#include "GuardedEntry.h" #include /*! \file Implementation of the state machine 'GuardedEntry' */ GuardedEntry::GuardedEntry() { stateConfVectorPosition = 0; } GuardedEntry::~GuardedEntry() { } void GuardedEntry::init() { for (int i = 0; i < maxOrthogonalStates; ++i) stateConfVector[i] = GuardedEntry_last_state; stateConfVectorPosition = 0; clearInEvents(); clearOutEvents(); /* Default init sequence for statechart GuardedEntry */ iface.guard = false; iface.done = false; } void GuardedEntry::enter() { /* Default enter sequence for statechart GuardedEntry */ enseq_main_region_default(); } void GuardedEntry::exit() { /* Default exit sequence for statechart GuardedEntry */ exseq_main_region(); } sc_boolean GuardedEntry::isActive() const { return stateConfVector[0] != GuardedEntry_last_state; } /* * Always returns 'false' since this state machine can never become final. */ sc_boolean GuardedEntry::isFinal() const { return false;} void GuardedEntry::runCycle() { clearOutEvents(); for (stateConfVectorPosition = 0; stateConfVectorPosition < maxOrthogonalStates; stateConfVectorPosition++) { switch (stateConfVector[stateConfVectorPosition]) { case main_region_A : { react_main_region_A(); break; } case main_region_B : { react_main_region_B(); break; } default: break; } } clearInEvents(); } void GuardedEntry::clearInEvents() { iface.e_raised = false; } void GuardedEntry::clearOutEvents() { } sc_boolean GuardedEntry::isStateActive(GuardedEntryStates state) const { switch (state) { case main_region_A : return (sc_boolean) (stateConfVector[0] == main_region_A ); case main_region_B : return (sc_boolean) (stateConfVector[0] == main_region_B ); default: return false; } } GuardedEntry::DefaultSCI* GuardedEntry::getDefaultSCI() { return &iface; } void GuardedEntry::DefaultSCI::raise_e() { e_raised = true; } void GuardedEntry::raise_e() { iface.raise_e(); } sc_boolean GuardedEntry::DefaultSCI::get_guard() const { return guard; } sc_boolean GuardedEntry::get_guard() const { return iface.guard; } void GuardedEntry::DefaultSCI::set_guard(sc_boolean value) { guard = value; } void GuardedEntry::set_guard(sc_boolean value) { iface.guard = value; } sc_boolean GuardedEntry::DefaultSCI::get_done() const { return done; } sc_boolean GuardedEntry::get_done() const { return iface.done; } void GuardedEntry::DefaultSCI::set_done(sc_boolean value) { done = value; } void GuardedEntry::set_done(sc_boolean value) { iface.done = value; } // implementations of all internal functions sc_boolean GuardedEntry::check_main_region_A_tr0_tr0() { return iface.e_raised; } sc_boolean GuardedEntry::check_main_region_B_tr0_tr0() { return iface.e_raised; } void GuardedEntry::effect_main_region_A_tr0() { exseq_main_region_A(); enseq_main_region_B_default(); } void GuardedEntry::effect_main_region_B_tr0() { exseq_main_region_B(); enseq_main_region_A_default(); } /* Entry action for state 'A'. */ void GuardedEntry::enact_main_region_A() { /* Entry action for state 'A'. */ if (iface.guard) { iface.done = true; } } /* 'default' enter sequence for state A */ void GuardedEntry::enseq_main_region_A_default() { /* 'default' enter sequence for state A */ enact_main_region_A(); stateConfVector[0] = main_region_A; stateConfVectorPosition = 0; } /* 'default' enter sequence for state B */ void GuardedEntry::enseq_main_region_B_default() { /* 'default' enter sequence for state B */ stateConfVector[0] = main_region_B; stateConfVectorPosition = 0; } /* 'default' enter sequence for region main region */ void GuardedEntry::enseq_main_region_default() { /* 'default' enter sequence for region main region */ react_main_region__entry_Default(); } /* Default exit sequence for state A */ void GuardedEntry::exseq_main_region_A() { /* Default exit sequence for state A */ stateConfVector[0] = GuardedEntry_last_state; stateConfVectorPosition = 0; } /* Default exit sequence for state B */ void GuardedEntry::exseq_main_region_B() { /* Default exit sequence for state B */ stateConfVector[0] = GuardedEntry_last_state; stateConfVectorPosition = 0; } /* Default exit sequence for region main region */ void GuardedEntry::exseq_main_region() { /* Default exit sequence for region main region */ /* Handle exit of all possible states (of GuardedEntry.main_region) at position 0... */ switch(stateConfVector[ 0 ]) { case main_region_A : { exseq_main_region_A(); break; } case main_region_B : { exseq_main_region_B(); break; } default: break; } } /* The reactions of state A. */ void GuardedEntry::react_main_region_A() { /* The reactions of state A. */ if (check_main_region_A_tr0_tr0()) { effect_main_region_A_tr0(); } } /* The reactions of state B. */ void GuardedEntry::react_main_region_B() { /* The reactions of state B. */ if (check_main_region_B_tr0_tr0()) { effect_main_region_B_tr0(); } } /* Default react sequence for initial entry */ void GuardedEntry::react_main_region__entry_Default() { /* Default react sequence for initial entry */ enseq_main_region_A_default(); }