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qpcpp/examples/qutest/qhsmtst/qhsmtst.cpp
Quantum Leaps 89834cf23b 5.9.0
2017-05-17 13:15:09 -04:00

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//****************************************************************************
// Model: qhsmtst.qm
// File: ./qhsmtst.cpp
//
// This code has been generated by QM tool (see state-machine.com/qm).
// DO NOT EDIT THIS FILE MANUALLY. All your changes will be lost.
//
// This program is open source 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.
//
// 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.
//****************************************************************************
//${.::qhsmtst.cpp} ..........................................................
#include "qpcpp.h"
#include "qhsmtst.h"
namespace QHSMTST {
#if ((QP_VERSION < 580) || (QP_VERSION != ((QP_RELEASE^4294967295U) % 0x3E8)))
#error qpcpp version 5.8.0 or higher required
#endif
//${HSMs::QHsmTst} ...........................................................
class QHsmTst : public QP::QHsm {
private:
bool m_foo;
public:
QHsmTst()
: QHsm(Q_STATE_CAST(&QHsmTst::initial))
{}
protected:
static QP::QState initial(QHsmTst * const me, QP::QEvt const * const e);
static QP::QState s(QHsmTst * const me, QP::QEvt const * const e);
static QP::QState s1(QHsmTst * const me, QP::QEvt const * const e);
static QP::QState s11(QHsmTst * const me, QP::QEvt const * const e);
static QP::QState s2(QHsmTst * const me, QP::QEvt const * const e);
static QP::QState s21(QHsmTst * const me, QP::QEvt const * const e);
static QP::QState s211(QHsmTst * const me, QP::QEvt const * const e);
};
static QHsmTst l_hsmtst; // the only instance of the QHsmTst class
// global-scope definitions -----------------------------------------
QP::QHsm * const the_hsm = &l_hsmtst; // the opaque pointer
//${HSMs::QHsmTst} ...........................................................
//${HSMs::QHsmTst::SM} .......................................................
QP::QState QHsmTst::initial(QHsmTst * const me, QP::QEvt const * const e) {
// ${HSMs::QHsmTst::SM::initial}
(void)e; // avoid compiler warning
me->m_foo = 0U;
BSP_display("top-INIT;");
QS_FUN_DICTIONARY(&QHsm::top);
QS_FUN_DICTIONARY(&QHsmTst::s);
QS_FUN_DICTIONARY(&QHsmTst::s1);
QS_FUN_DICTIONARY(&QHsmTst::s11);
QS_FUN_DICTIONARY(&QHsmTst::s2);
QS_FUN_DICTIONARY(&QHsmTst::s21);
QS_FUN_DICTIONARY(&QHsmTst::s211);
QS_SIG_DICTIONARY(A_SIG, me);
QS_SIG_DICTIONARY(B_SIG, me);
QS_SIG_DICTIONARY(C_SIG, me);
QS_SIG_DICTIONARY(D_SIG, me);
QS_SIG_DICTIONARY(E_SIG, me);
QS_SIG_DICTIONARY(F_SIG, me);
QS_SIG_DICTIONARY(G_SIG, me);
QS_SIG_DICTIONARY(H_SIG, me);
QS_SIG_DICTIONARY(I_SIG, me);
QS_SIG_DICTIONARY(TERMINATE_SIG, me);
QS_SIG_DICTIONARY(IGNORE_SIG, me);
return Q_TRAN(&s2);
}
//${HSMs::QHsmTst::SM::s} ....................................................
QP::QState QHsmTst::s(QHsmTst * const me, QP::QEvt const * const e) {
QP::QState status_;
switch (e->sig) {
// ${HSMs::QHsmTst::SM::s}
case Q_ENTRY_SIG: {
BSP_display("s-ENTRY;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s}
case Q_EXIT_SIG: {
BSP_display("s-EXIT;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::initial}
case Q_INIT_SIG: {
BSP_display("s-INIT;");
status_ = Q_TRAN(&s11);
break;
}
// ${HSMs::QHsmTst::SM::s::I}
case I_SIG: {
// ${HSMs::QHsmTst::SM::s::I::[me->m_foo]}
if (me->m_foo) {
me->m_foo = 0U;
BSP_display("s-I;");
status_ = Q_HANDLED();
}
else {
status_ = Q_UNHANDLED();
}
break;
}
// ${HSMs::QHsmTst::SM::s::E}
case E_SIG: {
BSP_display("s-E;");
status_ = Q_TRAN(&s11);
break;
}
// ${HSMs::QHsmTst::SM::s::TERMINATE}
case TERMINATE_SIG: {
BSP_terminate(0);
status_ = Q_HANDLED();
break;
}
default: {
status_ = Q_SUPER(&top);
break;
}
}
return status_;
}
//${HSMs::QHsmTst::SM::s::s1} ................................................
QP::QState QHsmTst::s1(QHsmTst * const me, QP::QEvt const * const e) {
QP::QState status_;
switch (e->sig) {
// ${HSMs::QHsmTst::SM::s::s1}
case Q_ENTRY_SIG: {
BSP_display("s1-ENTRY;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s1}
case Q_EXIT_SIG: {
BSP_display("s1-EXIT;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s1::initial}
case Q_INIT_SIG: {
BSP_display("s1-INIT;");
status_ = Q_TRAN(&s11);
break;
}
// ${HSMs::QHsmTst::SM::s::s1::I}
case I_SIG: {
BSP_display("s1-I;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s1::D}
case D_SIG: {
// ${HSMs::QHsmTst::SM::s::s1::D::[!me->m_foo]}
if (!me->m_foo) {
me->m_foo = true;
BSP_display("s1-D;");
status_ = Q_TRAN(&s);
}
else {
status_ = Q_UNHANDLED();
}
break;
}
// ${HSMs::QHsmTst::SM::s::s1::A}
case A_SIG: {
BSP_display("s1-A;");
status_ = Q_TRAN(&s1);
break;
}
// ${HSMs::QHsmTst::SM::s::s1::B}
case B_SIG: {
BSP_display("s1-B;");
status_ = Q_TRAN(&s11);
break;
}
// ${HSMs::QHsmTst::SM::s::s1::F}
case F_SIG: {
BSP_display("s1-F;");
status_ = Q_TRAN(&s211);
break;
}
// ${HSMs::QHsmTst::SM::s::s1::C}
case C_SIG: {
BSP_display("s1-C;");
status_ = Q_TRAN(&s2);
break;
}
default: {
status_ = Q_SUPER(&s);
break;
}
}
return status_;
}
//${HSMs::QHsmTst::SM::s::s1::s11} ...........................................
QP::QState QHsmTst::s11(QHsmTst * const me, QP::QEvt const * const e) {
QP::QState status_;
switch (e->sig) {
// ${HSMs::QHsmTst::SM::s::s1::s11}
case Q_ENTRY_SIG: {
BSP_display("s11-ENTRY;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s1::s11}
case Q_EXIT_SIG: {
BSP_display("s11-EXIT;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s1::s11::H}
case H_SIG: {
BSP_display("s11-H;");
status_ = Q_TRAN(&s);
break;
}
// ${HSMs::QHsmTst::SM::s::s1::s11::D}
case D_SIG: {
// ${HSMs::QHsmTst::SM::s::s1::s11::D::[me->m_foo]}
if (me->m_foo) {
me->m_foo = false;
BSP_display("s11-D;");
status_ = Q_TRAN(&s1);
}
else {
status_ = Q_UNHANDLED();
}
break;
}
// ${HSMs::QHsmTst::SM::s::s1::s11::G}
case G_SIG: {
BSP_display("s11-G;");
status_ = Q_TRAN(&s211);
break;
}
default: {
status_ = Q_SUPER(&s1);
break;
}
}
return status_;
}
//${HSMs::QHsmTst::SM::s::s2} ................................................
QP::QState QHsmTst::s2(QHsmTst * const me, QP::QEvt const * const e) {
QP::QState status_;
switch (e->sig) {
// ${HSMs::QHsmTst::SM::s::s2}
case Q_ENTRY_SIG: {
BSP_display("s2-ENTRY;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s2}
case Q_EXIT_SIG: {
BSP_display("s2-EXIT;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s2::initial}
case Q_INIT_SIG: {
BSP_display("s2-INIT;");
status_ = Q_TRAN(&s211);
break;
}
// ${HSMs::QHsmTst::SM::s::s2::I}
case I_SIG: {
// ${HSMs::QHsmTst::SM::s::s2::I::[!me->m_foo]}
if (!me->m_foo) {
me->m_foo = true;
BSP_display("s2-I;");
status_ = Q_HANDLED();
}
else {
status_ = Q_UNHANDLED();
}
break;
}
// ${HSMs::QHsmTst::SM::s::s2::F}
case F_SIG: {
BSP_display("s2-F;");
status_ = Q_TRAN(&s11);
break;
}
// ${HSMs::QHsmTst::SM::s::s2::C}
case C_SIG: {
BSP_display("s2-C;");
status_ = Q_TRAN(&s1);
break;
}
default: {
status_ = Q_SUPER(&s);
break;
}
}
return status_;
}
//${HSMs::QHsmTst::SM::s::s2::s21} ...........................................
QP::QState QHsmTst::s21(QHsmTst * const me, QP::QEvt const * const e) {
QP::QState status_;
switch (e->sig) {
// ${HSMs::QHsmTst::SM::s::s2::s21}
case Q_ENTRY_SIG: {
BSP_display("s21-ENTRY;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s2::s21}
case Q_EXIT_SIG: {
BSP_display("s21-EXIT;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s2::s21::initial}
case Q_INIT_SIG: {
BSP_display("s21-INIT;");
status_ = Q_TRAN(&s211);
break;
}
// ${HSMs::QHsmTst::SM::s::s2::s21::G}
case G_SIG: {
BSP_display("s21-G;");
status_ = Q_TRAN(&s1);
break;
}
// ${HSMs::QHsmTst::SM::s::s2::s21::A}
case A_SIG: {
BSP_display("s21-A;");
status_ = Q_TRAN(&s21);
break;
}
// ${HSMs::QHsmTst::SM::s::s2::s21::B}
case B_SIG: {
BSP_display("s21-B;");
status_ = Q_TRAN(&s211);
break;
}
default: {
status_ = Q_SUPER(&s2);
break;
}
}
return status_;
}
//${HSMs::QHsmTst::SM::s::s2::s21::s211} .....................................
QP::QState QHsmTst::s211(QHsmTst * const me, QP::QEvt const * const e) {
QP::QState status_;
switch (e->sig) {
// ${HSMs::QHsmTst::SM::s::s2::s21::s211}
case Q_ENTRY_SIG: {
BSP_display("s211-ENTRY;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s2::s21::s211}
case Q_EXIT_SIG: {
BSP_display("s211-EXIT;");
status_ = Q_HANDLED();
break;
}
// ${HSMs::QHsmTst::SM::s::s2::s21::s211::H}
case H_SIG: {
BSP_display("s211-H;");
status_ = Q_TRAN(&s);
break;
}
// ${HSMs::QHsmTst::SM::s::s2::s21::s211::D}
case D_SIG: {
BSP_display("s211-D;");
status_ = Q_TRAN(&s21);
break;
}
default: {
status_ = Q_SUPER(&s21);
break;
}
}
return status_;
}
} // namespace QHSMTST
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