-/* Copyright (c) 2007-2022. The SimGrid Team.
+/* Copyright (c) 2007-2023. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
#include "simgrid/s4u/VirtualMachine.hpp"
#include <cmath>
-XBT_LOG_NEW_DEFAULT_CATEGORY(s4u_test, "Messages specific for this msg example");
+XBT_LOG_NEW_DEFAULT_CATEGORY(s4u_test, "Messages specific for this test");
-const int FAIL_ON_ERROR = 0;
-const int flop_amount = 100000000; // 100Mf, so that computing this on a 1Gf core takes exactly 0.1s
+constexpr double FLOP_AMOUNT = 100e6; // 100Mf, so that computing this on a 1Gf core takes exactly 0.1s
int failed_test = 0;
-static int computation_fun(std::vector<std::string> argv)
+static void computation_fun(double size)
{
- int size = std::stoi(argv[0]);
-
double begin = simgrid::s4u::Engine::get_clock();
simgrid::s4u::this_actor::execute(size);
double end = simgrid::s4u::Engine::get_clock();
- if (0.1 - (end - begin) > 0.001) {
- xbt_assert(not FAIL_ON_ERROR, "%s with %.4g load (%dflops) took %.4fs instead of 0.1s",
- simgrid::s4u::this_actor::get_name().c_str(), ((double)size / flop_amount), size, (end - begin));
- XBT_INFO("FAILED TEST: %s with %.4g load (%dflops) took %.4fs instead of 0.1s",
- simgrid::s4u::this_actor::get_name().c_str(), ((double)size / flop_amount), size, (end - begin));
+ if (double duration = end - begin; 0.1 - duration > 0.001) {
+ XBT_INFO("FAILED TEST: %s with %.4g load (%.0f flops) took %.4fs instead of 0.1s",
+ simgrid::s4u::this_actor::get_name().c_str(), (size / FLOP_AMOUNT), size, duration);
failed_test++;
} else {
- XBT_INFO("Passed: %s with %.4g load (%dflops) took 0.1s as expected", simgrid::s4u::this_actor::get_name().c_str(),
- ((double)size / flop_amount), size);
+ XBT_INFO("Passed: %s with %.4g load (%.0f flops) took 0.1s as expected",
+ simgrid::s4u::this_actor::get_name().c_str(), (size / FLOP_AMOUNT), size);
}
-
- return 0;
}
-static void run_test_process(const std::string& name, simgrid::s4u::Host* location, int size)
+static void run_test_process(const std::string& name, simgrid::s4u::Host* location, double size)
{
- std::vector<std::string> arg = {std::to_string(size)};
- simgrid::s4u::Actor::create(name, location, computation_fun, arg);
+ simgrid::s4u::Actor::create(name, location, computation_fun, floor(size));
}
static void test_energy_consumption(const std::string& name, int nb_cores)
if (chooser == "(o)1") {
XBT_INFO("### Test '%s'. A task on a regular PM", chooser.c_str());
- run_test_process("(X)1", pm0, flop_amount);
+ run_test_process("(X)1", pm0, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
} else if (chooser == "(oo)1") {
XBT_INFO("### Test '%s'. 2 tasks on a regular PM", chooser.c_str());
- run_test_process("(Xo)1", pm0, flop_amount / 2);
- run_test_process("(oX)1", pm0, flop_amount / 2);
+ run_test_process("(Xo)1", pm0, FLOP_AMOUNT / 2);
+ run_test_process("(oX)1", pm0, FLOP_AMOUNT / 2);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
} else if (chooser == "(o)1 (o)1") {
XBT_INFO("### Test '%s'. 2 regular PMs, with a task each.", chooser.c_str());
- run_test_process("(X)1 (o)1", pm0, flop_amount);
- run_test_process("(o)1 (X)1", pm1, flop_amount);
+ run_test_process("(X)1 (o)1", pm0, FLOP_AMOUNT);
+ run_test_process("(o)1 (X)1", pm1, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
} else if (chooser == "( [o]1 )1") {
XBT_INFO("### Test '%s'. A task in a VM on a PM.", chooser.c_str());
vm0 = pm0->create_vm("VM0", 1);
- run_test_process("( [X]1 )1", vm0, flop_amount);
+ run_test_process("( [X]1 )1", vm0, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [oo]1 )1") {
XBT_INFO("### Test '%s'. 2 tasks co-located in a VM on a PM.", chooser.c_str());
vm0 = pm0->create_vm("VM0", 1);
- run_test_process("( [Xo]1 )1", vm0, flop_amount / 2);
- run_test_process("( [oX]1 )1", vm0, flop_amount / 2);
+ run_test_process("( [Xo]1 )1", vm0, FLOP_AMOUNT / 2);
+ run_test_process("( [oX]1 )1", vm0, FLOP_AMOUNT / 2);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [ ]1 o )1") {
XBT_INFO("### Test '%s'. 1 task collocated with an empty VM", chooser.c_str());
vm0 = pm0->create_vm("VM0", 1);
- run_test_process("( [ ]1 X )1", pm0, flop_amount);
+ run_test_process("( [ ]1 X )1", pm0, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [o]1 o )1") {
XBT_INFO("### Test '%s'. A task in a VM, plus a task", chooser.c_str());
vm0 = pm0->create_vm("VM0", 1);
- run_test_process("( [X]1 o )1", vm0, flop_amount / 2);
- run_test_process("( [o]1 X )1", pm0, flop_amount / 2);
+ run_test_process("( [X]1 o )1", vm0, FLOP_AMOUNT / 2);
+ run_test_process("( [o]1 X )1", pm0, FLOP_AMOUNT / 2);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [oo]1 o )1") {
XBT_INFO("### Test '%s'. 2 tasks in a VM, plus a task", chooser.c_str());
vm0 = pm0->create_vm("VM0", 1);
- run_test_process("( [Xo]1 o )1", vm0, flop_amount / 4);
- run_test_process("( [oX]1 o )1", vm0, flop_amount / 4);
- run_test_process("( [oo]1 X )1", pm0, flop_amount / 2);
+ run_test_process("( [Xo]1 o )1", vm0, FLOP_AMOUNT / 4);
+ run_test_process("( [oX]1 o )1", vm0, FLOP_AMOUNT / 4);
+ run_test_process("( [oo]1 X )1", pm0, FLOP_AMOUNT / 2);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( o )2") {
XBT_INFO("### Test '%s'. A task on bicore PM", chooser.c_str());
- run_test_process("(X)2", pm2, flop_amount);
+ run_test_process("(X)2", pm2, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
} else if (chooser == "( oo )2") {
XBT_INFO("### Test '%s'. 2 tasks on a bicore PM", chooser.c_str());
- run_test_process("(Xx)2", pm2, flop_amount);
- run_test_process("(xX)2", pm2, flop_amount);
+ run_test_process("(Xx)2", pm2, FLOP_AMOUNT);
+ run_test_process("(xX)2", pm2, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
} else if (chooser == "( ooo )2") {
XBT_INFO("### Test '%s'. 3 tasks on a bicore PM", chooser.c_str());
- run_test_process("(Xxx)2", pm2, flop_amount * 2 / 3);
- run_test_process("(xXx)2", pm2, flop_amount * 2 / 3);
- run_test_process("(xxX)2", pm2, flop_amount * 2 / 3);
+ run_test_process("(Xxx)2", pm2, FLOP_AMOUNT * 2 / 3);
+ run_test_process("(xXx)2", pm2, FLOP_AMOUNT * 2 / 3);
+ run_test_process("(xxX)2", pm2, FLOP_AMOUNT * 2 / 3);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
} else if (chooser == "( [o]1 )2") {
XBT_INFO("### Test '%s'. A task in a VM on a bicore PM", chooser.c_str());
vm0 = pm2->create_vm("VM0", 1);
- run_test_process("( [X]1 )2", vm0, flop_amount);
+ run_test_process("( [X]1 )2", vm0, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [oo]1 )2") {
XBT_INFO("### Test '%s'. 2 tasks in a VM on a bicore PM", chooser.c_str());
vm0 = pm2->create_vm("VM0", 1);
- run_test_process("( [Xx]1 )2", vm0, flop_amount / 2);
- run_test_process("( [xX]1 )2", vm0, flop_amount / 2);
+ run_test_process("( [Xx]1 )2", vm0, FLOP_AMOUNT / 2);
+ run_test_process("( [xX]1 )2", vm0, FLOP_AMOUNT / 2);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [ ]1 o )2") {
XBT_INFO("### Put a VM on a PM, and put a task to the PM");
vm0 = pm2->create_vm("VM0", 1);
- run_test_process("( [ ]1 X )2", pm2, flop_amount);
+ run_test_process("( [ ]1 X )2", pm2, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [o]1 o )2") {
XBT_INFO("### Put a VM on a PM, put a task to the PM and a task to the VM");
vm0 = pm2->create_vm("VM0", 1);
- run_test_process("( [X]1 x )2", vm0, flop_amount);
- run_test_process("( [x]1 X )2", pm2, flop_amount);
+ run_test_process("( [X]1 x )2", vm0, FLOP_AMOUNT);
+ run_test_process("( [x]1 X )2", pm2, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
XBT_INFO("### Put two VMs on a PM, and put a task to one VM");
vm0 = pm2->create_vm("VM0", 1);
auto* vm1 = pm2->create_vm("VM1", 1);
- run_test_process("( [X]1 [ ]1 )2", vm0, flop_amount);
+ run_test_process("( [X]1 [ ]1 )2", vm0, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
XBT_INFO("### Put two VMs on a PM, and put a task to each VM");
vm0 = pm2->create_vm("VM0", 1);
auto* vm1 = pm2->create_vm("VM1", 1);
- run_test_process("( [X]1 [x]1 )2", vm0, flop_amount);
- run_test_process("( [x]1 [X]1 )2", vm1, flop_amount);
+ run_test_process("( [X]1 [x]1 )2", vm0, FLOP_AMOUNT);
+ run_test_process("( [x]1 [X]1 )2", vm1, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
vm0 = pm2->create_vm("VM0", 1);
auto* vm1 = pm2->create_vm("VM1", 1);
auto* vm2 = pm2->create_vm("VM2", 1);
- run_test_process("( [X]1 [x]1 [ ]1 )2", vm0, flop_amount);
- run_test_process("( [x]1 [X]1 [ ]1 )2", vm1, flop_amount);
+ run_test_process("( [X]1 [x]1 [ ]1 )2", vm0, FLOP_AMOUNT);
+ run_test_process("( [x]1 [X]1 [ ]1 )2", vm1, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
vm0 = pm2->create_vm("VM0", 1);
auto* vm1 = pm2->create_vm("VM1", 1);
auto* vm2 = pm2->create_vm("VM2", 1);
- run_test_process("( [X]1 [o]1 [o]1 )2", vm0, flop_amount * 2 / 3);
- run_test_process("( [o]1 [X]1 [o]1 )2", vm1, flop_amount * 2 / 3);
- run_test_process("( [o]1 [o]1 [X]1 )2", vm2, flop_amount * 2 / 3);
+ run_test_process("( [X]1 [o]1 [o]1 )2", vm0, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [o]1 [X]1 [o]1 )2", vm1, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [o]1 [o]1 [X]1 )2", vm2, FLOP_AMOUNT * 2 / 3);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [o]2 )2") {
XBT_INFO("### Put a VM on a PM, and put a task to the VM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [X]2 )2", vm0, flop_amount);
+ run_test_process("( [X]2 )2", vm0, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [oo]2 )2") {
XBT_INFO("### Put a VM on a PM, and put two tasks to the VM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [Xo]2 )2", vm0, flop_amount);
- run_test_process("( [oX]2 )2", vm0, flop_amount);
+ run_test_process("( [Xo]2 )2", vm0, FLOP_AMOUNT);
+ run_test_process("( [oX]2 )2", vm0, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [ooo]2 )2") {
XBT_INFO("### Put a VM on a PM, and put three tasks to the VM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [Xoo]2 )2", vm0, flop_amount * 2 / 3);
- run_test_process("( [oXo]2 )2", vm0, flop_amount * 2 / 3);
- run_test_process("( [ooX]2 )2", vm0, flop_amount * 2 / 3);
+ run_test_process("( [Xoo]2 )2", vm0, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [oXo]2 )2", vm0, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [ooX]2 )2", vm0, FLOP_AMOUNT * 2 / 3);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [ ]2 o )2") {
XBT_INFO("### Put a VM on a PM, and put a task to the PM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [ ]2 X )2", pm2, flop_amount);
+ run_test_process("( [ ]2 X )2", pm2, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [o]2 o )2") {
XBT_INFO("### Put a VM on a PM, put one task to the PM and one task to the VM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [o]2 X )2", pm2, flop_amount);
- run_test_process("( [X]2 o )2", vm0, flop_amount);
+ run_test_process("( [o]2 X )2", pm2, FLOP_AMOUNT);
+ run_test_process("( [X]2 o )2", vm0, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [oo]2 o )2") {
XBT_INFO("### Put a VM on a PM, put one task to the PM and two tasks to the VM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [oo]2 X )2", pm2, flop_amount * 2 / 3);
- run_test_process("( [Xo]2 o )2", vm0, flop_amount * 2 / 3);
- run_test_process("( [oX]2 o )2", vm0, flop_amount * 2 / 3);
+ run_test_process("( [oo]2 X )2", pm2, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [Xo]2 o )2", vm0, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [oX]2 o )2", vm0, FLOP_AMOUNT * 2 / 3);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [ooo]2 o )2") {
XBT_INFO("### Put a VM on a PM, put one task to the PM and three tasks to the VM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [ooo]2 X )2", pm2, flop_amount * 2 / 3);
- run_test_process("( [Xoo]2 o )2", vm0, (flop_amount * 4 / 3) / 3); // VM_share/3
- run_test_process("( [oXo]2 o )2", vm0, (flop_amount * 4 / 3) / 3); // VM_share/3
- run_test_process("( [ooX]2 o )2", vm0, (flop_amount * 4 / 3) / 3); // VM_share/3
+ run_test_process("( [ooo]2 X )2", pm2, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [Xoo]2 o )2", vm0, (FLOP_AMOUNT * 4 / 3) / 3); // VM_share/3
+ run_test_process("( [oXo]2 o )2", vm0, (FLOP_AMOUNT * 4 / 3) / 3); // VM_share/3
+ run_test_process("( [ooX]2 o )2", vm0, (FLOP_AMOUNT * 4 / 3) / 3); // VM_share/3
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [ ]2 oo )2") {
XBT_INFO("### Put a VM on a PM, and put two tasks to the PM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [ ]2 Xo )2", pm2, flop_amount);
- run_test_process("( [ ]2 oX )2", pm2, flop_amount);
+ run_test_process("( [ ]2 Xo )2", pm2, FLOP_AMOUNT);
+ run_test_process("( [ ]2 oX )2", pm2, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [o]2 oo )2") {
XBT_INFO("### Put a VM on a PM, put one task to the PM and one task to the VM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [o]2 Xo )2", pm2, flop_amount * 2 / 3);
- run_test_process("( [o]2 oX )2", pm2, flop_amount * 2 / 3);
- run_test_process("( [X]2 oo )2", vm0, flop_amount * 2 / 3);
+ run_test_process("( [o]2 Xo )2", pm2, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [o]2 oX )2", pm2, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [X]2 oo )2", vm0, FLOP_AMOUNT * 2 / 3);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [oo]2 oo )2") {
XBT_INFO("### Put a VM on a PM, put one task to the PM and two tasks to the VM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [oo]2 Xo )2", pm2, flop_amount / 2);
- run_test_process("( [oo]2 oX )2", pm2, flop_amount / 2);
- run_test_process("( [Xo]2 oo )2", vm0, flop_amount / 2);
- run_test_process("( [oX]2 oo )2", vm0, flop_amount / 2);
+ run_test_process("( [oo]2 Xo )2", pm2, FLOP_AMOUNT / 2);
+ run_test_process("( [oo]2 oX )2", pm2, FLOP_AMOUNT / 2);
+ run_test_process("( [Xo]2 oo )2", vm0, FLOP_AMOUNT / 2);
+ run_test_process("( [oX]2 oo )2", vm0, FLOP_AMOUNT / 2);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [ooo]2 oo )2") {
XBT_INFO("### Put a VM on a PM, put one task to the PM and three tasks to the VM");
vm0 = pm2->create_vm("VM0", 2);
- run_test_process("( [ooo]2 Xo )2", pm2, flop_amount * 2 / 4);
- run_test_process("( [ooo]2 oX )2", pm2, flop_amount * 2 / 4);
- run_test_process("( [Xoo]2 oo )2", vm0, flop_amount / 3);
- run_test_process("( [oXo]2 oo )2", vm0, flop_amount / 3);
- run_test_process("( [ooX]2 oo )2", vm0, flop_amount / 3);
+ run_test_process("( [ooo]2 Xo )2", pm2, FLOP_AMOUNT * 2 / 4);
+ run_test_process("( [ooo]2 oX )2", pm2, FLOP_AMOUNT * 2 / 4);
+ run_test_process("( [Xoo]2 oo )2", vm0, FLOP_AMOUNT / 3);
+ run_test_process("( [oXo]2 oo )2", vm0, FLOP_AMOUNT / 3);
+ run_test_process("( [ooX]2 oo )2", vm0, FLOP_AMOUNT / 3);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [o]2 )4") {
XBT_INFO("### Put a VM on a PM, and put a task to the VM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [X]2 )4", vm0, flop_amount);
+ run_test_process("( [X]2 )4", vm0, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [oo]2 )4") {
XBT_INFO("### Put a VM on a PM, and put two tasks to the VM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [Xo]2 )4", vm0, flop_amount);
- run_test_process("( [oX]2 )4", vm0, flop_amount);
+ run_test_process("( [Xo]2 )4", vm0, FLOP_AMOUNT);
+ run_test_process("( [oX]2 )4", vm0, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [ooo]2 )4") {
XBT_INFO("### ( [ooo]2 )4: Put a VM on a PM, and put three tasks to the VM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [Xoo]2 )4", vm0, flop_amount * 2 / 3);
- run_test_process("( [oXo]2 )4", vm0, flop_amount * 2 / 3);
- run_test_process("( [ooX]2 )4", vm0, flop_amount * 2 / 3);
+ run_test_process("( [Xoo]2 )4", vm0, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [oXo]2 )4", vm0, FLOP_AMOUNT * 2 / 3);
+ run_test_process("( [ooX]2 )4", vm0, FLOP_AMOUNT * 2 / 3);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [ ]2 o )4") {
XBT_INFO("### Put a VM on a PM, and put a task to the PM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [ ]2 X )4", pm4, flop_amount);
+ run_test_process("( [ ]2 X )4", pm4, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 1);
vm0->destroy();
} else if (chooser == "( [ ]2 oo )4") {
XBT_INFO("### Put a VM on a PM, and put two tasks to the PM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [ ]2 Xo )4", pm4, flop_amount);
- run_test_process("( [ ]2 oX )4", pm4, flop_amount);
+ run_test_process("( [ ]2 Xo )4", pm4, FLOP_AMOUNT);
+ run_test_process("( [ ]2 oX )4", pm4, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [ ]2 ooo )4") {
XBT_INFO("### Put a VM on a PM, and put three tasks to the PM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [ ]2 Xoo )4", pm4, flop_amount);
- run_test_process("( [ ]2 oXo )4", pm4, flop_amount);
- run_test_process("( [ ]2 ooX )4", pm4, flop_amount);
+ run_test_process("( [ ]2 Xoo )4", pm4, FLOP_AMOUNT);
+ run_test_process("( [ ]2 oXo )4", pm4, FLOP_AMOUNT);
+ run_test_process("( [ ]2 ooX )4", pm4, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 3);
vm0->destroy();
} else if (chooser == "( [ ]2 oooo )4") {
XBT_INFO("### Put a VM on a PM, and put four tasks to the PM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [ ]2 Xooo )4", pm4, flop_amount);
- run_test_process("( [ ]2 oXoo )4", pm4, flop_amount);
- run_test_process("( [ ]2 ooXo )4", pm4, flop_amount);
- run_test_process("( [ ]2 oooX )4", pm4, flop_amount);
+ run_test_process("( [ ]2 Xooo )4", pm4, FLOP_AMOUNT);
+ run_test_process("( [ ]2 oXoo )4", pm4, FLOP_AMOUNT);
+ run_test_process("( [ ]2 ooXo )4", pm4, FLOP_AMOUNT);
+ run_test_process("( [ ]2 oooX )4", pm4, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 4);
vm0->destroy();
} else if (chooser == "( [o]2 o )4") {
XBT_INFO("### Put a VM on a PM, and put one task to the PM and one task to the VM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [X]2 o )4", vm0, flop_amount);
- run_test_process("( [o]2 X )4", pm4, flop_amount);
+ run_test_process("( [X]2 o )4", vm0, FLOP_AMOUNT);
+ run_test_process("( [o]2 X )4", pm4, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 2);
vm0->destroy();
} else if (chooser == "( [o]2 oo )4") {
XBT_INFO("### Put a VM on a PM, and put two tasks to the PM and one task to the VM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [X]2 oo )4", vm0, flop_amount);
- run_test_process("( [o]2 Xo )4", pm4, flop_amount);
- run_test_process("( [o]2 oX )4", pm4, flop_amount);
+ run_test_process("( [X]2 oo )4", vm0, FLOP_AMOUNT);
+ run_test_process("( [o]2 Xo )4", pm4, FLOP_AMOUNT);
+ run_test_process("( [o]2 oX )4", pm4, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 3);
vm0->destroy();
} else if (chooser == "( [oo]2 oo )4") {
XBT_INFO("### Put a VM on a PM, and put two tasks to the PM and two tasks to the VM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [Xo]2 oo )4", vm0, flop_amount);
- run_test_process("( [oX]2 oo )4", vm0, flop_amount);
- run_test_process("( [oo]2 Xo )4", pm4, flop_amount);
- run_test_process("( [oo]2 oX )4", pm4, flop_amount);
+ run_test_process("( [Xo]2 oo )4", vm0, FLOP_AMOUNT);
+ run_test_process("( [oX]2 oo )4", vm0, FLOP_AMOUNT);
+ run_test_process("( [oo]2 Xo )4", pm4, FLOP_AMOUNT);
+ run_test_process("( [oo]2 oX )4", pm4, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 4);
vm0->destroy();
} else if (chooser == "( [o]2 ooo )4") {
XBT_INFO("### Put a VM on a PM, and put three tasks to the PM and one tasks to the VM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [X]2 ooo )4", vm0, flop_amount);
- run_test_process("( [o]2 Xoo )4", pm4, flop_amount);
- run_test_process("( [o]2 oXo )4", pm4, flop_amount);
- run_test_process("( [o]2 ooX )4", pm4, flop_amount);
+ run_test_process("( [X]2 ooo )4", vm0, FLOP_AMOUNT);
+ run_test_process("( [o]2 Xoo )4", pm4, FLOP_AMOUNT);
+ run_test_process("( [o]2 oXo )4", pm4, FLOP_AMOUNT);
+ run_test_process("( [o]2 ooX )4", pm4, FLOP_AMOUNT);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 4);
vm0->destroy();
} else if (chooser == "( [oo]2 ooo )4") {
XBT_INFO("### Put a VM on a PM, and put three tasks to the PM and two tasks to the VM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [Xo]2 ooo )4", vm0, flop_amount * 4 / 5);
- run_test_process("( [oX]2 ooo )4", vm0, flop_amount * 4 / 5);
- run_test_process("( [oo]2 Xoo )4", pm4, flop_amount * 4 / 5);
- run_test_process("( [oo]2 oXo )4", pm4, flop_amount * 4 / 5);
- run_test_process("( [oo]2 ooX )4", pm4, flop_amount * 4 / 5);
+ run_test_process("( [Xo]2 ooo )4", vm0, FLOP_AMOUNT * 4 / 5);
+ run_test_process("( [oX]2 ooo )4", vm0, FLOP_AMOUNT * 4 / 5);
+ run_test_process("( [oo]2 Xoo )4", pm4, FLOP_AMOUNT * 4 / 5);
+ run_test_process("( [oo]2 oXo )4", pm4, FLOP_AMOUNT * 4 / 5);
+ run_test_process("( [oo]2 ooX )4", pm4, FLOP_AMOUNT * 4 / 5);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 4);
vm0->destroy();
} else if (chooser == "( [ooo]2 ooo )4") {
XBT_INFO("### Put a VM on a PM, and put three tasks to the PM and three tasks to the VM");
vm0 = pm4->create_vm("VM0", 2);
- run_test_process("( [Xoo]2 ooo )4", vm0, (flop_amount * 8 / 5) / 3); // The VM has 8/5 of the PM
- run_test_process("( [oXo]2 ooo )4", vm0, (flop_amount * 8 / 5) / 3);
- run_test_process("( [ooX]2 ooo )4", vm0, (flop_amount * 8 / 5) / 3);
+ run_test_process("( [Xoo]2 ooo )4", vm0, (FLOP_AMOUNT * 8 / 5) / 3); // The VM has 8/5 of the PM
+ run_test_process("( [oXo]2 ooo )4", vm0, (FLOP_AMOUNT * 8 / 5) / 3);
+ run_test_process("( [ooX]2 ooo )4", vm0, (FLOP_AMOUNT * 8 / 5) / 3);
- run_test_process("( [ooo]2 Xoo )4", pm4, flop_amount * 4 / 5);
- run_test_process("( [ooo]2 oXo )4", pm4, flop_amount * 4 / 5);
- run_test_process("( [ooo]2 ooX )4", pm4, flop_amount * 4 / 5);
+ run_test_process("( [ooo]2 Xoo )4", pm4, FLOP_AMOUNT * 4 / 5);
+ run_test_process("( [ooo]2 oXo )4", pm4, FLOP_AMOUNT * 4 / 5);
+ run_test_process("( [ooo]2 ooX )4", pm4, FLOP_AMOUNT * 4 / 5);
simgrid::s4u::this_actor::sleep_for(2);
test_energy_consumption(chooser, 4);
vm0->destroy();
xbt_die("Unknown chooser: %s", chooser.c_str());
}
}
-static int master_main()
+
+static void master_main()
{
XBT_INFO("# TEST ON SINGLE-CORE PMs");
XBT_INFO("## Check computation on regular PMs");
XBT_INFO(".");
XBT_INFO("## %d test failed", failed_test);
XBT_INFO(".");
- return 0;
}
+
int main(int argc, char* argv[])
{
/* Get the arguments */
simgrid::s4u::Actor::create("master", pm0, master_main);
e.run();
-
- return failed_test;
}