3 /* Copyright (c) 2002-2007 Arnaud Legrand. */
4 /* Copyright (c) 2007 Bruno Donassolo. */
5 /* All rights reserved. */
7 /* This program is free software; you can redistribute it and/or modify it
8 * under the terms of the license (GNU LGPL) which comes with this package. */
10 #include "msg/private.h"
11 #include "xbt/sysdep.h"
14 /** \defgroup m_task_management Managing functions of Tasks
15 * \brief This section describes the task structure of MSG
16 * (#m_task_t) and the functions for managing it.
18 /** @addtogroup m_task_management
19 * \htmlonly <!-- DOXYGEN_NAVBAR_LABEL="Tasks" --> \endhtmlonly
21 * Since most scheduling algorithms rely on a concept of task
22 * that can be either <em>computed</em> locally or
23 * <em>transferred</em> on another processor, it seems to be the
24 * right level of abstraction for our purposes. A <em>task</em>
25 * may then be defined by a <em>computing amount</em>, a
26 * <em>message size</em> and some <em>private data</em>.
29 /********************************* Task **************************************/
30 /** \ingroup m_task_management
31 * \brief Creates a new #m_task_t.
33 * A constructor for #m_task_t taking four arguments and returning the
35 * \param name a name for the object. It is for user-level information
37 * \param compute_duration a value of the processing amount (in flop)
38 needed to process this new task. If 0, then it cannot be executed with
39 MSG_task_execute(). This value has to be >=0.
40 * \param message_size a value of the amount of data (in bytes) needed to
41 transfer this new task. If 0, then it cannot be transfered with
42 MSG_task_get() and MSG_task_put(). This value has to be >=0.
43 * \param data a pointer to any data may want to attach to the new
44 object. It is for user-level information and can be NULL. It can
45 be retrieved with the function \ref MSG_task_get_data.
47 * \return The new corresponding object.
49 m_task_t MSG_task_create(const char *name, double compute_duration,
50 double message_size, void *data)
52 m_task_t task = xbt_new(s_m_task_t,1);
53 simdata_task_t simdata = xbt_new(s_simdata_task_t,1);
54 task->simdata = simdata;
56 task->name = xbt_strdup(name);
60 simdata->computation_amount = compute_duration;
61 simdata->message_size = message_size;
63 simdata->priority = 1.0;
65 simdata->sender = NULL;
66 simdata->receiver = NULL;
67 simdata->cond = SIMIX_cond_init();
68 simdata->mutex = SIMIX_mutex_init();
69 simdata->compute = NULL;
72 simdata->host_list = NULL;
73 simdata->comp_amount = NULL;
74 simdata->comm_amount = NULL;
79 /** \ingroup m_task_management
80 * \brief Return the user data of a #m_task_t.
82 * This functions checks whether \a task is a valid pointer or not and return
83 the user data associated to \a task if it is possible.
85 void *MSG_task_get_data(m_task_t task)
87 xbt_assert0((task != NULL), "Invalid parameter");
92 /** \ingroup m_task_management
93 * \brief Return the sender of a #m_task_t.
95 * This functions returns the #m_process_t which sent this task
97 m_process_t MSG_task_get_sender(m_task_t task)
99 xbt_assert0(task, "Invalid parameters");
100 return ((simdata_task_t) task->simdata)->sender;
103 /** \ingroup m_task_management
104 * \brief Return the source of a #m_task_t.
106 * This functions returns the #m_host_t from which this task was sent
108 m_host_t MSG_task_get_source(m_task_t task)
110 xbt_assert0(task, "Invalid parameters");
111 return ((simdata_task_t) task->simdata)->source;
114 /** \ingroup m_task_management
115 * \brief Return the name of a #m_task_t.
117 * This functions returns the name of a #m_task_t as specified on creation
119 const char *MSG_task_get_name(m_task_t task)
121 xbt_assert0(task, "Invalid parameters");
126 /** \ingroup m_task_management
127 * \brief Destroy a #m_task_t.
129 * Destructor for #m_task_t. Note that you should free user data, if any, \b
130 before calling this function.
132 MSG_error_t MSG_task_destroy(m_task_t task)
134 smx_action_t action = NULL;
135 xbt_assert0((task != NULL), "Invalid parameter");
137 /* why? if somebody is using, then you can't free! ok... but will return MSG_OK? when this task will be destroyed? isn't the user code wrong? */
138 task->simdata->using--;
139 if(task->simdata->using>0) return MSG_OK;
141 if(task->name) free(task->name);
143 SIMIX_cond_destroy(task->simdata->cond);
144 SIMIX_mutex_destroy(task->simdata->mutex);
146 action = task->simdata->compute;
147 if(action) SIMIX_action_destroy(action);
148 action = task->simdata->comm;
149 if(action) SIMIX_action_destroy(action);
150 /* parallel tasks only */
151 if(task->simdata->host_list) xbt_free(task->simdata->host_list);
153 /* free main structures */
154 xbt_free(task->simdata);
161 /** \ingroup m_task_management
162 * \brief Cancel a #m_task_t.
163 * \param task the taskt to cancel. If it was executed or transfered, it
164 stops the process that were working on it.
166 MSG_error_t MSG_task_cancel(m_task_t task)
168 xbt_assert0((task != NULL), "Invalid parameter");
170 if(task->simdata->compute) {
171 SIMIX_action_cancel(task->simdata->compute);
174 if(task->simdata->comm) {
175 SIMIX_action_cancel(task->simdata->comm);
182 /** \ingroup m_task_management
183 * \brief Returns the computation amount needed to process a task #m_task_t.
184 * Once a task has been processed, this amount is thus set to 0...
186 double MSG_task_get_compute_duration(m_task_t task)
188 xbt_assert0((task != NULL) && (task->simdata != NULL), "Invalid parameter");
190 return task->simdata->computation_amount;
193 /** \ingroup m_task_management
194 * \brief Returns the remaining computation amount of a task #m_task_t.
197 double MSG_task_get_remaining_computation(m_task_t task)
199 xbt_assert0((task != NULL) && (task->simdata != NULL), "Invalid parameter");
201 if(task->simdata->compute) {
202 return SIMIX_action_get_remains(task->simdata->compute);
204 return task->simdata->computation_amount;
208 /** \ingroup m_task_management
209 * \brief Returns the size of the data attached to a task #m_task_t.
212 double MSG_task_get_data_size(m_task_t task)
214 xbt_assert0((task != NULL) && (task->simdata != NULL), "Invalid parameter");
216 return task->simdata->message_size;
221 /** \ingroup m_task_management
222 * \brief Changes the priority of a computation task. This priority doesn't affect
223 * the transfer rate. A priority of 2 will make a task receive two times more
224 * cpu power than the other ones.
227 void MSG_task_set_priority(m_task_t task, double priority)
229 xbt_assert0((task != NULL) && (task->simdata != NULL), "Invalid parameter");
231 task->simdata->priority = 1/priority;
232 if(task->simdata->compute)
233 SIMIX_action_set_priority(task->simdata->compute, task->simdata->priority);