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qpc/examples/win32/calc1/calc1.c
Quantum Leaps 4a262e38c6 5.8.2
2017-02-08 20:25:14 -05:00

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/*****************************************************************************
* Model: calc1.qm
* File: ./calc1.c
*
* 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.
*****************************************************************************/
/*${.::calc1.c} ............................................................*/
#include "qpc.h" /* QP/C */
#include "bsp.h" /* board support package */
#include "calc1.h" /* application */
#if ((QP_VERSION < 580) || (QP_VERSION != ((QP_RELEASE^4294967295U) % 0x3E8)))
#error qpc version 5.8.0 or higher required
#endif
/*${SMs::Calc} .............................................................*/
typedef struct {
/* protected: */
QHsm super;
/* private: */
double operand1;
uint8_t operator;
} Calc;
/* protected: */
static QState Calc_initial(Calc * const me, QEvt const * const e);
static QState Calc_on(Calc * const me, QEvt const * const e);
static QState Calc_error(Calc * const me, QEvt const * const e);
static QState Calc_ready(Calc * const me, QEvt const * const e);
static QState Calc_result(Calc * const me, QEvt const * const e);
static QState Calc_begin(Calc * const me, QEvt const * const e);
static QState Calc_operand1(Calc * const me, QEvt const * const e);
static QState Calc_zero1(Calc * const me, QEvt const * const e);
static QState Calc_int1(Calc * const me, QEvt const * const e);
static QState Calc_frac1(Calc * const me, QEvt const * const e);
static QState Calc_negated1(Calc * const me, QEvt const * const e);
static QState Calc_opEntered(Calc * const me, QEvt const * const e);
static QState Calc_operand2(Calc * const me, QEvt const * const e);
static QState Calc_zero2(Calc * const me, QEvt const * const e);
static QState Calc_int2(Calc * const me, QEvt const * const e);
static QState Calc_frac2(Calc * const me, QEvt const * const e);
static QState Calc_negated2(Calc * const me, QEvt const * const e);
static QState Calc_final(Calc * const me, QEvt const * const e);
static Calc l_calc; /* the only instance of the Calc class */
/* global-scope definitions ---------------------------------------*/
QMsm * const the_calc = &l_calc.super; /* "opaque" pointer to MSM */
/*${SMs::Calc_ctor} ........................................................*/
void Calc_ctor(void) {
Calc *me = &l_calc;
QHsm_ctor(&me->super, Q_STATE_CAST(&Calc_initial));
}
/*${SMs::Calc} .............................................................*/
/*${SMs::Calc::SM} .........................................................*/
static QState Calc_initial(Calc * const me, QEvt const * const e) {
/* ${SMs::Calc::SM::initial} */
BSP_clear();
(void)e; /* unused parameter */
return Q_TRAN(&Calc_on);
}
/*${SMs::Calc::SM::on} .....................................................*/
static QState Calc_on(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on} */
case Q_ENTRY_SIG: {
BSP_message("on-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on} */
case Q_EXIT_SIG: {
BSP_message("on-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::initial} */
case Q_INIT_SIG: {
BSP_message("on-INIT;");
status_ = Q_TRAN(&Calc_ready);
break;
}
/* ${SMs::Calc::SM::on::C} */
case C_SIG: {
BSP_clear();
status_ = Q_TRAN(&Calc_on);
break;
}
/* ${SMs::Calc::SM::on::OFF} */
case OFF_SIG: {
status_ = Q_TRAN(&Calc_final);
break;
}
default: {
status_ = Q_SUPER(&QHsm_top);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::error} ..............................................*/
static QState Calc_error(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::error} */
case Q_ENTRY_SIG: {
BSP_message("error-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::error} */
case Q_EXIT_SIG: {
BSP_message("error-EXIT;");
status_ = Q_HANDLED();
break;
}
default: {
status_ = Q_SUPER(&Calc_on);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::ready} ..............................................*/
static QState Calc_ready(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::ready} */
case Q_ENTRY_SIG: {
BSP_message("ready-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::ready} */
case Q_EXIT_SIG: {
BSP_message("ready-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::ready::initial} */
case Q_INIT_SIG: {
BSP_message("ready-INIT;");
status_ = Q_TRAN(&Calc_begin);
break;
}
/* ${SMs::Calc::SM::on::ready::DIGIT_0} */
case DIGIT_0_SIG: {
BSP_clear();
status_ = Q_TRAN(&Calc_zero1);
break;
}
/* ${SMs::Calc::SM::on::ready::DIGIT_1_9} */
case DIGIT_1_9_SIG: {
BSP_clear();
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_TRAN(&Calc_int1);
break;
}
/* ${SMs::Calc::SM::on::ready::POINT} */
case POINT_SIG: {
BSP_clear();
BSP_insert((int)'0');
BSP_insert((int)'.');
status_ = Q_TRAN(&Calc_frac1);
break;
}
/* ${SMs::Calc::SM::on::ready::OPER} */
case OPER_SIG: {
me->operand1 = BSP_get_value();
me->operator = Q_EVT_CAST(CalcEvt)->key_code;
status_ = Q_TRAN(&Calc_opEntered);
break;
}
default: {
status_ = Q_SUPER(&Calc_on);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::ready::result} ......................................*/
static QState Calc_result(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::ready::result} */
case Q_ENTRY_SIG: {
BSP_message("result-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::ready::result} */
case Q_EXIT_SIG: {
BSP_message("result-EXIT;");
status_ = Q_HANDLED();
break;
}
default: {
status_ = Q_SUPER(&Calc_ready);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::ready::begin} .......................................*/
static QState Calc_begin(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::ready::begin} */
case Q_ENTRY_SIG: {
BSP_message("begin-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::ready::begin} */
case Q_EXIT_SIG: {
BSP_message("begin-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::ready::begin::OPER} */
case OPER_SIG: {
/* ${SMs::Calc::SM::on::ready::begin::OPER::[e->key=='-']} */
if (Q_EVT_CAST(CalcEvt)->key_code == KEY_MINUS) {
status_ = Q_TRAN(&Calc_negated1);
}
/* ${SMs::Calc::SM::on::ready::begin::OPER::[else]} */
else {
status_ = Q_HANDLED();
}
break;
}
default: {
status_ = Q_SUPER(&Calc_ready);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::operand1} ...........................................*/
static QState Calc_operand1(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::operand1} */
case Q_ENTRY_SIG: {
BSP_message("operand1-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1} */
case Q_EXIT_SIG: {
BSP_message("operand1-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::CE} */
case CE_SIG: {
BSP_clear();
status_ = Q_TRAN(&Calc_begin);
break;
}
/* ${SMs::Calc::SM::on::operand1::OPER} */
case OPER_SIG: {
me->operand1 = BSP_get_value();
me->operator = Q_EVT_CAST(CalcEvt)->key_code;
status_ = Q_TRAN(&Calc_opEntered);
break;
}
/* ${SMs::Calc::SM::on::operand1::EQUALS} */
case EQUALS_SIG: {
status_ = Q_TRAN(&Calc_result);
break;
}
default: {
status_ = Q_SUPER(&Calc_on);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::operand1::zero1} ....................................*/
static QState Calc_zero1(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::operand1::zero1} */
case Q_ENTRY_SIG: {
BSP_message("zero1-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::zero1} */
case Q_EXIT_SIG: {
BSP_message("zero1-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::zero1::DIGIT_0} */
case DIGIT_0_SIG: {
;
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::zero1::DIGIT_1_9} */
case DIGIT_1_9_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_TRAN(&Calc_int1);
break;
}
/* ${SMs::Calc::SM::on::operand1::zero1::POINT} */
case POINT_SIG: {
BSP_insert((int)'0');
BSP_insert((int)'.');
status_ = Q_TRAN(&Calc_frac1);
break;
}
default: {
status_ = Q_SUPER(&Calc_operand1);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::operand1::int1} .....................................*/
static QState Calc_int1(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::operand1::int1} */
case Q_ENTRY_SIG: {
BSP_message("int1-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::int1} */
case Q_EXIT_SIG: {
BSP_message("int1-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::int1::POINT} */
case POINT_SIG: {
BSP_insert((int)'.');
status_ = Q_TRAN(&Calc_frac1);
break;
}
/* ${SMs::Calc::SM::on::operand1::int1::DIGIT_0, DIGIT_1_9} */
case DIGIT_0_SIG: /* intentionally fall through */
case DIGIT_1_9_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_HANDLED();
break;
}
default: {
status_ = Q_SUPER(&Calc_operand1);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::operand1::frac1} ....................................*/
static QState Calc_frac1(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::operand1::frac1} */
case Q_ENTRY_SIG: {
BSP_message("frac1-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::frac1} */
case Q_EXIT_SIG: {
BSP_message("frac1-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::frac1::POINT} */
case POINT_SIG: {
;
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::frac1::DIGIT_0, DIGIT_1_9} */
case DIGIT_0_SIG: /* intentionally fall through */
case DIGIT_1_9_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_HANDLED();
break;
}
default: {
status_ = Q_SUPER(&Calc_operand1);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::operand1::negated1} .................................*/
static QState Calc_negated1(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::operand1::negated1} */
case Q_ENTRY_SIG: {
BSP_message("negated1-ENTRY;");
BSP_negate();
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::negated1} */
case Q_EXIT_SIG: {
BSP_message("negated1-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand1::negated1::DIGIT_0} */
case DIGIT_0_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_TRAN(&Calc_zero1);
break;
}
/* ${SMs::Calc::SM::on::operand1::negated1::DIGIT_1_9} */
case DIGIT_1_9_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_TRAN(&Calc_int1);
break;
}
/* ${SMs::Calc::SM::on::operand1::negated1::POINT} */
case POINT_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_TRAN(&Calc_frac1);
break;
}
/* ${SMs::Calc::SM::on::operand1::negated1::OPER} */
case OPER_SIG: {
/* ${SMs::Calc::SM::on::operand1::negated1::OPER::[e->key=='-']} */
if (Q_EVT_CAST(CalcEvt)->key_code == KEY_MINUS) {
;
status_ = Q_HANDLED();
}
/* ${SMs::Calc::SM::on::operand1::negated1::OPER::[else]} */
else {
status_ = Q_HANDLED();
}
break;
}
default: {
status_ = Q_SUPER(&Calc_operand1);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::opEntered} ..........................................*/
static QState Calc_opEntered(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::opEntered} */
case Q_ENTRY_SIG: {
BSP_message("opEntered-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::opEntered} */
case Q_EXIT_SIG: {
BSP_message("opEntered-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::opEntered::DIGIT_0} */
case DIGIT_0_SIG: {
BSP_clear();
status_ = Q_TRAN(&Calc_zero2);
break;
}
/* ${SMs::Calc::SM::on::opEntered::DIGIT_1_9} */
case DIGIT_1_9_SIG: {
BSP_clear();
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_TRAN(&Calc_int2);
break;
}
/* ${SMs::Calc::SM::on::opEntered::POINT} */
case POINT_SIG: {
BSP_clear();
BSP_insert((int)'0');
BSP_insert((int)'.');
status_ = Q_TRAN(&Calc_frac2);
break;
}
/* ${SMs::Calc::SM::on::opEntered::OPER} */
case OPER_SIG: {
/* ${SMs::Calc::SM::on::opEntered::OPER::[e->key=='-']} */
if (Q_EVT_CAST(CalcEvt)->key_code == KEY_MINUS) {
status_ = Q_TRAN(&Calc_negated2);
}
/* ${SMs::Calc::SM::on::opEntered::OPER::[else]} */
else {
status_ = Q_HANDLED();
}
break;
}
default: {
status_ = Q_SUPER(&Calc_on);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::operand2} ...........................................*/
static QState Calc_operand2(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::operand2} */
case Q_ENTRY_SIG: {
BSP_message("operand2-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2} */
case Q_EXIT_SIG: {
BSP_message("operand2-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::CE} */
case CE_SIG: {
BSP_clear();
status_ = Q_TRAN(&Calc_opEntered);
break;
}
/* ${SMs::Calc::SM::on::operand2::EQUALS} */
case EQUALS_SIG: {
/* ${SMs::Calc::SM::on::operand2::EQUALS::[BSP_eval()]} */
if (BSP_eval(me->operand1, me->operator, BSP_get_value())) {
status_ = Q_TRAN(&Calc_result);
}
/* ${SMs::Calc::SM::on::operand2::EQUALS::[else]} */
else {
status_ = Q_TRAN(&Calc_error);
}
break;
}
/* ${SMs::Calc::SM::on::operand2::OPER} */
case OPER_SIG: {
/* ${SMs::Calc::SM::on::operand2::OPER::[BSP_eval()]} */
if (BSP_eval(me->operand1, me->operator, BSP_get_value())) {
status_ = Q_TRAN(&Calc_opEntered);
}
/* ${SMs::Calc::SM::on::operand2::OPER::[else]} */
else {
status_ = Q_TRAN(&Calc_error);
}
break;
}
default: {
status_ = Q_SUPER(&Calc_on);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::operand2::zero2} ....................................*/
static QState Calc_zero2(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::operand2::zero2} */
case Q_ENTRY_SIG: {
BSP_message("zero2-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::zero2} */
case Q_EXIT_SIG: {
BSP_message("zero2-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::zero2::DIGIT_0} */
case DIGIT_0_SIG: {
;
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::zero2::DIGIT_1_9} */
case DIGIT_1_9_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_TRAN(&Calc_int2);
break;
}
/* ${SMs::Calc::SM::on::operand2::zero2::POINT} */
case POINT_SIG: {
BSP_insert((int)'0');
BSP_insert((int)'.');
status_ = Q_TRAN(&Calc_frac2);
break;
}
default: {
status_ = Q_SUPER(&Calc_operand2);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::operand2::int2} .....................................*/
static QState Calc_int2(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::operand2::int2} */
case Q_ENTRY_SIG: {
BSP_message("int2-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::int2} */
case Q_EXIT_SIG: {
BSP_message("int2-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::int2::POINT} */
case POINT_SIG: {
BSP_insert((int)'.');
status_ = Q_TRAN(&Calc_frac2);
break;
}
/* ${SMs::Calc::SM::on::operand2::int2::DIGIT_0, DIGIT_1_9} */
case DIGIT_0_SIG: /* intentionally fall through */
case DIGIT_1_9_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_HANDLED();
break;
}
default: {
status_ = Q_SUPER(&Calc_operand2);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::operand2::frac2} ....................................*/
static QState Calc_frac2(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::operand2::frac2} */
case Q_ENTRY_SIG: {
BSP_message("frac2-ENTRY;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::frac2} */
case Q_EXIT_SIG: {
BSP_message("frac2-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::frac2::POINT} */
case POINT_SIG: {
;
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::frac2::DIGIT_0, DIGIT_1_9} */
case DIGIT_0_SIG: /* intentionally fall through */
case DIGIT_1_9_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_HANDLED();
break;
}
default: {
status_ = Q_SUPER(&Calc_operand2);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::on::operand2::negated2} .................................*/
static QState Calc_negated2(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::on::operand2::negated2} */
case Q_ENTRY_SIG: {
BSP_message("negated2-ENTRY;");
BSP_negate();
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::negated2} */
case Q_EXIT_SIG: {
BSP_message("negated2-EXIT;");
status_ = Q_HANDLED();
break;
}
/* ${SMs::Calc::SM::on::operand2::negated2::DIGIT_0} */
case DIGIT_0_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_TRAN(&Calc_zero2);
break;
}
/* ${SMs::Calc::SM::on::operand2::negated2::DIGIT_1_9} */
case DIGIT_1_9_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_TRAN(&Calc_int2);
break;
}
/* ${SMs::Calc::SM::on::operand2::negated2::POINT} */
case POINT_SIG: {
BSP_insert(Q_EVT_CAST(CalcEvt)->key_code);
status_ = Q_TRAN(&Calc_frac2);
break;
}
/* ${SMs::Calc::SM::on::operand2::negated2::OPER} */
case OPER_SIG: {
/* ${SMs::Calc::SM::on::operand2::negated2::OPER::[e->key=='-']} */
if (Q_EVT_CAST(CalcEvt)->key_code == KEY_MINUS) {
;
status_ = Q_HANDLED();
}
/* ${SMs::Calc::SM::on::operand2::negated2::OPER::[else]} */
else {
status_ = Q_HANDLED();
}
break;
}
default: {
status_ = Q_SUPER(&Calc_operand2);
break;
}
}
return status_;
}
/*${SMs::Calc::SM::final} ..................................................*/
static QState Calc_final(Calc * const me, QEvt const * const e) {
QState status_;
switch (e->sig) {
/* ${SMs::Calc::SM::final} */
case Q_ENTRY_SIG: {
BSP_message("final-ENTRY;");
BSP_exit();
status_ = Q_HANDLED();
break;
}
default: {
status_ = Q_SUPER(&QHsm_top);
break;
}
}
return status_;
}
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