////////////////////////////////////////////////////////////////////////////// // Model: dpp.qm // File: ./philo.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. ////////////////////////////////////////////////////////////////////////////// // @(/4/1) ................................................................... #include "qp_port.h" #include "dpp.h" #include "bsp.h" namespace DPP { Q_DEFINE_THIS_FILE // Active object class ------------------------------------------------------- // @(/3/0) ................................................................... class Philo : public QP::QActive { private: QP::QTimeEvt m_timeEvt; public: Philo(); protected: static QP::QState initial(Philo * const me, QP::QEvt const * const e); static QP::QState thinking(Philo * const me, QP::QEvt const * const e); static QP::QState hungry(Philo * const me, QP::QEvt const * const e); static QP::QState eating(Philo * const me, QP::QEvt const * const e); }; // Local objects ------------------------------------------------------------- static Philo l_philo[N_PHILO]; // storage for all Philos // helper function to provide a randomized think time for Philos inline QP::QTimeEvtCtr think_time() { return static_cast((BSP_random() % BSP_TICKS_PER_SEC) + (BSP_TICKS_PER_SEC/2U)); } // helper function to provide a randomized eat time for Philos inline QP::QTimeEvtCtr eat_time() { return static_cast((BSP_random() % BSP_TICKS_PER_SEC) + BSP_TICKS_PER_SEC); } // helper function to provide the ID of Philo "me" inline uint8_t PHILO_ID(Philo const * const me) { return static_cast(me - l_philo); } enum InternalSignals { // internal signals TIMEOUT_SIG = MAX_SIG }; // Global objects ------------------------------------------------------------ QP::QActive * const AO_Philo[N_PHILO] = { // "opaque" pointers to Philo AO &l_philo[0], &l_philo[1], &l_philo[2], &l_philo[3], &l_philo[4] }; // Philo definition ---------------------------------------------------------- // @(/3/0) ................................................................... // @(/3/0/1) ................................................................. Philo::Philo() : QActive(Q_STATE_CAST(&Philo::initial)), m_timeEvt(this, TIMEOUT_SIG, 0U) { // empty } // @(/3/0/2) ................................................................. // @(/3/0/2/0) QP::QState Philo::initial(Philo * const me, QP::QEvt const * const e) { static bool registered = false; // starts off with 0, per C-standard (void)e; // suppress the compiler warning about unused parameter if (!registered) { registered = true; QS_OBJ_DICTIONARY(&l_philo[0]); QS_OBJ_DICTIONARY(&l_philo[0].m_timeEvt); QS_OBJ_DICTIONARY(&l_philo[1]); QS_OBJ_DICTIONARY(&l_philo[1].m_timeEvt); QS_OBJ_DICTIONARY(&l_philo[2]); QS_OBJ_DICTIONARY(&l_philo[2].m_timeEvt); QS_OBJ_DICTIONARY(&l_philo[3]); QS_OBJ_DICTIONARY(&l_philo[3].m_timeEvt); QS_OBJ_DICTIONARY(&l_philo[4]); QS_OBJ_DICTIONARY(&l_philo[4].m_timeEvt); QS_FUN_DICTIONARY(&Philo::initial); QS_FUN_DICTIONARY(&Philo::thinking); QS_FUN_DICTIONARY(&Philo::hungry); QS_FUN_DICTIONARY(&Philo::eating); } QS_SIG_DICTIONARY(HUNGRY_SIG, me); // signal for each Philos QS_SIG_DICTIONARY(TIMEOUT_SIG, me); // signal for each Philos me->subscribe(EAT_SIG); return Q_TRAN(&Philo::thinking); } // @(/3/0/2/1) ............................................................... QP::QState Philo::thinking(Philo * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // @(/3/0/2/1) case Q_ENTRY_SIG: { me->m_timeEvt.armX(think_time()); status_ = Q_HANDLED(); break; } // @(/3/0/2/1) case Q_EXIT_SIG: { (void)me->m_timeEvt.disarm(); status_ = Q_HANDLED(); break; } // @(/3/0/2/1/0) case TIMEOUT_SIG: { status_ = Q_TRAN(&Philo::hungry); break; } // @(/3/0/2/1/1) case EAT_SIG: // intentionally fall through case DONE_SIG: { /* EAT or DONE must be for other Philos than this one */ Q_ASSERT(Q_EVT_CAST(TableEvt)->philoNum != PHILO_ID(me)); status_ = Q_HANDLED(); break; } default: { status_ = Q_SUPER(&QHsm::top); break; } } return status_; } // @(/3/0/2/2) ............................................................... QP::QState Philo::hungry(Philo * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // @(/3/0/2/2) case Q_ENTRY_SIG: { AO_Table->POST(Q_NEW(TableEvt, HUNGRY_SIG, PHILO_ID(me)), me); status_ = Q_HANDLED(); break; } // @(/3/0/2/2/0) case EAT_SIG: { // @(/3/0/2/2/0/0) if (Q_EVT_CAST(TableEvt)->philoNum == PHILO_ID(me)) { status_ = Q_TRAN(&Philo::eating); } else { status_ = Q_UNHANDLED(); } break; } // @(/3/0/2/2/1) case DONE_SIG: { /* DONE must be for other Philos than this one */ Q_ASSERT(Q_EVT_CAST(TableEvt)->philoNum != PHILO_ID(me)); status_ = Q_HANDLED(); break; } default: { status_ = Q_SUPER(&QHsm::top); break; } } return status_; } // @(/3/0/2/3) ............................................................... QP::QState Philo::eating(Philo * const me, QP::QEvt const * const e) { QP::QState status_; switch (e->sig) { // @(/3/0/2/3) case Q_ENTRY_SIG: { me->m_timeEvt.armX(think_time()); status_ = Q_HANDLED(); break; } // @(/3/0/2/3) case Q_EXIT_SIG: { QP::QF::PUBLISH(Q_NEW(TableEvt, DONE_SIG, PHILO_ID(me)), me); (void)me->m_timeEvt.disarm(); status_ = Q_HANDLED(); break; } // @(/3/0/2/3/0) case TIMEOUT_SIG: { status_ = Q_TRAN(&Philo::thinking); break; } // @(/3/0/2/3/1) case EAT_SIG: // intentionally fall through case DONE_SIG: { /* EAT or DONE must be for other Philos than this one */ Q_ASSERT(Q_EVT_CAST(TableEvt)->philoNum != PHILO_ID(me)); status_ = Q_HANDLED(); break; } default: { status_ = Q_SUPER(&QHsm::top); break; } } return status_; } } // namespace DPP