-/* Copyright (c) 2004, 2005, 2007, 2009, 2010. The SimGrid Team.
+/* Copyright (c) 2004-2005, 2007, 2009-2014. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
-#include "gras_config.h"
+
+#include "internal_config.h"
#include <unistd.h>
#ifndef _XBT_WIN32
#ifdef HAVE_FUTEX_H
#include <linux/futex.h>
+#include <limits.h>
#endif
#include "xbt/parmap.h"
#include "xbt/dynar.h"
#include "xbt/xbt_os_thread.h"
#include "xbt/sysdep.h"
+#include "simix/smx_private.h"
XBT_LOG_NEW_DEFAULT_SUBCATEGORY(xbt_parmap, xbt, "parmap: parallel map");
-XBT_LOG_NEW_SUBCATEGORY(xbt_parmap_unit, xbt_parmap, "parmap unit testing");
typedef enum {
- XBT_PARMAP_WORK = 0,
+ XBT_PARMAP_WORK,
XBT_PARMAP_DESTROY
} e_xbt_parmap_flag_t;
static void xbt_parmap_set_mode(xbt_parmap_t parmap, e_xbt_parmap_mode_t mode);
static void *xbt_parmap_worker_main(void *parmap);
+static void xbt_parmap_work(xbt_parmap_t parmap);
-static void xbt_parmap_posix_start(xbt_parmap_t parmap);
-static void xbt_parmap_posix_end(xbt_parmap_t parmap);
-static void xbt_parmap_posix_signal(xbt_parmap_t parmap);
-static void xbt_parmap_posix_wait(xbt_parmap_t parmap);
+static void xbt_parmap_posix_master_wait(xbt_parmap_t parmap);
+static void xbt_parmap_posix_worker_signal(xbt_parmap_t parmap);
+static void xbt_parmap_posix_master_signal(xbt_parmap_t parmap);
+static void xbt_parmap_posix_worker_wait(xbt_parmap_t parmap, unsigned round);
#ifdef HAVE_FUTEX_H
-static void xbt_parmap_futex_start(xbt_parmap_t parmap);
-static void xbt_parmap_futex_end(xbt_parmap_t parmap);
-static void xbt_parmap_futex_signal(xbt_parmap_t parmap);
-static void xbt_parmap_futex_wait(xbt_parmap_t parmap);
-static void futex_wait(int *uaddr, int val);
-static void futex_wake(int *uaddr, int val);
+static void xbt_parmap_futex_master_wait(xbt_parmap_t parmap);
+static void xbt_parmap_futex_worker_signal(xbt_parmap_t parmap);
+static void xbt_parmap_futex_master_signal(xbt_parmap_t parmap);
+static void xbt_parmap_futex_worker_wait(xbt_parmap_t parmap, unsigned round);
+static void futex_wait(unsigned *uaddr, unsigned val);
+static void futex_wake(unsigned *uaddr, unsigned val);
#endif
-static void xbt_parmap_busy_start(xbt_parmap_t parmap);
-static void xbt_parmap_busy_end(xbt_parmap_t parmap);
-static void xbt_parmap_busy_signal(xbt_parmap_t parmap);
-static void xbt_parmap_busy_wait(xbt_parmap_t parmap);
+static void xbt_parmap_busy_master_wait(xbt_parmap_t parmap);
+static void xbt_parmap_busy_worker_signal(xbt_parmap_t parmap);
+static void xbt_parmap_busy_master_signal(xbt_parmap_t parmap);
+static void xbt_parmap_busy_worker_wait(xbt_parmap_t parmap, unsigned round);
+#ifdef HAVE_MC
+static void xbt_parmap_mc_work(xbt_parmap_t parmap, int worker_id);
+static void *xbt_parmap_mc_worker_main(void *arg);
+#endif
/**
* \brief Parallel map structure
*/
typedef struct s_xbt_parmap {
e_xbt_parmap_flag_t status; /**< is the parmap active or being destroyed? */
- int work; /**< index of the current round (1 is the first) */
- int done; /**< number of rounds already done (futexes only) */
- unsigned int thread_counter; /**< number of threads currently working */
+ unsigned work; /**< index of the current round */
+ unsigned thread_counter; /**< number of workers that have done the work */
+
unsigned int num_workers; /**< total number of worker threads including the controller */
+ xbt_os_thread_t *workers; /**< worker thread handlers */
void_f_pvoid_t fun; /**< function to run in parallel on each element of data */
xbt_dynar_t data; /**< parameters to pass to fun in parallel */
unsigned int index; /**< index of the next element of data to pick */
+#ifdef HAVE_MC
+ int finish;
+ void* ref_snapshot;
+ int_f_pvoid_pvoid_t snapshot_compare;
+ unsigned int length;
+ void* mc_data;
+#endif
+
+ /* posix only */
+ xbt_os_cond_t ready_cond;
+ xbt_os_mutex_t ready_mutex;
+ xbt_os_cond_t done_cond;
+ xbt_os_mutex_t done_mutex;
+
/* fields that depend on the synchronization mode */
e_xbt_parmap_mode_t mode; /**< synchronization mode */
- void (*start_f)(xbt_parmap_t); /**< initializes the worker threads */
- void (*end_f)(xbt_parmap_t); /**< finalizes the worker threads */
- void (*signal_f)(xbt_parmap_t); /**< wakes the workers threads to process tasks */
- void (*wait_f)(xbt_parmap_t); /**< waits for more work */
+ void (*master_wait_f)(xbt_parmap_t); /**< wait for the workers to have done the work */
+ void (*worker_signal_f)(xbt_parmap_t); /**< signal the master that a worker has done the work */
+ void (*master_signal_f)(xbt_parmap_t); /**< wakes the workers threads to process tasks */
+ void (*worker_wait_f)(xbt_parmap_t, unsigned); /**< waits for more work */
} s_xbt_parmap_t;
+/**
+ * \brief Thread data transmission structure
+ */
+typedef struct s_xbt_parmap_thread_data{
+ xbt_parmap_t parmap;
+ int worker_id;
+} s_xbt_parmap_thread_data_t;
+
+typedef s_xbt_parmap_thread_data_t *xbt_parmap_thread_data_t;
+
/**
* \brief Creates a parallel map object
* \param num_workers number of worker threads to create
xbt_parmap_t xbt_parmap_new(unsigned int num_workers, e_xbt_parmap_mode_t mode)
{
unsigned int i;
- xbt_os_thread_t worker = NULL;
XBT_DEBUG("Create new parmap (%u workers)", num_workers);
/* Initialize the thread pool data structure */
xbt_parmap_t parmap = xbt_new0(s_xbt_parmap_t, 1);
+ parmap->workers = xbt_new(xbt_os_thread_t, num_workers);
parmap->num_workers = num_workers;
parmap->status = XBT_PARMAP_WORK;
xbt_parmap_set_mode(parmap, mode);
/* Create the pool of worker threads */
- for (i = 0; i < num_workers - 1; i++) {
- worker = xbt_os_thread_create(NULL, xbt_parmap_worker_main, parmap, NULL);
- xbt_os_thread_detach(worker);
+ xbt_parmap_thread_data_t data;
+ parmap->workers[0] = NULL;
+ for (i = 1; i < num_workers; i++) {
+ data = xbt_new0(s_xbt_parmap_thread_data_t, 1);
+ data->parmap = parmap;
+ data->worker_id = i;
+ parmap->workers[i] = xbt_os_thread_create(NULL, xbt_parmap_worker_main,
+ data, NULL);
}
- parmap->start_f(parmap);
return parmap;
}
+#ifdef HAVE_MC
+/**
+ * \brief Creates a parallel map object
+ * \param num_workers number of worker threads to create
+ * \param mode how to synchronize the worker threads
+ * \return the parmap created
+ */
+xbt_parmap_t xbt_parmap_mc_new(unsigned int num_workers, e_xbt_parmap_mode_t mode)
+{
+ unsigned int i;
+
+ XBT_DEBUG("Create new parmap (%u workers)", num_workers);
+
+ /* Initialize the thread pool data structure */
+ xbt_parmap_t parmap = xbt_new0(s_xbt_parmap_t, 1);
+ parmap->workers = xbt_new(xbt_os_thread_t, num_workers);
+
+ parmap->num_workers = num_workers;
+ parmap->status = XBT_PARMAP_WORK;
+ xbt_parmap_set_mode(parmap, mode);
+
+ /* Create the pool of worker threads */
+ xbt_parmap_thread_data_t data;
+ parmap->workers[0] = NULL;
+ for (i = 1; i < num_workers; i++) {
+ data = xbt_new0(s_xbt_parmap_thread_data_t, 1);
+ data->parmap = parmap;
+ data->worker_id = i;
+ parmap->workers[i] = xbt_os_thread_create(NULL, xbt_parmap_mc_worker_main,
+ data, NULL);
+ }
+ return parmap;
+}
+#endif
+
/**
* \brief Destroys a parmap
* \param parmap the parmap to destroy
*/
void xbt_parmap_destroy(xbt_parmap_t parmap)
{
+ if (!parmap) {
+ return;
+ }
+
parmap->status = XBT_PARMAP_DESTROY;
- parmap->signal_f(parmap);
+ parmap->master_signal_f(parmap);
+
+ unsigned int i;
+ for (i = 1; i < parmap->num_workers; i++)
+ xbt_os_thread_join(parmap->workers[i], NULL);
+
+ xbt_os_cond_destroy(parmap->ready_cond);
+ xbt_os_mutex_destroy(parmap->ready_mutex);
+ xbt_os_cond_destroy(parmap->done_cond);
+ xbt_os_mutex_destroy(parmap->done_mutex);
+
+ xbt_free(parmap->workers);
xbt_free(parmap);
}
*/
static void xbt_parmap_set_mode(xbt_parmap_t parmap, e_xbt_parmap_mode_t mode)
{
+ if (mode == XBT_PARMAP_DEFAULT) {
+#ifdef HAVE_FUTEX_H
+ mode = XBT_PARMAP_FUTEX;
+#else
+ mode = XBT_PARMAP_POSIX;
+#endif
+ }
parmap->mode = mode;
switch (mode) {
case XBT_PARMAP_POSIX:
- parmap->start_f = xbt_parmap_posix_start;
- parmap->end_f = xbt_parmap_posix_end;
- parmap->signal_f = xbt_parmap_posix_signal;
- parmap->wait_f = xbt_parmap_posix_wait;
+ parmap->master_wait_f = xbt_parmap_posix_master_wait;
+ parmap->worker_signal_f = xbt_parmap_posix_worker_signal;
+ parmap->master_signal_f = xbt_parmap_posix_master_signal;
+ parmap->worker_wait_f = xbt_parmap_posix_worker_wait;
+
+ parmap->ready_cond = xbt_os_cond_init();
+ parmap->ready_mutex = xbt_os_mutex_init();
+ parmap->done_cond = xbt_os_cond_init();
+ parmap->done_mutex = xbt_os_mutex_init();
break;
case XBT_PARMAP_FUTEX:
#ifdef HAVE_FUTEX_H
- parmap->start_f = xbt_parmap_futex_start;
- parmap->end_f = xbt_parmap_futex_end;
- parmap->signal_f = xbt_parmap_futex_signal;
- parmap->wait_f = xbt_parmap_futex_wait;
-#endif
- xbt_die("Impossible to use futex on Mac");
+ parmap->master_wait_f = xbt_parmap_futex_master_wait;
+ parmap->worker_signal_f = xbt_parmap_futex_worker_signal;
+ parmap->master_signal_f = xbt_parmap_futex_master_signal;
+ parmap->worker_wait_f = xbt_parmap_futex_worker_wait;
+
+ xbt_os_cond_destroy(parmap->ready_cond);
+ xbt_os_mutex_destroy(parmap->ready_mutex);
+ xbt_os_cond_destroy(parmap->done_cond);
+ xbt_os_mutex_destroy(parmap->done_mutex);
break;
+#else
+ xbt_die("Futex is not available on this OS.");
+#endif
case XBT_PARMAP_BUSY_WAIT:
- parmap->start_f = xbt_parmap_busy_start;
- parmap->end_f = xbt_parmap_busy_end;
- parmap->signal_f = xbt_parmap_busy_signal;
- parmap->wait_f = xbt_parmap_busy_wait;
+ parmap->master_wait_f = xbt_parmap_busy_master_wait;
+ parmap->worker_signal_f = xbt_parmap_busy_worker_signal;
+ parmap->master_signal_f = xbt_parmap_busy_master_signal;
+ parmap->worker_wait_f = xbt_parmap_busy_worker_wait;
+
+ xbt_os_cond_destroy(parmap->ready_cond);
+ xbt_os_mutex_destroy(parmap->ready_mutex);
+ xbt_os_cond_destroy(parmap->done_cond);
+ xbt_os_mutex_destroy(parmap->done_mutex);
+ break;
+
+ case XBT_PARMAP_DEFAULT:
+ THROW_IMPOSSIBLE;
break;
}
}
parmap->fun = fun;
parmap->data = data;
parmap->index = 0;
- parmap->signal_f(parmap);
+ parmap->master_signal_f(parmap);
+ xbt_parmap_work(parmap);
+ parmap->master_wait_f(parmap);
XBT_DEBUG("Job done");
}
return NULL;
}
+static void xbt_parmap_work(xbt_parmap_t parmap)
+{
+ unsigned index;
+ while ((index = __sync_fetch_and_add(&parmap->index, 1))
+ < xbt_dynar_length(parmap->data))
+ parmap->fun(xbt_dynar_get_as(parmap->data, index, void*));
+}
+
/**
* \brief Main function of a worker thread.
* \param arg the parmap
*/
static void *xbt_parmap_worker_main(void *arg)
{
- xbt_parmap_t parmap = (xbt_parmap_t) arg;
+ xbt_parmap_thread_data_t data = (xbt_parmap_thread_data_t) arg;
+ xbt_parmap_t parmap = data->parmap;
+ unsigned round = 0;
+ smx_context_t context = SIMIX_context_new(NULL, 0, NULL, NULL, NULL);
+ SIMIX_context_set_current(context);
XBT_DEBUG("New worker thread created");
/* Worker's main loop */
while (1) {
- parmap->wait_f(parmap);
+ parmap->worker_wait_f(parmap, ++round);
if (parmap->status == XBT_PARMAP_WORK) {
- XBT_DEBUG("Worker got a job");
+ XBT_DEBUG("Worker %d got a job", data->worker_id);
- void* work = xbt_parmap_next(parmap);
- while (work != NULL) {
- parmap->fun(work);
- work = xbt_parmap_next(parmap);
- }
+ xbt_parmap_work(parmap);
+ parmap->worker_signal_f(parmap);
- XBT_DEBUG("Worker has finished");
+ XBT_DEBUG("Worker %d has finished", data->worker_id);
/* We are destroying the parmap */
} else {
- parmap->end_f(parmap);
- XBT_DEBUG("Shutting down worker");
+ SIMIX_context_free(context);
+ xbt_free(data);
return NULL;
}
}
}
+#ifdef HAVE_MC
+
+/**
+ * \brief Applies a list of tasks in parallel.
+ * \param parmap a parallel map object
+ * \param fun the function to call in parallel
+ * \param data each element of this dynar will be passed as an argument to fun
+ */
+int xbt_parmap_mc_apply(xbt_parmap_t parmap, int_f_pvoid_pvoid_t fun,
+ void* data, unsigned int length, void* ref_snapshot)
+{
+ /* Assign resources to worker threads */
+ parmap->snapshot_compare = fun;
+ parmap->mc_data = data;
+ parmap->index = 0;
+ parmap->finish = -1;
+ parmap->length = length;
+ parmap->ref_snapshot = ref_snapshot;
+ parmap->master_signal_f(parmap);
+ xbt_parmap_mc_work(parmap, 0);
+ parmap->master_wait_f(parmap);
+ XBT_DEBUG("Job done");
+ return parmap->finish;
+}
+
+static void xbt_parmap_mc_work(xbt_parmap_t parmap, int worker_id)
+{
+ unsigned int data_size = (parmap->length / parmap->num_workers) +
+ ((parmap->length % parmap->num_workers) ? 1 :0);
+ void* start = (char*)parmap->mc_data + (data_size*worker_id*sizeof(void*));
+ void* end = MIN((char *)start + data_size* sizeof(void*), (char*)parmap->mc_data + parmap->length*sizeof(void*));
+
+ //XBT_CRITICAL("Worker %d : %p -> %p (%d)", worker_id, start, end, data_size);
+
+ while ( start < end && parmap->finish == -1) {
+ //XBT_CRITICAL("Starting with %p", start);
+ int res = parmap->snapshot_compare(*(void**)start, parmap->ref_snapshot);
+ start = (char *)start + sizeof(start);
+ if (!res){
+
+ parmap->finish = ((char*)start - (char*)parmap->mc_data) / sizeof(void*);
+ //XBT_CRITICAL("Find good one %p (%p)", start, parmap->mc_data);
+ break;
+ }
+ }
+}
+
+/**
+ * \brief Main function of a worker thread.
+ * \param arg the parmap
+ */
+static void *xbt_parmap_mc_worker_main(void *arg)
+{
+ xbt_parmap_thread_data_t data = (xbt_parmap_thread_data_t) arg;
+ xbt_parmap_t parmap = data->parmap;
+ unsigned round = 0;
+ /* smx_context_t context = SIMIX_context_new(NULL, 0, NULL, NULL, NULL); */
+ /* SIMIX_context_set_current(context); */
+
+ XBT_DEBUG("New worker thread created");
+
+ /* Worker's main loop */
+ while (1) {
+ parmap->worker_wait_f(parmap, ++round);
+ if (parmap->status == XBT_PARMAP_WORK) {
+
+ XBT_DEBUG("Worker %d got a job", data->worker_id);
+
+ xbt_parmap_mc_work(parmap, data->worker_id);
+ parmap->worker_signal_f(parmap);
+
+ XBT_DEBUG("Worker %d has finished", data->worker_id);
+
+ /* We are destroying the parmap */
+ } else {
+ xbt_free(data);
+ return NULL;
+ }
+ }
+}
+#endif
+
#ifdef HAVE_FUTEX_H
-static void futex_wait(int *uaddr, int val)
+static void futex_wait(unsigned *uaddr, unsigned val)
{
XBT_VERB("Waiting on futex %p", uaddr);
syscall(SYS_futex, uaddr, FUTEX_WAIT_PRIVATE, val, NULL, NULL, 0);
}
-static void futex_wake(int *uaddr, int val)
+static void futex_wake(unsigned *uaddr, unsigned val)
{
XBT_VERB("Waking futex %p", uaddr);
syscall(SYS_futex, uaddr, FUTEX_WAKE_PRIVATE, val, NULL, NULL, 0);
}
#endif
-static void xbt_parmap_posix_start(xbt_parmap_t parmap)
+/**
+ * \brief Starts the parmap: waits for all workers to be ready and returns.
+ *
+ * This function is called by the controller thread.
+ *
+ * \param parmap a parmap
+ */
+static void xbt_parmap_posix_master_wait(xbt_parmap_t parmap)
{
- THROW_UNIMPLEMENTED;
+ xbt_os_mutex_acquire(parmap->done_mutex);
+ if (parmap->thread_counter < parmap->num_workers) {
+ /* wait for all workers to be ready */
+ xbt_os_cond_wait(parmap->done_cond, parmap->done_mutex);
+ }
+ xbt_os_mutex_release(parmap->done_mutex);
}
-static void xbt_parmap_posix_end(xbt_parmap_t parmap)
+/**
+ * \brief Ends the parmap: wakes the controller thread when all workers terminate.
+ *
+ * This function is called by all worker threads when they end (not including
+ * the controller).
+ *
+ * \param parmap a parmap
+ */
+static void xbt_parmap_posix_worker_signal(xbt_parmap_t parmap)
{
- THROW_UNIMPLEMENTED;
+ xbt_os_mutex_acquire(parmap->done_mutex);
+ if (++parmap->thread_counter == parmap->num_workers) {
+ /* all workers have finished, wake the controller */
+ xbt_os_cond_signal(parmap->done_cond);
+ }
+ xbt_os_mutex_release(parmap->done_mutex);
}
-static void xbt_parmap_posix_signal(xbt_parmap_t parmap)
+/**
+ * \brief Wakes all workers and waits for them to finish the tasks.
+ *
+ * This function is called by the controller thread.
+ *
+ * \param parmap a parmap
+ */
+static void xbt_parmap_posix_master_signal(xbt_parmap_t parmap)
{
- THROW_UNIMPLEMENTED;
+ xbt_os_mutex_acquire(parmap->ready_mutex);
+ parmap->thread_counter = 1;
+ parmap->work++;
+ /* wake all workers */
+ xbt_os_cond_broadcast(parmap->ready_cond);
+ xbt_os_mutex_release(parmap->ready_mutex);
}
-static void xbt_parmap_posix_wait(xbt_parmap_t parmap)
+/**
+ * \brief Waits for some work to process.
+ *
+ * This function is called by each worker thread (not including the controller)
+ * when it has no more work to do.
+ *
+ * \param parmap a parmap
+ * \param round the expected round number
+ */
+static void xbt_parmap_posix_worker_wait(xbt_parmap_t parmap, unsigned round)
{
- THROW_UNIMPLEMENTED;
+ xbt_os_mutex_acquire(parmap->ready_mutex);
+ /* wait for more work */
+ if (parmap->work != round) {
+ xbt_os_cond_wait(parmap->ready_cond, parmap->ready_mutex);
+ }
+ xbt_os_mutex_release(parmap->ready_mutex);
}
#ifdef HAVE_FUTEX_H
*
* \param parmap a parmap
*/
-static void xbt_parmap_futex_start(xbt_parmap_t parmap)
+static void xbt_parmap_futex_master_wait(xbt_parmap_t parmap)
{
- int myflag = parmap->done;
- __sync_fetch_and_add(&parmap->thread_counter, 1);
- if (parmap->thread_counter < parmap->num_workers) {
+ unsigned count = parmap->thread_counter;
+ while (count < parmap->num_workers) {
/* wait for all workers to be ready */
- futex_wait(&parmap->done, myflag);
+ futex_wait(&parmap->thread_counter, count);
+ count = parmap->thread_counter;
}
}
*
* \param parmap a parmap
*/
-static void xbt_parmap_futex_end(xbt_parmap_t parmap)
+static void xbt_parmap_futex_worker_signal(xbt_parmap_t parmap)
{
- unsigned int mycount;
-
- mycount = __sync_add_and_fetch(&parmap->thread_counter, 1);
- if (mycount == parmap->num_workers) {
+ unsigned count = __sync_add_and_fetch(&parmap->thread_counter, 1);
+ if (count == parmap->num_workers) {
/* all workers have finished, wake the controller */
- parmap->done++;
- futex_wake(&parmap->done, 1);
+ futex_wake(&parmap->thread_counter, INT_MAX);
}
}
*
* \param parmap a parmap
*/
-static void xbt_parmap_futex_signal(xbt_parmap_t parmap)
+static void xbt_parmap_futex_master_signal(xbt_parmap_t parmap)
{
- int myflag = parmap->done;
- parmap->thread_counter = 0;
- parmap->work++;
-
+ parmap->thread_counter = 1;
+ __sync_add_and_fetch(&parmap->work, 1);
/* wake all workers */
- futex_wake(&parmap->work, parmap->num_workers);
-
- if (parmap->status == XBT_PARMAP_WORK) {
- /* also work myself */
- void* work = xbt_parmap_next(parmap);
- while (work != NULL) {
- parmap->fun(work);
- work = xbt_parmap_next(parmap);
- }
- }
-
- unsigned int mycount = __sync_add_and_fetch(&parmap->thread_counter, 1);
- if (mycount < parmap->num_workers) {
- /* some workers have not finished yet */
- futex_wait(&parmap->done, myflag);
- }
+ futex_wake(&parmap->work, INT_MAX);
}
/**
* when it has no more work to do.
*
* \param parmap a parmap
+ * \param round the expected round number
*/
-static void xbt_parmap_futex_wait(xbt_parmap_t parmap)
+static void xbt_parmap_futex_worker_wait(xbt_parmap_t parmap, unsigned round)
{
- int myflag;
- unsigned int mycount;
-
- myflag = parmap->work;
- mycount = __sync_add_and_fetch(&parmap->thread_counter, 1);
- if (mycount == parmap->num_workers) {
- /* all workers have finished, wake the controller */
- parmap->done++;
- futex_wake(&parmap->done, 1);
- }
-
+ unsigned work = parmap->work;
/* wait for more work */
- futex_wait(&parmap->work, myflag);
+ while (work != round) {
+ futex_wait(&parmap->work, work);
+ work = parmap->work;
+ }
}
#endif
*
* \param parmap a parmap
*/
-static void xbt_parmap_busy_start(xbt_parmap_t parmap)
+static void xbt_parmap_busy_master_wait(xbt_parmap_t parmap)
{
- __sync_fetch_and_add(&parmap->thread_counter, 1);
while (parmap->thread_counter < parmap->num_workers) {
xbt_os_thread_yield();
}
*
* \param parmap a parmap
*/
-static void xbt_parmap_busy_end(xbt_parmap_t parmap)
+static void xbt_parmap_busy_worker_signal(xbt_parmap_t parmap)
{
__sync_add_and_fetch(&parmap->thread_counter, 1);
}
*
* \param parmap a parmap
*/
-static void xbt_parmap_busy_signal(xbt_parmap_t parmap)
+static void xbt_parmap_busy_master_signal(xbt_parmap_t parmap)
{
- parmap->thread_counter = 0;
- parmap->work++;
-
- if (parmap->status == XBT_PARMAP_WORK) {
- /* also work myself */
- void* work = xbt_parmap_next(parmap);
- while (work != NULL) {
- parmap->fun(work);
- work = xbt_parmap_next(parmap);
- }
- }
-
- /* I have finished, wait for the others */
- __sync_add_and_fetch(&parmap->thread_counter, 1);
- while (parmap->thread_counter < parmap->num_workers) {
- xbt_os_thread_yield();
- }
+ parmap->thread_counter = 1;
+ __sync_add_and_fetch(&parmap->work, 1);
}
/**
* when it has no more work to do.
*
* \param parmap a parmap
+ * \param round the expected round number
*/
-static void xbt_parmap_busy_wait(xbt_parmap_t parmap)
+static void xbt_parmap_busy_worker_wait(xbt_parmap_t parmap, unsigned round)
{
- int work = parmap->work;
- __sync_add_and_fetch(&parmap->thread_counter, 1);
-
/* wait for more work */
- while (parmap->work == work) {
+ while (parmap->work != round) {
xbt_os_thread_yield();
}
}
-
-#ifdef SIMGRID_TEST
-#include "xbt.h"
-#include "xbt/ex.h"
-
-XBT_TEST_SUITE("parmap", "Parallel Map");
-XBT_LOG_EXTERNAL_DEFAULT_CATEGORY(xbt_parmap_unit);
-
-xbt_parmap_t parmap;
-
-void fun(void *arg);
-
-void fun(void *arg)
-{
- //XBT_INFO("I'm job %lu", (unsigned long)arg);
-}
-
-XBT_TEST_UNIT("basic", test_parmap_basic, "Basic usage")
-{
- xbt_test_add("Create the parmap");
-
- unsigned long i, j;
- xbt_dynar_t data = xbt_dynar_new(sizeof(void *), NULL);
-
- /* Create the parallel map */
-#ifdef HAVE_FUTEX_H
- parmap = xbt_parmap_new(10, XBT_PARMAP_FUTEX);
-#else
- parmap = xbt_parmap_new(10, XBT_PARMAP_BUSY_WAIT);
-#endif
- for (j = 0; j < 100; j++) {
- xbt_dynar_push_as(data, void *, (void *)j);
- }
-
- for (i = 0; i < 5; i++) {
- xbt_parmap_apply(parmap, fun, data);
- }
-
- /* Destroy the parmap */
- xbt_parmap_destroy(parmap);
- xbt_dynar_free(&data);
-}
-
-#endif /* SIMGRID_TEST */