cell.h 32.3 KB
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/*******************************************************************************
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 * This file is part of SWIFT.
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 * Copyright (c) 2012 Pedro Gonnet (pedro.gonnet@durham.ac.uk)
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 *                    Matthieu Schaller (matthieu.schaller@durham.ac.uk)
 *               2015 Peter W. Draper (p.w.draper@durham.ac.uk)
 *               2016 John A. Regan (john.a.regan@durham.ac.uk)
 *                    Tom Theuns (tom.theuns@durham.ac.uk)
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 *
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 * 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.
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 *
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 * 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.
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 *
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 * 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/>.
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 *
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 ******************************************************************************/
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#ifndef SWIFT_CELL_H
#define SWIFT_CELL_H
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/* Config parameters. */
#include "../config.h"

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/* Includes. */
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#include <stddef.h>

/* Local includes. */
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#include "align.h"
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#include "kernel_hydro.h"
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#include "lock.h"
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#include "multipole.h"
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#include "part.h"
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#include "space.h"
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#include "task.h"
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#include "timeline.h"
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/* Avoid cyclic inclusions */
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struct engine;
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struct scheduler;
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/* Max tag size set to 2^29 to take into account some MPI implementations
 * that use 2^31 as the upper bound on MPI tags and the fact that
 * cell_next_tag is multiplied by 2 when passed to an MPI function.
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 * The maximum was lowered by a further factor of 2 to be on the safe side.*/
#define cell_max_tag (1 << 29)
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#define cell_align 128
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/* Global variables. */
extern int cell_next_tag;

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/* Struct to temporarily buffer the particle locations and bin id. */
struct cell_buff {
  double x[3];
  int ind;
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} SWIFT_STRUCT_ALIGN;
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/* Mini struct to link cells to tasks. Used as a linked list. */
struct link {

  /* The task pointer. */
  struct task *t;

  /* The next pointer. */
  struct link *next;
};

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/**
 * @brief Packed cell for information correct at rebuild time.
 *
 * Contains all the information for a tree walk in a non-local cell.
 */
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struct pcell {

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  /*! Hydro variables */
  struct {
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    /*! Maximal smoothing length. */
    double h_max;
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    /*! Minimal integer end-of-timestep in this cell for hydro tasks */
    integertime_t ti_end_min;
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    /*! Maximal integer end-of-timestep in this cell for hydro tasks */
    integertime_t ti_end_max;
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    /*! Maximal integer beginning-of-timestep in this cell for hydro tasks */
    integertime_t ti_beg_max;
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    /*! Integer time of the last drift of the #part in this cell */
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    integertime_t ti_old_part;
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    /*! Number of #part in this cell. */
    int count;
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  } hydro;
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  /*! Gravity variables */
  struct {
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    /*! This cell's gravity-related tensors */
    struct multipole m_pole;
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    /*! Centre of mass. */
    double CoM[3];
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    /*! Centre of mass at rebuild time. */
    double CoM_rebuild[3];
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    /*! Upper limit of the CoM<->gpart distance. */
    double r_max;
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    /*! Upper limit of the CoM<->gpart distance at last rebuild. */
    double r_max_rebuild;
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    /*! Minimal integer end-of-timestep in this cell for gravity tasks */
    integertime_t ti_end_min;
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    /*! Maximal integer end-of-timestep in this cell for gravity tasks */
    integertime_t ti_end_max;
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    /*! Maximal integer beginning-of-timestep in this cell for gravity tasks */
    integertime_t ti_beg_max;
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    /*! Integer time of the last drift of the #gpart in this cell */
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    integertime_t ti_old_part;
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    /*! Integer time of the last drift of the #multipole in this cell */
    integertime_t ti_old_multipole;
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    /*! Number of #gpart in this cell. */
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    int count;
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  } grav;

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  /*! Stars variables */
  struct {

    /*! Number of #spart in this cell. */
    int count;

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    /*! Maximal smoothing length. */
    double h_max;

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    /*! Minimal integer end-of-timestep in this cell for stars tasks */
    integertime_t ti_end_min;

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  } stars;

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  /*! Maximal depth in that part of the tree */
  int maxdepth;

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  /*! Relative indices of the cell's progeny. */
  int progeny[8];
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#ifdef SWIFT_DEBUG_CHECKS
  /* Cell ID (for debugging) */
  int cellID;
#endif

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} SWIFT_STRUCT_ALIGN;
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/**
 * @brief Cell information at the end of a time-step.
 */
struct pcell_step {

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  /*! Hydro variables */
  struct {

    /*! Minimal integer end-of-timestep in this cell (hydro) */
    integertime_t ti_end_min;
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    /*! Minimal integer end-of-timestep in this cell (hydro) */
    integertime_t ti_end_max;
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    /*! Maximal distance any #part has travelled since last rebuild */
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    float dx_max_part;
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  } hydro;
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  /*! Grav variables */
  struct {

    /*! Minimal integer end-of-timestep in this cell (gravity) */
    integertime_t ti_end_min;

    /*! Minimal integer end-of-timestep in this cell (gravity) */
    integertime_t ti_end_max;
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  } grav;
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  /*! Stars variables */
  struct {
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    /*! Maximal distance any #part has travelled since last rebuild */
    float dx_max_part;

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    /*! Minimal integer end-of-timestep in this cell (stars) */
    integertime_t ti_end_min;

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  } stars;
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};

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/**
 * @brief Cell within the tree structure.
 *
 * Contains particles, links to tasks, a multipole object and counters.
 */
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struct cell {

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  /*! The cell location on the grid. */
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  double loc[3];

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  /*! The cell dimensions. */
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  double width[3];
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  /*! Pointers to the next level of cells. */
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  struct cell *progeny[8];

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  /*! Linking pointer for "memory management". */
  struct cell *next;

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  /*! Parent cell. */
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  struct cell *parent;

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  /*! Super cell, i.e. the highest-level parent cell with *any* task */
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  struct cell *super;
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  /*! Hydro variables */
  struct {
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    /*! Pointer to the #part data. */
    struct part *parts;
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    /*! Pointer to the #xpart data. */
    struct xpart *xparts;
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    /*! Pointer for the sorted indices. */
    struct entry *sort[13];
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    /*! Super cell, i.e. the highest-level parent cell that has a hydro
     * pair/self tasks */
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    struct cell *super;
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    /*! The task computing this cell's sorts. */
    struct task *sorts;
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    /*! The drift task for parts */
    struct task *drift;
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    /*! Linked list of the tasks computing this cell's hydro density. */
    struct link *density;

    /* Linked list of the tasks computing this cell's hydro gradients. */
    struct link *gradient;

    /*! Linked list of the tasks computing this cell's hydro forces. */
    struct link *force;

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    /*! Linked list of the tasks computing this cell's limiter. */
    struct link *limiter;

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    /*! Dependency implicit task for the ghost  (in->ghost->out)*/
    struct task *ghost_in;

    /*! Dependency implicit task for the ghost  (in->ghost->out)*/
    struct task *ghost_out;

    /*! The ghost task itself */
    struct task *ghost;

    /*! The extra ghost task for complex hydro schemes */
    struct task *extra_ghost;

    /*! Task for cooling */
    struct task *cooling;

    /*! Task for star formation */
    struct task *star_formation;
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    /*! Max smoothing length in this cell. */
    double h_max;
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    /*! Last (integer) time the cell's part were drifted forward in time. */
    integertime_t ti_old_part;

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    /*! Minimum end of (integer) time step in this cell for hydro tasks. */
    integertime_t ti_end_min;
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    /*! Maximum end of (integer) time step in this cell for hydro tasks. */
    integertime_t ti_end_max;
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    /*! Maximum beginning of (integer) time step in this cell for hydro tasks.
     */
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    integertime_t ti_beg_max;
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    /*! Spin lock for various uses (#part case). */
    swift_lock_type lock;
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    /*! Maximum part movement in this cell since last construction. */
    float dx_max_part;
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    /*! Maximum particle movement in this cell since the last sort. */
    float dx_max_sort;
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    /*! Values of h_max before the drifts, used for sub-cell tasks. */
    float h_max_old;
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    /*! Values of dx_max before the drifts, used for sub-cell tasks. */
    float dx_max_part_old;

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    /*! Values of dx_max_sort before the drifts, used for sub-cell tasks. */
    float dx_max_sort_old;
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    /*! Nr of #part in this cell. */
    int count;

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    /*! Nr of #part this cell can hold after addition of new #part. */
    int count_total;

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    /*! Number of #part updated in this cell. */
    int updated;

    /*! Number of #part inhibited in this cell. */
    int inhibited;

    /*! Is the #part data of this cell being used in a sub-cell? */
    int hold;

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    /*! Bit mask of sort directions that will be needed in the next timestep. */
    unsigned int requires_sorts;
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    /*! Bit mask of sorts that need to be computed for this cell. */
    unsigned int do_sort;
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    /*! Bit-mask indicating the sorted directions */
    unsigned int sorted;

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    /*! Does this cell need to be drifted (hydro)? */
    char do_drift;
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    /*! Do any of this cell's sub-cells need to be drifted (hydro)? */
    char do_sub_drift;
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    /*! Do any of this cell's sub-cells need to be sorted? */
    char do_sub_sort;
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    /*! Does this cell need to be limited? */
    char do_limiter;

    /*! Do any of this cell's sub-cells need to be limited? */
    char do_sub_limiter;

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#ifdef SWIFT_DEBUG_CHECKS
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    /*! Last (integer) time the cell's sort arrays were updated. */
    integertime_t ti_sort;
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#endif
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  } hydro;
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  /*! Grav variables */
  struct {
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    /*! Pointer to the #gpart data. */
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    struct gpart *parts;
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    /*! This cell's multipole. */
    struct gravity_tensors *multipole;
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    /*! Super cell, i.e. the highest-level parent cell that has a grav pair/self
     * tasks */
    struct cell *super;
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    /*! The drift task for gparts */
    struct task *drift;

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    /*! Implicit task (going up- and down the tree) for the #gpart drifts */
    struct task *drift_out;

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    /*! Linked list of the tasks computing this cell's gravity forces. */
    struct link *grav;

    /*! Linked list of the tasks computing this cell's gravity M-M forces. */
    struct link *mm;

    /*! The multipole initialistation task */
    struct task *init;

    /*! Implicit task for the gravity initialisation */
    struct task *init_out;

    /*! Task computing long range non-periodic gravity interactions */
    struct task *long_range;

    /*! Implicit task for the down propagation */
    struct task *down_in;

    /*! Task propagating the mesh forces to the particles */
    struct task *mesh;

    /*! Task propagating the multipole to the particles */
    struct task *down;

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    /*! Minimum end of (integer) time step in this cell for gravity tasks. */
    integertime_t ti_end_min;
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    /*! Maximum end of (integer) time step in this cell for gravity tasks. */
    integertime_t ti_end_max;
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    /*! Maximum beginning of (integer) time step in this cell for gravity tasks.
     */
    integertime_t ti_beg_max;
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    /*! Last (integer) time the cell's gpart were drifted forward in time. */
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    integertime_t ti_old_part;
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    /*! Last (integer) time the cell's multipole was drifted forward in time. */
    integertime_t ti_old_multipole;
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    /*! Spin lock for various uses (#gpart case). */
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    swift_lock_type plock;
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    /*! Spin lock for various uses (#multipole case). */
    swift_lock_type mlock;
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    /*! Nr of #gpart in this cell. */
    int count;

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    /*! Nr of #gpart this cell can hold after addition of new #gpart. */
    int count_total;

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    /*! Number of #gpart updated in this cell. */
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    int updated;
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    /*! Number of #gpart inhibited in this cell. */
    int inhibited;

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    /*! Is the #gpart data of this cell being used in a sub-cell? */
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    int phold;
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    /*! Is the #multipole data of this cell being used in a sub-cell? */
    int mhold;
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    /*! Number of M-M tasks that are associated with this cell. */
    short int nr_mm_tasks;

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    /*! Does this cell need to be drifted (gravity)? */
    char do_drift;
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    /*! Do any of this cell's sub-cells need to be drifted (gravity)? */
    char do_sub_drift;
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  } grav;
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  /*! Stars variables */
  struct {
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    /*! Pointer to the #spart data. */
    struct spart *parts;
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    /*! Dependency implicit task for the star ghost  (in->ghost->out)*/
    struct task *ghost_in;

    /*! Dependency implicit task for the star ghost  (in->ghost->out)*/
    struct task *ghost_out;

    /*! The star ghost task itself */
    struct task *ghost;

    /*! Linked list of the tasks computing this cell's star density. */
    struct link *density;
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    /*! Linked list of the tasks computing this cell's star feedback. */
    struct link *feedback;

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    /*! The task computing this cell's sorts before the density. */
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    struct task *sorts;
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    /*! The drift task for sparts */
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    struct task *drift;
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    /*! Max smoothing length in this cell. */
    double h_max;

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    /*! Spin lock for various uses (#spart case). */
    swift_lock_type lock;

    /*! Nr of #spart in this cell. */
    int count;

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    /*! Nr of #spart this cell can hold after addition of new #spart. */
    int count_total;

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    /*! Values of h_max before the drifts, used for sub-cell tasks. */
    float h_max_old;

    /*! Maximum part movement in this cell since last construction. */
    float dx_max_part;

    /*! Values of dx_max before the drifts, used for sub-cell tasks. */
    float dx_max_part_old;

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    /*! Maximum particle movement in this cell since the last sort. */
    float dx_max_sort;

    /*! Values of dx_max_sort before the drifts, used for sub-cell tasks. */
    float dx_max_sort_old;

    /*! Bit mask of sort directions that will be needed in the next timestep. */
    unsigned int requires_sorts;

    /*! Pointer for the sorted indices. */
    struct entry *sort[13];

    /*! Bit-mask indicating the sorted directions */
    unsigned int sorted;

    /*! Bit mask of sorts that need to be computed for this cell. */
    unsigned int do_sort;

    /*! Do any of this cell's sub-cells need to be sorted? */
    char do_sub_sort;

    /*! Maximum end of (integer) time step in this cell for gravity tasks. */
    integertime_t ti_end_min;

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    /*! Number of #spart updated in this cell. */
    int updated;
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    /*! Number of #spart inhibited in this cell. */
    int inhibited;

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    /*! Is the #spart data of this cell being used in a sub-cell? */
    int hold;
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#ifdef SWIFT_DEBUG_CHECKS
    /*! Last (integer) time the cell's sort arrays were updated. */
    integertime_t ti_sort;
#endif

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  } stars;
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#ifdef WITH_MPI
  /*! MPI variables */
  struct {
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    struct {
      /* Task receiving hydro data (positions). */
      struct task *recv_xv;

      /* Task receiving hydro data (density). */
      struct task *recv_rho;

      /* Task receiving hydro data (gradient). */
      struct task *recv_gradient;

      /* Linked list for sending hydro data (positions). */
      struct link *send_xv;

      /* Linked list for sending hydro data (density). */
      struct link *send_rho;

      /* Linked list for sending hydro data (gradient). */
      struct link *send_gradient;

    } hydro;

    struct {

      /* Task receiving gpart data. */
      struct task *recv;

      /* Linked list for sending gpart data. */
      struct link *send;
    } grav;

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    struct {
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      /* Task receiving spart data. */
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      struct task *recv;
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      /* Linked list for sending spart data. */
      struct link *send;
    } stars;

    struct {
      /* Task receiving limiter data. */
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      struct task *recv;

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      /* Linked list for sending limiter data. */
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      struct link *send;
    } limiter;

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    /* Task receiving data (time-step). */
    struct task *recv_ti;

    /* Linked list for sending data (time-step). */
    struct link *send_ti;

    /*! Bit mask of the proxies this cell is registered with. */
    unsigned long long int sendto;

    /*! Pointer to this cell's packed representation. */
    struct pcell *pcell;

    /*! Size of the packed representation */
    int pcell_size;

    /*! MPI tag associated with this cell */
    int tag;
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  } mpi;
#endif
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  /*! The task to end the force calculation */
  struct task *end_force;

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  /*! The first kick task */
  struct task *kick1;
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  /*! The second kick task */
  struct task *kick2;
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  /*! The task to compute time-steps */
  struct task *timestep;

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  /*! The task to limit the time-step of inactive particles */
  struct task *timestep_limiter;
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  /*! The logger task */
  struct task *logger;

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  /*! Minimum dimension, i.e. smallest edge of this cell (min(width)). */
  float dmin;
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  /*! ID of the previous owner, e.g. runner. */
  int owner;

  /*! ID of the node this cell lives on. */
  int nodeID;

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  /*! Number of tasks that are associated with this cell. */
  short int nr_tasks;

  /*! The depth of this cell in the tree. */
  char depth;

  /*! Is this cell split ? */
  char split;

  /*! The maximal depth of this cell and its progenies */
  char maxdepth;

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#ifdef SWIFT_DEBUG_CHECKS
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  /* Cell ID (for debugging) */
  int cellID;

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  /*! The list of tasks that have been executed on this cell */
  char tasks_executed[64];

  /*! The list of sub-tasks that have been executed on this cell */
  char subtasks_executed[64];
#endif

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} SWIFT_STRUCT_ALIGN;
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/* Convert cell location to ID. */
#define cell_getid(cdim, i, j, k) \
  ((int)(k) + (cdim)[2] * ((int)(j) + (cdim)[1] * (int)(i)))

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/* Function prototypes. */
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void cell_split(struct cell *c, ptrdiff_t parts_offset, ptrdiff_t sparts_offset,
                struct cell_buff *buff, struct cell_buff *sbuff,
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                struct cell_buff *gbuff);
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void cell_sanitize(struct cell *c, int treated);
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int cell_locktree(struct cell *c);
void cell_unlocktree(struct cell *c);
int cell_glocktree(struct cell *c);
void cell_gunlocktree(struct cell *c);
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int cell_mlocktree(struct cell *c);
void cell_munlocktree(struct cell *c);
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int cell_slocktree(struct cell *c);
void cell_sunlocktree(struct cell *c);
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int cell_pack(struct cell *c, struct pcell *pc, const int with_gravity);
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int cell_unpack(struct pcell *pc, struct cell *c, struct space *s,
                const int with_gravity);
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int cell_pack_tags(const struct cell *c, int *tags);
int cell_unpack_tags(const int *tags, struct cell *c);
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int cell_pack_end_step(struct cell *c, struct pcell_step *pcell);
int cell_unpack_end_step(struct cell *c, struct pcell_step *pcell);
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int cell_pack_multipoles(struct cell *c, struct gravity_tensors *m);
int cell_unpack_multipoles(struct cell *c, struct gravity_tensors *m);
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int cell_getsize(struct cell *c);
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int cell_link_parts(struct cell *c, struct part *parts);
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int cell_link_gparts(struct cell *c, struct gpart *gparts);
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int cell_link_sparts(struct cell *c, struct spart *sparts);
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int cell_link_foreign_parts(struct cell *c, struct part *parts);
int cell_link_foreign_gparts(struct cell *c, struct gpart *gparts);
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int cell_count_parts_for_tasks(const struct cell *c);
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int cell_count_gparts_for_tasks(const struct cell *c);
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void cell_clean_links(struct cell *c, void *data);
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void cell_make_multipoles(struct cell *c, integertime_t ti_current);
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void cell_check_multipole(struct cell *c);
void cell_check_foreign_multipole(const struct cell *c);
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void cell_clean(struct cell *c);
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void cell_check_part_drift_point(struct cell *c, void *data);
void cell_check_gpart_drift_point(struct cell *c, void *data);
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void cell_check_multipole_drift_point(struct cell *c, void *data);
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void cell_reset_task_counters(struct cell *c);
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int cell_unskip_hydro_tasks(struct cell *c, struct scheduler *s);
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int cell_unskip_stars_tasks(struct cell *c, struct scheduler *s);
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int cell_unskip_gravity_tasks(struct cell *c, struct scheduler *s);
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void cell_set_super(struct cell *c, struct cell *super);
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void cell_drift_part(struct cell *c, const struct engine *e, int force);
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void cell_drift_gpart(struct cell *c, const struct engine *e, int force);
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void cell_drift_multipole(struct cell *c, const struct engine *e);
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void cell_drift_all_multipoles(struct cell *c, const struct engine *e);
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void cell_check_timesteps(struct cell *c);
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void cell_store_pre_drift_values(struct cell *c);
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void cell_activate_subcell_hydro_tasks(struct cell *ci, struct cell *cj,
                                       struct scheduler *s);
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void cell_activate_subcell_grav_tasks(struct cell *ci, struct cell *cj,
                                      struct scheduler *s);
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void cell_activate_subcell_stars_tasks(struct cell *ci, struct cell *cj,
                                       struct scheduler *s);
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void cell_activate_subcell_external_grav_tasks(struct cell *ci,
                                               struct scheduler *s);
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void cell_activate_drift_part(struct cell *c, struct scheduler *s);
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void cell_activate_drift_gpart(struct cell *c, struct scheduler *s);
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void cell_activate_drift_spart(struct cell *c, struct scheduler *s);
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void cell_activate_hydro_sorts(struct cell *c, int sid, struct scheduler *s);
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void cell_activate_stars_sorts(struct cell *c, int sid, struct scheduler *s);
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void cell_activate_limiter(struct cell *c, struct scheduler *s);
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void cell_clear_drift_flags(struct cell *c, void *data);
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void cell_clear_limiter_flags(struct cell *c, void *data);
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void cell_set_super_mapper(void *map_data, int num_elements, void *extra_data);
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void cell_check_spart_pos(const struct cell *c,
                          const struct spart *global_sparts);
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int cell_has_tasks(struct cell *c);
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void cell_remove_part(const struct engine *e, struct cell *c, struct part *p,
                      struct xpart *xp);
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void cell_remove_gpart(const struct engine *e, struct cell *c,
                       struct gpart *gp);
void cell_remove_spart(const struct engine *e, struct cell *c,
                       struct spart *sp);
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struct spart *cell_add_spart(struct engine *e, struct cell *c);
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struct gpart *cell_convert_part_to_gpart(const struct engine *e, struct cell *c,
                                         struct part *p, struct xpart *xp);
struct gpart *cell_convert_spart_to_gpart(const struct engine *e,
                                          struct cell *c, struct spart *sp);
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struct spart *cell_convert_part_to_spart(struct engine *e, struct cell *c,
                                         struct part *p, struct xpart *xp);
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void cell_reorder_extra_parts(struct cell *c, const ptrdiff_t parts_offset);
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void cell_reorder_extra_gparts(struct cell *c, struct part *parts,
                               struct spart *sparts);
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void cell_reorder_extra_sparts(struct cell *c, const ptrdiff_t sparts_offset);
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int cell_can_use_pair_mm(const struct cell *ci, const struct cell *cj,
                         const struct engine *e, const struct space *s);
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int cell_can_use_pair_mm_rebuild(const struct cell *ci, const struct cell *cj,
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                                 const struct engine *e, const struct space *s);
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/**
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 * @brief Compute the square of the minimal distance between any two points in
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 * two cells of the same size
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 *
 * @param ci The first #cell.
 * @param cj The second #cell.
 * @param periodic Are we using periodic BCs?
 * @param dim The dimensions of the simulation volume
 */
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__attribute__((always_inline)) INLINE static double cell_min_dist2_same_size(
    const struct cell *restrict ci, const struct cell *restrict cj,
    const int periodic, const double dim[3]) {
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#ifdef SWIFT_DEBUG_CHECKS
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  if (ci->width[0] != cj->width[0]) error("Cells of different size!");
  if (ci->width[1] != cj->width[1]) error("Cells of different size!");
  if (ci->width[2] != cj->width[2]) error("Cells of different size!");
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#endif

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  const double cix_min = ci->loc[0];
  const double ciy_min = ci->loc[1];
  const double ciz_min = ci->loc[2];
  const double cjx_min = cj->loc[0];
  const double cjy_min = cj->loc[1];
  const double cjz_min = cj->loc[2];

  const double cix_max = ci->loc[0] + ci->width[0];
  const double ciy_max = ci->loc[1] + ci->width[1];
  const double ciz_max = ci->loc[2] + ci->width[2];
  const double cjx_max = cj->loc[0] + cj->width[0];
  const double cjy_max = cj->loc[1] + cj->width[1];
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  const double cjz_max = cj->loc[2] + cj->width[2];

  if (periodic) {

    const double dx = min4(fabs(nearest(cix_min - cjx_min, dim[0])),
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                           fabs(nearest(cix_min - cjx_max, dim[0])),
                           fabs(nearest(cix_max - cjx_min, dim[0])),
                           fabs(nearest(cix_max - cjx_max, dim[0])));

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    const double dy = min4(fabs(nearest(ciy_min - cjy_min, dim[1])),
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                           fabs(nearest(ciy_min - cjy_max, dim[1])),
                           fabs(nearest(ciy_max - cjy_min, dim[1])),
                           fabs(nearest(ciy_max - cjy_max, dim[1])));

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    const double dz = min4(fabs(nearest(ciz_min - cjz_min, dim[2])),
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                           fabs(nearest(ciz_min - cjz_max, dim[2])),
                           fabs(nearest(ciz_max - cjz_min, dim[2])),
                           fabs(nearest(ciz_max - cjz_max, dim[2])));

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    return dx * dx + dy * dy + dz * dz;

  } else {

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    const double dx = min(fabs(cix_max - cjx_min), fabs(cix_min - cjx_max));
    const double dy = min(fabs(ciy_max - cjy_min), fabs(ciy_min - cjy_max));
    const double dz = min(fabs(ciz_max - cjz_min), fabs(ciz_min - cjz_max));
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    return dx * dx + dy * dy + dz * dz;
  }
}

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/* Inlined functions (for speed). */

/**
 * @brief Can a sub-pair hydro task recurse to a lower level based
 * on the status of the particles in the cell.
 *
 * @param c The #cell.
 */
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__attribute__((always_inline)) INLINE static int
cell_can_recurse_in_pair_hydro_task(const struct cell *c) {
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  /* Is the cell split ? */
  /* If so, is the cut-off radius plus the max distance the parts have moved */
  /* smaller than the sub-cell sizes ? */
  /* Note: We use the _old values as these might have been updated by a drift */
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  return c->split && ((kernel_gamma * c->hydro.h_max_old +
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                       c->hydro.dx_max_part_old) < 0.5f * c->dmin);
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}

/**
 * @brief Can a sub-self hydro task recurse to a lower level based
 * on the status of the particles in the cell.
 *
 * @param c The #cell.
 */
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__attribute__((always_inline)) INLINE static int
cell_can_recurse_in_self_hydro_task(const struct cell *c) {
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  /* Is the cell split and not smaller than the smoothing length? */
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  return c->split && (kernel_gamma * c->hydro.h_max_old < 0.5f * c->dmin);
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}

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/**
 * @brief Can a sub-pair star task recurse to a lower level based
 * on the status of the particles in the cell.
 *
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 * @param ci The #cell with stars.
 * @param cj The #cell with hydro parts.
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 */
__attribute__((always_inline)) INLINE static int
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cell_can_recurse_in_pair_stars_task(const struct cell *ci,
                                    const struct cell *cj) {
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  /* Is the cell split ? */
  /* If so, is the cut-off radius plus the max distance the parts have moved */
  /* smaller than the sub-cell sizes ? */
  /* Note: We use the _old values as these might have been updated by a drift */
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  return ci->split && cj->split &&
         ((kernel_gamma * ci->stars.h_max_old + ci->stars.dx_max_part_old) <
          0.5f * ci->dmin) &&
         ((kernel_gamma * cj->hydro.h_max_old + cj->hydro.dx_max_part_old) <
          0.5f * cj->dmin);
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}

/**
 * @brief Can a sub-self stars task recurse to a lower level based
 * on the status of the particles in the cell.
 *
 * @param c The #cell.
 */
__attribute__((always_inline)) INLINE static int
cell_can_recurse_in_self_stars_task(const struct cell *c) {

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  /* Is the cell split and not smaller than the smoothing length? */
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  return c->split && (kernel_gamma * c->stars.h_max_old < 0.5f * c->dmin) &&
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         (kernel_gamma * c->hydro.h_max_old < 0.5f * c->dmin);
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}

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/**
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 * @brief Can a pair hydro task associated with a cell be split into smaller
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 * sub-tasks.
 *
 * @param c The #cell.
 */
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__attribute__((always_inline)) INLINE static int cell_can_split_pair_hydro_task(
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    const struct cell *c) {

  /* Is the cell split ? */
  /* If so, is the cut-off radius with some leeway smaller than */
  /* the sub-cell sizes ? */
  /* Note that since tasks are create after a rebuild no need to take */
  /* into account any part motion (i.e. dx_max == 0 here) */
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  return c->split &&
         (space_stretch * kernel_gamma * c->hydro.h_max < 0.5f * c->dmin);
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}

/**
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 * @brief Can a self hydro task associated with a cell be split into smaller
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 * sub-tasks.
 *
 * @param c The #cell.
 */
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__attribute__((always_inline)) INLINE static int cell_can_split_self_hydro_task(
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    const struct cell *c) {

  /* Is the cell split ? */
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  /* If so, is the cut-off radius with some leeway smaller than */
  /* the sub-cell sizes ? */
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  /* Note: No need for more checks here as all the sub-pairs and sub-self */
  /* tasks will be created. So no need to check for h_max */
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  return c->split &&
         (space_stretch * kernel_gamma * c->hydro.h_max < 0.5f * c->dmin);
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}

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/**
 * @brief Can a pair stars task associated with a cell be split into smaller
 * sub-tasks.
 *
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 * @param ci The #cell with stars.
 * @param cj The #cell with hydro part.
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 */
__attribute__((always_inline)) INLINE static int cell_can_split_pair_stars_task(
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    const struct cell *ci, const struct cell *cj) {
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  /* Is the cell split ? */
  /* If so, is the cut-off radius with some leeway smaller than */
  /* the sub-cell sizes ? */
  /* Note that since tasks are create after a rebuild no need to take */
  /* into account any part motion (i.e. dx_max == 0 here) */
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  return ci->split && cj->split &&
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         (space_stretch * kernel_gamma * ci->stars.h_max < 0.5f * ci->dmin) &&
         (space_stretch * kernel_gamma * cj->hydro.h_max < 0.5f * cj->dmin);
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}

/**
 * @brief Can a self stars task associated with a cell be split into smaller
 * sub-tasks.
 *
 * @param c The #cell.
 */
__attribute__((always_inline)) INLINE static int cell_can_split_self_stars_task(
    const struct cell *c) {

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  /* Is the cell split ? */
  /* If so, is the cut-off radius with some leeway smaller than */
  /* the sub-cell sizes ? */
  /* Note: No need for more checks here as all the sub-pairs and sub-self */
  /* tasks will be created. So no need to check for h_max */
  return c->split &&
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         (space_stretch * kernel_gamma * c->stars.h_max < 0.5f * c->dmin) &&
         (space_stretch * kernel_gamma * c->hydro.h_max < 0.5f * c->dmin);
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}

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/**
 * @brief Can a pair gravity task associated with a cell be split into smaller
 * sub-tasks.
 *
 * @param c The #cell.
 */
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__attribute__((always_inline)) INLINE static int
cell_can_split_pair_gravity_task(const struct cell *c) {
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  /* Is the cell split and still far from the leaves ? */
  return c->split && ((c->maxdepth - c->depth) > space_subdepth_diff_grav);
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}

/**
 * @brief Can a self gravity task associated with a cell be split into smaller
 * sub-tasks.
 *
 * @param c The #cell.
 */
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__attribute__((always_inline)) INLINE static int
cell_can_split_self_gravity_task(const struct cell *c) {
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  /* Is the cell split and still far from the leaves ? */
  return c->split && ((c->maxdepth - c->depth) > space_subdepth_diff_grav);
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}

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/**
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