boost_1_45_0/boost/units/systems/si/io.hpp - nest-learning-thermostat/5.0/boost - Git at Google

 // 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) 2008 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_SI_IO_HPP
 #define BOOST_UNITS_SI_IO_HPP

 #include <boost/units/io.hpp>
 #include <boost/units/reduce_unit.hpp>

 #include <boost/units/systems/si.hpp>

 namespace boost {

 namespace units {

 // gray and sievert are indistinguishable
 inline std::string name_string(const reduce_unit<si::absorbed_dose>::type&) { return "gray"; }
 inline std::string symbol_string(const reduce_unit<si::absorbed_dose>::type&) { return "Gy"; }

 // activity and frequency are indistinguishable - would need a "decays" base unit
 //inline std::string name_string(const si::activity&) { return "becquerel"; }
 //inline std::string symbol_string(const si::activity&) { return "Bq"; }

 inline std::string name_string(const reduce_unit<si::capacitance>::type&)   { return "farad"; }
 inline std::string symbol_string(const reduce_unit<si::capacitance>::type&) { return "F"; }

 inline std::string name_string(const reduce_unit<si::catalytic_activity>::type&) { return "katal"; }
 inline std::string symbol_string(const reduce_unit<si::catalytic_activity>::type&) { return "kat"; }

 inline std::string name_string(const reduce_unit<si::conductance>::type&) { return "siemen"; }
 inline std::string symbol_string(const reduce_unit<si::conductance>::type&) { return "S"; }

 // gray and sievert are indistinguishable
 //inline std::string name_string(const si::dose_equivalent&) { return "sievert"; }
 //inline std::string symbol_string(const si::dose_equivalent&) { return "Sv"; }

 inline std::string name_string(const reduce_unit<si::electric_charge>::type&) { return "coulomb"; }
 inline std::string symbol_string(const reduce_unit<si::electric_charge>::type&) { return "C"; }

 inline std::string name_string(const reduce_unit<si::electric_potential>::type&) { return "volt"; }
 inline std::string symbol_string(const reduce_unit<si::electric_potential>::type&) { return "V"; }

 inline std::string name_string(const reduce_unit<si::energy>::type&) { return "joule"; }
 inline std::string symbol_string(const reduce_unit<si::energy>::type&) { return "J"; }

 inline std::string name_string(const reduce_unit<si::force>::type&) { return "newton"; }
 inline std::string symbol_string(const reduce_unit<si::force>::type&) { return "N"; }

 inline std::string name_string(const reduce_unit<si::frequency>::type&) { return "hertz"; }
 inline std::string symbol_string(const reduce_unit<si::frequency>::type&) { return "Hz"; }

 inline std::string name_string(const reduce_unit<si::illuminance>::type&) { return "lux"; }
 inline std::string symbol_string(const reduce_unit<si::illuminance>::type&) { return "lx"; }

 inline std::string name_string(const reduce_unit<si::inductance>::type&) { return "henry"; }
 inline std::string symbol_string(const reduce_unit<si::inductance>::type&) { return "H"; }

 inline std::string name_string(const reduce_unit<si::luminous_flux>::type&) { return "lumen"; }
 inline std::string symbol_string(const reduce_unit<si::luminous_flux>::type&) { return "lm"; }

 inline std::string name_string(const reduce_unit<si::magnetic_flux>::type&) { return "weber"; }
 inline std::string symbol_string(const reduce_unit<si::magnetic_flux>::type&) { return "Wb"; }

 inline std::string name_string(const reduce_unit<si::magnetic_flux_density>::type&) { return "tesla"; }
 inline std::string symbol_string(const reduce_unit<si::magnetic_flux_density>::type&) { return "T"; }

 inline std::string name_string(const reduce_unit<si::power>::type&) { return "watt"; }
 inline std::string symbol_string(const reduce_unit<si::power>::type&) { return "W"; }

 inline std::string name_string(const reduce_unit<si::pressure>::type&) { return "pascal"; }
 inline std::string symbol_string(const reduce_unit<si::pressure>::type&) { return "Pa"; }

 inline std::string name_string(const reduce_unit<si::resistance>::type&) { return "ohm"; }
 inline std::string symbol_string(const reduce_unit<si::resistance>::type&) { return "Ohm"; }


 } // namespace units

 } // namespace boost

 #endif // BOOST_UNITS_SI_IO_HPP
	// 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) 2008 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_SI_IO_HPP
	#define BOOST_UNITS_SI_IO_HPP

	#include <boost/units/io.hpp>
	#include <boost/units/reduce_unit.hpp>

	#include <boost/units/systems/si.hpp>

	namespace boost {

	namespace units {

	// gray and sievert are indistinguishable
	inline std::string name_string(const reduce_unit<si::absorbed_dose>::type&) { return "gray"; }
	inline std::string symbol_string(const reduce_unit<si::absorbed_dose>::type&) { return "Gy"; }

	// activity and frequency are indistinguishable - would need a "decays" base unit
	//inline std::string name_string(const si::activity&) { return "becquerel"; }
	//inline std::string symbol_string(const si::activity&) { return "Bq"; }

	inline std::string name_string(const reduce_unit<si::capacitance>::type&) { return "farad"; }
	inline std::string symbol_string(const reduce_unit<si::capacitance>::type&) { return "F"; }

	inline std::string name_string(const reduce_unit<si::catalytic_activity>::type&) { return "katal"; }
	inline std::string symbol_string(const reduce_unit<si::catalytic_activity>::type&) { return "kat"; }

	inline std::string name_string(const reduce_unit<si::conductance>::type&) { return "siemen"; }
	inline std::string symbol_string(const reduce_unit<si::conductance>::type&) { return "S"; }

	// gray and sievert are indistinguishable
	//inline std::string name_string(const si::dose_equivalent&) { return "sievert"; }
	//inline std::string symbol_string(const si::dose_equivalent&) { return "Sv"; }

	inline std::string name_string(const reduce_unit<si::electric_charge>::type&) { return "coulomb"; }
	inline std::string symbol_string(const reduce_unit<si::electric_charge>::type&) { return "C"; }

	inline std::string name_string(const reduce_unit<si::electric_potential>::type&) { return "volt"; }
	inline std::string symbol_string(const reduce_unit<si::electric_potential>::type&) { return "V"; }

	inline std::string name_string(const reduce_unit<si::energy>::type&) { return "joule"; }
	inline std::string symbol_string(const reduce_unit<si::energy>::type&) { return "J"; }

	inline std::string name_string(const reduce_unit<si::force>::type&) { return "newton"; }
	inline std::string symbol_string(const reduce_unit<si::force>::type&) { return "N"; }

	inline std::string name_string(const reduce_unit<si::frequency>::type&) { return "hertz"; }
	inline std::string symbol_string(const reduce_unit<si::frequency>::type&) { return "Hz"; }

	inline std::string name_string(const reduce_unit<si::illuminance>::type&) { return "lux"; }
	inline std::string symbol_string(const reduce_unit<si::illuminance>::type&) { return "lx"; }

	inline std::string name_string(const reduce_unit<si::inductance>::type&) { return "henry"; }
	inline std::string symbol_string(const reduce_unit<si::inductance>::type&) { return "H"; }

	inline std::string name_string(const reduce_unit<si::luminous_flux>::type&) { return "lumen"; }
	inline std::string symbol_string(const reduce_unit<si::luminous_flux>::type&) { return "lm"; }

	inline std::string name_string(const reduce_unit<si::magnetic_flux>::type&) { return "weber"; }
	inline std::string symbol_string(const reduce_unit<si::magnetic_flux>::type&) { return "Wb"; }

	inline std::string name_string(const reduce_unit<si::magnetic_flux_density>::type&) { return "tesla"; }
	inline std::string symbol_string(const reduce_unit<si::magnetic_flux_density>::type&) { return "T"; }

	inline std::string name_string(const reduce_unit<si::power>::type&) { return "watt"; }
	inline std::string symbol_string(const reduce_unit<si::power>::type&) { return "W"; }

	inline std::string name_string(const reduce_unit<si::pressure>::type&) { return "pascal"; }
	inline std::string symbol_string(const reduce_unit<si::pressure>::type&) { return "Pa"; }

	inline std::string name_string(const reduce_unit<si::resistance>::type&) { return "ohm"; }
	inline std::string symbol_string(const reduce_unit<si::resistance>::type&) { return "Ohm"; }


	} // namespace units

	} // namespace boost

	#endif // BOOST_UNITS_SI_IO_HPP