This demonstrates the ``start_time`` and ``kill_time`` attribute of the :ref:`pf_tag_actor` tag.
+ .. example-tab:: examples/c/actor-lifetime/actor-lifetime.c
+
+ This file is not really interesting: the important matter is in the XML file.
+
- **Daemonize actors:**
Some actors may be intended to simulate daemons that run in background. This example show how to transform a regular
actor into a daemon that will be automatically killed once the simulation is over.
See also :cpp:func:`sg_actor_daemonize` and :cpp:func:`sg_actor_is_daemon`.
+ - **Specify the stack size to use**
+ The stack size can be specified by default on the command line,
+ globally by changing the configuration with :cpp:func:`simgrid::s4u::Engine::set_config(std::string)`,
+ or for a specific actor using :cpp:func:`simgrid::s4u::Actor::set_stacksize` before its start.
+
+ .. tabs::
+
+ .. example-tab:: examples/s4u/actor-stacksize/s4u-actor-stacksize.cpp
+
+ .. example-tab:: examples/c/actor-stacksize/actor-stacksize.c
+
Inter-Actors Interactions
-------------------------
See also :py:func:`simgrid.Mailbox.put_async()` and :py:func:`simgrid.Comm.wait()`.
+ .. example-tab:: examples/c/async-wait/async-wait.c
+
+ See also :cpp:func:`sg_mailbox_put_async()` and :cpp:func:`sg_comm__wait()`.
+
- **Waiting for all communications in a set:**
The ``wait_all()`` function is useful when you want to block until
all activities in a given set have completed.
See also :py:func:`simgrid.Comm.wait_all()`.
+ .. example-tab:: examples/c/async-waitall/async-waitall.c
+
+ See also :cpp:func:`sg_comm_wait_all()`.
+
- **Waiting for the first completed communication in a set:**
The ``wait_any()`` function is useful
when you want to block until one activity of the set completes, no
See also :py:func:`simgrid.this_actor.execute()`.
+ .. example-tab:: examples/c/exec-basic/exec-basic.c
+
+ See also :cpp:func:`void sg_actor_execute(double)`
+ and :cpp:func:`void sg_actor_execute_with_priority(double, double)`.
+
- **Asynchronous execution:**
You can start asynchronous executions, just like you would fire
background threads.
:py:func:`simgrid.Exec.get_remaining_ratio()`,
:py:func:`simgrid.this_actor.exec_async()` and
:py:func:`simgrid.Activity.cancel()`.
-
+
+ .. example-tab:: examples/c/exec-async/exec-async.c
+
+ See also :cpp:func:`sg_actor_exec_init()`,
+ :cpp:func:`sg_exec_start()`,
+ :cpp:func:`sg_exec_wait()`,
+ :cpp:func:`sg_exec_get_remaining()`,
+ :cpp:func:`sg_exec_get_remaining_ratio()`,
+ :cpp:func:`sg_actor_exec_async()` and
+ :cpp:func:`sg_exec_cancel()`,
+
- **Remote execution:**
You can start executions on remote hosts, or even change the host
on which they occur during their execution.
See also :py:func:`simgrid.Exec.set_host()`.
+ .. example-tab:: examples/c/exec-remote/exec-remote.c
+
+ See also :cpp:func:`sg_exec_set_host()`.
+
- **Parallel executions:**
These objects are convenient abstractions of parallel
computational kernels that span over several machines, such as a
See also :cpp:func:`simgrid::s4u::Host::get_pstate_speed` and :cpp:func:`simgrid::s4u::Host::set_pstate`.
+ .. example-tab:: examples/c/exec-dvfs/exec-dvfs.c
+
+ See also :cpp:func:`sg_host_get_pstate_speed` and :cpp:func:`sg_host_set_pstate`.
+
.. example-tab:: examples/python/exec-dvfs/exec-dvfs.py
See also :py:func:`Host.get_pstate_speed` and :py:func:`Host.set_pstate`.
.. example-tab:: examples/s4u/io-disk-raw/s4u-io-disk-raw.cpp
+ .. example-tab:: examples/c/io-disk-raw/io-disk-raw.c
+
.. example-tab:: examples/platforms/hosts_with_disks.xml
This shows how to declare disks in XML.
.. example-tab:: examples/s4u/io-file-remote/s4u-io-file-remote.cpp
+ .. example-tab:: examples/c/io-file-remote/io-file-remote.c
+
.. _s4u_ex_IPC:
Classical synchronization objects
- :cpp:func:`simgrid::s4u::Link::get_property()` and :cpp:func:`simgrid::s4u::Link::set_property()`
- :cpp:func:`simgrid::s4u::NetZone::get_property()` and :cpp:func:`simgrid::s4u::NetZone::set_property()`
+ .. example-tab:: examples/c/platform-properties/platform-properties.c
+
+ - :cpp:func:`sg_actor_get_property()` and :cpp:func:`sg_actor_set_property()`
+ - :cpp:func:`sg_host_get_property()` and :cpp:func:sg_host_set_property()`
+ - :cpp:func:`sg_link_get_property()` and :cpp:func:`sg_link_set_property()`
+ - :cpp:func:`sg_link_get_property()` and :cpp:func:`sg_link_set_property()`
+
.. group-tab:: XML
**Deployment file:**
.. example-tab:: examples/s4u/energy-exec/s4u-energy-exec.cpp
+ .. example-tab:: examples/c/energy-exec/energy-exec.c
+
- **Consumption due to the network:**
This example shows how to retrieve and display the energy consumed
by the network during communications.
.. example-tab:: examples/s4u/app-pingpong/s4u-app-pingpong.cpp
+ .. example-tab:: examples/c/app-pingpong/app-pingpong.c
+
- **Token ring:**
Shows how to implement a classical communication pattern, where a
token is exchanged along a ring to reach every participant.
.. example-tab:: examples/s4u/app-token-ring/s4u-app-token-ring.cpp
+ .. example-tab:: examples/c/app-token-ring/app-token-ring.c
+
- **Master Workers:**
Another good old example, where one Master process has a bunch of task to dispatch to a set of several Worker
processes.
.. example-tab:: examples/s4u/app-chainsend/s4u-app-chainsend.cpp
+ .. group-tab:: C
+
+ .. showfile:: examples/c/app-chainsend/chainsend.c
+ :language: c
+
+ .. showfile:: examples/c/app-chainsend/broadcaster.c
+ :language: c
+
+ .. showfile:: examples/c/app-chainsend/peer.c
+ :language: c
+
Distributed Hash Tables (DHT)
-----------------------------
.. example-tab:: examples/s4u/cloud-simple/s4u-cloud-simple.cpp
+ .. example-tab:: examples/c/cloud-simple/cloud-simple.c
+
- **Migrating VMs**
This example shows how to migrate VMs between PMs.
.. example-tab:: examples/s4u/cloud-migration/s4u-cloud-migration.cpp
+ .. example-tab:: examples/c/cloud-migration/cloud-migration.c
+
=======================
Model-Checking Examples
=======================