/*******************************************************************************
* This file is part of SWIFT.
* Copyright (c) 2020 Mladen Ivkovic (mladen.ivkovic@hotmail.com)
*
* This program 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 3 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
******************************************************************************/
#ifndef SWIFT_RT_IACT_NONE_H
#define SWIFT_RT_IACT_NONE_H
/**
* @file src/rt/none/rt_iact.h
* @brief Main header file for no radiative transfer scheme particle
* interactions.
*/
/**
* @brief Preparation step for injection to gather necessary data.
* This function gets called during the feedback force loop.
*
* @param r2 Comoving square distance between the two particles.
* @param dx Comoving vector separating both particles (si - pj).
* @param hi Comoving smoothing-length of particle i.
* @param hj Comoving smoothing-length of particle j.
* @param si First (star) particle.
* @param pj Second (gas) particle (not updated).
* @param cosmo The cosmological model.
* @param rt_props Properties of the RT scheme.
*/
__attribute__((always_inline)) INLINE static void
runner_iact_nonsym_rt_injection_prep(const float r2, const float dx[3],
const float hi, const float hj,
struct spart *si, const struct part *pj,
const struct cosmology *cosmo,
const struct rt_props *rt_props) {}
/**
* @brief Injection step interaction between star and hydro particles.
*
* @param r2 Comoving square distance between the two particles.
* @param dx Comoving vector separating both particles (pi - pj).
* @param hi Comoving smoothing-length of particle i.
* @param hj Comoving smoothing-length of particle j.
* @param si Star particle.
* @param pj Hydro particle.
* @param a Current scale factor.
* @param H Current Hubble parameter.
* @param rt_props Properties of the RT scheme.
*/
__attribute__((always_inline)) INLINE static void runner_iact_rt_inject(
const float r2, const float dx[3], const float hi, const float hj,
struct spart *restrict si, struct part *restrict pj, const float a,
const float H, const struct rt_props *rt_props) {}
/**
* @brief Flux calculation between particle i and particle j
*
* @param r2 Comoving squared distance between particle i and particle j.
* @param dx Comoving distance vector between the particles (dx = pi->x -
* pj->x).
* @param hi Comoving smoothing-length of particle i.
* @param hj Comoving smoothing-length of particle j.
* @param pi Particle i.
* @param pj Particle j.
* @param a Current scale factor.
* @param H Current Hubble parameter.
*/
__attribute__((always_inline)) INLINE static void runner_iact_rt_transport(
const float r2, const float dx[3], const float hi, const float hj,
struct part *restrict pi, struct part *restrict pj, const float a,
const float H) {}
/**
* @brief Flux calculation between particle i and particle j: non-symmetric
* version
*
* @param r2 Comoving squared distance between particle i and particle j.
* @param dx Comoving distance vector between the particles (dx = pi->x -
* pj->x).
* @param hi Comoving smoothing-length of particle i.
* @param hj Comoving smoothing-length of particle j.
* @param pi Particle i.
* @param pj Particle j.
* @param a Current scale factor.
* @param H Current Hubble parameter.
*/
__attribute__((always_inline)) INLINE static void
runner_iact_nonsym_rt_transport(const float r2, const float dx[3],
const float hi, const float hj,
struct part *restrict pi,
struct part *restrict pj, const float a,
const float H) {}
/**
* @brief Calculate the gradient interaction between particle i and particle j
*
* @param r2 Comoving squared distance between particle i and particle j.
* @param dx Comoving distance vector between the particles (dx = pi->x -
* pj->x).
* @param hi Comoving smoothing-length of particle i.
* @param hj Comoving smoothing-length of particle j.
* @param pi Particle i.
* @param pj Particle j.
* @param a Current scale factor.
* @param H Current Hubble parameter.
*/
__attribute__((always_inline)) INLINE static void runner_iact_rt_gradient(
const float r2, const float dx[3], const float hi, const float hj,
struct part *restrict pi, struct part *restrict pj, const float a,
const float H) {}
/**
* @brief Calculate the gradient interaction between particle i and particle j:
* non-symmetric version
*
* @param r2 Comoving squared distance between particle i and particle j.
* @param dx Comoving distance vector between the particles (dx = pi->x -
* pj->x).
* @param hi Comoving smoothing-length of particle i.
* @param hj Comoving smoothing-length of particle j.
* @param pi Particle i.
* @param pj Particle j.
* @param a Current scale factor.
* @param H Current Hubble parameter.
*/
__attribute__((always_inline)) INLINE static void
runner_iact_nonsym_rt_gradient(const float r2, const float dx[3],
const float hi, const float hj,
struct part *restrict pi,
struct part *restrict pj, const float a,
const float H) {}
#endif /* SWIFT_RT_IACT_NONE_H */