/*! constructor from another Ghost * * \param g ghost * */ template <typename S> inline Ghost(const Ghost<dim,S> & g) { for (size_t i = 0 ; i < dim ; i++) { this->setLow(i,g.getLow(i)); this->setHigh(i,g.getHigh(i)); } }
/*! \brief Calculate parameters for the symmetric cell list * * \param[in] dom Simulation domain * \param[output] cd_sm This cell-decomposer is set according to the needed division * \param[in] g Ghost dimensions * \param[output] pad required padding for the cell-list * * \return the processor bounding box */ template<unsigned int dim, typename St> static inline void cl_param_calculateSym(const Box<dim,St> & dom, CellDecomposer_sm<dim,St,shift<dim,St>> & cd_sm, Ghost<dim,St> g, St r_cut, size_t & pad) { size_t div[dim]; for (size_t i = 0 ; i < dim ; i++) div[i] = (dom.getHigh(i) - dom.getLow(i)) / r_cut; g.magnify(1.013); // Calculate the maximum padding for (size_t i = 0 ; i < dim ; i++) { size_t tmp = std::ceil(fabs(g.getLow(i)) / r_cut); pad = (pad > tmp)?pad:tmp; tmp = std::ceil(fabs(g.getHigh(i)) / r_cut); pad = (pad > tmp)?pad:tmp; } cd_sm.setDimensions(dom,div,pad); }