/* GMP module external subroutines. Copyright 2001 Free Software Foundation, Inc. This file is part of the GNU MP Library. The GNU MP Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU MP Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* Notes: Routines are grouped with the alias feature and a table of function pointers where possible, since each xsub routine ends up with quite a bit of overhead. Different combinations of arguments and return values have to be separate though. The "INTERFACE:" feature isn't available in perl 5.005 and so isn't used. "ALIAS:" requires a table lookup with CvXSUBANY(cv).any_i32 (which is "ix") whereas "INTERFACE:" would have CvXSUBANY(cv).any_dptr as the function pointer immediately. Mixed-type swapped-order assignments like "$a = 123; $a += mpz(456);" invoke the plain overloaded "+", not "+=", which makes life easier. The various mpz_assume types are used with the overloaded operators since we know they always pass a class object as the first argument and we can save an sv_derived_from() lookup. There's assert()s in MPX_ASSUME() to check though. The overload_constant routines reached via overload::constant get 4 arguments in perl 5.6, not the 3 as documented. This is apparently a bug, using "..." lets us ignore the extra one. There's only a few "si" functions in gmp, so generally SvIV values get handled with an mpz_set_si into a temporary and then a full precision mpz routine. This is reasonably efficient. Strings are identified with "SvPOK(sv)||SvPOKp(sv)" so that magic SVt_PVLV returns from substr() will work. SvPV() always gives a plain actual string. Bugs: Should IV's and/or NV's be identified with the same dual test as for strings? The memory leak detection attempted in GMP::END() doesn't work when mpz's are created as constants because END() is called before they're destroyed. What's the right place to hook such a check? */ /* Comment this out to get assertion checking. */ #define NDEBUG /* Change this to "#define TRACE(x) x" for some diagnostics. */ #define TRACE(x) #include #include #include "EXTERN.h" #include "perl.h" #include "XSUB.h" #include "patchlevel.h" #include "gmp.h" /* Code which doesn't check anything itself, but exists to support other assert()s. */ #ifdef NDEBUG #define assert_support(x) #else #define assert_support(x) x #endif /* sv_derived_from etc in 5.005 took "char *" rather than "const char *". Avoid some compiler warnings by using const only where it works. */ #if PERL_REVISION > 5 || (PERL_REVISION == 5 && PERL_VERSION >= 6) #define classconst const #else #define classconst #endif #define GMP_MALLOC_ID 42 static classconst char mpz_class[] = "GMP::Mpz"; static classconst char mpq_class[] = "GMP::Mpq"; static classconst char mpf_class[] = "GMP::Mpf"; static classconst char rand_class[] = "GMP::Rand"; assert_support (static long mpz_count = 0;) assert_support (static long mpq_count = 0;) assert_support (static long mpf_count = 0;) assert_support (static long rand_count = 0;) #define TRACE_ACTIVE() \ assert_support \ (TRACE (printf (" active %ld mpz, %ld mpq, %ld mpf, %ld randstate\n", \ mpz_count, mpq_count, mpf_count, rand_count))) /* Each "struct mpz_elem" etc is an mpz_t with a link field tacked on the end so they can be held on a linked list. */ #define CREATE_MPX(type) \ \ /* must have mpz_t etc first, for sprintf below */ \ struct type##_elem { \ type##_t m; \ struct type##_elem *next; \ }; \ typedef struct type##_elem *type; \ typedef struct type##_elem *type##_assume; \ typedef type##_ptr type##_coerce; \ typedef type##_ptr type##_mutate; \ \ static type type##_freelist = NULL; \ \ static type \ new_##type (void) \ { \ type p; \ TRACE (printf ("new %s\n", type##_class)); \ if (type##_freelist != NULL) \ { \ p = type##_freelist; \ type##_freelist = type##_freelist->next; \ } \ else \ { \ New (GMP_MALLOC_ID, p, 1, struct type##_elem); \ type##_init (p->m); \ } \ TRACE (printf (" p=%p\n", p)); \ assert_support (type##_count++); \ TRACE_ACTIVE (); \ return p; \ } \ CREATE_MPX (mpz) CREATE_MPX (mpq) typedef mpf_ptr mpf; typedef mpf_ptr mpf_assume; typedef mpf_ptr mpf_coerce_st0; typedef mpf_ptr mpf_coerce_def; static mpf new_mpf (unsigned long prec) { mpf p; New (GMP_MALLOC_ID, p, 1, __mpf_struct); mpf_init2 (p, prec); TRACE (printf (" mpf p=%p\n", p)); assert_support (mpf_count++); TRACE_ACTIVE (); return p; } /* tmp_mpf_t records an allocated precision with an mpf_t so changes of precision can be done with just an mpf_set_prec_raw. */ struct tmp_mpf_struct { mpf_t m; unsigned long allocated_prec; }; typedef const struct tmp_mpf_struct *tmp_mpf_srcptr; typedef struct tmp_mpf_struct *tmp_mpf_ptr; typedef struct tmp_mpf_struct tmp_mpf_t[1]; #define tmp_mpf_init(f) \ do { \ mpf_init (f->m); \ f->allocated_prec = mpf_get_prec (f->m); \ } while (0) static void tmp_mpf_grow (tmp_mpf_ptr f, unsigned long prec) { mpf_set_prec_raw (f->m, f->allocated_prec); mpf_set_prec (f->m, prec); f->allocated_prec = mpf_get_prec (f->m); } #define tmp_mpf_shrink(f) tmp_mpf_grow (f, 1L) #define tmp_mpf_set_prec(f,prec) \ do { \ if (prec > f->allocated_prec) \ tmp_mpf_grow (f, prec); \ else \ mpf_set_prec_raw (f->m, prec); \ } while (0) static mpz_t tmp_mpz_0, tmp_mpz_1, tmp_mpz_2; static mpq_t tmp_mpq_0, tmp_mpq_1; static tmp_mpf_t tmp_mpf_0, tmp_mpf_1; #define FREE_MPX_FREELIST(p,type) \ do { \ TRACE (printf ("free %s\n", type##_class)); \ p->next = type##_freelist; \ type##_freelist = p; \ assert_support (type##_count--); \ TRACE_ACTIVE (); \ assert (type##_count >= 0); \ } while (0) /* this version for comparison, if desired */ #define FREE_MPX_NOFREELIST(p,type) \ do { \ TRACE (printf ("free %s\n", type##_class)); \ type##_clear (p->m); \ Safefree (p); \ assert_support (type##_count--); \ TRACE_ACTIVE (); \ assert (type##_count >= 0); \ } while (0) #define free_mpz(z) FREE_MPX_FREELIST (z, mpz) #define free_mpq(q) FREE_MPX_FREELIST (q, mpq) /* Aliases for use in typemaps */ typedef char *malloced_string; typedef const char *const_string; typedef const char *const_string_assume; typedef char *string; typedef SV *order_noswap; typedef SV *dummy; typedef SV *SV_copy_0; typedef unsigned long ulong_coerce; typedef __gmp_randstate_struct *randstate; #define SvMPX(s,type) ((type) SvIV((SV*) SvRV(s))) #define SvMPZ(s) SvMPX(s,mpz) #define SvMPQ(s) SvMPX(s,mpq) #define SvMPF(s) SvMPX(s,mpf) #define SvRANDSTATE(s) SvMPX(s,randstate) #define MPX_ASSUME(x,sv,type) \ do { \ assert (sv_derived_from (sv, type##_class)); \ x = SvMPX(sv,type); \ } while (0) #define MPZ_ASSUME(z,sv) MPX_ASSUME(z,sv,mpz) #define MPQ_ASSUME(q,sv) MPX_ASSUME(q,sv,mpq) #define MPF_ASSUME(f,sv) MPX_ASSUME(f,sv,mpf) #define numberof(x) (sizeof (x) / sizeof ((x)[0])) #define SGN(x) ((x)<0 ? -1 : (x) != 0) #define ABS(x) ((x)>=0 ? (x) : -(x)) #define double_integer_p(d) (floor (d) == (d)) #define x_mpq_integer_p(q) \ (mpz_cmp_ui (mpq_denref(q), 1L) == 0) #define x_mpq_equal_si(q,n,d) \ (mpz_cmp_si (mpq_numref(q), n) == 0 && mpz_cmp_ui (mpq_denref(q), d) == 0) #define x_mpq_equal_z(q,z) \ (x_mpq_integer_p(q) && mpz_cmp (mpq_numref(q), z) == 0) #define assert_table(ix) assert (ix >= 0 && ix < numberof (table)) #define SV_PTR_SWAP(x,y) \ do { SV *__tmp = (x); (x) = (y); (y) = __tmp; } while (0) #define MPF_PTR_SWAP(x,y) \ do { mpf_ptr __tmp = (x); (x) = (y); (y) = __tmp; } while (0) #define SvPOKorp(sv) (SvPOK(sv) || SvPOKp(sv)) static void class_or_croak (SV *sv, classconst char *class) { if (! sv_derived_from (sv, class)) croak("not type %s", class); } /* These are macros, wrap them in functions. */ static int x_mpz_odd_p (mpz_srcptr z) { return mpz_odd_p (z); } static int x_mpz_even_p (mpz_srcptr z) { return mpz_even_p (z); } static void x_mpq_pow_ui (mpq_ptr r, mpq_srcptr b, unsigned long e) { mpz_pow_ui (mpq_numref(r), mpq_numref(b), e); mpz_pow_ui (mpq_denref(r), mpq_denref(b), e); } static void * my_gmp_alloc (size_t n) { void *p; TRACE (printf ("my_gmp_alloc %u\n", n)); New (GMP_MALLOC_ID, p, n, char); TRACE (printf (" p=%p\n", p)); return p; } static void * my_gmp_realloc (void *p, size_t oldsize, size_t newsize) { TRACE (printf ("my_gmp_realloc %p, %u to %u\n", p, oldsize, newsize)); Renew (p, newsize, char); TRACE (printf (" p=%p\n", p)); return p; } static void my_gmp_free (void *p, size_t n) { TRACE (printf ("my_gmp_free %p %u\n", p, n)); Safefree (p); } #define my_mpx_set_svstr(type) \ static void \ my_##type##_set_svstr (type##_ptr x, SV *sv) \ { \ const char *str; \ STRLEN len; \ TRACE (printf (" my_" #type "_set_svstr\n")); \ assert (SvPOKorp (sv)); \ str = SvPV (sv, len); \ TRACE (printf (" str \"%s\"\n", str)); \ if (type##_set_str (x, str, 0) != 0) \ croak ("%s: invalid string: %s", type##_class, str); \ } my_mpx_set_svstr(mpz) my_mpx_set_svstr(mpq) my_mpx_set_svstr(mpf) /* very slack */ static int x_mpq_cmp_si (mpq_srcptr x, long yn, unsigned long yd) { mpq y; int ret; y = new_mpq (); mpq_set_si (y->m, yn, yd); ret = mpq_cmp (x, y->m); free_mpq (y); return ret; } static int x_mpq_fits_slong_p (mpq_srcptr q) { return x_mpq_cmp_si (q, LONG_MIN, 1L) >= 0 && mpq_cmp_ui (q, LONG_MAX, 1L) <= 0; } static int x_mpz_cmp_q (mpz_ptr x, mpq_srcptr y) { int ret; mpz_set_ui (mpq_denref(tmp_mpq_0), 1L); mpz_swap (mpq_numref(tmp_mpq_0), x); ret = mpq_cmp (tmp_mpq_0, y); mpz_swap (mpq_numref(tmp_mpq_0), x); return ret; } static int x_mpz_cmp_f (mpz_srcptr x, mpf_srcptr y) { tmp_mpf_set_prec (tmp_mpf_0, mpz_sizeinbase (x, 2)); mpf_set_z (tmp_mpf_0->m, x); return mpf_cmp (tmp_mpf_0->m, y); } /* Coerce sv to an mpz. Use tmp to hold the converted value if sv isn't already an mpz (or an mpq of which the numerator can be used). Return the chosen mpz (tmp or the contents of sv). */ static mpz_ptr coerce_mpz (mpz_ptr tmp, SV *sv) { if (SvIOK(sv)) { mpz_set_si (tmp, SvIVX(sv)); return tmp; } if (SvPOKorp(sv)) { my_mpz_set_svstr (tmp, sv); return tmp; } if (SvNOK(sv)) { double d = SvNVX(sv); if (! double_integer_p (d)) croak ("cannot coerce non-integer double to mpz"); mpz_set_d (tmp, d); return tmp; } if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) { return SvMPZ(sv)->m; } if (sv_derived_from (sv, mpq_class)) { mpq q = SvMPQ(sv); if (! x_mpq_integer_p (q->m)) croak ("cannot coerce non-integer mpq to mpz"); return mpq_numref(q->m); } if (sv_derived_from (sv, mpf_class)) { mpf f = SvMPF(sv); if (! mpf_integer_p (f)) croak ("cannot coerce non-integer mpf to mpz"); mpz_set_f (tmp, f); return tmp; } } croak ("cannot coerce to mpz"); } /* Coerce sv to an mpq. If sv is an mpq then just return that, otherwise use tmp to hold the converted value and return that. */ static mpq_ptr coerce_mpq (mpq_ptr tmp, SV *sv) { if (SvIOK(sv)) { mpq_set_si (tmp, SvIVX(sv), 1L); return tmp; } if (SvNOK(sv)) { mpq_set_d (tmp, SvNVX(sv)); return tmp; } if (SvPOKorp(sv)) { my_mpq_set_svstr (tmp, sv); return tmp; } if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) { mpq_set_z (tmp, SvMPZ(sv)->m); return tmp; } if (sv_derived_from (sv, mpq_class)) { return SvMPQ(sv)->m; } if (sv_derived_from (sv, mpf_class)) { mpq_set_f (tmp, SvMPF(sv)); return tmp; } } croak ("cannot coerce to mpq"); } static void my_mpf_set_sv (mpf_ptr f, SV *sv) { if (SvIOK(sv)) mpf_set_si (f, SvIVX(sv)); else if (SvPOKorp(sv)) my_mpf_set_svstr (f, sv); else if (SvNOK(sv)) mpf_set_d (f, SvNVX(sv)); else if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) mpf_set_z (f, SvMPZ(sv)->m); else if (sv_derived_from (sv, mpq_class)) mpf_set_q (f, SvMPQ(sv)->m); else if (sv_derived_from (sv, mpf_class)) mpf_set (f, SvMPF(sv)); else goto invalid; } else { invalid: croak ("cannot coerce to mpf"); } } /* Coerce sv to an mpf. If sv is an mpf then just return that, otherwise use tmp to hold the converted value (with prec precision). */ static mpf_ptr coerce_mpf (tmp_mpf_ptr tmp, SV *sv, unsigned long prec) { if (SvROK(sv) && sv_derived_from (sv, mpf_class)) return SvMPF(sv); tmp_mpf_set_prec (tmp, prec); my_mpf_set_sv (tmp->m, sv); return tmp->m; } /* Coerce xv to an mpf and store the pointer in x, ditto for yv to x. If one of xv or yv is an mpf then use it for the precision, otherwise use the default precision. */ #define COERCE_MPF_PAIR(prec, x,xv, y,yv) \ do { \ if (SvROK(xv) && sv_derived_from (xv, mpf_class)) \ { \ x = SvMPF(xv); \ prec = mpf_get_prec (x); \ y = coerce_mpf (tmp_mpf_0, yv, prec); \ } \ else \ { \ y = coerce_mpf (tmp_mpf_0, yv, mpf_get_default_prec()); \ prec = mpf_get_prec (y); \ x = coerce_mpf (tmp_mpf_1, xv, prec); \ } \ } while (0) static unsigned long coerce_ulong (SV *sv) { long n; if (SvIOK(sv)) { n = SvIVX(sv); negative_check: if (n < 0) { range_error: croak ("out of range for ulong"); } return n; } if (SvNOK(sv)) { double d = SvNVX(sv); if (! double_integer_p (d)) { integer_error: croak ("not an integer"); } n = SvIV(sv); goto negative_check; } if (SvPOKorp(sv)) { n = SvIV(sv); goto negative_check; } if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) { mpz z = SvMPZ(sv); if (! mpz_fits_ulong_p (z->m)) goto range_error; return mpz_get_ui (z->m); } if (sv_derived_from (sv, mpq_class)) { mpq q = SvMPQ(sv); if (! x_mpq_integer_p (q->m)) goto integer_error; if (! mpz_fits_ulong_p (mpq_numref (q->m))) goto range_error; return mpz_get_ui (mpq_numref (q->m)); } if (sv_derived_from (sv, mpf_class)) { mpf f = SvMPF(sv); if (! mpf_integer_p (f)) goto integer_error; if (! mpf_fits_ulong_p (f)) goto range_error; return mpf_get_ui (f); } } croak ("cannot coerce to ulong"); } static long coerce_long (SV *sv) { if (SvIOK(sv)) return SvIVX(sv); if (SvNOK(sv)) { double d = SvNVX(sv); if (! double_integer_p (d)) { integer_error: croak ("not an integer"); } return SvIV(sv); } if (SvPOKorp(sv)) return SvIV(sv); if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) { mpz z = SvMPZ(sv); if (! mpz_fits_slong_p (z->m)) { range_error: croak ("out of range for ulong"); } return mpz_get_si (z->m); } if (sv_derived_from (sv, mpq_class)) { mpq q = SvMPQ(sv); if (! x_mpq_integer_p (q->m)) goto integer_error; if (! mpz_fits_slong_p (mpq_numref (q->m))) goto range_error; return mpz_get_si (mpq_numref (q->m)); } if (sv_derived_from (sv, mpf_class)) { mpf f = SvMPF(sv); if (! mpf_integer_p (f)) goto integer_error; if (! mpf_fits_slong_p (f)) goto range_error; return mpf_get_si (f); } } croak ("cannot coerce to long"); } #define mpx_set_maybe(dst,src,type) \ do { if ((dst) != (src)) type##_set (dst, src); } while (0) #define coerce_mpx_into(p,sv,type) \ do { \ type##_ptr __new_p = coerce_##type (p, sv); \ mpx_set_maybe (p, __new_p, type); \ } while (0) /* Like plain coerce_mpz or coerce_mpq, but force the result into p by copying if necessary. */ #define coerce_mpz_into(z,sv) coerce_mpx_into(z,sv,mpz) #define coerce_mpq_into(q,sv) coerce_mpx_into(q,sv,mpq) /* Prepare sv to be a changable mpz. If it's not an mpz then turn it into one. If it is an mpz then ensure the reference count is 1. */ static mpz_ptr mutate_mpz (SV *sv) { mpz old_z, new_z; TRACE (printf ("mutate_mpz %p\n", sv)); TRACE (printf (" type %d\n", SvTYPE(sv))); if (SvROK (sv) && sv_derived_from (sv, mpz_class)) { old_z = SvMPZ(sv); if (SvREFCNT(SvRV(sv)) == 1) return SvMPZ(sv)->m; TRACE (printf ("mutate_mpz(): forking new mpz\n")); new_z = new_mpz (); mpz_set (new_z->m, old_z->m); } else { TRACE (printf ("mutate_mpz(): coercing new mpz\n")); new_z = new_mpz (); coerce_mpz_into (new_z->m, sv); } sv_setref_pv (sv, mpz_class, new_z); return new_z->m; } /* ------------------------------------------------------------------------- */ MODULE = GMP PACKAGE = GMP BOOT: TRACE (printf ("GMP boot\n")); mp_set_memory_functions (my_gmp_alloc, my_gmp_realloc, my_gmp_free); mpz_init (tmp_mpz_0); mpz_init (tmp_mpz_1); mpz_init (tmp_mpz_2); mpq_init (tmp_mpq_0); mpq_init (tmp_mpq_1); tmp_mpf_init (tmp_mpf_0); tmp_mpf_init (tmp_mpf_1); void END() CODE: TRACE (printf ("GMP end\n")); TRACE_ACTIVE (); /* These are not always true, see Bugs at the top of the file. */ /* assert (mpz_count == 0); */ /* assert (mpq_count == 0); */ /* assert (mpf_count == 0); */ /* assert (rand_count == 0); */ const_string version() CODE: RETVAL = gmp_version; OUTPUT: RETVAL bool fits_slong_p (sv) SV *sv PREINIT: mpq_srcptr q; CODE: if (SvIOK(sv)) RETVAL = 1; else if (SvNOK(sv)) { double d = SvNVX(sv); RETVAL = (d >= LONG_MIN && d <= LONG_MAX); } else if (SvPOKorp(sv)) { STRLEN len; const char *str = SvPV (sv, len); if (mpq_set_str (tmp_mpq_0, str, 0) == 0) RETVAL = x_mpq_fits_slong_p (tmp_mpq_0); else { /* enough precision for a long */ tmp_mpf_set_prec (tmp_mpf_0, 2*mp_bits_per_limb); if (mpf_set_str (tmp_mpf_0->m, str, 10) != 0) croak ("GMP::fits_slong_p invalid string format"); RETVAL = mpf_fits_slong_p (tmp_mpf_0->m); } } else if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) RETVAL = mpz_fits_slong_p (SvMPZ(sv)->m); else if (sv_derived_from (sv, mpq_class)) RETVAL = x_mpq_fits_slong_p (SvMPQ(sv)->m); else if (sv_derived_from (sv, mpf_class)) RETVAL = mpf_fits_slong_p (SvMPF(sv)); else goto invalid; } else { invalid: croak ("GMP::fits_slong_p invalid argument"); } OUTPUT: RETVAL double get_d (sv) SV *sv CODE: if (SvIOK(sv)) RETVAL = (double) SvIVX(sv); else if (SvNOK(sv)) RETVAL = SvNVX(sv); else if (SvPOKorp(sv)) { STRLEN len; RETVAL = atof(SvPV(sv, len)); } else if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) RETVAL = mpz_get_d (SvMPZ(sv)->m); else if (sv_derived_from (sv, mpq_class)) RETVAL = mpq_get_d (SvMPQ(sv)->m); else if (sv_derived_from (sv, mpf_class)) RETVAL = mpf_get_d (SvMPF(sv)); else goto invalid; } else { invalid: croak ("GMP::get_d invalid argument"); } OUTPUT: RETVAL long get_si (sv) SV *sv CODE: if (SvIOK(sv)) RETVAL = SvIVX(sv); else if (SvNOK(sv)) RETVAL = (long) SvNVX(sv); else if (SvPOKorp(sv)) RETVAL = SvIV(sv); else if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) RETVAL = mpz_get_si (SvMPZ(sv)->m); else if (sv_derived_from (sv, mpq_class)) { mpz_set_q (tmp_mpz_0, SvMPQ(sv)->m); RETVAL = mpz_get_si (tmp_mpz_0); } else if (sv_derived_from (sv, mpf_class)) RETVAL = mpf_get_si (SvMPF(sv)); else goto invalid; } else { invalid: croak ("GMP::get_si invalid argument"); } OUTPUT: RETVAL void get_str (sv, ...) SV *sv PREINIT: char *str; mp_exp_t exp; mpz_ptr z; mpq_ptr q; mpf f; int base; int ndigits; PPCODE: TRACE (printf ("GMP::get_str\n")); if (items >= 2) base = coerce_long (ST(1)); else base = 10; TRACE (printf (" base=%d\n", base)); if (items >= 3) ndigits = coerce_long (ST(2)); else ndigits = 10; TRACE (printf (" ndigits=%d\n", ndigits)); EXTEND (SP, 2); if (SvIOK(sv)) { mpz_set_si (tmp_mpz_0, SvIVX(sv)); z = tmp_mpz_0; goto get_mpz; } else if (SvNOK(sv)) { /* only digits in the original double, not in the coerced form */ if (ndigits == 0) ndigits = DBL_DIG; mpf_set_d (tmp_mpf_0->m, SvNVX(sv)); f = tmp_mpf_0->m; goto get_mpf; } else if (SvPOKorp(sv)) { /* get_str on a string is not much more than a base conversion */ STRLEN len; str = SvPV (sv, len); if (mpz_set_str (tmp_mpz_0, str, 0) == 0) { z = tmp_mpz_0; goto get_mpz; } else if (mpq_set_str (tmp_mpq_0, str, 0) == 0) { q = tmp_mpq_0; goto get_mpq; } else { /* FIXME: Would like perhaps a precision equivalent to the number of significant digits of the string, in its given base. */ tmp_mpf_set_prec (tmp_mpf_0, strlen(str)); if (mpf_set_str (tmp_mpf_0->m, str, 10) == 0) { f = tmp_mpf_0->m; goto get_mpf; } else croak ("GMP::get_str invalid string format"); } } else if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) { z = SvMPZ(sv)->m; get_mpz: str = mpz_get_str (NULL, base, z); push_str: PUSHs (sv_2mortal (newSVpv (str, 0))); } else if (sv_derived_from (sv, mpq_class)) { q = SvMPQ(sv)->m; get_mpq: str = mpq_get_str (NULL, base, q); goto push_str; } else if (sv_derived_from (sv, mpf_class)) { f = SvMPF(sv); get_mpf: str = mpf_get_str (NULL, &exp, base, 0, f); PUSHs (sv_2mortal (newSVpv (str, 0))); PUSHs (sv_2mortal (newSViv (exp))); } else goto invalid; } else { invalid: croak ("GMP::get_str invalid argument"); } bool integer_p (sv) SV *sv CODE: if (SvIOK(sv)) RETVAL = 1; else if (SvNOK(sv)) RETVAL = double_integer_p (SvNVX(sv)); else if (SvPOKorp(sv)) { /* FIXME: Maybe this should be done by parsing the string, not by an actual conversion. */ STRLEN len; const char *str = SvPV (sv, len); if (mpq_set_str (tmp_mpq_0, str, 0) == 0) RETVAL = x_mpq_integer_p (tmp_mpq_0); else { /* enough for all digits of the string */ tmp_mpf_set_prec (tmp_mpf_0, strlen(str)+64); if (mpf_set_str (tmp_mpf_0->m, str, 10) == 0) RETVAL = mpf_integer_p (tmp_mpf_0->m); else croak ("GMP::integer_p invalid string format"); } } else if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) RETVAL = 1; else if (sv_derived_from (sv, mpq_class)) RETVAL = x_mpq_integer_p (SvMPQ(sv)->m); else if (sv_derived_from (sv, mpf_class)) RETVAL = mpf_integer_p (SvMPF(sv)); else goto invalid; } else { invalid: croak ("GMP::integer_p invalid argument"); } OUTPUT: RETVAL int sgn (sv) SV *sv CODE: if (SvIOK(sv)) RETVAL = SGN (SvIVX(sv)); else if (SvNOK(sv)) RETVAL = SGN (SvNVX(sv)); else if (SvPOKorp(sv)) { /* FIXME: Maybe this should be done by parsing the string, not by an actual conversion. */ STRLEN len; const char *str = SvPV (sv, len); if (mpq_set_str (tmp_mpq_0, str, 0) == 0) RETVAL = mpq_sgn (tmp_mpq_0); else { /* enough for all digits of the string */ tmp_mpf_set_prec (tmp_mpf_0, strlen(str)+64); if (mpf_set_str (tmp_mpf_0->m, str, 10) == 0) RETVAL = mpf_sgn (tmp_mpf_0->m); else croak ("GMP::sgn invalid string format"); } } else if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) RETVAL = mpz_sgn (SvMPZ(sv)->m); else if (sv_derived_from (sv, mpq_class)) RETVAL = mpq_sgn (SvMPQ(sv)->m); else if (sv_derived_from (sv, mpf_class)) RETVAL = mpf_sgn (SvMPF(sv)); else goto invalid; } else { invalid: croak ("GMP::sgn invalid argument"); } OUTPUT: RETVAL # currently undocumented void shrink () CODE: #define x_mpz_shrink(z) \ mpz_set_ui (z, 0L); _mpz_realloc (z, 1) #define x_mpq_shrink(q) \ x_mpz_shrink (mpq_numref(q)); x_mpz_shrink (mpq_denref(q)) x_mpz_shrink (tmp_mpz_0); x_mpz_shrink (tmp_mpz_1); x_mpz_shrink (tmp_mpz_2); x_mpq_shrink (tmp_mpq_0); x_mpq_shrink (tmp_mpq_1); tmp_mpf_shrink (tmp_mpf_0); tmp_mpf_shrink (tmp_mpf_1); malloced_string sprintf_internal (fmt, sv) const_string fmt SV *sv CODE: assert (strlen (fmt) >= 3); assert (SvROK(sv)); assert ((sv_derived_from (sv, mpz_class) && fmt[strlen(fmt)-2] == 'Z') || (sv_derived_from (sv, mpq_class) && fmt[strlen(fmt)-2] == 'Q') || (sv_derived_from (sv, mpf_class) && fmt[strlen(fmt)-2] == 'F')); TRACE (printf ("GMP::sprintf_internal\n"); printf (" fmt |%s|\n", fmt); printf (" sv |%p|\n", SvMPZ(sv))); /* cheat a bit here, SvMPZ works for mpq and mpf too */ gmp_asprintf (&RETVAL, fmt, SvMPZ(sv)); TRACE (printf (" result |%s|\n", RETVAL)); OUTPUT: RETVAL #------------------------------------------------------------------------------ MODULE = GMP PACKAGE = GMP::Mpz mpz mpz (...) ALIAS: GMP::Mpz::new = 1 PREINIT: SV *sv; CODE: TRACE (printf ("%s new, ix=%ld, items=%d\n", mpz_class, ix, items)); RETVAL = new_mpz(); switch (items) { case 0: mpz_set_ui (RETVAL->m, 0L); break; case 1: sv = ST(0); if (SvIOK(sv)) mpz_set_si (RETVAL->m, SvIVX(sv)); else if (SvNOK(sv)) mpz_set_d (RETVAL->m, SvNVX(sv)); else if (SvPOKorp(sv)) my_mpz_set_svstr (RETVAL->m, sv); else if (SvROK(sv)) { if (sv_derived_from (sv, mpz_class)) mpz_set (RETVAL->m, SvMPZ(sv)->m); else if (sv_derived_from (sv, mpq_class)) mpz_set_q (RETVAL->m, SvMPQ(sv)->m); else if (sv_derived_from (sv, mpf_class)) mpz_set_f (RETVAL->m, SvMPF(sv)); else goto invalid; } else goto invalid; break; default: invalid: croak ("%s new: invalid arguments", mpz_class); } OUTPUT: RETVAL void overload_constant (str, pv, d1, ...) const_string_assume str SV *pv dummy d1 PREINIT: mpz z; PPCODE: TRACE (printf ("%s constant: %s\n", mpz_class, str)); z = new_mpz(); if (mpz_set_str (z->m, str, 0) == 0) { SV *sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, z); PUSHs(sv); } else { free_mpz (z); PUSHs(pv); } mpz overload_copy (z, d1, d2) mpz_assume z dummy d1 dummy d2 CODE: RETVAL = new_mpz(); mpz_set (RETVAL->m, z->m); OUTPUT: RETVAL void DESTROY (z) mpz_assume z CODE: TRACE (printf ("%s DESTROY %p\n", mpz_class, z)); free_mpz (z); malloced_string overload_string (z, d1, d2) mpz_assume z dummy d1 dummy d2 CODE: TRACE (printf ("%s overload_string %p\n", mpz_class, z)); RETVAL = mpz_get_str (NULL, 10, z->m); OUTPUT: RETVAL mpz overload_add (xv, yv, order) SV *xv SV *yv SV *order ALIAS: GMP::Mpz::overload_sub = 1 GMP::Mpz::overload_mul = 2 GMP::Mpz::overload_div = 3 GMP::Mpz::overload_rem = 4 GMP::Mpz::overload_and = 5 GMP::Mpz::overload_ior = 6 GMP::Mpz::overload_xor = 7 PREINIT: static const struct { void (*op) (mpz_ptr, mpz_srcptr, mpz_srcptr); } table[] = { { mpz_add }, /* 0 */ { mpz_sub }, /* 1 */ { mpz_mul }, /* 2 */ { mpz_tdiv_q }, /* 3 */ { mpz_tdiv_r }, /* 4 */ { mpz_and }, /* 5 */ { mpz_ior }, /* 6 */ { mpz_xor }, /* 7 */ }; CODE: assert_table (ix); if (order == &PL_sv_yes) SV_PTR_SWAP (xv, yv); RETVAL = new_mpz(); (*table[ix].op) (RETVAL->m, coerce_mpz (tmp_mpz_0, xv), coerce_mpz (tmp_mpz_1, yv)); OUTPUT: RETVAL void overload_addeq (x, y, o) mpz_assume x mpz_coerce y order_noswap o ALIAS: GMP::Mpz::overload_subeq = 1 GMP::Mpz::overload_muleq = 2 GMP::Mpz::overload_diveq = 3 GMP::Mpz::overload_remeq = 4 GMP::Mpz::overload_andeq = 5 GMP::Mpz::overload_ioreq = 6 GMP::Mpz::overload_xoreq = 7 PREINIT: static const struct { void (*op) (mpz_ptr, mpz_srcptr, mpz_srcptr); } table[] = { { mpz_add }, /* 0 */ { mpz_sub }, /* 1 */ { mpz_mul }, /* 2 */ { mpz_tdiv_q }, /* 3 */ { mpz_tdiv_r }, /* 4 */ { mpz_and }, /* 5 */ { mpz_ior }, /* 6 */ { mpz_xor }, /* 7 */ }; PPCODE: assert_table (ix); (*table[ix].op) (x->m, x->m, y); XPUSHs (ST(0)); mpz overload_lshift (zv, nv, order) SV *zv SV *nv SV *order ALIAS: GMP::Mpz::overload_rshift = 1 GMP::Mpz::overload_pow = 2 PREINIT: static const struct { void (*op) (mpz_ptr, mpz_srcptr, unsigned long); } table[] = { { mpz_mul_2exp }, /* 0 */ { mpz_div_2exp }, /* 1 */ { mpz_pow_ui }, /* 2 */ }; CODE: assert_table (ix); if (order == &PL_sv_yes) SV_PTR_SWAP (zv, nv); RETVAL = new_mpz(); (*table[ix].op) (RETVAL->m, coerce_mpz (RETVAL->m, zv), coerce_ulong (nv)); OUTPUT: RETVAL void overload_lshifteq (z, n, o) mpz_assume z ulong_coerce n order_noswap o ALIAS: GMP::Mpz::overload_rshifteq = 1 GMP::Mpz::overload_poweq = 2 PREINIT: static const struct { void (*op) (mpz_ptr, mpz_srcptr, unsigned long); } table[] = { { mpz_mul_2exp }, /* 0 */ { mpz_div_2exp }, /* 1 */ { mpz_pow_ui }, /* 2 */ }; PPCODE: assert_table (ix); (*table[ix].op) (z->m, z->m, n); XPUSHs(ST(0)); mpz overload_abs (z, d1, d2) mpz_assume z dummy d1 dummy d2 ALIAS: GMP::Mpz::overload_neg = 1 GMP::Mpz::overload_com = 2 GMP::Mpz::overload_sqrt = 3 PREINIT: static const struct { void (*op) (mpz_ptr w, mpz_srcptr x); } table[] = { { mpz_abs }, /* 0 */ { mpz_neg }, /* 1 */ { mpz_com }, /* 2 */ { mpz_sqrt }, /* 3 */ }; CODE: assert_table (ix); RETVAL = new_mpz(); (*table[ix].op) (RETVAL->m, z->m); OUTPUT: RETVAL void overload_inc (z, d1, d2) mpz_assume z dummy d1 dummy d2 ALIAS: GMP::Mpz::overload_dec = 1 PREINIT: static const struct { void (*op) (mpz_ptr w, mpz_srcptr x, unsigned long y); } table[] = { { mpz_add_ui }, /* 0 */ { mpz_sub_ui }, /* 1 */ }; CODE: assert_table (ix); (*table[ix].op) (z->m, z->m, 1L); int overload_spaceship (xv, yv, order) SV *xv SV *yv SV *order PREINIT: mpz x; CODE: TRACE (printf ("%s overload_spaceship\n", mpz_class)); MPZ_ASSUME (x, xv); if (SvIOK(yv)) RETVAL = mpz_cmp_si (x->m, SvIVX(yv)); else if (SvPOKorp(yv)) RETVAL = mpz_cmp (x->m, coerce_mpz (tmp_mpz_0, yv)); else if (SvNOK(yv)) RETVAL = mpz_cmp_d (x->m, SvNVX(yv)); else if (SvROK(yv)) { if (sv_derived_from (yv, mpz_class)) RETVAL = mpz_cmp (x->m, SvMPZ(yv)->m); else if (sv_derived_from (yv, mpq_class)) RETVAL = x_mpz_cmp_q (x->m, SvMPQ(yv)->m); else if (sv_derived_from (yv, mpf_class)) RETVAL = x_mpz_cmp_f (x->m, SvMPF(yv)); else goto invalid; } else { invalid: croak ("%s <=>: invalid operand", mpz_class); } RETVAL = SGN (RETVAL); if (order == &PL_sv_yes) RETVAL = -RETVAL; OUTPUT: RETVAL bool overload_bool (z, d1, d2) mpz_assume z dummy d1 dummy d2 ALIAS: GMP::Mpz::overload_not = 1 CODE: RETVAL = (mpz_sgn (z->m) != 0) ^ ix; OUTPUT: RETVAL mpz bin (n, k) mpz_coerce n ulong_coerce k ALIAS: GMP::Mpz::root = 1 PREINIT: /* mpz_root returns an int, hence the cast */ static const struct { void (*op) (mpz_ptr, mpz_srcptr, unsigned long); } table[] = { { mpz_bin_ui }, /* 0 */ { (void (*)(mpz_ptr, mpz_srcptr, unsigned long)) mpz_root }, /* 1 */ }; CODE: assert_table (ix); RETVAL = new_mpz(); (*table[ix].op) (RETVAL->m, n, k); OUTPUT: RETVAL void cdiv (a, d) mpz_coerce a mpz_coerce d ALIAS: GMP::Mpz::fdiv = 1 GMP::Mpz::tdiv = 2 PREINIT: static const struct { void (*op) (mpz_ptr, mpz_ptr, mpz_srcptr, mpz_srcptr); } table[] = { { mpz_cdiv_qr }, /* 0 */ { mpz_fdiv_qr }, /* 1 */ { mpz_tdiv_qr }, /* 2 */ }; mpz q, r; SV *sv; PPCODE: assert_table (ix); q = new_mpz(); r = new_mpz(); (*table[ix].op) (q->m, r->m, a, d); EXTEND (SP, 2); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, q); PUSHs(sv); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, r); PUSHs(sv); void cdiv_2exp (a, d) mpz_coerce a ulong_coerce d ALIAS: GMP::Mpz::fdiv_2exp = 1 GMP::Mpz::tdiv_2exp = 2 PREINIT: static const struct { void (*q) (mpz_ptr, mpz_srcptr, unsigned long); void (*r) (mpz_ptr, mpz_srcptr, unsigned long); } table[] = { { mpz_cdiv_q_2exp, mpz_cdiv_r_2exp }, /* 0 */ { mpz_fdiv_q_2exp, mpz_fdiv_r_2exp }, /* 1 */ { mpz_tdiv_q_2exp, mpz_tdiv_r_2exp }, /* 2 */ }; mpz q, r; SV *sv; PPCODE: assert_table (ix); q = new_mpz(); r = new_mpz(); (*table[ix].q) (q->m, a, d); (*table[ix].r) (r->m, a, d); EXTEND (SP, 2); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, q); PUSHs(sv); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, r); PUSHs(sv); bool congruent_p (a, c, d) mpz_coerce a mpz_coerce c mpz_coerce d PREINIT: CODE: RETVAL = mpz_congruent_p (a, c, d); OUTPUT: RETVAL bool congruent_2exp_p (a, c, d) mpz_coerce a mpz_coerce c ulong_coerce d PREINIT: CODE: RETVAL = mpz_congruent_2exp_p (a, c, d); OUTPUT: RETVAL mpz divexact (a, d) mpz_coerce a mpz_coerce d ALIAS: GMP::Mpz::mod = 1 PREINIT: static const struct { void (*op) (mpz_ptr, mpz_srcptr, mpz_srcptr); } table[] = { { mpz_divexact }, /* 0 */ { mpz_mod }, /* 1 */ }; CODE: assert_table (ix); RETVAL = new_mpz(); (*table[ix].op) (RETVAL->m, a, d); OUTPUT: RETVAL bool divisible_p (a, d) mpz_coerce a mpz_coerce d CODE: RETVAL = mpz_divisible_p (a, d); OUTPUT: RETVAL bool divisible_2exp_p (a, d) mpz_coerce a ulong_coerce d CODE: RETVAL = mpz_divisible_2exp_p (a, d); OUTPUT: RETVAL bool even_p (z) mpz_coerce z ALIAS: GMP::Mpz::odd_p = 1 GMP::Mpz::perfect_square_p = 2 GMP::Mpz::perfect_power_p = 3 PREINIT: static const struct { int (*op) (mpz_srcptr z); } table[] = { { x_mpz_even_p }, /* 0 */ { x_mpz_odd_p }, /* 1 */ { mpz_perfect_square_p }, /* 2 */ { mpz_perfect_power_p }, /* 3 */ }; CODE: assert_table (ix); RETVAL = (*table[ix].op) (z); OUTPUT: RETVAL mpz fac (n) ulong_coerce n ALIAS: GMP::Mpz::fib = 1 GMP::Mpz::lucnum = 2 PREINIT: static const struct { void (*op) (mpz_ptr r, unsigned long n); } table[] = { { mpz_fac_ui }, /* 0 */ { mpz_fib_ui }, /* 1 */ { mpz_lucnum_ui }, /* 2 */ }; CODE: assert_table (ix); RETVAL = new_mpz(); (*table[ix].op) (RETVAL->m, n); OUTPUT: RETVAL void fib2 (n) ulong_coerce n ALIAS: GMP::Mpz::lucnum2 = 1 PREINIT: static const struct { void (*op) (mpz_ptr r, mpz_ptr r2, unsigned long n); } table[] = { { mpz_fib2_ui }, /* 0 */ { mpz_lucnum2_ui }, /* 1 */ }; mpz r, r2; SV *sv; PPCODE: assert_table (ix); r = new_mpz(); r2 = new_mpz(); (*table[ix].op) (r->m, r2->m, n); EXTEND (SP, 2); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, r); PUSHs(sv); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, r2); PUSHs(sv); mpz gcd (x, ...) mpz_coerce x ALIAS: GMP::Mpz::lcm = 1 PREINIT: static const struct { void (*op) (mpz_ptr w, mpz_srcptr x, mpz_srcptr y); void (*op_ui) (mpz_ptr w, mpz_srcptr x, unsigned long y); } table[] = { /* cast to ignore ulong return from mpz_gcd_ui */ { mpz_gcd, (void (*) (mpz_ptr, mpz_srcptr, unsigned long)) mpz_gcd_ui }, /* 0 */ { mpz_lcm, mpz_lcm_ui }, /* 1 */ }; int i; SV *yv; CODE: assert_table (ix); RETVAL = new_mpz(); if (items == 1) mpz_set (RETVAL->m, x); else { for (i = 1; i < items; i++) { yv = ST(i); if (SvIOK(yv)) (*table[ix].op_ui) (RETVAL->m, x, ABS(SvIVX(yv))); else (*table[ix].op) (RETVAL->m, x, coerce_mpz (tmp_mpz_1, yv)); x = RETVAL->m; } } OUTPUT: RETVAL void gcdext (a, b) mpz_coerce a mpz_coerce b PREINIT: mpz g, x, y; SV *sv; PPCODE: g = new_mpz(); x = new_mpz(); y = new_mpz(); mpz_gcdext (g->m, x->m, y->m, a, b); EXTEND (SP, 3); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, g); PUSHs(sv); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, x); PUSHs(sv); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, y); PUSHs(sv); unsigned long hamdist (x, y) mpz_coerce x mpz_coerce y CODE: RETVAL = mpz_hamdist (x, y); OUTPUT: RETVAL mpz invert (a, m) mpz_coerce a mpz_coerce m CODE: RETVAL = new_mpz(); if (! mpz_invert (RETVAL->m, a, m)) { free_mpz (RETVAL); XSRETURN_UNDEF; } OUTPUT: RETVAL int jacobi (a, b) mpz_coerce a mpz_coerce b CODE: RETVAL = mpz_jacobi (a, b); OUTPUT: RETVAL int kronecker (a, b) SV *a SV *b CODE: if (SvIOK(b)) RETVAL = mpz_kronecker_si (coerce_mpz(tmp_mpz_0,a), SvIVX(b)); else if (SvIOK(a)) RETVAL = mpz_si_kronecker (SvIVX(a), coerce_mpz(tmp_mpz_0,b)); else RETVAL = mpz_kronecker (coerce_mpz(tmp_mpz_0,a), coerce_mpz(tmp_mpz_1,b)); OUTPUT: RETVAL mpz nextprime (z) mpz_coerce z CODE: RETVAL = new_mpz(); mpz_nextprime (RETVAL->m, z); OUTPUT: RETVAL unsigned long popcount (x) mpz_coerce x CODE: RETVAL = mpz_popcount (x); OUTPUT: RETVAL mpz powm (b, e, m) mpz_coerce b mpz_coerce e mpz_coerce m CODE: RETVAL = new_mpz(); mpz_powm (RETVAL->m, b, e, m); OUTPUT: RETVAL bool probab_prime_p (z, n) mpz_coerce z ulong_coerce n CODE: RETVAL = mpz_probab_prime_p (z, n); OUTPUT: RETVAL # No attempt to coerce here, only an mpz makes sense. void realloc (z, limbs) mpz z int limbs CODE: _mpz_realloc (z->m, limbs); void remove (z, f) mpz_coerce z mpz_coerce f PREINIT: SV *sv; mpz rem; unsigned long mult; dTARG; PPCODE: rem = new_mpz(); mult = mpz_remove (rem->m, z, f); EXTEND (SP, 2); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, rem); PUSHs(sv); PUSHs (sv_2mortal (newSViv (mult))); void roote (z, n) mpz_coerce z ulong_coerce n PREINIT: SV *sv; mpz root; int exact; PPCODE: root = new_mpz(); exact = mpz_root (root->m, z, n); EXTEND (SP, 2); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, root); PUSHs(sv); sv = (exact ? &PL_sv_yes : &PL_sv_no); sv_2mortal(sv); PUSHs(sv); unsigned long scan0 (z, start) mpz_coerce z ulong_coerce start ALIAS: GMP::Mpz::scan1 = 1 PREINIT: static const struct { unsigned long (*op) (mpz_srcptr, unsigned long); } table[] = { { mpz_scan0 }, /* 0 */ { mpz_scan1 }, /* 1 */ }; CODE: assert_table (ix); RETVAL = (*table[ix].op) (z, start); OUTPUT: RETVAL void setbit (z, bit) mpz_mutate z ulong_coerce bit ALIAS: GMP::Mpz::clrbit = 1 PREINIT: static const struct { void (*op) (mpz_ptr, unsigned long); } table[] = { { mpz_setbit }, /* 0 */ { mpz_clrbit }, /* 1 */ }; CODE: TRACE (printf ("%s %s\n", mpz_class, (ix==0 ? "setbit" : "clrbit"))); assert (SvROK(ST(0)) && SvREFCNT(SvRV(ST(0))) == 1); assert_table (ix); (*table[ix].op) (z, bit); void sqrtrem (z) mpz_coerce z PREINIT: SV *sv; mpz root; mpz rem; PPCODE: root = new_mpz(); rem = new_mpz(); mpz_sqrtrem (root->m, rem->m, z); EXTEND (SP, 2); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, root); PUSHs(sv); sv = sv_newmortal(); sv_setref_pv (sv, mpz_class, rem); PUSHs(sv); size_t sizeinbase (z, base) mpz_coerce z int base CODE: RETVAL = mpz_sizeinbase (z, base); OUTPUT: RETVAL int tstbit (z, bit) mpz_coerce z ulong_coerce bit CODE: RETVAL = mpz_tstbit (z, bit); OUTPUT: RETVAL #------------------------------------------------------------------------------ MODULE = GMP PACKAGE = GMP::Mpq mpq mpq (...) ALIAS: GMP::Mpq::new = 1 PREINIT: CODE: TRACE (printf ("%s new\n", mpq_class)); RETVAL = new_mpq(); switch (items) { case 0: mpq_set_ui (RETVAL->m, 0L, 1L); break; case 1: coerce_mpq_into (RETVAL->m, ST(0)); break; case 2: coerce_mpz_into (mpq_numref(RETVAL->m), ST(0)); coerce_mpz_into (mpq_denref(RETVAL->m), ST(1)); break; default: croak ("%s new: invalid arguments", mpq_class); } OUTPUT: RETVAL void overload_constant (str, pv, d1, ...) const_string_assume str SV *pv dummy d1 PREINIT: SV *sv; mpq q; PPCODE: TRACE (printf ("%s constant: %s\n", mpq_class, str)); q = new_mpq(); if (mpq_set_str (q->m, str, 0) == 0) { sv = sv_newmortal(); sv_setref_pv (sv, mpq_class, q); } else { free_mpq (q); sv = pv; } XPUSHs(sv); mpq overload_copy (q, d1, d2) mpq_assume q dummy d1 dummy d2 CODE: RETVAL = new_mpq(); mpq_set (RETVAL->m, q->m); OUTPUT: RETVAL void DESTROY (q) mpq_assume q CODE: TRACE (printf ("%s DESTROY %p\n", mpq_class, q)); free_mpq (q); malloced_string overload_string (q, d1, d2) mpq_assume q dummy d1 dummy d2 CODE: TRACE (printf ("%s overload_string %p\n", mpq_class, q)); RETVAL = mpq_get_str (NULL, 10, q->m); OUTPUT: RETVAL mpq overload_add (xv, yv, order) SV *xv SV *yv SV *order ALIAS: GMP::Mpq::overload_sub = 1 GMP::Mpq::overload_mul = 2 GMP::Mpq::overload_div = 3 PREINIT: static const struct { void (*op) (mpq_ptr, mpq_srcptr, mpq_srcptr); } table[] = { { mpq_add }, /* 0 */ { mpq_sub }, /* 1 */ { mpq_mul }, /* 2 */ { mpq_div }, /* 3 */ }; CODE: TRACE (printf ("%s binary\n", mpf_class)); assert_table (ix); if (order == &PL_sv_yes) SV_PTR_SWAP (xv, yv); RETVAL = new_mpq(); (*table[ix].op) (RETVAL->m, coerce_mpq (tmp_mpq_0, xv), coerce_mpq (tmp_mpq_1, yv)); OUTPUT: RETVAL void overload_addeq (x, y, o) mpq_assume x mpq_coerce y order_noswap o ALIAS: GMP::Mpq::overload_subeq = 1 GMP::Mpq::overload_muleq = 2 GMP::Mpq::overload_diveq = 3 PREINIT: static const struct { void (*op) (mpq_ptr, mpq_srcptr, mpq_srcptr); } table[] = { { mpq_add }, /* 0 */ { mpq_sub }, /* 1 */ { mpq_mul }, /* 2 */ { mpq_div }, /* 3 */ }; PPCODE: assert_table (ix); (*table[ix].op) (x->m, x->m, y); XPUSHs(ST(0)); mpq overload_lshift (qv, nv, order) SV *qv SV *nv SV *order ALIAS: GMP::Mpq::overload_rshift = 1 GMP::Mpq::overload_pow = 2 PREINIT: static const struct { void (*op) (mpq_ptr, mpq_srcptr, unsigned long); } table[] = { { mpq_mul_2exp }, /* 0 */ { mpq_div_2exp }, /* 1 */ { x_mpq_pow_ui }, /* 2 */ }; CODE: assert_table (ix); if (order == &PL_sv_yes) SV_PTR_SWAP (qv, nv); RETVAL = new_mpq(); (*table[ix].op) (RETVAL->m, coerce_mpq (RETVAL->m, qv), coerce_ulong (nv)); OUTPUT: RETVAL void overload_lshifteq (q, n, o) mpq_assume q ulong_coerce n order_noswap o ALIAS: GMP::Mpq::overload_rshifteq = 1 GMP::Mpq::overload_poweq = 2 PREINIT: static const struct { void (*op) (mpq_ptr, mpq_srcptr, unsigned long); } table[] = { { mpq_mul_2exp }, /* 0 */ { mpq_div_2exp }, /* 1 */ { x_mpq_pow_ui }, /* 2 */ }; PPCODE: assert_table (ix); (*table[ix].op) (q->m, q->m, n); XPUSHs(ST(0)); void overload_inc (q, d1, d2) mpq_assume q dummy d1 dummy d2 ALIAS: GMP::Mpq::overload_dec = 1 PREINIT: static const struct { void (*op) (mpz_ptr, mpz_srcptr, mpz_srcptr); } table[] = { { mpz_add }, /* 0 */ { mpz_sub }, /* 1 */ }; CODE: assert_table (ix); (*table[ix].op) (mpq_numref(q->m), mpq_numref(q->m), mpq_denref(q->m)); mpq overload_abs (q, d1, d2) mpq_assume q dummy d1 dummy d2 ALIAS: GMP::Mpq::overload_neg = 1 PREINIT: static const struct { void (*op) (mpq_ptr w, mpq_srcptr x); } table[] = { { mpq_abs }, /* 0 */ { mpq_neg }, /* 1 */ }; CODE: assert_table (ix); RETVAL = new_mpq(); (*table[ix].op) (RETVAL->m, q->m); OUTPUT: RETVAL int overload_spaceship (x, y, order) mpq_assume x mpq_coerce y SV *order CODE: RETVAL = mpq_cmp (x->m, y); RETVAL = SGN (RETVAL); if (order == &PL_sv_yes) RETVAL = -RETVAL; OUTPUT: RETVAL bool overload_bool (q, d1, d2) mpq_assume q dummy d1 dummy d2 ALIAS: GMP::Mpq::overload_not = 1 CODE: RETVAL = (mpq_sgn (q->m) != 0) ^ ix; OUTPUT: RETVAL bool overload_eq (x, yv, d) mpq_assume x SV *yv dummy d ALIAS: GMP::Mpq::overload_ne = 1 CODE: if (SvIOK(yv)) RETVAL = x_mpq_equal_si (x->m, SvIVX(yv), 1L); else if (SvROK(yv)) { if (sv_derived_from (yv, mpz_class)) RETVAL = x_mpq_equal_z (x->m, SvMPZ(yv)->m); else if (sv_derived_from (yv, mpq_class)) RETVAL = mpq_equal (x->m, SvMPQ(yv)->m); else goto coerce; } else { coerce: RETVAL = mpq_equal (x->m, coerce_mpq (tmp_mpq_0, yv)); } RETVAL ^= ix; OUTPUT: RETVAL void canonicalize (q) mpq q CODE: mpq_canonicalize (q->m); mpq inv (q) mpq_coerce q CODE: RETVAL = new_mpq(); mpq_inv (RETVAL->m, q); OUTPUT: RETVAL mpz num (q) mpq q ALIAS: GMP::Mpq::den = 1 CODE: RETVAL = new_mpz(); mpz_set (RETVAL->m, (ix == 0 ? mpq_numref(q->m) : mpq_denref(q->m))); OUTPUT: RETVAL #------------------------------------------------------------------------------ MODULE = GMP PACKAGE = GMP::Mpf mpf mpf (...) ALIAS: GMP::Mpf::new = 1 PREINIT: unsigned long prec; CODE: TRACE (printf ("%s new\n", mpf_class)); if (items > 2) croak ("%s new: invalid arguments", mpf_class); prec = (items == 2 ? coerce_ulong (ST(1)) : mpf_get_default_prec()); RETVAL = new_mpf (prec); if (items >= 1) my_mpf_set_sv (RETVAL, ST(0)); OUTPUT: RETVAL mpf overload_constant (sv, d1, d2, ...) SV *sv dummy d1 dummy d2 PREINIT: mpf f; CODE: assert (SvPOK (sv)); TRACE (printf ("%s constant: %s\n", mpq_class, SvPVX(sv))); RETVAL = new_mpf (mpf_get_default_prec()); my_mpf_set_svstr (RETVAL, sv); OUTPUT: RETVAL mpf overload_copy (f, d1, d2) mpf_assume f dummy d1 dummy d2 CODE: TRACE (printf ("%s copy\n", mpf_class)); RETVAL = new_mpf (mpf_get_prec (f)); mpf_set (RETVAL, f); OUTPUT: RETVAL void DESTROY (f) mpf_assume f CODE: TRACE (printf ("%s DESTROY %p\n", mpf_class, f)); mpf_clear (f); Safefree (f); assert_support (mpf_count--); TRACE_ACTIVE (); mpf overload_add (x, y, order) mpf_assume x mpf_coerce_st0 y SV *order ALIAS: GMP::Mpf::overload_sub = 1 GMP::Mpf::overload_mul = 2 GMP::Mpf::overload_div = 3 PREINIT: static const struct { void (*op) (mpf_ptr, mpf_srcptr, mpf_srcptr); } table[] = { { mpf_add }, /* 0 */ { mpf_sub }, /* 1 */ { mpf_mul }, /* 2 */ { mpf_div }, /* 3 */ }; unsigned long prec; CODE: assert_table (ix); RETVAL = new_mpf (mpf_get_prec (x)); if (order == &PL_sv_yes) MPF_PTR_SWAP (x, y); (*table[ix].op) (RETVAL, x, y); OUTPUT: RETVAL void overload_addeq (x, y, o) mpf_assume x mpf_coerce_st0 y order_noswap o ALIAS: GMP::Mpf::overload_subeq = 1 GMP::Mpf::overload_muleq = 2 GMP::Mpf::overload_diveq = 3 PREINIT: static const struct { void (*op) (mpf_ptr, mpf_srcptr, mpf_srcptr); } table[] = { { mpf_add }, /* 0 */ { mpf_sub }, /* 1 */ { mpf_mul }, /* 2 */ { mpf_div }, /* 3 */ }; PPCODE: assert_table (ix); (*table[ix].op) (x, x, y); XPUSHs(ST(0)); mpf overload_lshift (fv, nv, order) SV *fv SV *nv SV *order ALIAS: GMP::Mpf::overload_rshift = 1 GMP::Mpf::overload_pow = 2 PREINIT: static const struct { void (*op) (mpf_ptr, mpf_srcptr, unsigned long); } table[] = { { mpf_mul_2exp }, /* 0 */ { mpf_div_2exp }, /* 1 */ { mpf_pow_ui }, /* 2 */ }; mpf f; unsigned long prec; CODE: assert_table (ix); MPF_ASSUME (f, fv); prec = mpf_get_prec (f); if (order == &PL_sv_yes) SV_PTR_SWAP (fv, nv); f = coerce_mpf (tmp_mpf_0, fv, prec); RETVAL = new_mpf (prec); (*table[ix].op) (RETVAL, f, coerce_ulong (nv)); OUTPUT: RETVAL void overload_lshifteq (f, n, o) mpf_assume f ulong_coerce n order_noswap o ALIAS: GMP::Mpf::overload_rshifteq = 1 GMP::Mpf::overload_poweq = 2 PREINIT: static const struct { void (*op) (mpf_ptr, mpf_srcptr, unsigned long); } table[] = { { mpf_mul_2exp }, /* 0 */ { mpf_div_2exp }, /* 1 */ { mpf_pow_ui }, /* 2 */ }; PPCODE: assert_table (ix); (*table[ix].op) (f, f, n); XPUSHs(ST(0)); mpf overload_abs (f, d1, d2) mpf_assume f dummy d1 dummy d2 ALIAS: GMP::Mpf::overload_neg = 1 GMP::Mpf::overload_sqrt = 2 PREINIT: static const struct { void (*op) (mpf_ptr w, mpf_srcptr x); } table[] = { { mpf_abs }, /* 0 */ { mpf_neg }, /* 1 */ { mpf_sqrt }, /* 2 */ }; CODE: assert_table (ix); RETVAL = new_mpf (mpf_get_prec (f)); (*table[ix].op) (RETVAL, f); OUTPUT: RETVAL void overload_inc (f, d1, d2) mpf_assume f dummy d1 dummy d2 ALIAS: GMP::Mpf::overload_dec = 1 PREINIT: static const struct { void (*op) (mpf_ptr w, mpf_srcptr x, unsigned long y); } table[] = { { mpf_add_ui }, /* 0 */ { mpf_sub_ui }, /* 1 */ }; CODE: assert_table (ix); (*table[ix].op) (f, f, 1L); int overload_spaceship (xv, yv, order) SV *xv SV *yv SV *order PREINIT: mpf x; CODE: MPF_ASSUME (x, xv); if (SvIOK(yv)) RETVAL = mpf_cmp_si (x, SvIVX(yv)); else if (SvNOK(yv)) RETVAL = mpf_cmp_d (x, SvNVX(yv)); else if (SvPOKorp(yv)) { STRLEN len; const char *str = SvPV (yv, len); /* enough for all digits of the string */ tmp_mpf_set_prec (tmp_mpf_0, strlen(str)+64); if (mpf_set_str (tmp_mpf_0->m, str, 10) != 0) croak ("%s <=>: invalid string format", mpf_class); RETVAL = mpf_cmp (x, tmp_mpf_0->m); } else if (SvROK(yv)) { if (sv_derived_from (yv, mpz_class)) RETVAL = - x_mpz_cmp_f (SvMPZ(yv)->m, x); else if (sv_derived_from (yv, mpf_class)) RETVAL = mpf_cmp (x, SvMPF(yv)); else goto use_mpq; } else { use_mpq: RETVAL = mpq_cmp (coerce_mpq (tmp_mpq_0, xv), coerce_mpq (tmp_mpq_1, yv)); } RETVAL = SGN (RETVAL); if (order == &PL_sv_yes) RETVAL = -RETVAL; OUTPUT: RETVAL bool overload_bool (f, d1, d2) mpf_assume f dummy d1 dummy d2 ALIAS: GMP::Mpf::overload_not = 1 CODE: RETVAL = (mpf_sgn (f) != 0) ^ ix; OUTPUT: RETVAL mpf ceil (f) mpf_coerce_def f ALIAS: GMP::Mpf::floor = 1 GMP::Mpf::trunc = 2 PREINIT: static const struct { void (*op) (mpf_ptr w, mpf_srcptr x); } table[] = { { mpf_ceil }, /* 0 */ { mpf_floor }, /* 1 */ { mpf_trunc }, /* 2 */ }; CODE: assert_table (ix); RETVAL = new_mpf (mpf_get_prec (f)); (*table[ix].op) (RETVAL, f); OUTPUT: RETVAL unsigned long get_default_prec () CODE: RETVAL = mpf_get_default_prec(); OUTPUT: RETVAL unsigned long get_prec (f) mpf_coerce_def f CODE: RETVAL = mpf_get_prec (f); OUTPUT: RETVAL bool mpf_eq (xv, yv, bits) SV *xv SV *yv ulong_coerce bits PREINIT: mpf x, y; unsigned long prec; CODE: TRACE (printf ("%s eq\n", mpf_class)); COERCE_MPF_PAIR (prec, x,xv, y,yv); RETVAL = mpf_eq (x, y, bits); OUTPUT: RETVAL mpf reldiff (xv, yv) SV *xv SV *yv PREINIT: mpf x, y; unsigned long prec; CODE: TRACE (printf ("%s reldiff\n", mpf_class)); COERCE_MPF_PAIR (prec, x,xv, y,yv); RETVAL = new_mpf (prec); mpf_reldiff (RETVAL, x, y); OUTPUT: RETVAL void set_default_prec (prec) ulong_coerce prec CODE: TRACE (printf ("%s set_default_prec %lu\n", mpf_class, prec)); mpf_set_default_prec (prec); void set_prec (sv, prec) SV *sv ulong_coerce prec PREINIT: mpf_ptr old_f, new_f; CODE: TRACE (printf ("%s set_prec to %lu\n", mpf_class, prec)); if (SvROK (sv) && sv_derived_from (sv, mpf_class)) { old_f = SvMPF(sv); if (SvREFCNT(SvRV(sv)) == 1) mpf_set_prec (old_f, prec); else { TRACE (printf (" fork new mpf\n")); new_f = new_mpf (prec); mpf_set (new_f, old_f); goto setref; } } else { TRACE (printf (" coerce to mpf\n")); new_f = new_mpf (prec); my_mpf_set_sv (new_f, sv); setref: sv_setref_pv (sv, mpf_class, new_f); } #------------------------------------------------------------------------------ MODULE = GMP PACKAGE = GMP::Rand randstate new (...) ALIAS: GMP::Rand::randstate = 1 CODE: TRACE (printf ("%s new\n", rand_class)); New (GMP_MALLOC_ID, RETVAL, 1, __gmp_randstate_struct); TRACE (printf (" RETVAL %p\n", RETVAL)); assert_support (rand_count++); TRACE_ACTIVE (); if (items == 0) { gmp_randinit_default (RETVAL); } else { STRLEN len; const char *method = SvPV (ST(0), len); assert (len == strlen (method)); if (strcmp (method, "lc_2exp") == 0) { if (items != 4) goto invalid; gmp_randinit_lc_2exp (RETVAL, coerce_mpz (tmp_mpz_0, ST(1)), coerce_ulong (ST(2)), coerce_ulong (ST(3))); } else if (strcmp (method, "lc_2exp_size") == 0) { if (items != 2) goto invalid; if (! gmp_randinit_lc_2exp_size (RETVAL, coerce_ulong (ST(1)))) { Safefree (RETVAL); XSRETURN_UNDEF; } } else { invalid: croak ("%s new: invalid arguments", rand_class); } } OUTPUT: RETVAL void DESTROY (r) randstate r CODE: TRACE (printf ("%s DESTROY\n", rand_class)); gmp_randclear (r); Safefree (r); assert_support (rand_count--); TRACE_ACTIVE (); void seed (r, z) randstate r mpz_coerce z CODE: gmp_randseed (r, z); mpz mpz_urandomb (r, bits) randstate r ulong_coerce bits ALIAS: GMP::Rand::mpz_rrandomb = 1 PREINIT: static const struct { void (*fun) (mpz_ptr, gmp_randstate_t r, unsigned long bits); } table[] = { { mpz_urandomb }, /* 0 */ { mpz_rrandomb }, /* 1 */ }; CODE: assert_table (ix); RETVAL = new_mpz(); (*table[ix].fun) (RETVAL->m, r, bits); OUTPUT: RETVAL mpz mpz_urandomm (r, m) randstate r mpz_coerce m CODE: RETVAL = new_mpz(); mpz_urandomm (RETVAL->m, r, m); OUTPUT: RETVAL mpf mpf_urandomb (r, bits) randstate r ulong_coerce bits CODE: RETVAL = new_mpf (bits); mpf_urandomb (RETVAL, r, bits); OUTPUT: RETVAL