240 lines
13 KiB
C++
240 lines
13 KiB
C++
/** @file basis_unit.hpp **/
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#pragma once
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#include "native_unit.hpp"
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#include "dimension.hpp"
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//#include "basis_unit_abbrev.hpp"
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#include "xo/ratio/ratio.hpp"
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namespace xo {
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namespace qty {
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using bu_abbrev_type = flatstring<16>;
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using scalefactor_ratio_type = xo::ratio::ratio<std::int64_t>;
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using scalefactor2x_ratio_type = xo::ratio::ratio<__int128>;
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/** @class basis_unit
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* @brief A dimensionless multiple of a single natively-specified basis dimension
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*
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* For example "3600 minutes" or "1e-6 grams".
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*
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* Members are public so that a @c basis_unit instance qualifies as a 'structural type',
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* and therefore may be used as a non-type template parameter.
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**/
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struct basis_unit {
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public:
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/** @defgroup basis-unit-constructors basis_unit constructors **/
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///@{
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/** sentinel basis unit: invalid dimension and zero scalefactor **/
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constexpr basis_unit() = default;
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/** basis unit representing multiple @p scalefactor of native dimension @p **/
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constexpr basis_unit(dimension native_dim,
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const scalefactor_ratio_type & scalefactor)
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: native_dim_{native_dim},
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scalefactor_{scalefactor}
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{}
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///@}
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/** @defgroup basis-unit-access-methods basis_unit access methods **/
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///@{
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/** get @c native_dim member **/
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constexpr dimension native_dim() const { return native_dim_; }
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/** get @c scalefactor member **/
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constexpr const scalefactor_ratio_type & scalefactor() const { return scalefactor_; }
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///@}
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public: /* public so instance can be a non-type template parameter (a structural type) */
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/** @defgroup basis-unit-instance-vars basis_unit instance variables **/
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///@{
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/** @brief identifies a native unit, e.g. time **/
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dimension native_dim_ = dimension::invalid;
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/** @brief this unit defined as multiple scalefactor times native unit **/
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scalefactor_ratio_type scalefactor_ = {};
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///@}
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};
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/** @defgroup basis-unit-comparison-support basis_unit comparisons **/
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///@{
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/** @c true iff basis units are equal;
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* both native dimension and scalefactor must be equal
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**/
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inline constexpr bool
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operator==(const basis_unit & x, const basis_unit & y)
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{
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return ((x.native_dim_ == y.native_dim_)
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&& (x.scalefactor_ == y.scalefactor_));
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}
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/** @c true iff bass units are not equal **/
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inline constexpr bool
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operator!=(const basis_unit & x, const basis_unit & y)
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{
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return ((x.native_dim_ != y.native_dim_)
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|| (x.scalefactor_ != y.scalefactor_));
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}
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///@}
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namespace detail {
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/** @brief namespace for basis-unit constants and helpers **/
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namespace bu {
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// ----- mass -----
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constexpr basis_unit mass_unit(std::int64_t num, std::int64_t den) {
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return basis_unit(dimension::mass, scalefactor_ratio_type(num, den));
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}
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/** @defgroup basis-unit-mass-units basis_unit mass units **/
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///@{
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/** basis unit of 10^-12 grams **/
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constexpr basis_unit picogram = mass_unit( 1, 1000000000000);
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/** basis unit of 10^-9 grams **/
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constexpr basis_unit nanogram = mass_unit( 1, 1000000000);
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/** basis unit of 10^-6 grams **/
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constexpr basis_unit microgram = mass_unit( 1, 1000000);
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/** basis unit of 10^-3 grams **/
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constexpr basis_unit milligram = mass_unit( 1, 1000);
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/** basis unit of 1 gram **/
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constexpr basis_unit gram = mass_unit( 1, 1);
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/** basis unit of 10^3 grams **/
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constexpr basis_unit kilogram = mass_unit( 1000, 1);
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/** basis unit of 10^6 grams = 10^3 kilograms **/
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constexpr basis_unit tonne = mass_unit( 1000000, 1);
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/** basis unit of 10^9 grams = 10^6 kilograms = 10^3 tonnes **/
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constexpr basis_unit kilotonne = mass_unit( 1000000000, 1);
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/** basis unit of 10^12 grams = 10^9 kilograms = 10^6 tonnes **/
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constexpr basis_unit megatonne = mass_unit( 1000000000000, 1);
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/** basis unit of 10^15 grams = 10^12 kilograms = 10^9 tonnes **/
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constexpr basis_unit gigatonne = mass_unit(1000000000000000, 1);
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///@}
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// ----- distance -----
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constexpr basis_unit distance_unit(std::int64_t num, std::int64_t den) {
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return basis_unit(dimension::distance, scalefactor_ratio_type(num, den));
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}
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/** @defgroup basis-unit-distance-units basis_unit distance units **/
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///@{
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/* US spelling */
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/** basis unit of 10^-12 meters **/
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constexpr basis_unit picometer = distance_unit( 1, 1000000000000);
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/** basis unit of 10^-9 meters **/
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constexpr basis_unit nanometer = distance_unit( 1, 1000000000);
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/** basis unit of 10^-6 meters **/
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constexpr basis_unit micrometer = distance_unit( 1, 1000000);
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/** basis unit of 10^-3 meters **/
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constexpr basis_unit millimeter = distance_unit( 1, 1000);
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/** basis unit of 1 meter **/
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constexpr basis_unit meter = distance_unit( 1, 1);
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/** basis unit of 10^3 meters **/
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constexpr basis_unit kilometer = distance_unit( 1000, 1);
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/** basis unit of 10^6 meters (for form's sake -- not commonly used) **/
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constexpr basis_unit megameter = distance_unit( 1000000, 1);
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/** basis unit of 10^9 meters (for form's sake -- not commonly used) **/
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constexpr basis_unit gigameter = distance_unit( 1000000000, 1);
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/** basis unit of 1 light-second = distance light travels in a vacuum in 1 second **/
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constexpr basis_unit lightsecond = distance_unit( 299792458, 1);
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/** basis unit of 1 astronomical unit, representing approximate radius of earth orbit. **/
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constexpr basis_unit astronomicalunit = distance_unit( 149597870700, 1);
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/* Int'l spelling */
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/** international spelling for picometer **/
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constexpr basis_unit picometre = picometer;
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/** international spelling for nanometer **/
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constexpr basis_unit nanometre = nanometer;
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/** international spelling for micrometer **/
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constexpr basis_unit micrometre = micrometer;
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/** international spelling for millimeter **/
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constexpr basis_unit millimetre = millimeter;
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/** international spelling for meter **/
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constexpr basis_unit metre = meter;
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/** international spelling for kilometer **/
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constexpr basis_unit kilometre = kilometer;
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/** international spelling for megameter **/
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constexpr basis_unit megametre = megameter;
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/** international spelling for gigameter **/
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constexpr basis_unit gigametre = gigameter;
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/** @brief basis-unit representing 1 inch; defined as exactly 1/12 feet **/
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constexpr basis_unit inch = distance_unit( 3048, 120000);
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/** @brief basis-unit representing 1 foot; defined as exactly 0.3048 meters **/
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constexpr basis_unit foot = distance_unit( 3048, 10000);
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/** @brief basis-unit representing 1 yard; defined as exactly 3 feet **/
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constexpr basis_unit yard = distance_unit( 3*3048, 10000);
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/** @brief basis-unit representing 1 mile; defined as exactly 1760 yards = 5280 feet **/
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constexpr basis_unit mile = distance_unit( 5280*3048, 10000);
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///@}
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// ----- time -----
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constexpr basis_unit time_unit(std::int64_t num, std::int64_t den) {
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return basis_unit(dimension::time, scalefactor_ratio_type(num, den));
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}
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/** @defgroup basis-unit-time-units basis_unit time units **/
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///@{
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/** basis unit of 10^-12 seconds **/
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constexpr basis_unit picosecond = time_unit( 1, 1000000000000);
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/** basis unit of 10^-9 seconds **/
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constexpr basis_unit nanosecond = time_unit( 1, 1000000000);
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/** basis unit of 10^-6 seconds **/
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constexpr basis_unit microsecond = time_unit( 1, 1000000);
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/** basis unit of 10^-3 seconds **/
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constexpr basis_unit millisecond = time_unit( 1, 1000);
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/** basis unit of 1 second **/
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constexpr basis_unit second = time_unit( 1, 1);
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/** basis unit of 1 minute = 60 seconds **/
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constexpr basis_unit minute = time_unit( 60, 1);
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/** basis unit of 1 hour = 3600 seconds **/
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constexpr basis_unit hour = time_unit( 3600, 1);
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/** basis unit of 1 day = exactly 24 hours **/
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constexpr basis_unit day = time_unit( 24*3600, 1);
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/** basis unit of 1 week = exactly 7 days **/
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constexpr basis_unit week = time_unit( 7*24*3600, 1);
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/** basis unit of 1 month = exactly 30 days **/
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constexpr basis_unit month = time_unit( 30*24*3600, 1);
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/** basis unit of 1 year, defined as 365.25 days **/
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constexpr basis_unit year = time_unit( (365*24+6)*3600, 1);
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/* alt conventions used in finance */
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/** basis unit of 1 year365 = exactly 365 days **/
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constexpr basis_unit year365 = time_unit( 365*24*3600, 1);
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/** basis unit of 1 year360 = exactly 360 days **/
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constexpr basis_unit year360 = time_unit( 360*24*3600, 1);
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/** basis unit of 1 year250 = exactly 250 days.
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* Approximate number of business days in one year
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**/
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constexpr basis_unit year250 = time_unit( 250*24*3600, 1);
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//constexpr basis_unit century = time_unit( 100L*(365*24+6)*3600, 1);
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//constexpr basis_unit millenium = time_unit(1000L*(365*24+6)*3600, 1);
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///@}
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// ----- currency -----
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/** @defgroup basis-unit-misc-units basis_unit miscellaneous units**/
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///@{
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constexpr basis_unit currency_unit(std::int64_t num, std::int64_t den) {
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return basis_unit(dimension::currency, scalefactor_ratio_type(num, den));
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}
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/** pseudounit -- placeholder for any actual currency amount **/
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constexpr basis_unit currency = currency_unit(1, 1);
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// ----- price -----
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constexpr basis_unit price_unit(std::int64_t num, std::int64_t den) {
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return basis_unit(dimension::price, scalefactor_ratio_type(num, den));
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}
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/** psuedounit -- context-dependent interpretation for a screen price **/
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constexpr basis_unit price = price_unit(1, 1);
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///@}
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} /*namespace bu*/
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} /*namespace detail*/
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} /*namespace qty*/
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} /*namespace xo*/
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/** end basis_unit.hpp **/
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