/**
* @file tests/mixed/models.hpp
* @author The ARTIS Development Team
* See the AUTHORS or Authors.txt file
*/
/*
* ARTIS - the multimodeling and simulation environment
* This file is a part of the ARTIS environment
*
* Copyright (C) 2013-2019 ULCO http://www.univ-littoral.fr
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* 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.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#ifndef TESTS_MIXED_MODELS_HPP
#define TESTS_MIXED_MODELS_HPP
#include
#include
#include
#include
#include
namespace artis {
namespace tests {
namespace mixed {
class A1 :
public artis::pdevs::Dynamics {
public:
enum inputs {
IN
};
enum outputs {
OUT
};
A1(const std::string &name,
const artis::pdevs::Context &context)
:
artis::pdevs::Dynamics(name, context), _value(0) {
input_ports({{IN, "in"}});
output_ports({{OUT, "out"}});
}
~A1() override = default;
void dint(const typename common::DoubleTime::type &t) override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::DELTA_INT,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
if (_phase == SEND or _phase == INIT) {
_phase = WAIT;
}
}
void
dext(const typename common::DoubleTime::type &t,
const typename common::DoubleTime::type & /* e */,
const common::Bag &bag) override {
#ifndef WITH_TRACE
(void)t;
(void)bag;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::DELTA_EXT,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
_phase = SEND;
}
void dconf(const typename common::DoubleTime::type &t,
const typename common::DoubleTime::type & /* e */,
const common::Bag &bag) override {
#ifndef WITH_TRACE
(void)t;
(void)bag;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::DELTA_CONF,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
}
void start(const typename common::DoubleTime::type &t) override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::START,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
_phase = INIT;
}
typename common::DoubleTime::type
ta(const typename common::DoubleTime::type &t) const override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::TA,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
if (_phase == WAIT) {
return 3;
} else {
return 0;
}
}
common::Bag
lambda(const typename common::DoubleTime::type &t) const override {
#ifndef WITH_TRACE
(void)t;
#endif
common::Bag bag;
bag.push_back(artis::common::ExternalEvent(OUT, _value));
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::LAMBDA,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
return bag;
}
private:
enum Phase {
INIT, WAIT, SEND
};
Phase _phase;
double _value;
};
class B1 :
public artis::pdevs::Dynamics {
public:
enum inputs {
IN
};
enum outputs {
OUT
};
B1(const std::string &name,
const artis::pdevs::Context &context)
:
artis::pdevs::Dynamics(name, context) {
input_ports({{IN, "in"}});
output_ports({{OUT, "out"}});
}
~B1() override = default;
void dint(const typename common::DoubleTime::type &t) override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::DELTA_INT,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
if (_phase == SEND or _phase == INIT) {
_phase = WAIT;
}
}
void
dext(const typename common::DoubleTime::type &t,
const typename common::DoubleTime::type &e,
const common::Bag &bag) override {
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::DELTA_EXT,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
std::for_each(bag.begin(), bag.end(),
[this, t, e](
const common::ExternalEvent & /* event */) {
++_count;
});
_phase = SEND;
}
void dconf(const typename common::DoubleTime::type &t,
const typename common::DoubleTime::type &e,
const common::Bag &bag) override {
#ifndef WITH_TRACE
(void)t;
(void)bag;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::DELTA_CONF,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
dext(t, e, bag);
dint(t);
}
void start(const typename common::DoubleTime::type &t) override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::START,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
_count = 0;
_phase = INIT;
}
typename common::DoubleTime::type
ta(const typename common::DoubleTime::type &t) const override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::TA,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
if (_phase == WAIT) {
return std::numeric_limits::max();
} else {
return 0;
}
}
common::Bag
lambda(const typename common::DoubleTime::type &t) const override {
#ifndef WITH_TRACE
(void)t;
#endif
common::Bag bag;
bag.push_back(artis::common::ExternalEvent(OUT, _count));
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::LAMBDA,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
return bag;
}
private:
enum Phase {
INIT, WAIT, SEND
};
Phase _phase;
unsigned int _count;
};
class A2
: public artis::dtss::Dynamics> {
public:
enum inputs {
IN
};
enum outputs {
OUT
};
A2(const std::string &name,
const artis::dtss::Context> &context)
:
artis::dtss::Dynamics>(
name, context),
_value(0) {
input_ports({{IN, "in"}});
output_ports({{OUT, "out"}});
}
~A2() override = default;
void transition(const common::Bag &x,
const typename common::DoubleTime::type &t) override {
#ifndef WITH_TRACE
(void)x;
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::DTSS,
common::FunctionType::TRANSITION,
common::LevelType::USER)
<< "x = " << x.to_string();
common::Trace::trace().flush();
#endif
}
void start(const typename common::DoubleTime::type &t) override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::DTSS,
common::FunctionType::START,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
}
common::Bag
lambda(const typename common::DoubleTime::type &t) const override {
#ifndef WITH_TRACE
(void)t;
#endif
common::Bag bag;
bag.push_back(artis::common::ExternalEvent(OUT, _value));
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::DTSS,
common::FunctionType::LAMBDA,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
return bag;
}
private:
double _value;
};
class B2
: public artis::dtss::Dynamics> {
public:
enum inputs {
IN
};
enum outputs {
OUT
};
B2(const std::string &name,
const artis::dtss::Context> &context)
:
artis::dtss::Dynamics>(
name, context),
_value(0) {
input_ports({{IN, "in"}});
output_ports({{OUT, "out"}});
}
~B2() override = default;
void transition(const common::Bag &x,
const typename common::DoubleTime::type &t) override {
#ifndef WITH_TRACE
(void)x;
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::DTSS,
common::FunctionType::TRANSITION,
common::LevelType::USER)
<< "x = " << x.to_string();
common::Trace::trace().flush();
#endif
}
void start(const typename common::DoubleTime::type &t) override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(
get_name(), t,
common::FormalismType::DTSS,
common::FunctionType::START,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
}
common::Bag
lambda(const typename common::DoubleTime::type &t) const override {
#ifndef WITH_TRACE
(void)t;
#endif
common::Bag bag;
bag.push_back(artis::common::ExternalEvent(OUT, _value));
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::DTSS,
common::FunctionType::LAMBDA,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
return bag;
}
private:
double _value;
};
class Beep :
public artis::pdevs::Dynamics {
public:
enum inputs {
IN
};
enum outputs {
OUT
};
Beep(const std::string &name,
const artis::pdevs::Context &context)
:
artis::pdevs::Dynamics(name, context), _value(0) {
input_ports({{IN, "in"}});
output_ports({{OUT, "out"}});
}
~Beep() override = default;
void dint(const typename common::DoubleTime::type &t) override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::DELTA_INT,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
if (_phase == SEND or _phase == INIT) {
_phase = WAIT;
}
}
void
dext(const typename common::DoubleTime::type &t,
const typename common::DoubleTime::type & /* e */,
const common::Bag &bag) override {
#ifndef WITH_TRACE
(void)t;
(void)bag;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::DELTA_EXT,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
_phase = SEND;
}
void dconf(const typename common::DoubleTime::type &t,
const typename common::DoubleTime::type & /* e */,
const common::Bag &bag) override {
#ifndef WITH_TRACE
(void)t;
(void)bag;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::DELTA_CONF,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
}
void start(const typename common::DoubleTime::type &t) override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::START,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
_phase = INIT;
}
typename common::DoubleTime::type
ta(const typename common::DoubleTime::type &t) const override {
#ifndef WITH_TRACE
(void)t;
#endif
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::TA,
common::LevelType::USER);
common::Trace::trace().flush();
#endif
if (_phase == WAIT) {
return (rand() % 100) / 10.;
} else {
return 0;
}
}
common::Bag
lambda(const typename common::DoubleTime::type &t) const override {
#ifndef WITH_TRACE
(void)t;
#endif
common::Bag bag;
bag.push_back(artis::common::ExternalEvent(OUT, _value));
#ifdef WITH_TRACE
common::Trace::trace()
<< common::TraceElement(get_name(), t,
common::FormalismType::PDEVS,
common::FunctionType::LAMBDA,
common::LevelType::USER)
<< "messages = " << bag.to_string();
common::Trace::trace().flush();
#endif
return bag;
}
private:
enum Phase {
INIT, WAIT, SEND
};
Phase _phase;
double _value;
};
}
}
} // namespace artis tests mixed
#endif