//**************************************************************************** // Model: pelican.qm // File: ./pelican.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. //**************************************************************************** //${.::pelican.cpp} .......................................................... #include "qpcpp.h" #include "bsp.h" #include "pelican.h" Q_DEFINE_THIS_FILE // Pelican class ------------------------------------------------------------- namespace PELICAN { #if ((QP_VERSION < 580) || (QP_VERSION != ((QP_RELEASE^4294967295) % 0x3E8))) #error qpcpp version 5.8.0 or higher required #endif //${components::Pelican} ..................................................... class Pelican : public QP::GuiQActive { private: QP::QTimeEvt m_timeout; uint8_t m_flashCtr; public: Pelican() : GuiQActive(Q_STATE_CAST(&Pelican::initial)), m_timeout(this, TIMEOUT_SIG) {} protected: static QP::QState initial(Pelican * const me, QP::QEvt const * const e); static QP::QState operational(Pelican * const me, QP::QEvt const * const e); static QP::QState carsEnabled(Pelican * const me, QP::QEvt const * const e); static QP::QState carsGreen(Pelican * const me, QP::QEvt const * const e); static QP::QState carsGreenNoPed(Pelican * const me, QP::QEvt const * const e); static QP::QState carsGreenInt(Pelican * const me, QP::QEvt const * const e); static QP::QState carsGreenPedWait(Pelican * const me, QP::QEvt const * const e); static QP::QState carsYellow(Pelican * const me, QP::QEvt const * const e); static QP::QState pedsEnabled(Pelican * const me, QP::QEvt const * const e); static QP::QState pedsWalk(Pelican * const me, QP::QEvt const * const e); static QP::QState pedsFlash(Pelican * const me, QP::QEvt const * const e); static QP::QState offline(Pelican * const me, QP::QEvt const * const e); }; } // namespace PELICAN namespace PELICAN { enum PelicanTimeouts { // various timeouts in ticks CARS_GREEN_MIN_TOUT = BSP_TICKS_PER_SEC * 8, // min green for cars CARS_YELLOW_TOUT = BSP_TICKS_PER_SEC * 3, // yellow for cars PEDS_WALK_TOUT = BSP_TICKS_PER_SEC * 3, // walking time for peds PEDS_FLASH_TOUT = BSP_TICKS_PER_SEC / 5, // flashing timeout for peds PEDS_FLASH_NUM = 5*2, // number of flashes for peds OFF_FLASH_TOUT = BSP_TICKS_PER_SEC / 2 // flashing timeout when off }; // Local objects ------------------------------------------------------------- static Pelican l_Pelican; // the single instance of Pelican active object // Global objects ------------------------------------------------------------ QP::QActive * const AO_Pelican = &l_Pelican; // the opaque pointer } // namespace PELICAN // Pelican class definition -------------------------------------------------- namespace PELICAN { //${components::Pelican} ..................................................... //${components::Pelican::SM} ................................................. QP::QState Pelican::initial(Pelican * const me, QP::QEvt const * const e) { // ${components::Pelican::SM::initial} me->subscribe(PEDS_WAITING_SIG); me->subscribe(TERMINATE_SIG); QS_OBJ_DICTIONARY(&l_Pelican); QS_OBJ_DICTIONARY(&l_Pelican.m_timeout); QS_FUN_DICTIONARY(&QP::QHsm::top); QS_FUN_DICTIONARY(&Pelican::initial); QS_FUN_DICTIONARY(&Pelican::offline); QS_FUN_DICTIONARY(&Pelican::operational); QS_FUN_DICTIONARY(&Pelican::carsEnabled); QS_FUN_DICTIONARY(&Pelican::carsGreen); QS_FUN_DICTIONARY(&Pelican::carsGreenNoPed); QS_FUN_DICTIONARY(&Pelican::carsGreenPedWait); QS_FUN_DICTIONARY(&Pelican::carsGreenInt); QS_FUN_DICTIONARY(&Pelican::carsYellow); QS_FUN_DICTIONARY(&Pelican::pedsEnabled); QS_FUN_DICTIONARY(&Pelican::pedsWalk); QS_FUN_DICTIONARY(&Pelican::pedsFlash); QS_SIG_DICTIONARY(PEDS_WAITING_SIG, (void *)0); // global signals QS_SIG_DICTIONARY(ON_SIG, (void *)0); QS_SIG_DICTIONARY(OFF_SIG, (void *)0); QS_SIG_DICTIONARY(TIMEOUT_SIG, &l_Pelican); // just for Pelican (void)e; // unused parameter return Q_TRAN(&operational); } //${components::Pelican::SM::operational} .................................... QP::QState Pelican::operational(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::operational} case Q_ENTRY_SIG: { BSP_signalCars(CARS_RED); BSP_signalPeds(PEDS_DONT_WALK); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::initial} case Q_INIT_SIG: { status_ = Q_TRAN(&carsEnabled); break; } // ${components::Pelican::SM::operational::OFF} case OFF_SIG: { status_ = Q_TRAN(&offline); break; } // ${components::Pelican::SM::operational::TERMINATE} case TERMINATE_SIG: { BSP_terminate(0); status_ = Q_HANDLED(); break; } default: { status_ = Q_SUPER(&top); break; } } return status_; } //${components::Pelican::SM::operational::carsEnabled} ....................... QP::QState Pelican::carsEnabled(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::operational::carsEnabled} case Q_EXIT_SIG: { BSP_signalCars(CARS_RED); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::carsEnabled::initial} case Q_INIT_SIG: { status_ = Q_TRAN(&carsGreen); break; } default: { status_ = Q_SUPER(&operational); break; } } return status_; } //${components::Pelican::SM::operational::carsEnabled::carsGreen} ............ QP::QState Pelican::carsGreen(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::operational::carsEnabled::carsGreen} case Q_ENTRY_SIG: { BSP_signalCars(CARS_GREEN); me->m_timeout.armX(CARS_GREEN_MIN_TOUT); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::carsEnabled::carsGreen} case Q_EXIT_SIG: { (void)me->m_timeout.disarm(); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::carsEnabled::carsGreen::initial} case Q_INIT_SIG: { status_ = Q_TRAN(&carsGreenNoPed); break; } default: { status_ = Q_SUPER(&carsEnabled); break; } } return status_; } //${components::Pelican::SM::operational::carsEnabled::carsGreen::carsGreenNoPed} QP::QState Pelican::carsGreenNoPed(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::operational::carsEnabled::carsGreen::carsGreenNoPed} case Q_ENTRY_SIG: { BSP_showState("carsGreenNoPed"); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::carsEnabled::carsGreen::carsGreenNoPed::PEDS_WAITING} case PEDS_WAITING_SIG: { status_ = Q_TRAN(&carsGreenPedWait); break; } // ${components::Pelican::SM::operational::carsEnabled::carsGreen::carsGreenNoPed::TIMEOUT} case TIMEOUT_SIG: { status_ = Q_TRAN(&carsGreenInt); break; } default: { status_ = Q_SUPER(&carsGreen); break; } } return status_; } //${components::Pelican::SM::operational::carsEnabled::carsGreen::carsGreenInt} QP::QState Pelican::carsGreenInt(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::operational::carsEnabled::carsGreen::carsGreenInt} case Q_ENTRY_SIG: { BSP_showState("carsGreenInt"); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::carsEnabled::carsGreen::carsGreenInt::PEDS_WAITING} case PEDS_WAITING_SIG: { status_ = Q_TRAN(&carsYellow); break; } default: { status_ = Q_SUPER(&carsGreen); break; } } return status_; } //${components::Pelican::SM::operational::carsEnabled::carsGreen::carsGreenPedWait} QP::QState Pelican::carsGreenPedWait(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::operational::carsEnabled::carsGreen::carsGreenPedWait} case Q_ENTRY_SIG: { BSP_showState("carsGreenPedWait"); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::carsEnabled::carsGreen::carsGreenPedWait::TIMEOUT} case TIMEOUT_SIG: { status_ = Q_TRAN(&carsYellow); break; } default: { status_ = Q_SUPER(&carsGreen); break; } } return status_; } //${components::Pelican::SM::operational::carsEnabled::carsYellow} ........... QP::QState Pelican::carsYellow(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::operational::carsEnabled::carsYellow} case Q_ENTRY_SIG: { BSP_showState("carsYellow"); BSP_signalCars(CARS_YELLOW); me->m_timeout.armX(CARS_YELLOW_TOUT); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::carsEnabled::carsYellow} case Q_EXIT_SIG: { (void)me->m_timeout.disarm(); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::carsEnabled::carsYellow::TIMEOUT} case TIMEOUT_SIG: { status_ = Q_TRAN(&pedsEnabled); break; } default: { status_ = Q_SUPER(&carsEnabled); break; } } return status_; } //${components::Pelican::SM::operational::pedsEnabled} ....................... QP::QState Pelican::pedsEnabled(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::operational::pedsEnabled} case Q_EXIT_SIG: { BSP_signalPeds(PEDS_DONT_WALK); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::pedsEnabled::initial} case Q_INIT_SIG: { status_ = Q_TRAN(&pedsWalk); break; } default: { status_ = Q_SUPER(&operational); break; } } return status_; } //${components::Pelican::SM::operational::pedsEnabled::pedsWalk} ............. QP::QState Pelican::pedsWalk(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::operational::pedsEnabled::pedsWalk} case Q_ENTRY_SIG: { BSP_showState("pedsWalk"); BSP_signalPeds(PEDS_WALK); me->m_timeout.armX(PEDS_WALK_TOUT); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::pedsEnabled::pedsWalk} case Q_EXIT_SIG: { (void)me->m_timeout.disarm(); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::pedsEnabled::pedsWalk::TIMEOUT} case TIMEOUT_SIG: { status_ = Q_TRAN(&pedsFlash); break; } default: { status_ = Q_SUPER(&pedsEnabled); break; } } return status_; } //${components::Pelican::SM::operational::pedsEnabled::pedsFlash} ............ QP::QState Pelican::pedsFlash(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::operational::pedsEnabled::pedsFlash} case Q_ENTRY_SIG: { BSP_showState("pedsFlash"); me->m_timeout.armX(PEDS_FLASH_TOUT, PEDS_FLASH_TOUT); me->m_flashCtr = PEDS_FLASH_NUM*2 + 1; status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::pedsEnabled::pedsFlash} case Q_EXIT_SIG: { (void)me->m_timeout.disarm(); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::operational::pedsEnabled::pedsFlash::TIMEOUT} case TIMEOUT_SIG: { // ${components::Pelican::SM::operational::pedsEnabled::pedsFlash::TIMEOUT::[me->m_flashCtr!=0U]} if (me->m_flashCtr != 0U) { --me->m_flashCtr; // ${components::Pelican::SM::operational::pedsEnabled::pedsFlash::TIMEOUT::[me->m_flashCtr!~::[(me->m_flashCtr&1U)==0U]} if ((me->m_flashCtr & 1U) == 0U) { BSP_signalPeds(PEDS_DONT_WALK); status_ = Q_HANDLED(); } // ${components::Pelican::SM::operational::pedsEnabled::pedsFlash::TIMEOUT::[me->m_flashCtr!~::[else]} else { BSP_signalPeds(PEDS_BLANK); status_ = Q_HANDLED(); } } // ${components::Pelican::SM::operational::pedsEnabled::pedsFlash::TIMEOUT::[else]} else { status_ = Q_TRAN(&carsEnabled); } break; } default: { status_ = Q_SUPER(&pedsEnabled); break; } } return status_; } //${components::Pelican::SM::offline} ........................................ QP::QState Pelican::offline(Pelican * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // ${components::Pelican::SM::offline} case Q_ENTRY_SIG: { BSP_showState("offline"); me->m_timeout.armX(OFF_FLASH_TOUT, OFF_FLASH_TOUT); me->m_flashCtr = 0U; status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::offline} case Q_EXIT_SIG: { (void)me->m_timeout.disarm(); status_ = Q_HANDLED(); break; } // ${components::Pelican::SM::offline::TIMEOUT} case TIMEOUT_SIG: { me->m_flashCtr ^= 1U; // ${components::Pelican::SM::offline::TIMEOUT::[(me->m_flashCtr&1U)==0U]} if ((me->m_flashCtr & 1U) == 0U) { BSP_signalCars(CARS_RED); BSP_signalPeds(PEDS_DONT_WALK); status_ = Q_HANDLED(); } // ${components::Pelican::SM::offline::TIMEOUT::[else]} else { BSP_signalCars(CARS_BLANK); BSP_signalPeds(PEDS_BLANK); status_ = Q_HANDLED(); } break; } // ${components::Pelican::SM::offline::ON} case ON_SIG: { status_ = Q_TRAN(&operational); break; } // ${components::Pelican::SM::offline::TERMINATE} case TERMINATE_SIG: { BSP_terminate(0); status_ = Q_HANDLED(); break; } default: { status_ = Q_SUPER(&top); break; } } return status_; } } // namespace PELICAN