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- // Boost.Units - A C++ library for zero-overhead dimensional analysis and
- // unit/quantity manipulation and conversion
- //
- // Copyright (C) 2003-2008 Matthias Christian Schabel
- // Copyright (C) 2007-2010 Steven Watanabe
- //
- // 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_0.txt)
- #ifndef BOOST_UNITS_IO_HPP
- #define BOOST_UNITS_IO_HPP
- /// \file
- /// \brief Stream input and output for rationals, units and quantities.
- /// \details Functions and manipulators for output and input of units and quantities.
- /// symbol and name format, and engineering and binary autoprefix.
- /// Serialization output is also supported.
- #include <cassert>
- #include <cmath>
- #include <string>
- #include <iosfwd>
- #include <ios>
- #include <sstream>
- #include <boost/assert.hpp>
- #include <boost/core/nvp.hpp>
- #include <boost/units/units_fwd.hpp>
- #include <boost/units/heterogeneous_system.hpp>
- #include <boost/units/make_scaled_unit.hpp>
- #include <boost/units/quantity.hpp>
- #include <boost/units/scale.hpp>
- #include <boost/units/static_rational.hpp>
- #include <boost/units/unit.hpp>
- #include <boost/units/detail/utility.hpp>
- namespace boost {
- namespace serialization {
- /// Boost Serialization library support for units.
- template<class Archive,class System,class Dim>
- inline void serialize(Archive& /*ar*/,boost::units::unit<Dim,System>&,const unsigned int /*version*/)
- { }
- /// Boost Serialization library support for quantities.
- template<class Archive,class Unit,class Y>
- inline void serialize(Archive& ar,boost::units::quantity<Unit,Y>& q,const unsigned int /*version*/)
- {
- ar & boost::serialization::make_nvp("value", units::quantity_cast<Y&>(q));
- }
- } // namespace serialization
- namespace units {
- // get string representation of arbitrary type.
- template<class T> std::string to_string(const T& t)
- {
- std::stringstream sstr;
- sstr << t;
- return sstr.str();
- }
- /// get string representation of integral-valued @c static_rational.
- template<integer_type N> std::string to_string(const static_rational<N>&)
- {
- return to_string(N);
- }
- /// get string representation of @c static_rational.
- template<integer_type N, integer_type D> std::string to_string(const static_rational<N,D>&)
- {
- return '(' + to_string(N) + '/' + to_string(D) + ')';
- }
- /// Write @c static_rational to @c std::basic_ostream.
- template<class Char, class Traits, integer_type N, integer_type D>
- inline std::basic_ostream<Char, Traits>& operator<<(std::basic_ostream<Char, Traits>& os,const static_rational<N,D>& r)
- {
- os << to_string(r);
- return os;
- }
- /// traits template for unit names.
- template<class BaseUnit>
- struct base_unit_info
- {
- /// INTERNAL ONLY
- typedef void base_unit_info_primary_template;
- /// The full name of the unit (returns BaseUnit::name() by default)
- static std::string name()
- {
- return(BaseUnit::name());
- }
- /// The symbol for the base unit (Returns BaseUnit::symbol() by default)
- static std::string symbol()
- {
- return(BaseUnit::symbol()); /// \returns BaseUnit::symbol(), for example "m"
- }
- };
- /// \enum format_mode format of output of units, for example "m" or "meter".
- enum format_mode
- {
- symbol_fmt = 0, /// default - reduces unit names to known symbols for both base and derived units.
- name_fmt = 1, /// output full unit names for base and derived units, for example "meter".
- raw_fmt = 2, /// output only symbols for base units (but not derived units), for example "m".
- typename_fmt = 3, /// output demangled typenames (useful only for diagnosis).
- fmt_mask = 3 /// Bits used for format.
- };
- /// \enum autoprefix_mode automatic scaling and prefix (controlled by value of quantity) a, if any,
- enum autoprefix_mode
- {
- autoprefix_none = 0, /// No automatic prefix.
- autoprefix_engineering = 4, /// Scale and prefix with 10^3 multiples, 1234.5 m output as 1.2345 km.
- autoprefix_binary = 8, /// Scale and prefix with 2^10 (1024) multiples, 1024 as 1 kb.
- autoprefix_mask = 12 /// Bits used for autoprefix.
- };
- namespace detail {
- template<bool>
- struct xalloc_key_holder
- {
- static int value;
- static bool initialized;
- };
- template<bool b>
- int xalloc_key_holder<b>::value = 0;
- template<bool b>
- bool xalloc_key_holder<b>::initialized = 0;
- struct xalloc_key_initializer_t
- {
- xalloc_key_initializer_t()
- {
- if (!xalloc_key_holder<true>::initialized)
- {
- xalloc_key_holder<true>::value = std::ios_base::xalloc();
- xalloc_key_holder<true>::initialized = true;
- }
- }
- };
- namespace /**/ {
- xalloc_key_initializer_t xalloc_key_initializer;
- } // namespace
- } // namespace detail
- /// returns flags controlling output.
- inline long get_flags(std::ios_base& ios, long mask)
- {
- return(ios.iword(detail::xalloc_key_holder<true>::value) & mask);
- }
- /// Set new flags controlling output format.
- inline void set_flags(std::ios_base& ios, long new_flags, long mask)
- {
- BOOST_ASSERT((~mask & new_flags) == 0);
- long& flags = ios.iword(detail::xalloc_key_holder<true>::value);
- flags = (flags & ~mask) | new_flags;
- }
- /// returns flags controlling output format.
- inline format_mode get_format(std::ios_base& ios)
- {
- return(static_cast<format_mode>((get_flags)(ios, fmt_mask)));
- }
- /// Set new flags controlling output format.
- inline void set_format(std::ios_base& ios, format_mode new_mode)
- {
- (set_flags)(ios, new_mode, fmt_mask);
- }
- /// Set new flags for type_name output format.
- inline std::ios_base& typename_format(std::ios_base& ios)
- {
- (set_format)(ios, typename_fmt);
- return(ios);
- }
- /// set new flag for raw format output, for example "m".
- inline std::ios_base& raw_format(std::ios_base& ios)
- {
- (set_format)(ios, raw_fmt);
- return(ios);
- }
- /// set new format flag for symbol output, for example "m".
- inline std::ios_base& symbol_format(std::ios_base& ios)
- {
- (set_format)(ios, symbol_fmt);
- return(ios);
- }
- /// set new format for name output, for example "meter".
- inline std::ios_base& name_format(std::ios_base& ios)
- {
- (set_format)(ios, name_fmt);
- return(ios);
- }
- /// get autoprefix flags for output.
- inline autoprefix_mode get_autoprefix(std::ios_base& ios)
- {
- return static_cast<autoprefix_mode>((get_flags)(ios, autoprefix_mask));
- }
- /// Get format for output.
- inline void set_autoprefix(std::ios_base& ios, autoprefix_mode new_mode)
- {
- (set_flags)(ios, new_mode, autoprefix_mask);
- }
- /// Clear autoprefix flags.
- inline std::ios_base& no_prefix(std::ios_base& ios)
- {
- (set_autoprefix)(ios, autoprefix_none);
- return ios;
- }
- /// Set flag for engineering prefix, so 1234.5 m displays as "1.2345 km".
- inline std::ios_base& engineering_prefix(std::ios_base& ios)
- {
- (set_autoprefix)(ios, autoprefix_engineering);
- return ios;
- }
- /// Set flag for binary prefix, so 1024 byte displays as "1 Kib".
- inline std::ios_base& binary_prefix(std::ios_base& ios)
- {
- (set_autoprefix)(ios, autoprefix_binary);
- return ios;
- }
- namespace detail {
- /// \return exponent string like "^1/2".
- template<integer_type N, integer_type D>
- inline std::string exponent_string(const static_rational<N,D>& r)
- {
- return '^' + to_string(r);
- }
- /// \return empty exponent string for integer rational like 2.
- template<>
- inline std::string exponent_string(const static_rational<1>&)
- {
- return "";
- }
- template<class T>
- inline std::string base_unit_symbol_string(const T&)
- {
- return base_unit_info<typename T::tag_type>::symbol() + exponent_string(typename T::value_type());
- }
- template<class T>
- inline std::string base_unit_name_string(const T&)
- {
- return base_unit_info<typename T::tag_type>::name() + exponent_string(typename T::value_type());
- }
- // stringify with symbols.
- template<int N>
- struct symbol_string_impl
- {
- template<class Begin>
- struct apply
- {
- typedef typename symbol_string_impl<N-1>::template apply<typename Begin::next> next;
- static void value(std::string& str)
- {
- str += base_unit_symbol_string(typename Begin::item()) + ' ';
- next::value(str);
- }
- };
- };
- template<>
- struct symbol_string_impl<1>
- {
- template<class Begin>
- struct apply
- {
- static void value(std::string& str)
- {
- str += base_unit_symbol_string(typename Begin::item());
- }
- };
- };
- template<>
- struct symbol_string_impl<0>
- {
- template<class Begin>
- struct apply
- {
- static void value(std::string& str)
- {
- // better shorthand for dimensionless?
- str += "dimensionless";
- }
- };
- };
- template<int N>
- struct scale_symbol_string_impl
- {
- template<class Begin>
- struct apply
- {
- static void value(std::string& str)
- {
- str += Begin::item::symbol();
- scale_symbol_string_impl<N - 1>::template apply<typename Begin::next>::value(str);
- }
- };
- };
- template<>
- struct scale_symbol_string_impl<0>
- {
- template<class Begin>
- struct apply
- {
- static void value(std::string&) { }
- };
- };
- // stringify with names.
- template<int N>
- struct name_string_impl
- {
- template<class Begin>
- struct apply
- {
- typedef typename name_string_impl<N-1>::template apply<typename Begin::next> next;
- static void value(std::string& str)
- {
- str += base_unit_name_string(typename Begin::item()) + ' ';
- next::value(str);
- }
- };
- };
- template<>
- struct name_string_impl<1>
- {
- template<class Begin>
- struct apply
- {
- static void value(std::string& str)
- {
- str += base_unit_name_string(typename Begin::item());
- }
- };
- };
- template<>
- struct name_string_impl<0>
- {
- template<class Begin>
- struct apply
- {
- static void value(std::string& str)
- {
- str += "dimensionless";
- }
- };
- };
- template<int N>
- struct scale_name_string_impl
- {
- template<class Begin>
- struct apply
- {
- static void value(std::string& str)
- {
- str += Begin::item::name();
- scale_name_string_impl<N - 1>::template apply<typename Begin::next>::value(str);
- }
- };
- };
- template<>
- struct scale_name_string_impl<0>
- {
- template<class Begin>
- struct apply
- {
- static void value(std::string&) { }
- };
- };
- } // namespace detail
- namespace detail {
- // These two overloads of symbol_string and name_string will
- // will pick up homogeneous_systems. They simply call the
- // appropriate function with a heterogeneous_system.
- template<class Dimension,class System, class SubFormatter>
- inline std::string
- to_string_impl(const unit<Dimension,System>&, SubFormatter f)
- {
- return f(typename reduce_unit<unit<Dimension, System> >::type());
- }
- /// INTERNAL ONLY
- // this overload picks up heterogeneous units that are not scaled.
- template<class Dimension,class Units, class Subformatter>
- inline std::string
- to_string_impl(const unit<Dimension, heterogeneous_system<heterogeneous_system_impl<Units, Dimension, dimensionless_type> > >&, Subformatter f)
- {
- std::string str;
- f.template append_units_to<Units>(str);
- return(str);
- }
- // This overload is a special case for heterogeneous_system which
- // is really unitless
- /// INTERNAL ONLY
- template<class Subformatter>
- inline std::string
- to_string_impl(const unit<dimensionless_type, heterogeneous_system<heterogeneous_system_impl<dimensionless_type, dimensionless_type, dimensionless_type> > >&, Subformatter)
- {
- return("dimensionless");
- }
- // this overload deals with heterogeneous_systems which are unitless
- // but scaled.
- /// INTERNAL ONLY
- template<class Scale, class Subformatter>
- inline std::string
- to_string_impl(const unit<dimensionless_type, heterogeneous_system<heterogeneous_system_impl<dimensionless_type, dimensionless_type, Scale> > >&, Subformatter f)
- {
- std::string str;
- f.template append_scale_to<Scale>(str);
- return(str);
- }
- // this overload deals with scaled units.
- /// INTERNAL ONLY
- template<class Dimension,class Units,class Scale, class Subformatter>
- inline std::string
- to_string_impl(const unit<Dimension, heterogeneous_system<heterogeneous_system_impl<Units, Dimension, Scale> > >&, Subformatter f)
- {
- std::string str;
- f.template append_scale_to<Scale>(str);
- std::string without_scale = f(unit<Dimension, heterogeneous_system<heterogeneous_system_impl<Units, Dimension, dimensionless_type> > >());
- if (f.is_default_string(without_scale, unit<Dimension, heterogeneous_system<heterogeneous_system_impl<Units, Dimension, dimensionless_type> > >()))
- {
- str += "(";
- str += without_scale;
- str += ")";
- }
- else
- {
- str += without_scale;
- }
- return(str);
- }
- // This overload catches scaled units that have a single base unit
- // raised to the first power. It causes si::nano * si::meters to not
- // put parentheses around the meters. i.e. nm rather than n(m)
- /// INTERNAL ONLY
- template<class Dimension,class Unit,class Scale, class Subformatter>
- inline std::string
- to_string_impl(const unit<Dimension, heterogeneous_system<heterogeneous_system_impl<list<heterogeneous_system_dim<Unit, static_rational<1> >,dimensionless_type>, Dimension, Scale> > >&, Subformatter f)
- {
- std::string str;
- f.template append_scale_to<Scale>(str);
- str += f(unit<Dimension, heterogeneous_system<heterogeneous_system_impl<list<heterogeneous_system_dim<Unit, static_rational<1> >, dimensionless_type>, Dimension, dimensionless_type> > >());
- return(str);
- }
- // This overload is necessary to disambiguate.
- // it catches units that are unscaled and have a single
- // base unit raised to the first power. It is treated the
- // same as any other unscaled unit.
- /// INTERNAL ONLY
- template<class Dimension,class Unit,class Subformatter>
- inline std::string
- to_string_impl(const unit<Dimension, heterogeneous_system<heterogeneous_system_impl<list<heterogeneous_system_dim<Unit, static_rational<1> >,dimensionless_type>, Dimension, dimensionless_type> > >&, Subformatter f)
- {
- std::string str;
- f.template append_units_to<list<heterogeneous_system_dim<Unit, static_rational<1> >,dimensionless_type> >(str);
- return(str);
- }
- // This overload catches scaled units that have a single scaled base unit
- // raised to the first power. It moves that scaling on the base unit
- // to the unit level scaling and recurses. By doing this we make sure that
- // si::milli * si::kilograms will print g rather than mkg.
- //
- // This transformation will not be applied if base_unit_info is specialized
- // for the scaled base unit.
- //
- /// INTERNAL ONLY
- template<class Dimension,class Unit,class UnitScale, class Scale, class Subformatter>
- inline std::string
- to_string_impl(
- const unit<
- Dimension,
- heterogeneous_system<
- heterogeneous_system_impl<
- list<heterogeneous_system_dim<scaled_base_unit<Unit, UnitScale>, static_rational<1> >, dimensionless_type>,
- Dimension,
- Scale
- >
- >
- >&,
- Subformatter f,
- typename base_unit_info<scaled_base_unit<Unit, UnitScale> >::base_unit_info_primary_template* = 0)
- {
- return(f(
- unit<
- Dimension,
- heterogeneous_system<
- heterogeneous_system_impl<
- list<heterogeneous_system_dim<Unit, static_rational<1> >, dimensionless_type>,
- Dimension,
- typename mpl::times<Scale, list<scale_list_dim<UnitScale>, dimensionless_type> >::type
- >
- >
- >()));
- }
- // this overload disambuguates between the overload for an unscaled unit
- // and the overload for a scaled base unit raised to the first power.
- /// INTERNAL ONLY
- template<class Dimension,class Unit,class UnitScale,class Subformatter>
- inline std::string
- to_string_impl(
- const unit<
- Dimension,
- heterogeneous_system<
- heterogeneous_system_impl<
- list<heterogeneous_system_dim<scaled_base_unit<Unit, UnitScale>, static_rational<1> >, dimensionless_type>,
- Dimension,
- dimensionless_type
- >
- >
- >&,
- Subformatter f,
- typename base_unit_info<scaled_base_unit<Unit, UnitScale> >::base_unit_info_primary_template* = 0)
- {
- std::string str;
- f.template append_units_to<list<heterogeneous_system_dim<scaled_base_unit<Unit, UnitScale>, static_rational<1> >, dimensionless_type> >(str);
- return(str);
- }
- struct format_raw_symbol_impl {
- template<class Units>
- void append_units_to(std::string& str) {
- detail::symbol_string_impl<Units::size::value>::template apply<Units>::value(str);
- }
- template<class Scale>
- void append_scale_to(std::string& str) {
- detail::scale_symbol_string_impl<Scale::size::value>::template apply<Scale>::value(str);
- }
- template<class Unit>
- std::string operator()(const Unit& u) {
- return(to_string_impl(u, *this));
- }
- template<class Unit>
- bool is_default_string(const std::string&, const Unit&) {
- return(true);
- }
- };
- struct format_symbol_impl : format_raw_symbol_impl {
- template<class Unit>
- std::string operator()(const Unit& u) {
- return(symbol_string(u));
- }
- template<class Unit>
- bool is_default_string(const std::string& str, const Unit& u) {
- return(str == to_string_impl(u, format_raw_symbol_impl()));
- }
- };
- struct format_raw_name_impl {
- template<class Units>
- void append_units_to(std::string& str) {
- detail::name_string_impl<(Units::size::value)>::template apply<Units>::value(str);
- }
- template<class Scale>
- void append_scale_to(std::string& str) {
- detail::scale_name_string_impl<Scale::size::value>::template apply<Scale>::value(str);
- }
- template<class Unit>
- std::string operator()(const Unit& u) {
- return(to_string_impl(u, *this));
- }
- template<class Unit>
- bool is_default_string(const std::string&, const Unit&) {
- return(true);
- }
- };
- struct format_name_impl : format_raw_name_impl {
- template<class Unit>
- std::string operator()(const Unit& u) {
- return(name_string(u));
- }
- template<class Unit>
- bool is_default_string(const std::string& str, const Unit& u) {
- return(str == to_string_impl(u, format_raw_name_impl()));
- }
- };
- template<class Char, class Traits>
- inline void do_print(std::basic_ostream<Char, Traits>& os, const std::string& s)
- {
- os << s.c_str();
- }
- inline void do_print(std::ostream& os, const std::string& s)
- {
- os << s;
- }
- template<class Char, class Traits>
- inline void do_print(std::basic_ostream<Char, Traits>& os, const char* s)
- {
- os << s;
- }
- // For automatically applying the appropriate prefixes.
- }
- #ifdef BOOST_UNITS_DOXYGEN
- /// ADL customization point for automatic prefixing.
- /// Returns a non-negative value. Implemented as std::abs
- /// for built-in types.
- template<class T>
- double autoprefix_norm(const T& arg);
- #else
- template<class T, bool C = boost::is_arithmetic<T>::value>
- struct autoprefix_norm_impl;
- template<class T>
- struct autoprefix_norm_impl<T, true>
- {
- typedef double type;
- static BOOST_CONSTEXPR double call(const T& arg) { return std::abs(arg); }
- };
- template<class T>
- struct autoprefix_norm_impl<T, false>
- {
- typedef one type;
- static BOOST_CONSTEXPR one call(const T&) { return one(); }
- };
- template<class T>
- BOOST_CONSTEXPR
- typename autoprefix_norm_impl<T>::type autoprefix_norm(const T& arg)
- {
- return autoprefix_norm_impl<T>::call(arg);
- }
- #endif
- namespace detail {
- template<class End, class Prev, class T, class F>
- BOOST_CONSTEXPR
- bool find_matching_scale_impl(End, End, Prev, T, double, F)
- {
- return false;
- }
- template<class Begin, class End, class Prev, class T, class F>
- BOOST_CXX14_CONSTEXPR
- bool find_matching_scale_impl(Begin, End end, Prev prev, T t, double x, F f)
- {
- if(Begin::item::value() > x) {
- f(prev, t);
- return true;
- } else {
- return detail::find_matching_scale_impl(
- typename Begin::next(),
- end,
- typename Begin::item(),
- t,
- x,
- f
- );
- }
- }
- template<class End, class T, class F>
- BOOST_CONSTEXPR
- bool find_matching_scale_i(End, End, T, double, F)
- {
- return false;
- }
- template<class Begin, class End, class T, class F>
- BOOST_CXX14_CONSTEXPR
- bool find_matching_scale_i(Begin, End end, T t, double x, F f)
- {
- if(Begin::item::value() > x) {
- return false;
- } else {
- return detail::find_matching_scale_impl(typename Begin::next(), end, typename Begin::item(), t, x, f);
- }
- }
- template<class Scales, class T, class F>
- BOOST_CXX14_CONSTEXPR
- bool find_matching_scale(T t, double x, F f)
- {
- return detail::find_matching_scale_i(Scales(), dimensionless_type(), t, x, f);
- }
- typedef list<scale<10, static_rational<-24> >,
- list<scale<10, static_rational<-21> >,
- list<scale<10, static_rational<-18> >,
- list<scale<10, static_rational<-15> >,
- list<scale<10, static_rational<-12> >,
- list<scale<10, static_rational<-9> >,
- list<scale<10, static_rational<-6> >,
- list<scale<10, static_rational<-3> >,
- list<scale<10, static_rational<0> >,
- list<scale<10, static_rational<3> >,
- list<scale<10, static_rational<6> >,
- list<scale<10, static_rational<9> >,
- list<scale<10, static_rational<12> >,
- list<scale<10, static_rational<15> >,
- list<scale<10, static_rational<18> >,
- list<scale<10, static_rational<21> >,
- list<scale<10, static_rational<24> >,
- list<scale<10, static_rational<27> >,
- dimensionless_type> > > > > > > > > > > > > > > > > > engineering_prefixes;
- typedef list<scale<2, static_rational<10> >,
- list<scale<2, static_rational<20> >,
- list<scale<2, static_rational<30> >,
- list<scale<2, static_rational<40> >,
- list<scale<2, static_rational<50> >,
- list<scale<2, static_rational<60> >,
- list<scale<2, static_rational<70> >,
- list<scale<2, static_rational<80> >,
- list<scale<2, static_rational<90> >,
- dimensionless_type> > > > > > > > > binary_prefixes;
- template<class Os, class Quantity>
- struct print_default_t {
- typedef void result_type;
- void operator()() const
- {
- *os << q->value() << ' ' << typename Quantity::unit_type();
- }
- Os* os;
- const Quantity* q;
- };
- template<class Os, class Quantity>
- print_default_t<Os, Quantity> print_default(Os& os, const Quantity& q)
- {
- print_default_t<Os, Quantity> result = { &os, &q };
- return result;
- }
- template<class Os>
- struct print_scale_t {
- typedef void result_type;
- template<class Prefix, class T>
- void operator()(Prefix, const T& t) const
- {
- *prefixed = true;
- *os << t / Prefix::value() << ' ';
- switch(units::get_format(*os)) {
- case name_fmt: do_print(*os, Prefix::name()); break;
- case raw_fmt:
- case symbol_fmt: do_print(*os, Prefix::symbol()); break;
- case typename_fmt: do_print(*os, units::simplify_typename(Prefix())); *os << ' '; break;
- }
- }
- template<long N, class T>
- void operator()(scale<N, static_rational<0> >, const T& t) const
- {
- *prefixed = false;
- *os << t << ' ';
- }
- Os* os;
- bool* prefixed;
- };
- template<class Os>
- print_scale_t<Os> print_scale(Os& os, bool& prefixed)
- {
- print_scale_t<Os> result = { &os, &prefixed };
- return result;
- }
- // puts parentheses around a unit
- /// INTERNAL ONLY
- template<class Dimension,class Units,class Scale, class Subformatter>
- inline std::string
- maybe_parenthesize(const unit<Dimension, heterogeneous_system<heterogeneous_system_impl<Units, Dimension, Scale> > >&, Subformatter f)
- {
- std::string str;
- std::string without_scale = f(unit<Dimension, heterogeneous_system<heterogeneous_system_impl<Units, Dimension, dimensionless_type> > >());
- if (f.is_default_string(without_scale, unit<Dimension, heterogeneous_system<heterogeneous_system_impl<Units, Dimension, dimensionless_type> > >()))
- {
- str += "(";
- str += without_scale;
- str += ")";
- }
- else
- {
- str += without_scale;
- }
- return(str);
- }
- // This overload catches scaled units that have a single base unit
- // raised to the first power. It causes si::nano * si::meters to not
- // put parentheses around the meters. i.e. nm rather than n(m)
- /// INTERNAL ONLY
- template<class Dimension,class Unit,class Scale, class Subformatter>
- inline std::string
- maybe_parenthesize(const unit<Dimension, heterogeneous_system<heterogeneous_system_impl<list<heterogeneous_system_dim<Unit, static_rational<1> >,dimensionless_type>, Dimension, Scale> > >&, Subformatter f)
- {
- return f(unit<Dimension, heterogeneous_system<heterogeneous_system_impl<list<heterogeneous_system_dim<Unit, static_rational<1> >, dimensionless_type>, Dimension, dimensionless_type> > >());
- }
- template<class Prefixes, class CharT, class Traits, class Unit, class T, class F>
- void do_print_prefixed_impl(std::basic_ostream<CharT, Traits>& os, const quantity<Unit, T>& q, F default_)
- {
- bool prefixed;
- if(detail::find_matching_scale<Prefixes>(q.value(), autoprefix_norm(q.value()), detail::print_scale(os, prefixed))) {
- if(prefixed) {
- switch(units::get_format(os)) {
- case symbol_fmt: do_print(os, maybe_parenthesize(Unit(), format_symbol_impl())); break;
- case raw_fmt: do_print(os, maybe_parenthesize(Unit(), format_raw_symbol_impl())); break;
- case name_fmt: do_print(os, maybe_parenthesize(Unit(), format_name_impl())); break;
- case typename_fmt: do_print(os, simplify_typename(Unit())); break;
- }
- } else {
- os << Unit();
- }
- } else {
- default_();
- }
- }
- // Handle units like si::kilograms that have a scale embedded in the
- // base unit. This overload is disabled if the scaled base unit has
- // a user-defined string representation.
- template<class Prefixes, class CharT, class Traits, class Dimension, class BaseUnit, class BaseScale, class Scale, class T>
- typename base_unit_info<
- scaled_base_unit<BaseUnit, Scale>
- >::base_unit_info_primary_template
- do_print_prefixed(
- std::basic_ostream<CharT, Traits>& os,
- const quantity<
- unit<
- Dimension,
- heterogeneous_system<
- heterogeneous_system_impl<
- list<
- heterogeneous_system_dim<
- scaled_base_unit<BaseUnit, BaseScale>,
- static_rational<1>
- >,
- dimensionless_type
- >,
- Dimension,
- Scale
- >
- >
- >,
- T
- >& q)
- {
- quantity<
- unit<
- Dimension,
- heterogeneous_system<
- heterogeneous_system_impl<
- list<
- heterogeneous_system_dim<BaseUnit, static_rational<1> >,
- dimensionless_type
- >,
- Dimension,
- dimensionless_type
- >
- >
- >,
- T
- > unscaled(q);
- detail::do_print_prefixed_impl<Prefixes>(os, unscaled, detail::print_default(os, q));
- }
- template<class Prefixes, class CharT, class Traits, class Dimension, class L, class Scale, class T>
- void do_print_prefixed(
- std::basic_ostream<CharT, Traits>& os,
- const quantity<
- unit<
- Dimension,
- heterogeneous_system<
- heterogeneous_system_impl<
- L,
- Dimension,
- Scale
- >
- >
- >,
- T
- >& q)
- {
- quantity<
- unit<
- Dimension,
- heterogeneous_system<
- heterogeneous_system_impl<
- L,
- Dimension,
- dimensionless_type
- >
- >
- >,
- T
- > unscaled(q);
- detail::do_print_prefixed_impl<Prefixes>(os, unscaled, detail::print_default(os, q));
- }
- template<class Prefixes, class CharT, class Traits, class Dimension, class System, class T>
- void do_print_prefixed(std::basic_ostream<CharT, Traits>& os, const quantity<unit<Dimension, System>, T>& q)
- {
- detail::do_print_prefixed<Prefixes>(os, quantity<unit<Dimension, typename make_heterogeneous_system<Dimension, System>::type>, T>(q));
- }
- template<class Prefixes, class CharT, class Traits, class Unit, class T>
- void do_print_prefixed(std::basic_ostream<CharT, Traits>& os, const quantity<Unit, T>& q)
- {
- detail::print_default(os, q)();
- }
- template<class Prefixes, class CharT, class Traits, class Unit, class T>
- void maybe_print_prefixed(std::basic_ostream<CharT, Traits>& os, const quantity<Unit, T>& q, mpl::true_)
- {
- detail::do_print_prefixed<Prefixes>(os, q);
- }
- template<class Prefixes, class CharT, class Traits, class Unit, class T>
- void maybe_print_prefixed(std::basic_ostream<CharT, Traits>& os, const quantity<Unit, T>& q, mpl::false_)
- {
- detail::print_default(os, q)();
- }
- inline BOOST_CONSTEXPR mpl::true_ test_norm(double) { return mpl::true_(); }
- inline BOOST_CONSTEXPR mpl::false_ test_norm(one) { return mpl::false_(); }
- } // namespace detail
- template<class Dimension,class System>
- inline std::string
- typename_string(const unit<Dimension, System>&)
- {
- return simplify_typename(typename reduce_unit< unit<Dimension,System> >::type());
- }
- template<class Dimension,class System>
- inline std::string
- symbol_string(const unit<Dimension, System>&)
- {
- return detail::to_string_impl(unit<Dimension,System>(), detail::format_symbol_impl());
- }
- template<class Dimension,class System>
- inline std::string
- name_string(const unit<Dimension, System>&)
- {
- return detail::to_string_impl(unit<Dimension,System>(), detail::format_name_impl());
- }
- /// Print a @c unit as a list of base units and their exponents.
- ///
- /// for @c symbol_format outputs e.g. "m s^-1" or "J".
- /// for @c name_format outputs e.g. "meter second^-1" or "joule".
- /// for @c raw_format outputs e.g. "m s^-1" or "meter kilogram^2 second^-2".
- /// for @c typename_format outputs the typename itself (currently demangled only on GCC).
- template<class Char, class Traits, class Dimension, class System>
- inline std::basic_ostream<Char, Traits>& operator<<(std::basic_ostream<Char, Traits>& os, const unit<Dimension, System>& u)
- {
- if (units::get_format(os) == typename_fmt)
- {
- detail::do_print(os, typename_string(u));
- }
- else if (units::get_format(os) == raw_fmt)
- {
- detail::do_print(os, detail::to_string_impl(u, detail::format_raw_symbol_impl()));
- }
- else if (units::get_format(os) == symbol_fmt)
- {
- detail::do_print(os, symbol_string(u));
- }
- else if (units::get_format(os) == name_fmt)
- {
- detail::do_print(os, name_string(u));
- }
- else
- {
- BOOST_ASSERT_MSG(false, "The format mode must be one of: typename_format, raw_format, name_format, symbol_format");
- }
- return(os);
- }
- /// \brief Print a @c quantity.
- /// \details Prints the value followed by the unit.
- /// If the engineering_prefix, or binary_prefix is set,
- /// tries to scale the value appropriately.
- /// For example, it might print 12.345 km instead of 12345 m.
- /// (Note does @b not attempt to automatically scale scalars like double, float...)
- template<class Char, class Traits, class Unit, class T>
- inline std::basic_ostream<Char, Traits>& operator<<(std::basic_ostream<Char, Traits>& os, const quantity<Unit, T>& q)
- {
- if (units::get_autoprefix(os) == autoprefix_none)
- {
- os << q.value() << ' ' << Unit();
- }
- else if (units::get_autoprefix(os) == autoprefix_engineering)
- {
- detail::maybe_print_prefixed<detail::engineering_prefixes>(os, q, detail::test_norm(autoprefix_norm(q.value())));
- }
- else if (units::get_autoprefix(os) == autoprefix_binary)
- {
- detail::maybe_print_prefixed<detail::binary_prefixes>(os, q, detail::test_norm(autoprefix_norm(q.value())));
- }
- else
- {
- BOOST_ASSERT_MSG(false, "Autoprefixing must be one of: no_prefix, engineering_prefix, binary_prefix");
- }
- return(os);
- }
- } // namespace units
- } // namespace boost
- #endif
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