz); printf ("\n");
abort ();
}
mpz_mul_2exp (oz, oz, 1);
if (mpz_cmp_si (oz, -c) != c)
{
printf ("mpz_cmp_si (oz, %i) != %i.\n", c, c);
printf (" oz="); mpz_out_str (stdout, 10, oz); printf ("\n");
abort ();
}
mpz_clear (oz);
}
int gmpint_fits_int(mpz_t *op) {
return mpz_fits_slong_p(*op);
}
int main(int argc, char *argv[])
{
Vstr_base *s1 = ex_init(NULL);
mpz_t bignum;
const char *loc_num_name = NULL;
Vstr_ref *ref = NULL;
const unsigned int num_flags = (VSTR_FLAG_PARSE_NUM_SEP |
VSTR_FLAG_PARSE_NUM_SPACE);
if (argc < 2)
errx(EXIT_FAILURE, "No count specified");
vstr_cntl_conf(s1->conf, VSTR_CNTL_CONF_SET_FMT_CHAR_ESC, '$');
vstr_fmt_add(s1->conf, "<dMPZ:%p>", ex_usr_dmpz_cb,
VSTR_TYPE_FMT_PTR_VOID, VSTR_TYPE_FMT_END);
vstr_fmt_add(s1->conf, "<oMPZ:%p>", ex_usr_ompz_cb,
VSTR_TYPE_FMT_PTR_VOID, VSTR_TYPE_FMT_END);
vstr_fmt_add(s1->conf, "<xMPZ:%p>", ex_usr_xmpz_cb,
VSTR_TYPE_FMT_PTR_VOID, VSTR_TYPE_FMT_END);
vstr_fmt_add(s1->conf, "<bMPZ:%p>", ex_usr_bmpz_cb,
VSTR_TYPE_FMT_PTR_VOID, VSTR_TYPE_FMT_END);
setlocale(LC_ALL, "");
loc_num_name = setlocale(LC_NUMERIC, NULL);
if (!vstr_cntl_conf(s1->conf, VSTR_CNTL_CONF_SET_LOC_CSTR_AUTO_NAME_NUMERIC,
loc_num_name))
errx(EXIT_FAILURE, "Couldn't change numeric locale info");
mpz_init(bignum);
if (!vstr_add_cstr_ptr(s1, 0, argv[1]) ||
!vstr_parse_num(s1, 1, s1->len, num_flags, NULL, NULL, vmpz_num, bignum))
errno = ENOMEM, err(EXIT_FAILURE, "Couldn't init number");
vstr_del(s1, 1, s1->len);
#if (EX_GMP_NUMS_USE_TST)
{
mpz_abs(bignum, bignum);
mpz_neg(bignum, bignum);
do
{
mpz_neg(bignum, bignum);
vstr_add_fmt(s1, s1->len, "%%'20.40d = <$'20.40<dMPZ:%p>>\n",
(void *)bignum);
if (mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%'20.40d = <%'20.40ld>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%'40.20d = <$'40.20<dMPZ:%p>>\n",
(void *)bignum);
if (mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%'40.20d = <%'40.20ld>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%'20.40o = <$'20.40<oMPZ:%p>>\n",
(void *)bignum);
if ((mpz_sgn(bignum) != -1) && mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%'20.40o = <%'20.40lo>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%'40.20o = <$'40.20<oMPZ:%p>>\n",
(void *)bignum);
if ((mpz_sgn(bignum) != -1) && mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%'40.20o = <%'40.20lo>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%'20.40x = <$'20.40<xMPZ:%p>>\n",
(void *)bignum);
if ((mpz_sgn(bignum) != -1) && mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%'20.40x = <%'20.40lx>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%'40.20x = <$'40.20<xMPZ:%p>>\n",
(void *)bignum);
if ((mpz_sgn(bignum) != -1) && mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%'40.20x = <%'40.20lx>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%#'40d = <$#'40<dMPZ:%p>>\n",
(void *)bignum);
if (mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%#'40d = <%#'40ld>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%#'-40d = <$#'-40<dMPZ:%p>>\n",
(void *)bignum);
if (mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%#'-40d = <%#'-40ld>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%#'40o = <$#'40<oMPZ:%p>>\n",
(void *)bignum);
if ((mpz_sgn(bignum) != -1) && mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%#'40o = <%#'40lo>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%#'-40o = <$#'-40<oMPZ:%p>>\n",
(void *)bignum);
if ((mpz_sgn(bignum) != -1) && mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%#'-40o = <%#'-40lo>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%#'40x = <$#'40<xMPZ:%p>>\n",
(void *)bignum);
if ((mpz_sgn(bignum) != -1) && mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%#'40x = <%#'40lx>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%#'-40x = <$#'-40<xMPZ:%p>>\n",
(void *)bignum);
if ((mpz_sgn(bignum) != -1) && mpz_fits_slong_p(bignum))
vstr_add_fmt(s1, s1->len, "%%#'-40x = <%#'-40lx>\n",
mpz_get_si(bignum));
vstr_add_fmt(s1, s1->len, "%%#'b = <$#'<bMPZ:%p>>\n",
(void *)bignum);
vstr_add_rep_chr(s1, s1->len, '-', 79);
vstr_add_rep_chr(s1, s1->len, '\n', 1);
} while (mpz_sgn(bignum) > 0);
mpz_abs(bignum, bignum);
}
#endif
if (!(ref = vstr_ref_make_strdup("_")))
errno = ENOMEM, err(EXIT_FAILURE, "Ref seperator");
if (!vstr_cntl_conf(NULL, VSTR_CNTL_CONF_SET_LOC_REF_THOU_SEP, 2, ref, 1) ||
!vstr_cntl_conf(NULL, VSTR_CNTL_CONF_SET_LOC_REF_THOU_SEP, 8, ref, 1) ||
!vstr_cntl_conf(NULL, VSTR_CNTL_CONF_SET_LOC_REF_THOU_SEP, 16, ref, 1) ||
FALSE)
errno = ENOMEM, err(EXIT_FAILURE, "Add seperator");
vstr_ref_del(ref);
if (!(ref = vstr_ref_make_strdup("\4")))
errno = ENOMEM, err(EXIT_FAILURE, "Ref grouping");
if (!vstr_cntl_conf(NULL, VSTR_CNTL_CONF_SET_LOC_REF_THOU_GRP, 2, ref) ||
!vstr_cntl_conf(NULL, VSTR_CNTL_CONF_SET_LOC_REF_THOU_GRP, 16, ref) ||
FALSE)
errno = ENOMEM, err(EXIT_FAILURE, "Add grouping");
vstr_ref_del(ref);
vstr_add_fmt(s1, s1->len, " Input: %s\n", argv[1]);
vstr_add_fmt(s1, s1->len, " %%#'x = $#'<xMPZ:%p>\n",
(void *)bignum);
vstr_add_fmt(s1, s1->len, " %%#'d = $#'<dMPZ:%p>\n",
(void *)bignum);
vstr_add_fmt(s1, s1->len, " %%#'o = $#'<oMPZ:%p>\n",
(void *)bignum);
vstr_add_fmt(s1, s1->len, " %%#'b = $#'<bMPZ:%p>\n",
(void *)bignum);
if (s1->conf->malloc_bad)
errno = ENOMEM, err(EXIT_FAILURE, "Add string data");
io_put_all(s1, STDOUT_FILENO);
exit (ex_exit(s1, NULL));
}
void power_mpz(ElementType& result,const ElementType& a,const mpz_ptr n) const {
if (mpz_fits_slong_p(n))
power(result, a, mpz_get_ui(n));
else
throw exc::engine_error("attempted to take a power of an integer to too large of a power");
}
void
check_data (void)
{
static const struct {
int a_base;
const char *a;
const char *b;
int want;
} data[] = {
{ 10, "0", "1", -1 },
{ 10, "0", "0", 0 },
{ 10, "0", "-1", 1 },
{ 10, "1", "1", 0 },
{ 10, "1", "0", 1 },
{ 10, "1", "-1", 1 },
{ 10, "-1", "1", -1 },
{ 10, "-1", "0", -1 },
{ 10, "-1", "-1", 0 },
{ 16, "0", "-0x80000000", 1 },
{ 16, "80000000", "-0x80000000", 1 },
{ 16, "80000001", "-0x80000000", 1 },
{ 16, "-80000000", "-0x80000000", 0 },
{ 16, "-80000001", "-0x80000000", -1 },
{ 16, "-FF0080000001", "-0x80000000", -1 },
{ 16, "0", "-0x8000000000000000", 1 },
{ 16, "8000000000000000", "-0x8000000000000000", 1 },
{ 16, "8000000000000001", "-0x8000000000000000", 1 },
{ 16, "-8000000000000000", "-0x8000000000000000", 0 },
{ 16, "-8000000000000001", "-0x8000000000000000", -1 },
{ 16, "-FF008000000000000001", "-0x8000000000000000", -1 },
};
mpf_t a;
mpz_t bz;
long b;
int got;
int i;
mpf_init (a);
mpz_init (bz);
for (i = 0; i < numberof (data); i++)
{
mpf_set_str_or_abort (a, data[i].a, data[i].a_base);
mpz_set_str_or_abort (bz, data[i].b, 0);
if (mpz_fits_slong_p (bz))
{
b = mpz_get_si (bz);
got = mpf_cmp_si (a, b);
if (SGN (got) != data[i].want)
{
printf ("mpf_cmp_si wrong on data[%d]\n", i);
printf (" a="); mpf_out_str (stdout, 10, 0, a);
printf (" (%s)\n", data[i].a);
printf (" b=%ld (%s)\n", b, data[i].b);
printf (" got=%d\n", got);
printf (" want=%d\n", data[i].want);
abort();
}
}
}
mpf_clear (a);
mpz_clear (bz);
}
bool RingZZ::get_si(int &result, mpz_t n)
{
result = static_cast<int>(mpz_get_si(n));
return mpz_fits_slong_p(n);
}
