diff --git a/include/cantera/thermo/ThermoPhase.h b/include/cantera/thermo/ThermoPhase.h index 4ea3f0eb6..b947452e9 100644 --- a/include/cantera/thermo/ThermoPhase.h +++ b/include/cantera/thermo/ThermoPhase.h @@ -909,7 +909,6 @@ public: * @param x Vector of mole fractions. * Length is equal to m_kk. */ - virtual void setState_PX(doublereal p, doublereal* x); //! Set the internally stored pressure (Pa) and mass fractions. @@ -977,16 +976,16 @@ public: //! Set the density (kg/m**3) and pressure (Pa) at constant composition /*! - * This method must be reimplemented in derived classes, where it may - * involve the solution of a nonlinear equation. Within %Cantera, the - * independent variable is the density. Therefore, this function solves for - * the temperature that will yield the desired input pressure and density. - * The composition is held constant during this process. + * This method must be reimplemented in derived classes, where it may + * involve the solution of a nonlinear equation. Within %Cantera, the + * independent variable is the density. Therefore, this function solves for + * the temperature that will yield the desired input pressure and density. + * The composition is held constant during this process. * - * This base class function will print an error, if not overwritten. + * This base class function will print an error, if not overwritten. * - * @param rho Density (kg/m^3) - * @param p Pressure (Pa) + * @param rho Density (kg/m^3) + * @param p Pressure (Pa) */ virtual void setState_RP(doublereal rho, doublereal p) { throw NotImplementedError("ThermoPhase::setState_RP"); @@ -1011,9 +1010,9 @@ public: * are set. Setting the pressure may involve the solution of a nonlinear * equation. * - * @param rho Density (kg/m^3) - * @param p Pressure (Pa) - * @param x Composition map of mole fractions. Species not in + * @param rho Density (kg/m^3) + * @param p Pressure (Pa) + * @param x Composition map of mole fractions. Species not in * the composition map are assumed to have zero mole fraction */ virtual void setState_RPX(doublereal rho, doublereal p, const compositionMap& x); @@ -1024,9 +1023,9 @@ public: * are set. Setting the pressure may involve the solution of a nonlinear * equation. * - * @param rho Density (kg/m^3) - * @param p Pressure (Pa) - * @param x String containing a composition map of the mole fractions. + * @param rho Density (kg/m^3) + * @param p Pressure (Pa) + * @param x String containing a composition map of the mole fractions. * Species not in the composition map are assumed to have zero * mole fraction */ @@ -1038,9 +1037,9 @@ public: * are set. Setting the pressure may involve the solution of a nonlinear * equation. * - * @param rho Density (kg/m^3) - * @param p Pressure (Pa) - * @param y Vector of mole fractions. + * @param rho Density (kg/m^3) + * @param p Pressure (Pa) + * @param y Vector of mole fractions. * Length is equal to m_kk. */ virtual void setState_RPY(doublereal rho, doublereal p, const doublereal* y); @@ -1051,9 +1050,9 @@ public: * are set. Setting the pressure may involve the solution of a nonlinear * equation. * - * @param rho Density (kg/m^3) - * @param p Pressure (Pa) - * @param y Composition map of mole fractions. Species not in + * @param rho Density (kg/m^3) + * @param p Pressure (Pa) + * @param y Composition map of mole fractions. Species not in * the composition map are assumed to have zero mole fraction */ virtual void setState_RPY(doublereal rho, doublereal p, const compositionMap& y); @@ -1064,9 +1063,9 @@ public: * are set. Setting the pressure may involve the solution of a nonlinear * equation. * - * @param rho Density (kg/m^3) - * @param p Pressure (Pa) - * @param y String containing a composition map of the mole fractions. + * @param rho Density (kg/m^3) + * @param p Pressure (Pa) + * @param y String containing a composition map of the mole fractions. * Species not in the composition map are assumed to have zero * mole fraction */