872 lines
33 KiB
Perl
872 lines
33 KiB
Perl
package Math::MPFR;
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use strict;
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use warnings;
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use POSIX;
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use Config;
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use Math::MPFR::Prec;
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use Math::MPFR::Random; # Needs to be loaded before Math::MPFR
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use constant GMP_RNDN => 0;
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use constant GMP_RNDZ => 1;
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use constant GMP_RNDU => 2;
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use constant GMP_RNDD => 3;
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use constant MPFR_RNDN => 0;
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use constant MPFR_RNDZ => 1;
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use constant MPFR_RNDU => 2;
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use constant MPFR_RNDD => 3;
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use constant MPFR_RNDA => 4;
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use constant MPFR_RNDF => 5;
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use constant _UOK_T => 1;
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use constant _IOK_T => 2;
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use constant _NOK_T => 3;
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use constant _POK_T => 4;
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use constant _MATH_MPFR_T => 5;
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use constant _MATH_GMPf_T => 6;
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use constant _MATH_GMPq_T => 7;
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use constant _MATH_GMPz_T => 8;
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use constant _MATH_GMP_T => 9;
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use constant _MATH_MPC_T => 10;
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use constant MPFR_FLAGS_UNDERFLOW => 1;
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use constant MPFR_FLAGS_OVERFLOW => 2;
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use constant MPFR_FLAGS_NAN => 4;
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use constant MPFR_FLAGS_INEXACT => 8;
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use constant MPFR_FLAGS_ERANGE => 16;
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use constant MPFR_FLAGS_DIVBY0 => 32;
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use constant MPFR_FLAGS_ALL => 63;
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use constant MPFR_FREE_LOCAL_CACHE => 1;
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use constant MPFR_FREE_GLOBAL_CACHE => 2;
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use constant LITTLE_ENDIAN => $Config{byteorder} =~ /^1/ ? 1 : 0;
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use constant MM_HP => LITTLE_ENDIAN ? 'h*' : 'H*';
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use constant MPFR_3_1_6_OR_LATER => Math::MPFR::Random::_MPFR_VERSION() > 196869 ? 1 : 0;
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use subs qw(MPFR_VERSION MPFR_VERSION_MAJOR MPFR_VERSION_MINOR
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MPFR_VERSION_PATCHLEVEL MPFR_VERSION_STRING
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RMPFR_PREC_MIN RMPFR_PREC_MAX
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MPFR_DBL_DIG MPFR_LDBL_DIG MPFR_FLT128_DIG
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GMP_LIMB_BITS GMP_NAIL_BITS
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);
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use overload
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'++' => \&overload_inc,
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'--' => \&overload_dec,
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'+' => \&overload_add,
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'-' => \&overload_sub,
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'*' => \&overload_mul,
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'/' => \&overload_div,
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'+=' => \&overload_add_eq,
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'-=' => \&overload_sub_eq,
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'*=' => \&overload_mul_eq,
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'/=' => \&overload_div_eq,
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'""' => \&overload_string,
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'>' => \&overload_gt,
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'>=' => \&overload_gte,
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'<' => \&overload_lt,
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'<=' => \&overload_lte,
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'<=>' => \&overload_spaceship,
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'==' => \&overload_equiv,
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'!=' => \&overload_not_equiv,
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'!' => \&overload_not,
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'bool' => \&overload_true,
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'=' => \&overload_copy,
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'abs' => \&overload_abs,
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'**' => \&overload_pow,
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'**=' => \&overload_pow_eq,
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'atan2'=> \&overload_atan2,
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'cos' => \&overload_cos,
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'sin' => \&overload_sin,
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'log' => \&overload_log,
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'exp' => \&overload_exp,
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'int' => \&overload_int,
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'sqrt' => \&overload_sqrt;
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require Exporter;
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*import = \&Exporter::import;
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require DynaLoader;
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@Math::MPFR::EXPORT_OK = qw(GMP_RNDN GMP_RNDZ GMP_RNDU GMP_RNDD
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MPFR_RNDN MPFR_RNDZ MPFR_RNDU MPFR_RNDD MPFR_RNDA MPFR_RNDF
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MPFR_FLAGS_UNDERFLOW MPFR_FLAGS_OVERFLOW MPFR_FLAGS_DIVBY0 MPFR_FLAGS_NAN
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MPFR_FLAGS_INEXACT MPFR_FLAGS_ERANGE MPFR_FLAGS_ALL
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MPFR_VERSION MPFR_VERSION_MAJOR MPFR_VERSION_MINOR
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MPFR_VERSION_PATCHLEVEL MPFR_VERSION_STRING RMPFR_VERSION_NUM
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RMPFR_PREC_MIN RMPFR_PREC_MAX
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MPFR_FREE_LOCAL_CACHE MPFR_FREE_GLOBAL_CACHE
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Rmpfr_randclear Rmpfr_randinit_mt
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Rmpfr_randinit_default Rmpfr_randinit_lc_2exp
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Rmpfr_randinit_lc_2exp_size Rmpfr_randseed Rmpfr_randseed_ui
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Rmpfr_abs Rmpfr_acos Rmpfr_acosh Rmpfr_add Rmpfr_add_q
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Rmpfr_add_si Rmpfr_add_ui Rmpfr_add_z
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Rmpfr_agm Rmpfr_asin Rmpfr_asinh Rmpfr_atan Rmpfr_atan2 Rmpfr_atanh
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Rmpfr_can_round Rmpfr_cbrt Rmpfr_ceil Rmpfr_check_range Rmpfr_clear Rmpfr_clears
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Rmpfr_clear_erangeflag Rmpfr_clear_flags Rmpfr_clear_inexflag Rmpfr_clear_nanflag
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Rmpfr_clear_overflow Rmpfr_clear_underflow Rmpfr_cmp Rmpfr_cmp_d Rmpfr_cmp_f
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Rmpfr_cmp_ld Rmpfr_cmp_q Rmpfr_cmp_si Rmpfr_cmp_si_2exp Rmpfr_cmp_ui
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Rmpfr_cmp_ui_2exp Rmpfr_cmp_z Rmpfr_cmpabs Rmpfr_cmpabs_ui Rmpfr_total_order_p
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Rmpfr_const_catalan Rmpfr_const_euler
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Rmpfr_const_log2 Rmpfr_const_pi Rmpfr_cos Rmpfr_cosh Rmpfr_cot Rmpfr_coth
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Rmpfr_csc Rmpfr_csch
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Rmpfr_deref2 Rmpfr_dim Rmpfr_div Rmpfr_div_2exp Rmpfr_div_2si Rmpfr_div_2ui
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Rmpfr_div_q Rmpfr_div_si Rmpfr_div_ui Rmpfr_div_z Rmpfr_dump Rmpfr_eint
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Rmpfr_q_div Rmpfr_z_div
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Rmpfr_eq Rmpfr_equal_p Rmpfr_erangeflag_p Rmpfr_erf Rmpfr_erfc Rmpfr_exp
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Rmpfr_exp10 Rmpfr_exp2 Rmpfr_expm1 Rmpfr_fac_ui
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Rmpfr_fits_intmax_p Rmpfr_fits_sint_p Rmpfr_fits_slong_p
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Rmpfr_fits_sshort_p Rmpfr_fits_uint_p Rmpfr_fits_uintmax_p
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Rmpfr_fits_ulong_p Rmpfr_fits_IV_p Rmpfr_fits_UV_p
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Rmpfr_fits_ushort_p Rmpfr_floor Rmpfr_fma Rmpfr_frac Rmpfr_gamma
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Rmpfr_free_cache Rmpfr_free_cache2 Rmpfr_free_pool
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Rmpfr_get_d Rmpfr_get_IV Rmpfr_get_UV Rmpfr_get_NV
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Rmpfr_get_d_2exp Rmpfr_get_d1 Rmpfr_get_default_prec Rmpfr_get_default_rounding_mode
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Rmpfr_get_emax Rmpfr_get_emax_max Rmpfr_get_emax_min Rmpfr_get_emin
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Rmpfr_get_emin_max Rmpfr_get_emin_min Rmpfr_get_exp Rmpfr_get_f Rmpfr_get_ld Rmpfr_get_LD
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Rmpfr_get_ld_2exp
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Rmpfr_get_prec Rmpfr_get_si Rmpfr_get_sj Rmpfr_get_str Rmpfr_get_ui
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Rmpfr_get_uj Rmpfr_get_q
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Rmpfr_get_version Rmpfr_get_z Rmpfr_get_z_exp
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Rmpfr_get_z_2exp Rmpfr_greater_p Rmpfr_greaterequal_p
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Rmpfr_hypot
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Rmpfr_inexflag_p Rmpfr_inf_p Rmpfr_init Rmpfr_init2 Rmpfr_init2_nobless
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Rmpfr_inits Rmpfr_inits2 Rmpfr_inits_nobless Rmpfr_inits2_nobless
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Rmpfr_init_nobless Rmpfr_init_set Rmpfr_init_set_d Rmpfr_init_set_d_nobless
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Rmpfr_init_set_f Rmpfr_init_set_f_nobless
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Rmpfr_init_set_nobless Rmpfr_init_set_q
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Rmpfr_init_set_q_nobless Rmpfr_init_set_si Rmpfr_init_set_si_nobless
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Rmpfr_init_set_str Rmpfr_init_set_str_nobless Rmpfr_init_set_ui
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Rmpfr_init_set_ui_nobless Rmpfr_init_set_z Rmpfr_init_set_z_nobless Rmpfr_inp_str
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TRmpfr_inp_str
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Rmpfr_integer_p Rmpfr_integer_string
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Rmpfr_less_p Rmpfr_lessequal_p Rmpfr_lessgreater_p Rmpfr_lngamma
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Rmpfr_log Rmpfr_log10 Rmpfr_log1p Rmpfr_log2 Rmpfr_max Rmpfr_min
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Rmpfr_min_prec Rmpfr_mul Rmpfr_mul_2exp Rmpfr_mul_2si Rmpfr_mul_2ui Rmpfr_mul_q
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Rmpfr_mul_si Rmpfr_mul_ui Rmpfr_mul_z Rmpfr_nan_p Rmpfr_nanflag_p Rmpfr_neg
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Rmpfr_nextabove Rmpfr_nextbelow Rmpfr_nexttoward Rmpfr_number_p Rmpfr_out_str
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TRmpfr_out_str
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Rmpfr_overflow_p Rmpfr_pow Rmpfr_pow_si Rmpfr_pow_ui Rmpfr_pow_z Rmpfr_prec_round
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Rmpfr_print_rnd_mode
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Rmpfr_random2 Rmpfr_reldiff Rmpfr_rint Rmpfr_rint_ceil
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Rmpfr_rint_floor Rmpfr_rint_round Rmpfr_rint_trunc Rmpfr_root Rmpfr_rootn_ui Rmpfr_round
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Rmpfr_sec Rmpfr_sech Rmpfr_set Rmpfr_set_d Rmpfr_set_default_prec
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Rmpfr_set_default_rounding_mode Rmpfr_set_emax Rmpfr_set_emin Rmpfr_set_erangeflag
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Rmpfr_set_exp Rmpfr_set_f Rmpfr_set_inexflag Rmpfr_set_inf Rmpfr_set_ld Rmpfr_set_LD
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Rmpfr_set_NV Rmpfr_cmp_NV
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Rmpfr_set_nan Rmpfr_set_nanflag Rmpfr_set_overflow Rmpfr_set_prec
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Rmpfr_set_prec_raw Rmpfr_set_q Rmpfr_set_si Rmpfr_set_si_2exp Rmpfr_set_sj
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Rmpfr_set_sj_2exp Rmpfr_set_str Rmpfr_set_ui Rmpfr_set_ui_2exp
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Rmpfr_set_uj Rmpfr_set_uj_2exp
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Rmpfr_set_DECIMAL64 Rmpfr_get_DECIMAL64 Rmpfr_set_float128 Rmpfr_get_float128
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Rmpfr_set_FLOAT128 Rmpfr_get_FLOAT128 Rmpfr_set_DECIMAL128 Rmpfr_get_DECIMAL128
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Rmpfr_set_underflow Rmpfr_set_z Rmpfr_sgn Rmpfr_si_div Rmpfr_si_sub Rmpfr_sin
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Rmpfr_sin_cos Rmpfr_sinh_cosh
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Rmpfr_sinh Rmpfr_sqr Rmpfr_sqrt Rmpfr_sqrt_ui Rmpfr_strtofr Rmpfr_sub
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Rmpfr_sub_q Rmpfr_sub_si Rmpfr_sub_ui Rmpfr_sub_z Rmpfr_subnormalize
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Rmpfr_sum Rmpfr_swap
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Rmpfr_tan Rmpfr_tanh Rmpfr_trunc Rmpfr_ui_div Rmpfr_ui_pow Rmpfr_ui_pow_ui
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Rmpfr_ui_sub Rmpfr_underflow_p Rmpfr_unordered_p Rmpfr_urandomb Rmpfr_zero_p
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Rmpfr_zeta Rmpfr_zeta_ui
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Rmpfr_j0 Rmpfr_j1 Rmpfr_jn Rmpfr_y0 Rmpfr_y1 Rmpfr_yn Rmpfr_lgamma
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Rmpfr_signbit Rmpfr_setsign Rmpfr_copysign Rmpfr_get_patches
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Rmpfr_remainder Rmpfr_remquo Rmpfr_fms Rmpfr_init_set_ld
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Rmpfr_add_d Rmpfr_sub_d Rmpfr_d_sub Rmpfr_mul_d Rmpfr_div_d Rmpfr_d_div
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Rmpfr_rec_sqrt Rmpfr_rec_root Rmpfr_li2 Rmpfr_modf Rmpfr_fmod
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Rmpfr_printf Rmpfr_fprintf Rmpfr_sprintf Rmpfr_snprintf
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Rmpfr_buildopt_tls_p Rmpfr_buildopt_decimal_p Rmpfr_regular_p Rmpfr_set_zero Rmpfr_digamma
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Rmpfr_ai Rmpfr_set_flt Rmpfr_get_flt Rmpfr_urandom Rmpfr_set_z_2exp
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Rmpfr_set_divby0 Rmpfr_clear_divby0 Rmpfr_divby0_p
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Rmpfr_buildopt_tune_case Rmpfr_frexp Rmpfr_grandom Rmpfr_z_sub Rmpfr_buildopt_gmpinternals_p
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Rmpfr_buildopt_float128_p Rmpfr_buildopt_sharedcache_p prec_cast bytes
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MPFR_DBL_DIG MPFR_LDBL_DIG MPFR_FLT128_DIG
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mpfr_max_orig_len mpfr_min_inter_prec
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Rmpfr_fmodquo Rmpfr_fpif_export Rmpfr_fpif_import Rmpfr_flags_clear Rmpfr_flags_set
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Rmpfr_flags_test Rmpfr_flags_save Rmpfr_flags_restore Rmpfr_rint_roundeven Rmpfr_roundeven
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Rmpfr_nrandom Rmpfr_erandom Rmpfr_fmma Rmpfr_fmms Rmpfr_log_ui Rmpfr_gamma_inc Rmpfr_beta
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Rmpfr_round_nearest_away rndna
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atonv nvtoa atodouble doubletoa numtoa atonum Rmpfr_dot Rmpfr_get_str_ndigits Rmpfr_get_str_ndigits_alt
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);
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our $VERSION = '4.14';
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#$VERSION = eval $VERSION;
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Math::MPFR->DynaLoader::bootstrap($VERSION);
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%Math::MPFR::EXPORT_TAGS =(mpfr => [qw(
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GMP_RNDN GMP_RNDZ GMP_RNDU GMP_RNDD
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MPFR_RNDN MPFR_RNDZ MPFR_RNDU MPFR_RNDD MPFR_RNDA MPFR_RNDF
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MPFR_FLAGS_UNDERFLOW MPFR_FLAGS_OVERFLOW MPFR_FLAGS_DIVBY0 MPFR_FLAGS_NAN
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MPFR_FLAGS_INEXACT MPFR_FLAGS_ERANGE MPFR_FLAGS_ALL
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MPFR_VERSION MPFR_VERSION_MAJOR MPFR_VERSION_MINOR
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MPFR_VERSION_PATCHLEVEL MPFR_VERSION_STRING RMPFR_VERSION_NUM
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RMPFR_PREC_MIN RMPFR_PREC_MAX
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MPFR_FREE_LOCAL_CACHE MPFR_FREE_GLOBAL_CACHE
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Rmpfr_randclear Rmpfr_randinit_mt
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Rmpfr_randinit_default Rmpfr_randinit_lc_2exp
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Rmpfr_randinit_lc_2exp_size Rmpfr_randseed Rmpfr_randseed_ui
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Rmpfr_abs Rmpfr_acos Rmpfr_acosh Rmpfr_add Rmpfr_add_q
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Rmpfr_add_si Rmpfr_add_ui Rmpfr_add_z
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Rmpfr_agm Rmpfr_asin Rmpfr_asinh Rmpfr_atan Rmpfr_atan2 Rmpfr_atanh
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Rmpfr_can_round Rmpfr_cbrt Rmpfr_ceil Rmpfr_check_range Rmpfr_clear Rmpfr_clears
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Rmpfr_clear_erangeflag Rmpfr_clear_flags Rmpfr_clear_inexflag Rmpfr_clear_nanflag
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Rmpfr_clear_overflow Rmpfr_clear_underflow Rmpfr_cmp Rmpfr_cmp_d Rmpfr_cmp_f
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Rmpfr_cmp_ld Rmpfr_cmp_q Rmpfr_cmp_si Rmpfr_cmp_si_2exp Rmpfr_cmp_ui
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Rmpfr_cmp_ui_2exp Rmpfr_cmp_z Rmpfr_cmpabs Rmpfr_cmpabs_ui Rmpfr_total_order_p
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Rmpfr_const_catalan Rmpfr_const_euler
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Rmpfr_const_log2 Rmpfr_const_pi Rmpfr_cos Rmpfr_cosh Rmpfr_cot Rmpfr_coth
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Rmpfr_csc Rmpfr_csch
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Rmpfr_deref2 Rmpfr_dim Rmpfr_div Rmpfr_div_2exp Rmpfr_div_2si Rmpfr_div_2ui
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Rmpfr_div_q Rmpfr_div_si Rmpfr_div_ui Rmpfr_div_z Rmpfr_dump Rmpfr_eint
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Rmpfr_q_div Rmpfr_z_div
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Rmpfr_eq Rmpfr_equal_p Rmpfr_erangeflag_p Rmpfr_erf Rmpfr_erfc Rmpfr_exp
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Rmpfr_exp10 Rmpfr_exp2 Rmpfr_expm1 Rmpfr_fac_ui
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Rmpfr_fits_intmax_p Rmpfr_fits_sint_p Rmpfr_fits_slong_p
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Rmpfr_fits_sshort_p Rmpfr_fits_uint_p Rmpfr_fits_uintmax_p
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Rmpfr_fits_ulong_p Rmpfr_fits_IV_p Rmpfr_fits_UV_p
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Rmpfr_fits_ushort_p Rmpfr_floor Rmpfr_fma Rmpfr_frac Rmpfr_gamma
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Rmpfr_free_cache Rmpfr_free_cache2 Rmpfr_free_pool
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Rmpfr_get_d Rmpfr_get_IV Rmpfr_get_UV Rmpfr_get_NV
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Rmpfr_get_d_2exp Rmpfr_get_d1 Rmpfr_get_default_prec Rmpfr_get_default_rounding_mode
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Rmpfr_get_emax Rmpfr_get_emax_max Rmpfr_get_emax_min Rmpfr_get_emin
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Rmpfr_get_emin_max Rmpfr_get_emin_min Rmpfr_get_exp Rmpfr_get_f Rmpfr_get_ld Rmpfr_get_LD
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Rmpfr_get_ld_2exp
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Rmpfr_get_prec Rmpfr_get_si Rmpfr_get_sj Rmpfr_get_str Rmpfr_get_ui
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Rmpfr_get_uj
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Rmpfr_get_version Rmpfr_get_z Rmpfr_get_z_exp
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Rmpfr_get_z_2exp Rmpfr_greater_p Rmpfr_greaterequal_p
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Rmpfr_hypot Rmpfr_get_q
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Rmpfr_inexflag_p Rmpfr_inf_p Rmpfr_init Rmpfr_init2 Rmpfr_init2_nobless
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Rmpfr_inits Rmpfr_inits2 Rmpfr_inits_nobless Rmpfr_inits2_nobless
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Rmpfr_init_nobless Rmpfr_init_set Rmpfr_init_set_d Rmpfr_init_set_d_nobless
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Rmpfr_init_set_f Rmpfr_init_set_f_nobless
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Rmpfr_init_set_nobless Rmpfr_init_set_q
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Rmpfr_init_set_q_nobless Rmpfr_init_set_si Rmpfr_init_set_si_nobless
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Rmpfr_init_set_str Rmpfr_init_set_str_nobless Rmpfr_init_set_ui
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Rmpfr_init_set_ui_nobless Rmpfr_init_set_z Rmpfr_init_set_z_nobless Rmpfr_inp_str
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TRmpfr_inp_str
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Rmpfr_integer_p Rmpfr_integer_string
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Rmpfr_less_p Rmpfr_lessequal_p Rmpfr_lessgreater_p Rmpfr_lngamma
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Rmpfr_log Rmpfr_log10 Rmpfr_log1p Rmpfr_log2 Rmpfr_max Rmpfr_min
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Rmpfr_min_prec Rmpfr_mul Rmpfr_mul_2exp Rmpfr_mul_2si Rmpfr_mul_2ui Rmpfr_mul_q
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Rmpfr_mul_si Rmpfr_mul_ui Rmpfr_mul_z Rmpfr_nan_p Rmpfr_nanflag_p Rmpfr_neg
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Rmpfr_nextabove Rmpfr_nextbelow Rmpfr_nexttoward Rmpfr_number_p Rmpfr_out_str
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TRmpfr_out_str
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Rmpfr_overflow_p Rmpfr_pow Rmpfr_pow_si Rmpfr_pow_ui Rmpfr_pow_z Rmpfr_prec_round
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Rmpfr_print_rnd_mode
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Rmpfr_random2 Rmpfr_reldiff Rmpfr_rint Rmpfr_rint_ceil
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Rmpfr_rint_floor Rmpfr_rint_round Rmpfr_rint_trunc Rmpfr_root Rmpfr_rootn_ui Rmpfr_round
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Rmpfr_sec Rmpfr_sech Rmpfr_set Rmpfr_set_d Rmpfr_set_default_prec
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Rmpfr_set_default_rounding_mode Rmpfr_set_emax Rmpfr_set_emin Rmpfr_set_erangeflag
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Rmpfr_set_exp Rmpfr_set_f Rmpfr_set_inexflag Rmpfr_set_inf Rmpfr_set_ld Rmpfr_set_LD
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Rmpfr_set_NV Rmpfr_cmp_NV
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Rmpfr_set_nan Rmpfr_set_nanflag Rmpfr_set_overflow Rmpfr_set_prec
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Rmpfr_set_prec_raw Rmpfr_set_q Rmpfr_set_si Rmpfr_set_si_2exp Rmpfr_set_sj
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Rmpfr_set_sj_2exp Rmpfr_set_str Rmpfr_set_ui Rmpfr_set_ui_2exp
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Rmpfr_set_uj Rmpfr_set_uj_2exp
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Rmpfr_set_DECIMAL64 Rmpfr_get_DECIMAL64 Rmpfr_set_float128 Rmpfr_get_float128
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Rmpfr_set_FLOAT128 Rmpfr_get_FLOAT128 Rmpfr_set_DECIMAL128 Rmpfr_get_DECIMAL128
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Rmpfr_set_underflow Rmpfr_set_z Rmpfr_sgn Rmpfr_si_div Rmpfr_si_sub Rmpfr_sin
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Rmpfr_sin_cos Rmpfr_sinh_cosh
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Rmpfr_sinh Rmpfr_sqr Rmpfr_sqrt Rmpfr_sqrt_ui Rmpfr_strtofr Rmpfr_sub
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Rmpfr_sub_q Rmpfr_sub_si Rmpfr_sub_ui Rmpfr_sub_z Rmpfr_subnormalize
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Rmpfr_sum Rmpfr_swap
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Rmpfr_tan Rmpfr_tanh Rmpfr_trunc Rmpfr_ui_div Rmpfr_ui_pow Rmpfr_ui_pow_ui
|
|
Rmpfr_ui_sub Rmpfr_underflow_p Rmpfr_unordered_p Rmpfr_urandomb Rmpfr_zero_p
|
|
Rmpfr_zeta Rmpfr_zeta_ui
|
|
Rmpfr_j0 Rmpfr_j1 Rmpfr_jn Rmpfr_y0 Rmpfr_y1 Rmpfr_yn Rmpfr_lgamma
|
|
Rmpfr_signbit Rmpfr_setsign Rmpfr_copysign Rmpfr_get_patches
|
|
Rmpfr_remainder Rmpfr_remquo Rmpfr_fms Rmpfr_init_set_ld
|
|
Rmpfr_add_d Rmpfr_sub_d Rmpfr_d_sub Rmpfr_mul_d Rmpfr_div_d Rmpfr_d_div
|
|
Rmpfr_rec_sqrt Rmpfr_rec_root Rmpfr_li2 Rmpfr_modf Rmpfr_fmod
|
|
Rmpfr_printf Rmpfr_fprintf Rmpfr_sprintf Rmpfr_snprintf
|
|
Rmpfr_buildopt_tls_p Rmpfr_buildopt_decimal_p Rmpfr_regular_p Rmpfr_set_zero Rmpfr_digamma
|
|
Rmpfr_ai Rmpfr_set_flt Rmpfr_get_flt Rmpfr_urandom Rmpfr_set_z_2exp
|
|
Rmpfr_set_divby0 Rmpfr_clear_divby0 Rmpfr_divby0_p
|
|
Rmpfr_buildopt_tune_case Rmpfr_frexp Rmpfr_grandom Rmpfr_z_sub Rmpfr_buildopt_gmpinternals_p
|
|
Rmpfr_buildopt_float128_p Rmpfr_buildopt_sharedcache_p prec_cast
|
|
MPFR_DBL_DIG MPFR_LDBL_DIG MPFR_FLT128_DIG
|
|
mpfr_max_orig_len mpfr_min_inter_prec
|
|
Rmpfr_fmodquo Rmpfr_fpif_export Rmpfr_fpif_import Rmpfr_flags_clear Rmpfr_flags_set
|
|
Rmpfr_flags_test Rmpfr_flags_save Rmpfr_flags_restore Rmpfr_rint_roundeven Rmpfr_roundeven
|
|
Rmpfr_nrandom Rmpfr_erandom Rmpfr_fmma Rmpfr_fmms Rmpfr_log_ui Rmpfr_gamma_inc Rmpfr_beta
|
|
Rmpfr_round_nearest_away rndna
|
|
atonv nvtoa atodouble doubletoa numtoa atonum Rmpfr_dot Rmpfr_get_str_ndigits Rmpfr_get_str_ndigits_alt
|
|
)]);
|
|
|
|
|
|
$Math::MPFR::NNW = 0; # Set to 1 to allow "non-numeric" warnings for operations involving
|
|
# strings that contain non-numeric characters.
|
|
|
|
$Math::MPFR::NOK_POK = 0; # Set to 1 to allow warnings in new() and overloaded operations when
|
|
# a scalar that has set both NOK (NV) and POK (PV) flags is encountered
|
|
|
|
$Math::MPFR::doubletoa_fallback = 0; # If FALLBACK_NOTIFY is defined, this scalar Will be automatically
|
|
# incremented whenever the grisu3 algorithm (used by doubletoa) fails
|
|
# to produce correct result, and thus falls back to its designated
|
|
# fallback routine. (See the doubletoa documentation for details.)
|
|
|
|
%Math::MPFR::NV_properties = _get_NV_properties();
|
|
|
|
my %bytes = (53 => \&_d_bytes,
|
|
64 => \&_ld_bytes,
|
|
2098 => \&_dd_bytes,
|
|
113 => \&_f128_bytes,
|
|
);
|
|
|
|
my %fmt = (53 => 'a8',
|
|
64 => 'a10',
|
|
2098 => 'a16',
|
|
113 => 'a16',
|
|
);
|
|
|
|
sub dl_load_flags {0} # Prevent DynaLoader from complaining and croaking
|
|
|
|
sub Rmpfr_out_str {
|
|
if(@_ == 4) {
|
|
die "Inappropriate 1st arg supplied to Rmpfr_out_str" if _itsa($_[0]) != _MATH_MPFR_T;
|
|
return _Rmpfr_out_str($_[0], $_[1], $_[2], $_[3]);
|
|
}
|
|
if(@_ == 5) {
|
|
if(_itsa($_[0]) == _MATH_MPFR_T) {return _Rmpfr_out_strS($_[0], $_[1], $_[2], $_[3], $_[4])}
|
|
die "Incorrect args supplied to Rmpfr_out_str" if _itsa($_[1]) != _MATH_MPFR_T;
|
|
return _Rmpfr_out_strP($_[0], $_[1], $_[2], $_[3], $_[4]);
|
|
}
|
|
if(@_ == 6) {
|
|
die "Inappropriate 2nd arg supplied to Rmpfr_out_str" if _itsa($_[1]) != _MATH_MPFR_T;
|
|
return _Rmpfr_out_strPS($_[0], $_[1], $_[2], $_[3], $_[4], $_[5]);
|
|
}
|
|
die "Wrong number of arguments supplied to Rmpfr_out_str()";
|
|
}
|
|
|
|
sub TRmpfr_out_str {
|
|
if(@_ == 5) {
|
|
die "Inappropriate 4th arg supplied to TRmpfr_out_str"
|
|
if _itsa($_[3]) != _MATH_MPFR_T;
|
|
return _TRmpfr_out_str($_[0], $_[1], $_[2], $_[3], $_[4]);
|
|
}
|
|
if(@_ == 6) {
|
|
if(_itsa($_[3]) == _MATH_MPFR_T) {return _TRmpfr_out_strS($_[0], $_[1], $_[2], $_[3], $_[4], $_[5])}
|
|
die "Incorrect args supplied to TRmpfr_out_str"
|
|
if _itsa($_[4]) != _MATH_MPFR_T;
|
|
return _TRmpfr_out_strP($_[0], $_[1], $_[2], $_[3], $_[4], $_[5]);
|
|
}
|
|
if(@_ == 7) {
|
|
die "Inappropriate 5th arg supplied to TRmpfr_out_str"
|
|
if _itsa($_[4]) != _MATH_MPFR_T;
|
|
return _TRmpfr_out_strPS($_[0], $_[1], $_[2], $_[3], $_[4], $_[5], $_[6]);
|
|
}
|
|
die "Wrong number of arguments supplied to TRmpfr_out_str()";
|
|
}
|
|
|
|
sub Rmpfr_get_str {
|
|
my ($mantissa, $exponent) = Rmpfr_deref2($_[0], $_[1], $_[2], $_[3]);
|
|
|
|
if($mantissa =~ s/@//g) { return $mantissa }
|
|
if($mantissa =~ /\-/ && $mantissa !~ /[^0,\-]/) {return '-0'}
|
|
if($mantissa !~ /[^0]/ ) {return '0'}
|
|
|
|
my $len = substr($mantissa, 0, 1) eq '-' ? 2 : 1;
|
|
|
|
if(!$_[2]) {
|
|
while(length($mantissa) > $len && substr($mantissa, -1, 1) eq '0') {
|
|
substr($mantissa, -1, 1, '');
|
|
}
|
|
}
|
|
|
|
$exponent--;
|
|
|
|
my $sep = $_[1] <= 10 ? 'e' : '@';
|
|
|
|
if(length($mantissa) == $len) {
|
|
if($exponent) {return $mantissa . $sep . $exponent}
|
|
return $mantissa;
|
|
}
|
|
|
|
substr($mantissa, $len, 0, '.');
|
|
if($exponent) {return $mantissa . $sep . $exponent}
|
|
return $mantissa;
|
|
}
|
|
|
|
sub overload_string {
|
|
return Rmpfr_get_str($_[0], 10, 0, Rmpfr_get_default_rounding_mode());
|
|
}
|
|
|
|
sub Rmpfr_integer_string {
|
|
if($_[1] < 2 || $_[1] > 36) {die("Second argument supplied to Rmpfr_integer_string() is not in acceptable range")}
|
|
my($mantissa, $exponent) = Rmpfr_deref2($_[0], $_[1], 0, $_[2]);
|
|
if($mantissa =~ s/@//g) { return $mantissa }
|
|
if($mantissa =~ /\-/ && $mantissa !~ /[^0,\-]/) {return '-0'}
|
|
return 0 if $exponent < 1;
|
|
my $sign = substr($mantissa, 0, 1) eq '-' ? 1 : 0;
|
|
$mantissa = substr($mantissa, 0, $exponent + $sign);
|
|
return $mantissa;
|
|
}
|
|
|
|
|
|
sub new {
|
|
|
|
# This function caters for 2 possibilities:
|
|
# 1) that 'new' has been called OOP style - in which
|
|
# case there will be a maximum of 3 args
|
|
# 2) that 'new' has been called as a function - in
|
|
# which case there will be a maximum of 2 args.
|
|
# If there are no args, then we just want to return an
|
|
# initialized Math::MPFR object
|
|
if(!@_) {return Rmpfr_init()}
|
|
|
|
if(@_ > 3) {die "Too many arguments supplied to new()"}
|
|
|
|
# If 'new' has been called OOP style, the first arg is the string
|
|
# "Math::MPFR" which we don't need - so let's remove it. However,
|
|
# if the first arg is a Math::MPFR object (which is a possibility),
|
|
# then we'll get a fatal error when we check it for equivalence to
|
|
# the string "Math::MPFR". So we first need to check that it's not
|
|
# an object - which we'll do by using the ref() function:
|
|
if(!ref($_[0]) && $_[0] eq "Math::MPFR") {
|
|
shift;
|
|
if(!@_) {return Rmpfr_init()}
|
|
}
|
|
|
|
# @_ can now contain a maximum of 2 args - the value, and if the value is
|
|
# a string, (optionally) the base of the numeric string.
|
|
if(@_ > 2) {die "Too many arguments supplied to new() - expected no more than two"}
|
|
|
|
my ($arg1, $type, $base);
|
|
|
|
# $_[0] is the value, $_[1] (if supplied) is the base of the number
|
|
# in the string $[_0].
|
|
$arg1 = shift;
|
|
$base = 0;
|
|
|
|
$type = _itsa($arg1);
|
|
if(!$type) {die "Inappropriate argument supplied to new()"}
|
|
|
|
my @ret;
|
|
|
|
# Create a Math::MPFR object that has $arg1 as its value.
|
|
# Die if there are any additional args (unless $type == 4)
|
|
if($type == _UOK_T) {
|
|
if(@_ ) {die "Too many arguments supplied to new() - expected only one"}
|
|
if(Math::MPFR::_has_longlong()) {
|
|
my $ret = Rmpfr_init();
|
|
Rmpfr_set_uj($ret, $arg1, Rmpfr_get_default_rounding_mode());
|
|
return $ret;
|
|
}
|
|
else {
|
|
@ret = Rmpfr_init_set_ui($arg1, Rmpfr_get_default_rounding_mode());
|
|
return $ret[0];
|
|
}
|
|
}
|
|
|
|
if($type == _IOK_T) {
|
|
if(@_ ) {die "Too many arguments supplied to new() - expected only one"}
|
|
if(Math::MPFR::_has_longlong()) {
|
|
my $ret = Rmpfr_init();
|
|
Rmpfr_set_sj($ret, $arg1, Rmpfr_get_default_rounding_mode());
|
|
return $ret;
|
|
}
|
|
else {
|
|
@ret = Rmpfr_init_set_si($arg1, Rmpfr_get_default_rounding_mode());
|
|
return $ret[0];
|
|
}
|
|
}
|
|
|
|
if($type == _NOK_T) {
|
|
if(@_ ) {die "Too many arguments supplied to new() - expected only one"}
|
|
my $ret = Rmpfr_init();
|
|
Rmpfr_set_NV($ret, $arg1, Rmpfr_get_default_rounding_mode());
|
|
return $ret;
|
|
}
|
|
|
|
if($type == _POK_T) {
|
|
if(@_ > 1) {die "Too many arguments supplied to new() - expected no more than two"}
|
|
if(_SvNOK($arg1)) {
|
|
set_nok_pok(nok_pokflag() + 1);
|
|
if($Math::MPFR::NOK_POK) {
|
|
warn "Scalar passed to new() is both NV and PV. Using PV (string) value";
|
|
}
|
|
}
|
|
$base = shift if @_;
|
|
@ret = Rmpfr_init_set_str($arg1, $base, Rmpfr_get_default_rounding_mode());
|
|
return $ret[0];
|
|
}
|
|
|
|
if($type == _MATH_MPFR_T) {
|
|
if(@_) {die "Too many arguments supplied to new() - expected only one"}
|
|
@ret = Rmpfr_init_set($arg1, Rmpfr_get_default_rounding_mode());
|
|
return $ret[0];
|
|
}
|
|
|
|
if($type == _MATH_GMPf_T) {
|
|
if(@_) {die "Too many arguments supplied to new() - expected only one"}
|
|
@ret = Rmpfr_init_set_f($arg1, Rmpfr_get_default_rounding_mode());
|
|
return $ret[0];
|
|
}
|
|
|
|
if($type == _MATH_GMPq_T) {
|
|
if(@_) {die "Too many arguments supplied to new() - expected only one"}
|
|
@ret = Rmpfr_init_set_q($arg1, Rmpfr_get_default_rounding_mode());
|
|
return $ret[0];
|
|
}
|
|
|
|
if($type == _MATH_GMPz_T || $type == _MATH_GMP_T) {
|
|
if(@_) {die "Too many arguments supplied to new() - expected only one"}
|
|
@ret = Rmpfr_init_set_z($arg1, Rmpfr_get_default_rounding_mode());
|
|
return $ret[0];
|
|
}
|
|
}
|
|
|
|
sub Rmpfr_printf {
|
|
if(@_ == 3){wrap_mpfr_printf_rnd(@_)}
|
|
else {die "Rmpfr_printf must take 2 or 3 arguments: format string, [rounding,], and variable" if @_ != 2;
|
|
wrap_mpfr_printf(@_)}
|
|
}
|
|
|
|
sub Rmpfr_fprintf {
|
|
if(@_ == 4){wrap_mpfr_fprintf_rnd(@_)}
|
|
else {die "Rmpfr_fprintf must take 3 or 4 arguments: filehandle, format string, [rounding,], and variable" if @_ != 3;
|
|
wrap_mpfr_fprintf(@_)}
|
|
}
|
|
|
|
sub Rmpfr_sprintf {
|
|
my $len;
|
|
if(@_ == 5){
|
|
$len = wrap_mpfr_sprintf_rnd(@_);
|
|
return $len;
|
|
}
|
|
die "Rmpfr_sprintf must take 4 or 5 arguments: buffer, format string, [rounding,], variable and buffer size" if @_ != 4;
|
|
$len = wrap_mpfr_sprintf(@_);
|
|
return $len;
|
|
}
|
|
|
|
sub Rmpfr_snprintf {
|
|
my $len;
|
|
if(@_ == 6){
|
|
$len = wrap_mpfr_snprintf_rnd(@_);
|
|
return $len;
|
|
}
|
|
die "Rmpfr_snprintf must take 5 or 6 arguments: buffer, bytes written, format string, [rounding,], variable and buffer size" if @_ != 5;
|
|
$len = wrap_mpfr_snprintf(@_);
|
|
return $len;
|
|
}
|
|
|
|
|
|
sub Rmpfr_inits {
|
|
my @ret;
|
|
for(1 .. $_[0]) {
|
|
$ret[$_ - 1] = Rmpfr_init();
|
|
}
|
|
return @ret;
|
|
}
|
|
|
|
sub Rmpfr_inits2 {
|
|
my @ret;
|
|
for(1 .. $_[1]) {
|
|
$ret[$_ - 1] = Rmpfr_init2($_[0]);
|
|
}
|
|
return @ret;
|
|
}
|
|
|
|
sub Rmpfr_inits_nobless {
|
|
my @ret;
|
|
for(1 .. $_[0]) {
|
|
$ret[$_ - 1] = Rmpfr_init_nobless();
|
|
}
|
|
return @ret;
|
|
}
|
|
|
|
sub Rmpfr_inits2_nobless {
|
|
my @ret;
|
|
for(1 .. $_[1]) {
|
|
$ret[$_ - 1] = Rmpfr_init2_nobless($_[0]);
|
|
}
|
|
return @ret;
|
|
}
|
|
|
|
sub MPFR_VERSION () {return _MPFR_VERSION()}
|
|
sub MPFR_VERSION_MAJOR () {return _MPFR_VERSION_MAJOR()}
|
|
sub MPFR_VERSION_MINOR () {return _MPFR_VERSION_MINOR()}
|
|
sub MPFR_VERSION_PATCHLEVEL () {return _MPFR_VERSION_PATCHLEVEL()}
|
|
sub MPFR_VERSION_STRING () {return _MPFR_VERSION_STRING()}
|
|
sub MPFR_DBL_DIG () {return _DBL_DIG()}
|
|
sub MPFR_LDBL_DIG () {return _LDBL_DIG()}
|
|
sub MPFR_FLT128_DIG () {return _FLT128_DIG()}
|
|
sub GMP_LIMB_BITS () {return _GMP_LIMB_BITS()}
|
|
sub GMP_NAIL_BITS () {return _GMP_NAIL_BITS()}
|
|
|
|
sub atonum {
|
|
if(MPFR_3_1_6_OR_LATER) {
|
|
my $copy = $_[0]; # Don't mess with $_[0] flags
|
|
my $ret = "$copy" + 0;
|
|
return $ret if _itsa($ret) < 3; # IV
|
|
return atonv($_[0]); # NV
|
|
}
|
|
die("atonum needs atonv, but atonv is not available with this version (", MPFR_VERSION_STRING, ") of the mpfr library");
|
|
}
|
|
|
|
sub mpfr_min_inter_prec {
|
|
die "Wrong number of args to mpfr_min_inter_prec()" unless @_ == 3;
|
|
my $ob = shift; # base of original representation
|
|
my $op = shift; # precision (no. of base $ob digits in mantissa) of original representation
|
|
my $nb = shift; # base of new representation
|
|
my $np; # min required precision (no. of base $nb digits in mantissa) of new representation
|
|
|
|
my %h = (2 => 1, 4 => 2, 8 => 3, 16 => 4, 32 => 5, 64 => 6,
|
|
3 => 1, 9 => 2, 27 => 3,
|
|
5 => 1, 25 => 2,
|
|
6 => 1, 36 => 2,
|
|
7 => 1, 49 => 2);
|
|
|
|
return $op
|
|
if $ob == $nb;
|
|
|
|
if(_bases_are_power_of_same_integer($ob, $nb)) {
|
|
$np = POSIX::ceil($op * $h{$ob} / $h{$nb});
|
|
return $np;
|
|
}
|
|
|
|
$np = POSIX::ceil(1 + ($op * log($ob) / log($nb)));
|
|
return $np;
|
|
}
|
|
|
|
sub mpfr_max_orig_len {
|
|
die "Wrong number of args to maximum_orig_length()" if @_ != 3;
|
|
my $ob = shift; # base of original representation
|
|
my $nb = shift; # base of new representation
|
|
my $np = shift; # precision (no. of base $nb digits in mantissa) of new representation
|
|
my $op; # max precision (no. of base $ob digits in mantissa) of original representation
|
|
|
|
my %h = (2 => 1, 4 => 2, 8 => 3, 16 => 4, 32 => 5, 64 => 6,
|
|
3 => 1, 9 => 2, 27 => 3,
|
|
5 => 1, 25 => 2,
|
|
6 => 1, 36 => 2,
|
|
7 => 1, 49 => 2);
|
|
|
|
return $np
|
|
if $ob == $nb;
|
|
|
|
if(_bases_are_power_of_same_integer($ob, $nb)) {
|
|
$op = POSIX::floor($np * $h{$nb} / $h{$ob});
|
|
return $op;
|
|
}
|
|
|
|
$op = POSIX::floor(($np - 1) * log($nb) / log($ob));
|
|
return $op;
|
|
}
|
|
|
|
sub _bases_are_power_of_same_integer {
|
|
|
|
# This function currently doesn't get called if $_[0] == $_[1]
|
|
# Return true if:
|
|
# 1) Both $_[0] and $_[1] are in the range 2..64 (inclusive)
|
|
# &&
|
|
# 2) Both $_[0] and $_[1] are powers of the same integer - eg 8 & 32, or 9 & 27, or 7 & 49, ....
|
|
# Else return false.
|
|
|
|
return 1
|
|
if( ($_[0] == 2 || $_[0] == 16 || $_[0] == 8 || $_[0] == 64 || $_[0] == 32 || $_[0] == 4)
|
|
&&
|
|
($_[1] == 2 || $_[1] == 16 || $_[1] == 8 || $_[1] == 64 || $_[1] == 32 || $_[1] == 4) );
|
|
|
|
return 1
|
|
if( ($_[0] == 3 || $_[0] == 9 || $_[0] == 27)
|
|
&&
|
|
($_[1] == 3 || $_[1] == 9 || $_[1] == 27) );
|
|
|
|
return 1
|
|
if( ($_[0] == 5 || $_[0] == 25)
|
|
&&
|
|
($_[1] == 5 || $_[1] == 25) );
|
|
|
|
return 1
|
|
if( ($_[0] == 6 || $_[0] == 36)
|
|
&&
|
|
($_[1] == 6 || $_[1] == 36) );
|
|
|
|
return 1
|
|
if( ($_[0] == 7 || $_[0] == 49)
|
|
&&
|
|
($_[1] == 7 || $_[1] == 49) );
|
|
|
|
return 0;
|
|
}
|
|
|
|
sub bytes {
|
|
my($val, $bits, $ret) = (shift, shift);
|
|
my $itsa = _itsa($val);
|
|
die "1st arg to Math::MPFR::bytes must be either a string or a Math::MPFR object"
|
|
if($itsa != 4 && $itsa != 5);
|
|
|
|
die "2nd argument given to Math::MPFR::bytes is neither 53 nor 64 nor 2098 nor 113"
|
|
unless($bits == 53 || $bits == 64 || $bits == 2098 || $bits == 113);
|
|
|
|
$ret = $itsa == 4 ? unpack MM_HP, pack $fmt{$bits}, $bytes {$bits} -> ($val)
|
|
: unpack MM_HP, pack $fmt{$bits}, _bytes_fr($val, $bits);
|
|
return scalar reverse $ret if LITTLE_ENDIAN;
|
|
return $ret;
|
|
}
|
|
|
|
sub rndna {
|
|
my $coderef = shift;
|
|
my $rop = shift;
|
|
my $big_prec = Rmpfr_get_prec($rop) + 1;
|
|
my $ret;
|
|
|
|
if($coderef == \&Rmpfr_prec_round) {
|
|
my $temp = Rmpfr_init2($big_prec); # need a temp object
|
|
Rmpfr_set($temp, $rop, MPFR_RNDN);
|
|
$ret = Rmpfr_prec_round($temp, $_[0] + 1, MPFR_RNDN);
|
|
|
|
if(!$ret) {return Rmpfr_prec_round($rop, $_[0], MPFR_RNDA)}
|
|
return Rmpfr_prec_round($rop, $_[0], MPFR_RNDN);
|
|
}
|
|
|
|
Rmpfr_prec_round($rop, $big_prec, MPFR_RNDN);
|
|
$ret = $coderef->($rop, @_, MPFR_RNDN);
|
|
|
|
if($ret) { # not a midpoint value
|
|
Rmpfr_prec_round($rop, $big_prec - 1, $ret < 0 ? MPFR_RNDA : MPFR_RNDZ);
|
|
return $ret;
|
|
}
|
|
|
|
if(_lsb($rop) == 0) {
|
|
Rmpfr_prec_round($rop, $big_prec - 1, MPFR_RNDZ);
|
|
return 0;
|
|
}
|
|
|
|
return Rmpfr_prec_round($rop, $big_prec - 1, MPFR_RNDA);
|
|
}
|
|
|
|
sub Rmpfr_round_nearest_away {
|
|
my $coderef = shift;
|
|
my $rop = shift;
|
|
my $big_prec = Rmpfr_get_prec($rop) + 1;
|
|
my $ret;
|
|
|
|
my $emin = Rmpfr_get_emin();
|
|
|
|
if($emin <= Rmpfr_get_emin_min()) {
|
|
warn "\n Rmpfr_round_nearest_away requires that emin ($emin)\n",
|
|
" be greater than or equal to emin_min (", Rmpfr_get_emin_min(), ")\n";
|
|
die " You need to set emin (using Rmpfr_set_emin()) accordingly";
|
|
}
|
|
|
|
Rmpfr_set_emin($emin - 1);
|
|
|
|
if($coderef == \&Rmpfr_prec_round) {
|
|
my $temp = Rmpfr_init2($big_prec); # need a temp object
|
|
Rmpfr_set($temp, $rop, MPFR_RNDN);
|
|
$ret = Rmpfr_prec_round($temp, $_[0] + 1, MPFR_RNDN);
|
|
|
|
if(!$ret) {
|
|
$ret = Rmpfr_prec_round($rop, $_[0], MPFR_RNDA);
|
|
Rmpfr_set_emin($emin);
|
|
return $ret;
|
|
}
|
|
$ret = Rmpfr_prec_round($rop, $_[0], MPFR_RNDN);
|
|
Rmpfr_set_emin($emin);
|
|
return $ret;
|
|
}
|
|
|
|
Rmpfr_prec_round($rop, $big_prec, MPFR_RNDN);
|
|
$ret = $coderef->($rop, @_, MPFR_RNDN);
|
|
|
|
if($ret) { # not a midpoint value
|
|
Rmpfr_prec_round($rop, $big_prec - 1, $ret < 0 ? MPFR_RNDA : MPFR_RNDZ);
|
|
Rmpfr_set_emin($emin);
|
|
return $ret;
|
|
}
|
|
|
|
my $nuisance = Rmpfr_init();
|
|
Rmpfr_set_ui ($nuisance, 2, MPFR_RNDD);
|
|
Rmpfr_pow_si ($nuisance, $nuisance, Rmpfr_get_emin(), MPFR_RNDD);
|
|
Rmpfr_div_2ui($nuisance, $nuisance, 1, MPFR_RNDD);
|
|
|
|
if(abs($rop) == $nuisance) {
|
|
Rmpfr_mul_ui($rop, $rop, 2, MPFR_RNDD);
|
|
Rmpfr_set_emin($emin);
|
|
return (Rmpfr_signbit($rop) ? -1 : 1);
|
|
}
|
|
|
|
if(_lsb($rop) == 0) {
|
|
Rmpfr_prec_round($rop, $big_prec - 1, MPFR_RNDZ);
|
|
Rmpfr_set_emin($emin);
|
|
return 0;
|
|
}
|
|
|
|
$ret = Rmpfr_prec_round($rop, $big_prec - 1, MPFR_RNDA);
|
|
Rmpfr_set_emin($emin);
|
|
return $ret;
|
|
}
|
|
|
|
sub _get_NV_properties {
|
|
|
|
my($bits, $PREC, $max_dig, $min_pow, $normal_min, $NV_MAX, $nvtype, $emax, $emin);
|
|
|
|
if ($Config{nvtype} eq 'double') {
|
|
$bits = 53; $PREC = 64; $max_dig = 17; $min_pow = -1074;
|
|
$normal_min = 2 ** -1022; $NV_MAX = POSIX::DBL_MAX; $emin = -1073; $emax = 1024;
|
|
}
|
|
|
|
elsif($Config{nvtype} eq '__float128') {
|
|
$bits = 113; $PREC = 128; $max_dig = 36; $min_pow = -16494; $normal_min = 2 ** -16382;
|
|
$NV_MAX = 1.18973149535723176508575932662800702e+4932; $emin = -16493; $emax = 16384;
|
|
}
|
|
|
|
elsif($Config{nvtype} eq 'long double') {
|
|
|
|
if(_required_ldbl_mant_dig() == 53) {
|
|
$bits = 53; $PREC = 64; $max_dig = 17; $min_pow = -1074;
|
|
$normal_min = 2 ** -1022; $NV_MAX = POSIX::DBL_MAX; $emin = -1073; $emax = 1024;
|
|
}
|
|
|
|
elsif(_required_ldbl_mant_dig() == 113) {
|
|
$bits = 113; $PREC = 128; $max_dig = 36; $min_pow = -16494;
|
|
$normal_min = 2 ** -16382; $NV_MAX = POSIX::LDBL_MAX; $emin = -16493; $emax = 16384;
|
|
}
|
|
|
|
elsif(_required_ldbl_mant_dig() == 64) {
|
|
$bits = 64; $PREC = 80; $max_dig = 21; $min_pow = -16445;
|
|
$normal_min = 2 ** -16382; $NV_MAX = POSIX::LDBL_MAX; $emin = -16444; $emax = 16384;
|
|
}
|
|
|
|
elsif(_required_ldbl_mant_dig() == 2098) {
|
|
$bits = 2098; $PREC = 2104; $max_dig = 33; $min_pow = -1074;
|
|
$normal_min = 2 ** -1022; $NV_MAX = POSIX::LDBL_MAX; $emin = -1073; $emax = 1024;
|
|
}
|
|
|
|
else {
|
|
my %properties = ('type' => 'unknown long double type');
|
|
return %properties;
|
|
}
|
|
}
|
|
else {
|
|
my %properties = ('type' => 'unknown nv type');
|
|
return %properties;
|
|
}
|
|
|
|
my %properties = (
|
|
'bits' => $bits,
|
|
'PREC' => $PREC,
|
|
'max_dig' => $max_dig,
|
|
'min_pow' => $min_pow,
|
|
'normal_min' => $normal_min,
|
|
'NV_MAX' => $NV_MAX,
|
|
'emin' => $emin,
|
|
'emax' => $emax,
|
|
);
|
|
|
|
return %properties;
|
|
}
|
|
|
|
sub perl_set_fallback_flag {
|
|
$Math::MPFR::doubletoa_fallback++;
|
|
}
|
|
|
|
*Rmpfr_get_z_exp = \&Rmpfr_get_z_2exp;
|
|
*prec_cast = \&Math::MPFR::Prec::prec_cast;
|
|
*Rmpfr_randinit_default = \&Math::MPFR::Random::Rmpfr_randinit_default;
|
|
*Rmpfr_randinit_mt = \&Math::MPFR::Random::Rmpfr_randinit_mt;
|
|
*Rmpfr_randinit_lc_2exp = \&Math::MPFR::Random::Rmpfr_randinit_lc_2exp;
|
|
*Rmpfr_randinit_lc_2exp_size = \&Math::MPFR::Random::Rmpfr_randinit_lc_2exp_size;
|
|
|
|
1;
|
|
|
|
__END__
|