task.c 7.96 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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 *
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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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 ******************************************************************************/

/* Config parameters. */
#include "../config.h"

/* Some standard headers. */
#include <float.h>
#include <limits.h>
#include <sched.h>
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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
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/* MPI headers. */
#ifdef WITH_MPI
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#include <mpi.h>
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#endif

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/* This object's header. */
#include "task.h"

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/* Local headers. */
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#include "atomic.h"
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#include "error.h"
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#include "lock.h"
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/* Task type names. */
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const char *taskID_names[task_type_count] = {
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    "none",    "sort",    "self",    "pair",     "sub",  "init",
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    "ghost",   "drift",   "kick",    "send",     "recv",
    "grav_pp", "grav_mm", "grav_up", "grav_down",
    "psort", "split_cell", "rewait"};
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const char *subtaskID_names[task_type_count] = {"none",  "density",
                                                "force", "grav"};
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/**
 * @brief Computes the overlap between the parts array of two given cells.
 */
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size_t task_cell_overlap(const struct cell *ci, const struct cell *cj) {
  if (ci == NULL || cj == NULL) return 0;
  if (ci->parts <= cj->parts &&
      ci->parts + ci->count >= cj->parts + cj->count) {
    return cj->count;
  } else if (cj->parts <= ci->parts &&
             cj->parts + cj->count >= ci->parts + ci->count) {
    return ci->count;
  }
  return 0;
}

/**
 * @brief Compute the Jaccard similarity of the data used by two
 *        different tasks.
 *
 * @param ta The first #task.
 * @param tb The second #task.
 */

float task_overlap(const struct task *ta, const struct task *tb) {
  /* First check if any of the two tasks are of a type that don't
     use cells. */
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  if (ta == NULL || tb == NULL || ta->type == task_type_none ||
      ta->type == task_type_psort || ta->type == task_type_split_cell ||
      ta->type == task_type_rewait || tb->type == task_type_none ||
      tb->type == task_type_psort || tb->type == task_type_split_cell ||
      tb->type == task_type_rewait)
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    return 0.0f;

  /* Compute the union of the cell data. */
  size_t size_union = 0;
  if (ta->ci != NULL) size_union += ta->ci->count;
  if (ta->cj != NULL) size_union += ta->cj->count;
  if (tb->ci != NULL) size_union += tb->ci->count;
  if (tb->cj != NULL) size_union += tb->cj->count;

  /* Compute the intersection of the cell data. */
  const size_t size_intersect =
      task_cell_overlap(ta->ci, tb->ci) + task_cell_overlap(ta->ci, tb->cj) +
      task_cell_overlap(ta->cj, tb->ci) + task_cell_overlap(ta->cj, tb->cj);

  return ((float)size_intersect) / (size_union - size_intersect);
}
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/**
 * @brief Unlock the cell held by this task.
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 *
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 * @param t The #task.
 */

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void task_unlock(struct task *t) {

  /* Act based on task type. */
  switch (t->type) {
    case task_type_self:
    case task_type_sort:
      cell_unlocktree(t->ci);
      break;
    case task_type_pair:
    case task_type_sub:
      cell_unlocktree(t->ci);
      if (t->cj != NULL) cell_unlocktree(t->cj);
      break;
    case task_type_grav_pp:
    case task_type_grav_mm:
    case task_type_grav_down:
      cell_gunlocktree(t->ci);
      if (t->cj != NULL) cell_gunlocktree(t->cj);
      break;
    default:
      break;
  }
}
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/**
 * @brief Try to lock the cells associated with this task.
 *
 * @param t the #task.
 */
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int task_lock(struct task *t) {

  int type = t->type;
  struct cell *ci = t->ci, *cj = t->cj;

  /* Communication task? */
  if (type == task_type_recv || type == task_type_send) {

#ifdef WITH_MPI
    /* Check the status of the MPI request. */
    int res, err;
    MPI_Status stat;
    if ((err = MPI_Test(&t->req, &res, &stat)) != MPI_SUCCESS) {
      char buff[MPI_MAX_ERROR_STRING];
      int len;
      MPI_Error_string(err, buff, &len);
      error("Failed to test request on send/recv task (tag=%i, %s).", t->flags,
            buff);
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    }
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    return res;
#else
    error("SWIFT was not compiled with MPI support.");
#endif
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  }

  /* Unary lock? */
  else if (type == task_type_self || type == task_type_sort ||
           (type == task_type_sub && cj == NULL)) {
    if (cell_locktree(ci) != 0) return 0;
  }

  /* Otherwise, binary lock. */
  else if (type == task_type_pair || (type == task_type_sub && cj != NULL)) {
    if (ci->hold || cj->hold) return 0;
    if (cell_locktree(ci) != 0) return 0;
    if (cell_locktree(cj) != 0) {
      cell_unlocktree(ci);
      return 0;
    }
  }

  /* Gravity tasks? */
  else if (type == task_type_grav_mm || type == task_type_grav_pp ||
           type == task_type_grav_down) {
    if (ci->ghold || (cj != NULL && cj->ghold)) return 0;
    if (cell_glocktree(ci) != 0) return 0;
    if (cj != NULL && cell_glocktree(cj) != 0) {
      cell_gunlocktree(ci);
      return 0;
    }
  }

  /* If we made it this far, we've got a lock. */
  return 1;
}
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/**
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 * @brief Remove all unlocks to tasks that are of the given type.
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 *
 * @param t The #task.
 * @param type The task type ID to remove.
 */
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void task_cleanunlock(struct task *t, int type) {

  int k;

  lock_lock(&t->lock);

  for (k = 0; k < t->nr_unlock_tasks; k++)
    if (t->unlock_tasks[k]->type == type) {
      t->nr_unlock_tasks -= 1;
      t->unlock_tasks[k] = t->unlock_tasks[t->nr_unlock_tasks];
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    }

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  lock_unlock_blind(&t->lock);
}
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/**
 * @brief Remove an unlock_task from the given task.
 *
 * @param ta The unlocking #task.
 * @param tb The #task that will be unlocked.
 */

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void task_rmunlock(struct task *ta, struct task *tb) {

  int k;

  lock_lock(&ta->lock);

  for (k = 0; k < ta->nr_unlock_tasks; k++)
    if (ta->unlock_tasks[k] == tb) {
      ta->nr_unlock_tasks -= 1;
      ta->unlock_tasks[k] = ta->unlock_tasks[ta->nr_unlock_tasks];
      lock_unlock_blind(&ta->lock);
      return;
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    }
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  error("Task not found.");
}
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/**
 * @brief Remove an unlock_task from the given task.
 *
 * @param ta The unlocking #task.
 * @param tb The #task that will be unlocked.
 *
 * Differs from #task_rmunlock in that it will not fail if
 * the task @c tb is not in the unlocks of @c ta.
 */

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void task_rmunlock_blind(struct task *ta, struct task *tb) {

  int k;

  lock_lock(&ta->lock);

  for (k = 0; k < ta->nr_unlock_tasks; k++)
    if (ta->unlock_tasks[k] == tb) {
      ta->nr_unlock_tasks -= 1;
      ta->unlock_tasks[k] = ta->unlock_tasks[ta->nr_unlock_tasks];
      break;
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    }
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  lock_unlock_blind(&ta->lock);
}
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/**
 * @brief Add an unlock_task to the given task.
 *
 * @param ta The unlocking #task.
 * @param tb The #task that will be unlocked.
 */
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void task_addunlock(struct task *ta, struct task *tb) {
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  error("Use sched_addunlock instead.");
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  /* Add the lock atomically. */
  ta->unlock_tasks[atomic_inc(&ta->nr_unlock_tasks)] = tb;

  /* Check a posteriori if we did not overshoot. */
  if (ta->nr_unlock_tasks > task_maxunlock)
    error("Too many unlock_tasks in task.");
}

void task_addunlock_old(struct task *ta, struct task *tb) {

  int k;

  lock_lock(&ta->lock);

  /* Check if ta already unlocks tb. */
  for (k = 0; k < ta->nr_unlock_tasks; k++)
    if (ta->unlock_tasks[k] == tb) {
      error("Duplicate unlock.");
      lock_unlock_blind(&ta->lock);
      return;
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    }

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  if (ta->nr_unlock_tasks == task_maxunlock)
    error("Too many unlock_tasks in task.");

  ta->unlock_tasks[ta->nr_unlock_tasks] = tb;
  ta->nr_unlock_tasks += 1;

  lock_unlock_blind(&ta->lock);
}