/*------------------------------- phasicFlow --------------------------------- O C enter of O O E ngineering and O O M ultiscale modeling of OOOOOOO F luid flow ------------------------------------------------------------------------------ Copyright (C): www.cemf.ir email: hamid.r.norouzi AT gmail.com ------------------------------------------------------------------------------ Licence: This file is part of phasicFlow code. It is a free software for simulating granular and multiphase flows. You can redistribute it and/or modify it under the terms of GNU General Public License v3 or any other later versions. phasicFlow is distributed to help others in their research in the field of granular and multiphase flows, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. -----------------------------------------------------------------------------*/ #ifndef __rotatingAxis_hpp__ #define __rotatingAxis_hpp__ #include "timeInterval.hpp" #include "line.hpp" #include "rotatingAxisFwd.hpp" namespace pFlow { class dictionary; /** * An axis which rotates around itself at specified speed * * This defines an axis with two end points that rotates around * itself at specified speed (rad/s). * * \verbatim // This creates an axis of rotation around x-axis, rotation starts at t = 1 s // and ends at t = 5 s. { p1 (0 0 0); p2 (1 0 0); omega 1.57; startTime 1; endTime 5; } \endverbatim * * | Parameter | Type | Description | Optional [default value] | * |----| :---: | ---- | ---- | * | p1 | realx3 | begin point of axis | No | * | p2 | realx3 | end point of axis | No | * | omega | real | rotation speed (rad/s) | No | * | startTime | real | start time of rotation (s) | Yes [0] | * | endTime | real | end time of rotation (s) | Yes [infinity] | * */ class rotatingAxis : public timeInterval, public line { private: /// rotation speed real omega_ = 0; /// is rotating bool rotating_ = false; public: // - Constructor TypeInfoNV("rotatingAxis"); /// Empty constructor FUNCTION_HD rotatingAxis()=default; /// Construct from dictionary FUNCTION_H explicit rotatingAxis(const dictionary& dict); /// Construct from components FUNCTION_HD rotatingAxis(const realx3& p1, const realx3& p2, real omega = 0.0); /// Copy constructor FUNCTION_HD rotatingAxis(const rotatingAxis&) = default; FUNCTION_HD rotatingAxis(rotatingAxis&&) = default; /// Copy asssignment rotatingAxis& operator=(const rotatingAxis&) = default; /// Copy asssignment rotatingAxis& operator=(rotatingAxis&&) = default; /// destructor ~rotatingAxis()=default; /// Set omega FUNCTION_HD real setOmega(real omega); /// Return omega INLINE_FUNCTION_HD real omega()const { return omega_; } /// Is rotating INLINE_FUNCTION_HD bool isRotating()const { return rotating_; } /// Linear tangential velocity at point p INLINE_FUNCTION_HD realx3 linVelocityPoint(const realx3 &p)const; INLINE_FUNCTION_HD realx3 transferPoint(const realx3 p, real dt); // - IO operation /// Read from dictionary FUNCTION_H bool read(const dictionary& dict); /// Write to dictionary FUNCTION_H bool write(dictionary& dict) const; /// Read from input stream is FUNCTION_H bool read(iIstream& is); /// Write to output stream os FUNCTION_H bool write(iOstream& os)const; }; inline iOstream& operator <<(iOstream& os, const rotatingAxis& ax) { if(!ax.write(os)) { fatalExit; } return os; } inline iIstream& operator >>(iIstream& is, rotatingAxis& ax) { if( !ax.read(is) ) { fatalExit; } return is; } } #include "rotatingAxisI.hpp" #endif