Add numeric_traits<double> and numeric_traits<float> which are using MPFR
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2 changed files with 89 additions and 1 deletions
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@ -3,6 +3,7 @@ Copyright (c) 2013 Microsoft Corporation. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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Released under Apache 2.0 license as described in the file LICENSE.
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Author: Leonardo de Moura
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Author: Leonardo de Moura
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Soonho Kong
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*/
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*/
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#include <cfenv>
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#include <cfenv>
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#include <cmath>
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#include <cmath>
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@ -10,6 +11,8 @@ Author: Leonardo de Moura
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namespace lean {
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namespace lean {
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mpfr_rnd_t numeric_traits<double>::rnd = MPFR_RNDN;
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mpfr_rnd_t numeric_traits<float>::rnd = MPFR_RNDN;
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void set_processor_rounding(bool plus_inf) {
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void set_processor_rounding(bool plus_inf) {
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if (plus_inf)
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if (plus_inf)
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std::fesetround(FE_UPWARD);
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std::fesetround(FE_UPWARD);
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@ -20,5 +23,8 @@ void set_processor_rounding(bool plus_inf) {
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void double_power(double & v, unsigned k) {
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void double_power(double & v, unsigned k) {
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v = std::pow(v, k);
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v = std::pow(v, k);
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}
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}
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void float_power(float & v, unsigned k) {
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v = std::pow(v, k);
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}
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};
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};
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@ -3,8 +3,10 @@ Copyright (c) 2013 Microsoft Corporation. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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Released under Apache 2.0 license as described in the file LICENSE.
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Author: Leonardo de Moura
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Author: Leonardo de Moura
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Soonho Kong
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*/
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*/
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#pragma once
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#pragma once
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#include <mpfr.h>
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namespace lean {
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namespace lean {
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@ -18,20 +20,100 @@ class numeric_traits {
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void set_processor_rounding(bool plus_inf);
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void set_processor_rounding(bool plus_inf);
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void double_power(double & v, unsigned k);
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void double_power(double & v, unsigned k);
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void float_power(float & v, unsigned k);
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// Macro to implement transcendental functions using MPFR
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#define LEAN_TRANS_FLOAT_FUNC(f, v) mpfr_t t; \
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mpfr_init2(t, 24); /* precision of float = 24bit */ \
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mpfr_set_flt(t, v, rnd); \
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mpfr_##f(t, t, rnd); \
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v = mpfr_get_flt(t, rnd); \
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mpfr_clear (t); \
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// Macro to implement transcendental functions using MPFR
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#define LEAN_TRANS_DOUBLE_FUNC(f, v) mpfr_t t; \
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mpfr_init2(t, 53); /* precision of double = 53bit */ \
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mpfr_set_d(t, v, rnd); \
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mpfr_##f(t, t, rnd); \
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v = mpfr_get_d(t, rnd); \
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mpfr_clear (t); \
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template<>
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template<>
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class numeric_traits<double> {
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class numeric_traits<double> {
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public:
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public:
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static mpfr_rnd_t rnd;
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static bool precise() { return false; }
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static bool precise() { return false; }
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static bool is_zero(double v) { return v == 0.0; }
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static bool is_zero(double v) { return v == 0.0; }
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static bool is_pos(double v) { return v > 0.0; }
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static bool is_pos(double v) { return v > 0.0; }
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static bool is_neg(double v) { return v < 0.0; }
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static bool is_neg(double v) { return v < 0.0; }
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static void set_rounding(bool plus_inf) { set_processor_rounding(plus_inf); }
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static void set_rounding(bool plus_inf) { rnd = plus_inf ? MPFR_RNDU : MPFR_RNDD; }
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static void neg(double & v) { v = -v; }
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static void neg(double & v) { v = -v; }
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static void inv(double & v) { v = 1.0/v; }
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static void inv(double & v) { v = 1.0/v; }
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static void reset(double & v) { v = 0.0; }
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static void reset(double & v) { v = 0.0; }
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// v <- v^k
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// v <- v^k
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static void power(double & v, unsigned k) { double_power(v, k); }
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static void power(double & v, unsigned k) { double_power(v, k); }
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// Transcendental functions using MPFR
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static void exp(double & v) { LEAN_TRANS_DOUBLE_FUNC(exp, v); }
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static void exp2(double & v) { LEAN_TRANS_DOUBLE_FUNC(exp2, v); }
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static void exp10(double & v) { LEAN_TRANS_DOUBLE_FUNC(exp10, v); }
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static void log(double & v) { LEAN_TRANS_DOUBLE_FUNC(log, v); }
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static void log2(double & v) { LEAN_TRANS_DOUBLE_FUNC(log2, v); }
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static void log10(double & v) { LEAN_TRANS_DOUBLE_FUNC(log10, v); }
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static void sin(double & v) { LEAN_TRANS_DOUBLE_FUNC(sin, v); }
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static void cos(double & v) { LEAN_TRANS_DOUBLE_FUNC(cos, v); }
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static void tan(double & v) { LEAN_TRANS_DOUBLE_FUNC(tan, v); }
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static void sec(double & v) { LEAN_TRANS_DOUBLE_FUNC(sec, v); }
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static void csc(double & v) { LEAN_TRANS_DOUBLE_FUNC(csc, v); }
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static void cot(double & v) { LEAN_TRANS_DOUBLE_FUNC(cot, v); }
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static void asin(double & v) { LEAN_TRANS_DOUBLE_FUNC(asin, v); }
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static void acos(double & v) { LEAN_TRANS_DOUBLE_FUNC(acos, v); }
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static void atan(double & v) { LEAN_TRANS_DOUBLE_FUNC(atan, v); }
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static void sinh(double & v) { LEAN_TRANS_DOUBLE_FUNC(sinh, v); }
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static void cosh(double & v) { LEAN_TRANS_DOUBLE_FUNC(cosh, v); }
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static void tanh(double & v) { LEAN_TRANS_DOUBLE_FUNC(tanh, v); }
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static void asinh(double & v) { LEAN_TRANS_DOUBLE_FUNC(asinh, v); }
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static void acosh(double & v) { LEAN_TRANS_DOUBLE_FUNC(acosh, v); }
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static void atanh(double & v) { LEAN_TRANS_DOUBLE_FUNC(atanh, v); }
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};
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template<>
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class numeric_traits<float> {
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public:
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static mpfr_rnd_t rnd;
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static bool precise() { return false; }
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static bool is_zero(float v) { return v == 0.0; }
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static bool is_pos(float v) { return v > 0.0; }
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static bool is_neg(float v) { return v < 0.0; }
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static void set_rounding(bool plus_inf) { rnd = plus_inf ? MPFR_RNDU : MPFR_RNDD; }
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static void neg(float & v) { v = -v; }
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static void inv(float & v) { v = 1.0/v; }
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static void reset(float & v) { v = 0.0; }
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// v <- v^k
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static void power(float & v, unsigned k) { float_power(v, k); }
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// Transcendental functions using MPFR
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static void exp(float & v) { LEAN_TRANS_FLOAT_FUNC(exp, v); }
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static void exp2(float & v) { LEAN_TRANS_FLOAT_FUNC(exp2, v); }
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static void exp10(float & v) { LEAN_TRANS_FLOAT_FUNC(exp10, v); }
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static void log(float & v) { LEAN_TRANS_FLOAT_FUNC(log, v); }
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static void log2(float & v) { LEAN_TRANS_FLOAT_FUNC(log2, v); }
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static void log10(float & v) { LEAN_TRANS_FLOAT_FUNC(log10, v); }
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static void sin(float & v) { LEAN_TRANS_FLOAT_FUNC(sin, v); }
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static void cos(float & v) { LEAN_TRANS_FLOAT_FUNC(cos, v); }
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static void tan(float & v) { LEAN_TRANS_FLOAT_FUNC(tan, v); }
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static void sec(float & v) { LEAN_TRANS_FLOAT_FUNC(sec, v); }
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static void csc(float & v) { LEAN_TRANS_FLOAT_FUNC(csc, v); }
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static void cot(float & v) { LEAN_TRANS_FLOAT_FUNC(cot, v); }
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static void asin(float & v) { LEAN_TRANS_FLOAT_FUNC(asin, v); }
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static void acos(float & v) { LEAN_TRANS_FLOAT_FUNC(acos, v); }
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static void atan(float & v) { LEAN_TRANS_FLOAT_FUNC(atan, v); }
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static void sinh(float & v) { LEAN_TRANS_FLOAT_FUNC(sinh, v); }
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static void cosh(float & v) { LEAN_TRANS_FLOAT_FUNC(cosh, v); }
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static void tanh(float & v) { LEAN_TRANS_FLOAT_FUNC(tanh, v); }
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static void asinh(float & v) { LEAN_TRANS_FLOAT_FUNC(asinh, v); }
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static void acosh(float & v) { LEAN_TRANS_FLOAT_FUNC(acosh, v); }
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static void atanh(float & v) { LEAN_TRANS_FLOAT_FUNC(atanh, v); }
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};
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};
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}
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}
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