#ifndef _ATM_PRESSURE_H #define _ATM_PRESSURE_H /******************************************************************************* * ALMA - Atacama Large Millimiter Array * (c) Instituto de Estructura de la Materia, 2009 * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * "@(#) $Id: ATMPressure.h Exp $" * * who when what * -------- -------- ---------------------------------------------- * pardo 24/03/09 created */ #ifndef __cplusplus #error "This is a C++ include file and cannot be used from plain C" #endif #include "ATMCommon.h" #include using std::string; ATM_NAMESPACE_BEGIN /*! \brief Defines pressure with units * * This class defines physical parameters having units of Pressure. * Default is Pa (International System) but the ATM library uses mb (hPa). */ class Pressure { public: /** Default constructor */ Pressure(); /** A full constructor: Pressure value in default SI units (Pa) */ Pressure(double pressure); /** A full constructor: Pressure value + units. Valid units are hPa [HPA] [hpa], bar [BAR], mb [MB], mbar [MBAR], atm [ATM]. */ Pressure(double pressure, const string &units); /** Destructor */ virtual ~Pressure(); /** Accessor to get the value in SI units (Pa) */ double get() const { return valueIS_; } /** Accessor to get the value in the following (implemented) units: hPa [HPA] [hpa], bar [BAR], mb [MB], mbar [MBAR], atm [ATM]. * If none of these implemented units is given, the SI value will be returned. */ double get(const string &units) const; Pressure& operator=(const Pressure &rhs) { if(&rhs != this) valueIS_ = rhs.valueIS_; return *this; } Pressure& operator=(double rhs) { valueIS_ = rhs; return *this; } Pressure operator+(const Pressure &rhs) { return Pressure(valueIS_ + rhs.get()); } Pressure operator-(const Pressure &rhs) { return Pressure(valueIS_ - rhs.get()); } Pressure operator*(double scf) { return Pressure(valueIS_ * scf); } Pressure operator*(float scf) { return Pressure(valueIS_ * (double) scf); } Pressure operator*(int scf) { return Pressure(valueIS_ * (double) scf); } Pressure operator*(unsigned int scf) { return Pressure(valueIS_ * (double) scf); } Pressure operator*(size_t scf) { return Pressure(valueIS_ * (double) scf); } Pressure operator/(double scf) { return Pressure(valueIS_ / scf); } Pressure operator/(float scf) { return Pressure(valueIS_ / (double) scf); } Pressure operator/(int scf) { return Pressure(valueIS_ / (double) scf); } Pressure operator/(unsigned int scf) { return Pressure(valueIS_ / (double) scf); } Pressure operator/(size_t scf) { return Pressure(valueIS_ / (double) scf); } bool operator<(const Pressure &rhs) const { return (valueIS_ < rhs.get()); } bool operator>(const Pressure &rhs) const { return (valueIS_ > rhs.get()); } bool operator<=(const Pressure &rhs) const { return (valueIS_ <= rhs.get()); } bool operator>=(const Pressure &rhs) const { return (valueIS_ >= rhs.get()); } bool operator==(const Pressure &rhs) const { return (valueIS_ == rhs.get()); } bool operator!=(const Pressure &rhs) const { return (valueIS_ != rhs.get()); } private: double valueIS_; }; // class Pressure ATM_NAMESPACE_END #endif /*!_ATM_PRESSURE_H*/