/////////////////////////////////////////////////////////////// // Copyright 2012 John Maddock. Distributed under the Boost // Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_ #ifndef BOOST_MATH_LOGGED_ADAPTER_HPP #define BOOST_MATH_LOGGED_ADAPTER_HPP #include #include namespace boost{ namespace multiprecision{ template inline void log_postfix_event(const Backend&, const char* /*event_description*/) { } template inline void log_postfix_event(const Backend&, const T&, const char* /*event_description*/) { } template inline void log_prefix_event(const Backend&, const char* /*event_description*/) { } template inline void log_prefix_event(const Backend&, const T&, const char* /*event_description*/) { } template inline void log_prefix_event(const Backend&, const T&, const U&, const char* /*event_description*/) { } template inline void log_prefix_event(const Backend&, const T&, const U&, const V&, const char* /*event_description*/) { } namespace backends{ template struct logged_adaptor { typedef typename Backend::signed_types signed_types; typedef typename Backend::unsigned_types unsigned_types; typedef typename Backend::float_types float_types; typedef typename extract_exponent_type< Backend, number_category::value>::type exponent_type; private: Backend m_value; public: logged_adaptor() { log_postfix_event(m_value, "Default construct"); } logged_adaptor(const logged_adaptor& o) { log_prefix_event(m_value, o.value(), "Copy construct"); m_value = o.m_value; log_postfix_event(m_value, "Copy construct"); } logged_adaptor& operator = (const logged_adaptor& o) { log_prefix_event(m_value, o.value(), "Assignment"); m_value = o.m_value; log_postfix_event(m_value, "Copy construct"); return *this; } template logged_adaptor(const T& i, const typename enable_if_c::value>::type* = 0) : m_value(i) { log_postfix_event(m_value, "construct from arithmetic type"); } template typename enable_if_c::value || is_convertible::value, logged_adaptor&>::type operator = (const T& i) { log_prefix_event(m_value, i, "Assignment from arithmetic type"); m_value = i; log_postfix_event(m_value, "Assignment from arithmetic type"); return *this; } logged_adaptor& operator = (const char* s) { log_prefix_event(m_value, s, "Assignment from string type"); m_value = s; log_postfix_event(m_value, "Assignment from string type"); return *this; } void swap(logged_adaptor& o) { log_prefix_event(m_value, o.value(), "swap"); std::swap(m_value, o.value()); log_postfix_event(m_value, "swap"); } std::string str(std::streamsize digits, std::ios_base::fmtflags f)const { log_prefix_event(m_value, "Conversion to string"); std::string s = m_value.str(digits, f); log_postfix_event(m_value, s, "Conversion to string"); return s; } void negate() { log_prefix_event(m_value, "negate"); m_value.negate(); log_postfix_event(m_value, "negate"); } int compare(const logged_adaptor& o)const { log_prefix_event(m_value, o.value(), "compare"); int r = m_value.compare(o.value()); log_postfix_event(m_value, r, "compare"); return r; } template int compare(const T& i)const { log_prefix_event(m_value, i, "compare"); int r = m_value.compare(i); log_postfix_event(m_value, r, "compare"); return r; } Backend& value() { return m_value; } const Backend& value()const { return m_value; } template void serialize(Archive& ar, const unsigned int /*version*/) { log_prefix_event(m_value, "serialize"); ar & m_value; log_postfix_event(m_value, "serialize"); } }; template inline const T& unwrap_logged_type(const T& a) { return a; } template inline const Backend& unwrap_logged_type(const logged_adaptor& a) { return a.value(); } #define NON_MEMBER_OP1(name, str) \ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), str);\ BOOST_JOIN(eval_, name)(result.value());\ log_postfix_event(result.value(), str);\ } #define NON_MEMBER_OP2(name, str) \ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const T& a)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a));\ log_postfix_event(result.value(), str);\ }\ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const logged_adaptor& a)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a));\ log_postfix_event(result.value(), str);\ } #define NON_MEMBER_OP3(name, str) \ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const T& a, const U& b)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a), unwrap_logged_type(b));\ log_postfix_event(result.value(), str);\ }\ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const logged_adaptor& a, const T& b)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a), unwrap_logged_type(b));\ log_postfix_event(result.value(), str);\ }\ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const T& a, const logged_adaptor& b)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a), unwrap_logged_type(b));\ log_postfix_event(result.value(), str);\ }\ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const logged_adaptor& a, const logged_adaptor& b)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a), unwrap_logged_type(b));\ log_postfix_event(result.value(), str);\ } #define NON_MEMBER_OP4(name, str) \ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const T& a, const U& b, const V& c)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c));\ log_postfix_event(result.value(), str);\ }\ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const logged_adaptor& a, const logged_adaptor& b, const T& c)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c));\ log_postfix_event(result.value(), str);\ }\ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const logged_adaptor& a, const T& b, const logged_adaptor& c)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c));\ log_postfix_event(result.value(), str);\ }\ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const T& a, const logged_adaptor& b, const logged_adaptor& c)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c));\ log_postfix_event(result.value(), str);\ }\ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const logged_adaptor& a, const logged_adaptor& b, const logged_adaptor& c)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c));\ log_postfix_event(result.value(), str);\ }\ template \ inline void BOOST_JOIN(eval_, name)(logged_adaptor& result, const logged_adaptor& a, const T& b, const U& c)\ {\ using default_ops::BOOST_JOIN(eval_, name);\ log_prefix_event(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c), str);\ BOOST_JOIN(eval_, name)(result.value(), unwrap_logged_type(a), unwrap_logged_type(b), unwrap_logged_type(c));\ log_postfix_event(result.value(), str);\ }\ NON_MEMBER_OP2(add, "+="); NON_MEMBER_OP2(subtract, "-="); NON_MEMBER_OP2(multiply, "*="); NON_MEMBER_OP2(divide, "/="); template inline void eval_convert_to(R* result, const logged_adaptor& val) { using default_ops::eval_convert_to; log_prefix_event(val.value(), "convert_to"); eval_convert_to(result, val.value()); log_postfix_event(val.value(), *result, "convert_to"); } template inline void eval_frexp(logged_adaptor& result, const logged_adaptor& arg, Exp* exp) { log_prefix_event(arg.value(), "frexp"); eval_frexp(result.value(), arg.value(), exp); log_postfix_event(result.value(), *exp, "frexp"); } template inline void eval_ldexp(logged_adaptor& result, const logged_adaptor& arg, Exp exp) { log_prefix_event(arg.value(), "ldexp"); eval_ldexp(result.value(), arg.value(), exp); log_postfix_event(result.value(), exp, "ldexp"); } template inline void eval_scalbn(logged_adaptor& result, const logged_adaptor& arg, Exp exp) { log_prefix_event(arg.value(), "scalbn"); eval_scalbn(result.value(), arg.value(), exp); log_postfix_event(result.value(), exp, "scalbn"); } template inline typename Backend::exponent_type eval_ilogb(const logged_adaptor& arg) { log_prefix_event(arg.value(), "ilogb"); typename Backend::exponent_type r = eval_ilogb(arg.value()); log_postfix_event(arg.value(), "ilogb"); return r; } NON_MEMBER_OP2(floor, "floor"); NON_MEMBER_OP2(ceil, "ceil"); NON_MEMBER_OP2(sqrt, "sqrt"); template inline int eval_fpclassify(const logged_adaptor& arg) { using default_ops::eval_fpclassify; log_prefix_event(arg.value(), "fpclassify"); int r = eval_fpclassify(arg.value()); log_postfix_event(arg.value(), r, "fpclassify"); return r; } /********************************************************************* * * Optional arithmetic operations come next: * *********************************************************************/ NON_MEMBER_OP3(add, "+"); NON_MEMBER_OP3(subtract, "-"); NON_MEMBER_OP3(multiply, "*"); NON_MEMBER_OP3(divide, "/"); NON_MEMBER_OP3(multiply_add, "fused-multiply-add"); NON_MEMBER_OP3(multiply_subtract, "fused-multiply-subtract"); NON_MEMBER_OP4(multiply_add, "fused-multiply-add"); NON_MEMBER_OP4(multiply_subtract, "fused-multiply-subtract"); NON_MEMBER_OP1(increment, "increment"); NON_MEMBER_OP1(decrement, "decrement"); /********************************************************************* * * Optional integer operations come next: * *********************************************************************/ NON_MEMBER_OP2(modulus, "%="); NON_MEMBER_OP3(modulus, "%"); NON_MEMBER_OP2(bitwise_or, "|="); NON_MEMBER_OP3(bitwise_or, "|"); NON_MEMBER_OP2(bitwise_and, "&="); NON_MEMBER_OP3(bitwise_and, "&"); NON_MEMBER_OP2(bitwise_xor, "^="); NON_MEMBER_OP3(bitwise_xor, "^"); NON_MEMBER_OP4(qr, "quotient-and-remainder"); NON_MEMBER_OP2(complement, "~"); template inline void eval_left_shift(logged_adaptor& arg, unsigned a) { using default_ops::eval_left_shift; log_prefix_event(arg.value(), a, "<<="); eval_left_shift(arg.value(), a); log_postfix_event(arg.value(), "<<="); } template inline void eval_left_shift(logged_adaptor& arg, const logged_adaptor& a, unsigned b) { using default_ops::eval_left_shift; log_prefix_event(arg.value(), a, b, "<<"); eval_left_shift(arg.value(), a.value(), b); log_postfix_event(arg.value(), "<<"); } template inline void eval_right_shift(logged_adaptor& arg, unsigned a) { using default_ops::eval_right_shift; log_prefix_event(arg.value(), a, ">>="); eval_right_shift(arg.value(), a); log_postfix_event(arg.value(), ">>="); } template inline void eval_right_shift(logged_adaptor& arg, const logged_adaptor& a, unsigned b) { using default_ops::eval_right_shift; log_prefix_event(arg.value(), a, b, ">>"); eval_right_shift(arg.value(), a.value(), b); log_postfix_event(arg.value(), ">>"); } template inline unsigned eval_integer_modulus(const logged_adaptor& arg, const T& a) { using default_ops::eval_integer_modulus; log_prefix_event(arg.value(), a, "integer-modulus"); unsigned r = eval_integer_modulus(arg.value(), a); log_postfix_event(arg.value(), r, "integer-modulus"); return r; } template inline unsigned eval_lsb(const logged_adaptor& arg) { using default_ops::eval_lsb; log_prefix_event(arg.value(), "least-significant-bit"); unsigned r = eval_lsb(arg.value()); log_postfix_event(arg.value(), r, "least-significant-bit"); return r; } template inline unsigned eval_msb(const logged_adaptor& arg) { using default_ops::eval_msb; log_prefix_event(arg.value(), "most-significant-bit"); unsigned r = eval_msb(arg.value()); log_postfix_event(arg.value(), r, "most-significant-bit"); return r; } template inline bool eval_bit_test(const logged_adaptor& arg, unsigned a) { using default_ops::eval_bit_test; log_prefix_event(arg.value(), a, "bit-test"); bool r = eval_bit_test(arg.value(), a); log_postfix_event(arg.value(), r, "bit-test"); return r; } template inline void eval_bit_set(const logged_adaptor& arg, unsigned a) { using default_ops::eval_bit_set; log_prefix_event(arg.value(), a, "bit-set"); eval_bit_set(arg.value(), a); log_postfix_event(arg.value(), arg, "bit-set"); } template inline void eval_bit_unset(const logged_adaptor& arg, unsigned a) { using default_ops::eval_bit_unset; log_prefix_event(arg.value(), a, "bit-unset"); eval_bit_unset(arg.value(), a); log_postfix_event(arg.value(), arg, "bit-unset"); } template inline void eval_bit_flip(const logged_adaptor& arg, unsigned a) { using default_ops::eval_bit_flip; log_prefix_event(arg.value(), a, "bit-flip"); eval_bit_flip(arg.value(), a); log_postfix_event(arg.value(), arg, "bit-flip"); } NON_MEMBER_OP3(gcd, "gcd"); NON_MEMBER_OP3(lcm, "lcm"); NON_MEMBER_OP4(powm, "powm"); /********************************************************************* * * abs/fabs: * *********************************************************************/ NON_MEMBER_OP2(abs, "abs"); NON_MEMBER_OP2(fabs, "fabs"); /********************************************************************* * * Floating point functions: * *********************************************************************/ NON_MEMBER_OP2(trunc, "trunc"); NON_MEMBER_OP2(round, "round"); NON_MEMBER_OP2(exp, "exp"); NON_MEMBER_OP2(log, "log"); NON_MEMBER_OP2(log10, "log10"); NON_MEMBER_OP2(sin, "sin"); NON_MEMBER_OP2(cos, "cos"); NON_MEMBER_OP2(tan, "tan"); NON_MEMBER_OP2(asin, "asin"); NON_MEMBER_OP2(acos, "acos"); NON_MEMBER_OP2(atan, "atan"); NON_MEMBER_OP2(sinh, "sinh"); NON_MEMBER_OP2(cosh, "cosh"); NON_MEMBER_OP2(tanh, "tanh"); NON_MEMBER_OP2(logb, "logb"); NON_MEMBER_OP3(fmod, "fmod"); NON_MEMBER_OP3(pow, "pow"); NON_MEMBER_OP3(atan2, "atan2"); } // namespace backends using backends::logged_adaptor; template struct number_category > : public number_category {}; }} // namespaces namespace std{ template class numeric_limits, ExpressionTemplates> > : public std::numeric_limits > { typedef std::numeric_limits > base_type; typedef boost::multiprecision::number, ExpressionTemplates> number_type; public: static number_type (min)() BOOST_NOEXCEPT { return (base_type::min)(); } static number_type (max)() BOOST_NOEXCEPT { return (base_type::max)(); } static number_type lowest() BOOST_NOEXCEPT { return -(max)(); } static number_type epsilon() BOOST_NOEXCEPT { return base_type::epsilon(); } static number_type round_error() BOOST_NOEXCEPT { return epsilon() / 2; } static number_type infinity() BOOST_NOEXCEPT { return base_type::infinity(); } static number_type quiet_NaN() BOOST_NOEXCEPT { return base_type::quiet_NaN(); } static number_type signaling_NaN() BOOST_NOEXCEPT { return base_type::signaling_NaN(); } static number_type denorm_min() BOOST_NOEXCEPT { return base_type::denorm_min(); } }; } // namespace std namespace boost{ namespace math{ namespace policies{ template struct precision< boost::multiprecision::number, ExpressionTemplates>, Policy> : public precision, Policy> {}; } // namespace policies }} // namespaces boost::math #undef NON_MEMBER_OP1 #undef NON_MEMBER_OP2 #undef NON_MEMBER_OP3 #undef NON_MEMBER_OP4 #endif