我使用此approach来定义新的派生维度质量流量,其中应包含单位kg / s:
#include <boost/units/io.hpp>
#include <boost/units/systems/si.hpp>
#include <boost/units/systems/si/io.hpp>
#include <boost/units/systems/si/prefixes.hpp>
namespace Units
{
using namespace boost::units;
namespace SI
{
using namespace boost::units::si;
}
template <class U> using Quantity = quantity<U>;
typedef Quantity<SI::time> Time;
typedef Quantity<SI::mass> Mass;
typedef Units::derived_dimension<Units::mass_base_dimension, 1,
Units::time_base_dimension, -1>::type MassFlowDimension;
typedef Quantity<MassFlowDimension> MassFlowRate;
BOOST_UNITS_STATIC_CONSTANT(kilogram_per_seconds, MassFlowRate);
}
我原本以为从/到现有基本单位的转换可以开箱即用,但显然事实并非如此:
int main()
{
// does work
Units::MassFlowRate mass_flow = 1.0*(Units::kilogram_per_seconds);
// does not work
Units::MassFlowRate other_mass_flow = 1.0*(Units::SI::kilogram / Units::SI::second);
// does not work either
Units::Mass total_flow = mass_flow * (1.0*Units::SI::second);
}
我想使用派生维度来定义集成到现有框架中的数量。我是否必须调用一些宏才能转换为现有单元/从现有单元转换?
编辑:错误消息如下:
main.cc:39:44: error: conversion from ‘boost::units::multiply_typeof_helper<double, boost::units::unit<boost::units::list<boost::units::dim<boost::units::mass_base_dimension, boost::units::static_rational<1> >, boost::units::list<boost::units::dim<boost::units::time_base_dimension, boost::units::static_rational<-1> >, boost::units::dimensionless_type> >, boost::units::homogeneous_system<boost::units::list<boost::units::si::meter_base_unit, boost::units::list<boost::units::scaled_base_unit<boost::units::cgs::gram_base_unit, boost::units::scale<10, boost::units::static_rational<3> > >, boost::units::list<boost::units::si::second_base_unit, boost::units::list<boost::units::si::ampere_base_unit, boost::units::list<boost::units::si::kelvin_base_unit, boost::units::list<boost::units::si::mole_base_unit, boost::units::list<boost::units::si::candela_base_unit, boost::units::list<boost::units::angle::radian_base_unit, boost::units::list<boost::units::angle::steradian_base_unit, boost::units::dimensionless_type> > > > > > > > > >, void> >::type {aka boost::units::quantity<boost::units::unit<boost::units::list<boost::units::dim<boost::units::mass_base_dimension, boost::units::static_rational<1> >, boost::units::list<boost::units::dim<boost::units::time_base_dimension, boost::units::static_rational<-1> >, boost::units::dimensionless_type> >, boost::units::homogeneous_system<boost::units::list<boost::units::si::meter_base_unit, boost::units::list<boost::units::scaled_base_unit<boost::units::cgs::gram_base_unit, boost::units::scale<10, boost::units::static_rational<3> > >, boost::units::list<boost::units::si::second_base_unit, boost::units::list<boost::units::si::ampere_base_unit, boost::units::list<boost::units::si::kelvin_base_unit, boost::units::list<boost::units::si::mole_base_unit, boost::units::list<boost::units::si::candela_base_unit, boost::units::list<boost::units::angle::radian_base_unit, boost::units::list<boost::units::angle::steradian_base_unit, boost::units::dimensionless_type> > > > > > > > > >, void>, double>}’ to non-scalar type ‘Units::MassFlowRate {aka boost::units::quantity<boost::units::list<boost::units::dim<boost::units::mass_base_dimension, boost::units::static_rational<1> >, boost::units::list<boost::units::dim<boost::units::time_base_dimension, boost::units::static_rational<-1> >, boost::units::dimensionless_type> >, double>}’ requested
Units::MassFlowRate other_mass_flow = 1.0*(Units::SI::kilogram / Units::SI::second);
main.cc:39:38: error: conversion from ‘boost::units::multiply_typeof_helper<boost::units::quantity<boost::units::list<boost::units::dim<boost::units::mass_base_dimension, boost::units::static_rational<1> >, boost::units::list<boost::units::dim<boost::units::time_base_dimension, boost::units::static_rational<-1> >, boost::units::dimensionless_type> >, double>, boost::units::quantity<boost::units::unit<boost::units::list<boost::units::dim<boost::units::time_base_dimension, boost::units::static_rational<1> >, boost::units::dimensionless_type>, boost::units::homogeneous_system<boost::units::list<boost::units::si::meter_base_unit, boost::units::list<boost::units::scaled_base_unit<boost::units::cgs::gram_base_unit, boost::units::scale<10, boost::units::static_rational<3> > >, boost::units::list<boost::units::si::second_base_unit, boost::units::list<boost::units::si::ampere_base_unit, boost::units::list<boost::units::si::kelvin_base_unit, boost::units::list<boost::units::si::mole_base_unit, boost::units::list<boost::units::si::candela_base_unit, boost::units::list<boost::units::angle::radian_base_unit, boost::units::list<boost::units::angle::steradian_base_unit, boost::units::dimensionless_type> > > > > > > > > > >, double> >::type {aka boost::units::quantity<boost::units::quantity<boost::units::unit<boost::units::list<boost::units::dim<boost::units::time_base_dimension, boost::units::static_rational<1> >, boost::units::dimensionless_type>, boost::units::homogeneous_system<boost::units::list<boost::units::si::meter_base_unit, boost::units::list<boost::units::scaled_base_unit<boost::units::cgs::gram_base_unit, boost::units::scale<10, boost::units::static_rational<3> > >, boost::units::list<boost::units::si::second_base_unit, boost::units::list<boost::units::si::ampere_base_unit, boost::units::list<boost::units::si::kelvin_base_unit, boost::units::list<boost::units::si::mole_base_unit, boost::units::list<boost::units::si::candela_base_unit, boost::units::list<boost::units::angle::radian_base_unit, boost::units::list<boost::units::angle::steradian_base_unit, boost::units::dimensionless_type> > > > > > > > > > >, boost::units::list<boost::units::dim<boost::units::mass_base_dimension, boost::units::static_rational<1> >, boost::units::list<boost::units::dim<boost::units::time_base_dimension, boost::units::static_rational<-1> >, boost::units::dimensionless_type> > >, double>}’ to non-scalar type ‘Units::Mass {aka boost::units::quantity<boost::units::unit<boost::units::list<boost::units::dim<boost::units::mass_base_dimension, boost::units::static_rational<1> >, boost::units::dimensionless_type>, boost::units::homogeneous_system<boost::units::list<boost::units::si::meter_base_unit, boost::units::list<boost::units::scaled_base_unit<boost::units::cgs::gram_base_unit, boost::units::scale<10, boost::units::static_rational<3> > >, boost::units::list<boost::units::si::second_base_unit, boost::units::list<boost::units::si::ampere_base_unit, boost::units::list<boost::units::si::kelvin_base_unit, boost::units::list<boost::units::si::mole_base_unit, boost::units::list<boost::units::si::candela_base_unit, boost::units::list<boost::units::angle::radian_base_unit, boost::units::list<boost::units::angle::steradian_base_unit, boost::units::dimensionless_type> > > > > > > > > > >, double>}’ requested
Units::Mass total_flow = mass_flow * (1.0*Units::SI::second);
答案 0 :(得分:1)
您的单位,尺寸和数量令人困惑。
这是你的维度,
typedef Units::derived_dimension<Units::mass_base_dimension, 1,
Units::time_base_dimension, -1>::type MassFlowDimension;
您无法从维度创建数量:
typedef Quantity<MassFlowDimension> MassFlowRate;
首先创建一个单元,然后创建一个单元:
你的常数应该是一个单位常数,而不是数量:
typedef Quantity<MassFlowDimension> MassFlowRate;
BOOST_UNITS_STATIC_CONSTANT(kilogram_per_seconds, MassFlowRate);
<强> Live On Coliru
#include <boost/units/io.hpp>
#include <boost/units/systems/si.hpp>
#include <boost/units/systems/si/io.hpp>
namespace Units {
using namespace boost::units;
namespace SI = boost::units::si;
template <class U> using Quantity = quantity<U>;
typedef quantity<si::mass> Mass;
typedef quantity<si::time> Time;
typedef derived_dimension<mass_base_dimension, 1, time_base_dimension, -1>::type MassFlowDimension;
typedef unit<MassFlowDimension, si::system> MassFlow;
typedef Quantity<MassFlow> MassFlowRate;
BOOST_UNITS_STATIC_CONSTANT(kilogram_per_seconds, MassFlow);
}
#include <iostream>
int main() {
Units::MassFlowRate const mass_flow = 7.0*Units::kilogram_per_seconds;
Units::MassFlowRate const other_mass_flow = 1.0*(Units::SI::kilogram / Units::SI::second);
Units::Mass const total_flow = mass_flow * (1.0*Units::SI::second);
std::cout << "mass_flow: " << mass_flow << "\n";
std::cout << "other_mass_flow: " << other_mass_flow << "\n";
std::cout << "total_flow: " << total_flow << "\n";
}
打印
mass_flow: 7 kg s^-1
other_mass_flow: 1 kg s^-1
total_flow: 7 kg