static void sf_gateway_c2_mdl5(SFc2_mdl5InstanceStruct *chartInstance) { boolean_T c2_out; real_T *c2_N_Loop; real_T *c2_idx; int32_T exitg1; c2_idx = (real_T *)ssGetOutputPortSignal(chartInstance->S, 1); c2_N_Loop = (real_T *)ssGetInputPortSignal(chartInstance->S, 0); c2_set_sim_state_side_effects_c2_mdl5(chartInstance); _SFD_SYMBOL_SCOPE_PUSH(0U, 0U); _sfTime_ = sf_get_time(chartInstance->S); _SFD_CC_CALL(CHART_ENTER_SFUNCTION_TAG, 0U, chartInstance->c2_sfEvent); _SFD_DATA_RANGE_CHECK(*c2_N_Loop, 0U); _SFD_DATA_RANGE_CHECK((real_T)chartInstance->c2_i1, 1U); _SFD_DATA_RANGE_CHECK(*c2_idx, 2U); chartInstance->c2_sfEvent = CALL_EVENT; _SFD_CC_CALL(CHART_ENTER_DURING_FUNCTION_TAG, 0U, chartInstance->c2_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 0U, chartInstance->c2_sfEvent); *c2_idx = 1.0; _SFD_DATA_RANGE_CHECK(*c2_idx, 2U); chartInstance->c2_i1 = 0; _SFD_DATA_RANGE_CHECK((real_T)chartInstance->c2_i1, 1U); do { exitg1 = 0; _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 1U, chartInstance->c2_sfEvent); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 2U, chartInstance->c2_sfEvent); c2_out = (CV_TRANSITION_EVAL(2U, (int32_T)_SFD_CCP_CALL(2U, 0, (real_T) chartInstance->c2_i1 < *c2_N_Loop != 0U, chartInstance->c2_sfEvent)) != 0); if (c2_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 2U, chartInstance->c2_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 3U, chartInstance->c2_sfEvent); sf_call_output_fcn_call(chartInstance->S, 0, "function_call", 0); (*c2_idx)++; _SFD_DATA_RANGE_CHECK(*c2_idx, 2U); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 5U, chartInstance->c2_sfEvent); chartInstance->c2_i1 = c2__s32_add__(chartInstance, chartInstance->c2_i1, 1); _SFD_DATA_RANGE_CHECK((real_T)chartInstance->c2_i1, 1U); _SF_MEX_LISTEN_FOR_CTRL_C(chartInstance->S); } else { exitg1 = 1; } } while (exitg1 == 0); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 4U, chartInstance->c2_sfEvent); _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 0U, chartInstance->c2_sfEvent); _SFD_SYMBOL_SCOPE_POP(); _SFD_CHECK_FOR_STATE_INCONSISTENCY(_mdl5MachineNumber_, chartInstance->chartNumber, chartInstance->instanceNumber); }
static void sf_gateway_c3_MON_Functional(SFc3_MON_FunctionalInstanceStruct *chartInstance) { boolean_T c3_out; c3_set_sim_state_side_effects_c3_MON_Functional(chartInstance); _SFD_SYMBOL_SCOPE_PUSH(0U, 0U); _sfTime_ = sf_get_time(chartInstance->S); _SFD_CC_CALL(CHART_ENTER_SFUNCTION_TAG, 2U, chartInstance->c3_sfEvent); _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c3_pre_c, 1U, 1U, 0U, chartInstance->c3_sfEvent, false); _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c3_p, 0U, 1U, 0U, chartInstance->c3_sfEvent, false); chartInstance->c3_sfEvent = CALL_EVENT; _SFD_CC_CALL(CHART_ENTER_DURING_FUNCTION_TAG, 2U, chartInstance->c3_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 0U, chartInstance->c3_sfEvent); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 1U, chartInstance->c3_sfEvent); c3_out = (CV_TRANSITION_EVAL(1U, (int32_T)_SFD_CCP_CALL(1U, 0, *chartInstance->c3_p != 0U, chartInstance->c3_sfEvent)) != 0); if (c3_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 1U, chartInstance->c3_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 3U, chartInstance->c3_sfEvent); *chartInstance->c3_c = c3__s32_add__(chartInstance, *chartInstance->c3_pre_c, 1, 4824U, 1U, 12U); _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c3_c, 2U, 5U, 3U, chartInstance->c3_sfEvent, false); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 4U, chartInstance->c3_sfEvent); } else { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 2U, chartInstance->c3_sfEvent); *chartInstance->c3_c = 0; _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c3_c, 2U, 5U, 2U, chartInstance->c3_sfEvent, false); } _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 5U, chartInstance->c3_sfEvent); _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 2U, chartInstance->c3_sfEvent); _SFD_SYMBOL_SCOPE_POP(); _SFD_CHECK_FOR_STATE_INCONSISTENCY(_MON_FunctionalMachineNumber_, chartInstance->chartNumber, chartInstance->instanceNumber); }
static void sf_c7_Pedal_Interpretation_exe(void) { uint8_T c7_previousEvent; real_T *c7_TDPre; real_T *c7_Activate; c7_TDPre = (real_T *)ssGetOutputPortSignal(chartInstance.S, 1); c7_Activate = (real_T *)ssGetInputPortSignal(chartInstance.S, 0); _sfTime_ = (real_T)ssGetT(chartInstance.S); _SFD_CC_CALL(CHART_ENTER_SFUNCTION_TAG,3); _SFD_DATA_RANGE_CHECK(*c7_Activate, 0U); _SFD_DATA_RANGE_CHECK(*c7_TDPre, 1U); c7_previousEvent = _sfEvent_; _sfEvent_ = CALL_EVENT; _SFD_CC_CALL(CHART_ENTER_DURING_FUNCTION_TAG,3); if (chartInstance.c7_temporalCounter_i1 < 1023) { chartInstance.c7_temporalCounter_i1 = (uint16_T) (chartInstance.c7_temporalCounter_i1 + 1); } if (chartInstance.c7_is_active_c7_Pedal_Interpretation_exe == 0) { _SFD_CC_CALL(CHART_ENTER_ENTRY_FUNCTION_TAG,3); chartInstance.c7_is_active_c7_Pedal_Interpretation_exe = 1U; _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG,3); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,0); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,0); chartInstance.c7_is_c7_Pedal_Interpretation_exe = (uint8_T)c7_IN_wait; _SFD_CS_CALL(STATE_ACTIVE_TAG,5); chartInstance.c7_temporalCounter_i1 = 0U; chartInstance.c7_tp_wait = 1U; *c7_TDPre = 2.0; _SFD_DATA_RANGE_CHECK(*c7_TDPre, 1U); } else { switch (chartInstance.c7_is_c7_Pedal_Interpretation_exe) { case c7_IN_Precondition1: CV_CHART_EVAL(3,0,1); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG,0); switch (chartInstance.c7_is_Precondition1) { case c7_IN_Init1: CV_STATE_EVAL(0,0,1); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG,1); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,2); if (CV_TRANSITION_EVAL(2U, (_SFD_CCP_CALL(2,0,((1)!=0)) != 0) && (_SFD_CCP_CALL(2,1, ((chartInstance.c7_temporalCounter_i1 >= 50)!=0)) != 0)) != 0) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,2); _SFD_CS_CALL(STATE_ENTER_EXIT_FUNCTION_TAG,1); chartInstance.c7_tp_Init1 = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG,1); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,1); chartInstance.c7_is_Precondition1 = (uint8_T)c7_IN_TDataPre1; _SFD_CS_CALL(STATE_ACTIVE_TAG,3); chartInstance.c7_temporalCounter_i1 = 0U; chartInstance.c7_tp_TDataPre1 = 1U; *c7_TDPre = 1.0; _SFD_DATA_RANGE_CHECK(*c7_TDPre, 1U); } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,1); break; case c7_IN_Stabilise1: CV_STATE_EVAL(0,0,2); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG,2); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,3); if (CV_TRANSITION_EVAL(3U, (_SFD_CCP_CALL(3,0,((1)!=0)) != 0) && (_SFD_CCP_CALL(3,1, ((chartInstance.c7_temporalCounter_i1 >= 50)!=0)) != 0)) != 0) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,3); _SFD_CS_CALL(STATE_ENTER_EXIT_FUNCTION_TAG,2); chartInstance.c7_tp_Stabilise1 = 0U; chartInstance.c7_is_Precondition1 = (uint8_T)c7_IN_NO_ACTIVE_CHILD; _SFD_CS_CALL(STATE_INACTIVE_TAG,2); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,2); _SFD_CS_CALL(STATE_ENTER_EXIT_FUNCTION_TAG,0); chartInstance.c7_tp_Precondition1 = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG,0); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,0); chartInstance.c7_is_c7_Pedal_Interpretation_exe = (uint8_T)c7_IN_stop; _SFD_CS_CALL(STATE_ACTIVE_TAG,4); chartInstance.c7_tp_stop = 1U; } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,2); break; case c7_IN_TDataPre1: CV_STATE_EVAL(0,0,3); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG,3); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,4); if (CV_TRANSITION_EVAL(4U, (_SFD_CCP_CALL(4,0,((1)!=0)) != 0) && (_SFD_CCP_CALL(4,1, ((chartInstance.c7_temporalCounter_i1 >= 100)!=0)) != 0)) != 0) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,4); _SFD_CS_CALL(STATE_ENTER_EXIT_FUNCTION_TAG,3); chartInstance.c7_tp_TDataPre1 = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG,3); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,3); chartInstance.c7_is_Precondition1 = (uint8_T)c7_IN_Stabilise1; _SFD_CS_CALL(STATE_ACTIVE_TAG,2); chartInstance.c7_temporalCounter_i1 = 0U; chartInstance.c7_tp_Stabilise1 = 1U; *c7_TDPre = 1.0; _SFD_DATA_RANGE_CHECK(*c7_TDPre, 1U); } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,3); break; default: CV_STATE_EVAL(0,0,0); chartInstance.c7_is_Precondition1 = (uint8_T)c7_IN_NO_ACTIVE_CHILD; _SFD_CS_CALL(STATE_INACTIVE_TAG,1); break; } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,0); break; case c7_IN_stop: CV_CHART_EVAL(3,0,2); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG,4); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,5); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,5); _SFD_CS_CALL(STATE_ENTER_EXIT_FUNCTION_TAG,4); chartInstance.c7_tp_stop = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG,4); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,4); chartInstance.c7_is_c7_Pedal_Interpretation_exe = (uint8_T) c7_IN_Precondition1; _SFD_CS_CALL(STATE_ACTIVE_TAG,0); chartInstance.c7_tp_Precondition1 = 1U; _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,1); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,1); chartInstance.c7_is_Precondition1 = (uint8_T)c7_IN_Init1; _SFD_CS_CALL(STATE_ACTIVE_TAG,1); chartInstance.c7_temporalCounter_i1 = 0U; chartInstance.c7_tp_Init1 = 1U; *c7_TDPre = 1.0; _SFD_DATA_RANGE_CHECK(*c7_TDPre, 1U); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,4); break; case c7_IN_wait: CV_CHART_EVAL(3,0,3); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG,5); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,6); if (CV_TRANSITION_EVAL(6U, (_SFD_CCP_CALL(6,0,((1)!=0)) != 0) && (_SFD_CCP_CALL(6,1, ((chartInstance.c7_temporalCounter_i1 >= 800)!=0)) != 0)) != 0) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,6); _SFD_CS_CALL(STATE_ENTER_EXIT_FUNCTION_TAG,5); chartInstance.c7_tp_wait = 0U; chartInstance.c7_is_c7_Pedal_Interpretation_exe = (uint8_T) c7_IN_NO_ACTIVE_CHILD; _SFD_CS_CALL(STATE_INACTIVE_TAG,5); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,5); chartInstance.c7_is_c7_Pedal_Interpretation_exe = (uint8_T) c7_IN_Precondition1; _SFD_CS_CALL(STATE_ACTIVE_TAG,0); chartInstance.c7_tp_Precondition1 = 1U; _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,1); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,1); chartInstance.c7_is_Precondition1 = (uint8_T)c7_IN_Init1; _SFD_CS_CALL(STATE_ACTIVE_TAG,1); chartInstance.c7_temporalCounter_i1 = 0U; chartInstance.c7_tp_Init1 = 1U; *c7_TDPre = 1.0; _SFD_DATA_RANGE_CHECK(*c7_TDPre, 1U); } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,5); break; default: CV_CHART_EVAL(3,0,0); chartInstance.c7_is_c7_Pedal_Interpretation_exe = (uint8_T) c7_IN_NO_ACTIVE_CHILD; _SFD_CS_CALL(STATE_INACTIVE_TAG,0); break; } } _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG,3); _sfEvent_ = c7_previousEvent; sf_debug_check_for_state_inconsistency(_Pedal_Interpretation_exeMachineNumber_, chartInstance.chartNumber, chartInstance. instanceNumber); }
static void sf_c61_heart_model(SFc61_heart_modelInstanceStruct *chartInstance) { boolean_T c61_out; boolean_T c61_b_out; boolean_T c61_c_out; boolean_T c61_temp; boolean_T c61_d_out; boolean_T c61_e_out; boolean_T c61_f_out; real_T *c61_v; boolean_T *c61_event1; boolean_T *c61_event2; boolean_T *c61_event3; c61_event3 = (boolean_T *)ssGetOutputPortSignal(chartInstance->S, 3); c61_event2 = (boolean_T *)ssGetOutputPortSignal(chartInstance->S, 2); c61_event1 = (boolean_T *)ssGetOutputPortSignal(chartInstance->S, 1); c61_v = (real_T *)ssGetInputPortSignal(chartInstance->S, 0); c61_set_sim_state_side_effects_c61_heart_model(chartInstance); _sfTime_ = (real_T)ssGetT(chartInstance->S); _SFD_CC_CALL(CHART_ENTER_SFUNCTION_TAG, 58U, chartInstance->c61_sfEvent); _SFD_DATA_RANGE_CHECK(*c61_v, 0U); chartInstance->c61_sfEvent = CALL_EVENT; _SFD_CC_CALL(CHART_ENTER_DURING_FUNCTION_TAG, 58U, chartInstance->c61_sfEvent); if (chartInstance->c61_is_active_c61_heart_model == 0) { _SFD_CC_CALL(CHART_ENTER_ENTRY_FUNCTION_TAG, 58U, chartInstance->c61_sfEvent); chartInstance->c61_is_active_c61_heart_model = 1U; _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 58U, chartInstance->c61_sfEvent); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 0U, chartInstance->c61_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 0U, chartInstance->c61_sfEvent); chartInstance->c61_is_c61_heart_model = c61_IN_state; _SFD_CS_CALL(STATE_ACTIVE_TAG, 0U, chartInstance->c61_sfEvent); chartInstance->c61_tp_state = 1U; } else { _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 0U, chartInstance->c61_sfEvent); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 1U, chartInstance->c61_sfEvent); c61_out = (CV_TRANSITION_EVAL(1U, (int32_T)_SFD_CCP_CALL(1U, 0, *c61_v < 20.0 != 0U, chartInstance->c61_sfEvent)) != 0); if (c61_out) { if (sf_debug_transition_conflict_check_enabled()) { unsigned int transitionList[3]; unsigned int numTransitions = 1; transitionList[0] = 1; sf_debug_transition_conflict_check_begin(); c61_b_out = ((*c61_v >= 20.0) && (*c61_v < 138.0)); if (c61_b_out) { transitionList[numTransitions] = 2; numTransitions++; } c61_c_out = (*c61_v >= 138.0); if (c61_c_out) { transitionList[numTransitions] = 3; numTransitions++; } sf_debug_transition_conflict_check_end(); if (numTransitions > 1) { _SFD_TRANSITION_CONFLICT(&(transitionList[0]),numTransitions); } } _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 1U, chartInstance->c61_sfEvent); chartInstance->c61_tp_state = 0U; chartInstance->c61_is_c61_heart_model = c61_IN_NO_ACTIVE_CHILD; _SFD_CS_CALL(STATE_INACTIVE_TAG, 0U, chartInstance->c61_sfEvent); chartInstance->c61_event1EventCounter++; chartInstance->c61_is_c61_heart_model = c61_IN_state; _SFD_CS_CALL(STATE_ACTIVE_TAG, 0U, chartInstance->c61_sfEvent); chartInstance->c61_tp_state = 1U; } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 2U, chartInstance->c61_sfEvent); c61_temp = (_SFD_CCP_CALL(2U, 0, *c61_v >= 20.0 != 0U, chartInstance->c61_sfEvent) != 0); if (c61_temp) { c61_temp = (_SFD_CCP_CALL(2U, 1, *c61_v < 138.0 != 0U, chartInstance->c61_sfEvent) != 0); } c61_d_out = (CV_TRANSITION_EVAL(2U, (int32_T)c61_temp) != 0); if (c61_d_out) { if (sf_debug_transition_conflict_check_enabled()) { unsigned int transitionList[2]; unsigned int numTransitions = 1; transitionList[0] = 2; sf_debug_transition_conflict_check_begin(); c61_e_out = (*c61_v >= 138.0); if (c61_e_out) { transitionList[numTransitions] = 3; numTransitions++; } sf_debug_transition_conflict_check_end(); if (numTransitions > 1) { _SFD_TRANSITION_CONFLICT(&(transitionList[0]),numTransitions); } } _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 2U, chartInstance->c61_sfEvent); chartInstance->c61_tp_state = 0U; chartInstance->c61_is_c61_heart_model = c61_IN_NO_ACTIVE_CHILD; _SFD_CS_CALL(STATE_INACTIVE_TAG, 0U, chartInstance->c61_sfEvent); chartInstance->c61_event2EventCounter++; chartInstance->c61_is_c61_heart_model = c61_IN_state; _SFD_CS_CALL(STATE_ACTIVE_TAG, 0U, chartInstance->c61_sfEvent); chartInstance->c61_tp_state = 1U; } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 3U, chartInstance->c61_sfEvent); c61_f_out = (CV_TRANSITION_EVAL(3U, (int32_T)_SFD_CCP_CALL(3U, 0, *c61_v >= 138.0 != 0U, chartInstance->c61_sfEvent)) != 0); if (c61_f_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 3U, chartInstance->c61_sfEvent); chartInstance->c61_tp_state = 0U; chartInstance->c61_is_c61_heart_model = c61_IN_NO_ACTIVE_CHILD; _SFD_CS_CALL(STATE_INACTIVE_TAG, 0U, chartInstance->c61_sfEvent); chartInstance->c61_event3EventCounter++; chartInstance->c61_is_c61_heart_model = c61_IN_state; _SFD_CS_CALL(STATE_ACTIVE_TAG, 0U, chartInstance->c61_sfEvent); chartInstance->c61_tp_state = 1U; } } } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 0U, chartInstance->c61_sfEvent); } _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 58U, chartInstance->c61_sfEvent); if (chartInstance->c61_event1EventCounter > 0U) { *c61_event1 = !*c61_event1; chartInstance->c61_event1EventCounter--; } if (chartInstance->c61_event2EventCounter > 0U) { *c61_event2 = !*c61_event2; chartInstance->c61_event2EventCounter--; } if (chartInstance->c61_event3EventCounter > 0U) { *c61_event3 = !*c61_event3; chartInstance->c61_event3EventCounter--; } sf_debug_check_for_state_inconsistency(_heart_modelMachineNumber_, chartInstance->chartNumber, chartInstance->instanceNumber); }
static void sf_gateway_c4_MON_sl_after_replacement3 (SFc4_MON_sl_after_replacement3InstanceStruct *chartInstance) { boolean_T c4_out; boolean_T c4_temp; boolean_T c4_b_temp; boolean_T c4_c_temp; boolean_T c4_b_out; boolean_T c4_d_temp; boolean_T c4_e_temp; boolean_T c4_c_out; boolean_T guard1 = false; boolean_T guard2 = false; c4_set_sim_state_side_effects_c4_MON_sl_after_replacement3(chartInstance); _SFD_SYMBOL_SCOPE_PUSH(0U, 0U); _sfTime_ = sf_get_time(chartInstance->S); _SFD_CC_CALL(CHART_ENTER_SFUNCTION_TAG, 3U, chartInstance->c4_sfEvent); _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c4_Sync_From_Error, 3U, 1U, 0U, chartInstance->c4_sfEvent, false); _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c4_Error, 2U, 1U, 0U, chartInstance->c4_sfEvent, false); _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c4_pre_Active, 1U, 1U, 0U, chartInstance->c4_sfEvent, false); _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c4_Sync_From_Active, 0U, 1U, 0U, chartInstance->c4_sfEvent, false); chartInstance->c4_sfEvent = CALL_EVENT; _SFD_CC_CALL(CHART_ENTER_DURING_FUNCTION_TAG, 3U, chartInstance->c4_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 0U, chartInstance->c4_sfEvent); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 1U, chartInstance->c4_sfEvent); c4_out = (CV_TRANSITION_EVAL(1U, (int32_T)_SFD_CCP_CALL(1U, 0, *chartInstance->c4_Error != 0U, chartInstance->c4_sfEvent)) != 0); guard1 = false; guard2 = false; if (c4_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 1U, chartInstance->c4_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 3U, chartInstance->c4_sfEvent); *chartInstance->c4_Active = false; _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c4_Active, 4U, 5U, 3U, chartInstance->c4_sfEvent, false); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 12U, chartInstance->c4_sfEvent); guard2 = true; } else { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 2U, chartInstance->c4_sfEvent); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 4U, chartInstance->c4_sfEvent); c4_temp = (_SFD_CCP_CALL(4U, 0, *chartInstance->c4_pre_Active != 0U, chartInstance->c4_sfEvent) != 0); if (c4_temp) { c4_temp = (_SFD_CCP_CALL(4U, 1, *chartInstance->c4_Sync_From_Active != 0U, chartInstance->c4_sfEvent) != 0); } c4_b_temp = c4_temp; if (c4_b_temp) { c4_b_temp = !(_SFD_CCP_CALL(4U, 2, *chartInstance->c4_Sync_From_Error != 0U, chartInstance->c4_sfEvent) != 0); } c4_c_temp = c4_b_temp; if (c4_c_temp) { c4_c_temp = !(_SFD_CCP_CALL(4U, 3, chartInstance->c4_Primary_Side != 0U, chartInstance->c4_sfEvent) != 0); } c4_b_out = (CV_TRANSITION_EVAL(4U, (int32_T)c4_c_temp) != 0); if (c4_b_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 4U, chartInstance->c4_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 6U, chartInstance->c4_sfEvent); *chartInstance->c4_Active = false; _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c4_Active, 4U, 5U, 6U, chartInstance->c4_sfEvent, false); guard2 = true; } else { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 5U, chartInstance->c4_sfEvent); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 7U, chartInstance->c4_sfEvent); c4_d_temp = !(_SFD_CCP_CALL(7U, 0, *chartInstance->c4_pre_Active != 0U, chartInstance->c4_sfEvent) != 0); if (c4_d_temp) { c4_e_temp = !(_SFD_CCP_CALL(7U, 1, *chartInstance->c4_Sync_From_Active != 0U, chartInstance->c4_sfEvent) != 0); if (!c4_e_temp) { c4_e_temp = (_SFD_CCP_CALL(7U, 2, *chartInstance->c4_Sync_From_Error != 0U, chartInstance->c4_sfEvent) != 0); } c4_d_temp = c4_e_temp; } c4_c_out = (CV_TRANSITION_EVAL(7U, (int32_T)c4_d_temp) != 0); if (c4_c_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 7U, chartInstance->c4_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 9U, chartInstance->c4_sfEvent); *chartInstance->c4_Active = true; _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c4_Active, 4U, 5U, 9U, chartInstance->c4_sfEvent, false); guard1 = true; } else { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 8U, chartInstance->c4_sfEvent); *chartInstance->c4_Active = *chartInstance->c4_pre_Active; _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c4_Active, 4U, 5U, 8U, chartInstance->c4_sfEvent, false); } } } if (guard2 == true) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 11U, chartInstance->c4_sfEvent); guard1 = true; } if (guard1 == true) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 10U, chartInstance->c4_sfEvent); } _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 13U, chartInstance->c4_sfEvent); _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 3U, chartInstance->c4_sfEvent); _SFD_SYMBOL_SCOPE_POP(); _SFD_CHECK_FOR_STATE_INCONSISTENCY(_MON_sl_after_replacement3MachineNumber_, chartInstance->chartNumber, chartInstance->instanceNumber); }
static void sf_c1_EVdemo_6(SFc1_EVdemo_6InstanceStruct *chartInstance) { boolean_T c1_temp; boolean_T c1_b_temp; boolean_T c1_out; boolean_T c1_b_out; boolean_T c1_c_temp; boolean_T c1_d_temp; boolean_T c1_c_out; boolean_T c1_d_out; real32_T *c1_spd_err; real32_T *c1_spd_ref_rate; uint8_T *c1_Mode; real32_T *c1_veh_spd; boolean_T *c1_BrakeSet; c1_spd_ref_rate = (real32_T *)ssGetInputPortSignal(chartInstance->S, 2); c1_BrakeSet = (boolean_T *)ssGetOutputPortSignal(chartInstance->S, 2); c1_veh_spd = (real32_T *)ssGetInputPortSignal(chartInstance->S, 1); c1_spd_err = (real32_T *)ssGetInputPortSignal(chartInstance->S, 0); c1_Mode = (uint8_T *)ssGetOutputPortSignal(chartInstance->S, 1); c1_set_sim_state_side_effects_c1_EVdemo_6(chartInstance); _SFD_SYMBOL_SCOPE_PUSH(0U, 0U); _sfTime_ = (real_T)ssGetT(chartInstance->S); _SFD_CC_CALL(CHART_ENTER_SFUNCTION_TAG, 0U, chartInstance->c1_sfEvent); chartInstance->c1_sfEvent = CALL_EVENT; if (chartInstance->c1_temporalCounter_i1 < 127U) { chartInstance->c1_temporalCounter_i1 = (uint8_T)(int16_T) (chartInstance->c1_temporalCounter_i1 + 1); } _SFD_CC_CALL(CHART_ENTER_DURING_FUNCTION_TAG, 0U, chartInstance->c1_sfEvent); if (chartInstance->c1_is_active_c1_EVdemo_6 == 0U) { _SFD_CC_CALL(CHART_ENTER_ENTRY_FUNCTION_TAG, 0U, chartInstance->c1_sfEvent); chartInstance->c1_is_active_c1_EVdemo_6 = 1U; _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 0U, chartInstance->c1_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 0U, chartInstance->c1_sfEvent); chartInstance->c1_is_c1_EVdemo_6 = c1_IN_Stop; _SFD_CS_CALL(STATE_ACTIVE_TAG, 2U, chartInstance->c1_sfEvent); chartInstance->c1_tp_Stop = 1U; } else { switch (chartInstance->c1_is_c1_EVdemo_6) { case c1_IN_Accel: CV_CHART_EVAL(0, 0, 1); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 4U, chartInstance->c1_sfEvent); c1_temp = (_SFD_CCP_CALL(4U, 0, *c1_spd_err < -0.25F != 0U, chartInstance->c1_sfEvent) != 0); if (c1_temp) { c1_temp = (_SFD_CCP_CALL(4U, 1, *c1_spd_ref_rate < 0.0F != 0U, chartInstance->c1_sfEvent) != 0); } c1_b_temp = c1_temp; if (c1_b_temp) { c1_b_temp = (_SFD_CCP_CALL(4U, 2, (int16_T) chartInstance->c1_temporalCounter_i1 >= 120 != 0U, chartInstance->c1_sfEvent) != 0); } c1_out = (CV_TRANSITION_EVAL(4U, (int32_T)c1_b_temp) != 0); if (c1_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 4U, chartInstance->c1_sfEvent); chartInstance->c1_tp_Accel = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 0U, chartInstance->c1_sfEvent); chartInstance->c1_is_c1_EVdemo_6 = c1_IN_Decel; _SFD_CS_CALL(STATE_ACTIVE_TAG, 1U, chartInstance->c1_sfEvent); chartInstance->c1_temporalCounter_i1 = 0U; chartInstance->c1_tp_Decel = 1U; } else { _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 0U, chartInstance->c1_sfEvent); *c1_Mode = 1U; } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 0U, chartInstance->c1_sfEvent); break; case c1_IN_Decel: CV_CHART_EVAL(0, 0, 2); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 2U, chartInstance->c1_sfEvent); c1_b_out = (CV_TRANSITION_EVAL(2U, (int32_T)_SFD_CCP_CALL(2U, 0, (real_T) *c1_veh_spd < 0.05 != 0U, chartInstance->c1_sfEvent)) != 0); if (c1_b_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 2U, chartInstance->c1_sfEvent); chartInstance->c1_tp_Decel = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 1U, chartInstance->c1_sfEvent); chartInstance->c1_is_c1_EVdemo_6 = c1_IN_Stop; _SFD_CS_CALL(STATE_ACTIVE_TAG, 2U, chartInstance->c1_sfEvent); chartInstance->c1_tp_Stop = 1U; } else { _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 3U, chartInstance->c1_sfEvent); c1_c_temp = (_SFD_CCP_CALL(3U, 0, *c1_spd_err > 0.25F != 0U, chartInstance->c1_sfEvent) != 0); if (c1_c_temp) { c1_c_temp = (_SFD_CCP_CALL(3U, 1, *c1_spd_ref_rate > 0.0F != 0U, chartInstance->c1_sfEvent) != 0); } c1_d_temp = c1_c_temp; if (c1_d_temp) { c1_d_temp = (_SFD_CCP_CALL(3U, 2, (int16_T) chartInstance->c1_temporalCounter_i1 >= 120 != 0U, chartInstance->c1_sfEvent) != 0); } c1_c_out = (CV_TRANSITION_EVAL(3U, (int32_T)c1_d_temp) != 0); if (c1_c_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 3U, chartInstance->c1_sfEvent); chartInstance->c1_tp_Decel = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 1U, chartInstance->c1_sfEvent); chartInstance->c1_is_c1_EVdemo_6 = c1_IN_Accel; _SFD_CS_CALL(STATE_ACTIVE_TAG, 0U, chartInstance->c1_sfEvent); chartInstance->c1_temporalCounter_i1 = 0U; chartInstance->c1_tp_Accel = 1U; } else { _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 1U, chartInstance->c1_sfEvent); *c1_Mode = 2U; } } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 1U, chartInstance->c1_sfEvent); break; case c1_IN_Stop: CV_CHART_EVAL(0, 0, 3); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 1U, chartInstance->c1_sfEvent); c1_d_out = (CV_TRANSITION_EVAL(1U, (int32_T)_SFD_CCP_CALL(1U, 0, *c1_spd_err > 0.0F != 0U, chartInstance->c1_sfEvent)) != 0); if (c1_d_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 1U, chartInstance->c1_sfEvent); *c1_BrakeSet = FALSE; chartInstance->c1_tp_Stop = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG, 2U, chartInstance->c1_sfEvent); chartInstance->c1_is_c1_EVdemo_6 = c1_IN_Accel; _SFD_CS_CALL(STATE_ACTIVE_TAG, 0U, chartInstance->c1_sfEvent); chartInstance->c1_temporalCounter_i1 = 0U; chartInstance->c1_tp_Accel = 1U; } else { _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG, 2U, chartInstance->c1_sfEvent); *c1_Mode = 0U; *c1_BrakeSet = TRUE; } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG, 2U, chartInstance->c1_sfEvent); break; default: CV_CHART_EVAL(0, 0, 0); chartInstance->c1_is_c1_EVdemo_6 = c1_IN_NO_ACTIVE_CHILD; _SFD_CS_CALL(STATE_INACTIVE_TAG, 0U, chartInstance->c1_sfEvent); break; } } _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 0U, chartInstance->c1_sfEvent); _SFD_SYMBOL_SCOPE_POP(); _SFD_CHECK_FOR_STATE_INCONSISTENCY(_EVdemo_6MachineNumber_, chartInstance->chartNumber, chartInstance->instanceNumber); }
static void sf_gateway_c1_MON_sl_after_replacement3 (SFc1_MON_sl_after_replacement3InstanceStruct *chartInstance) { boolean_T c1_out; boolean_T c1_b_out; boolean_T c1_c_out; boolean_T guard1 = false; boolean_T guard2 = false; c1_set_sim_state_side_effects_c1_MON_sl_after_replacement3(chartInstance); _SFD_SYMBOL_SCOPE_PUSH(0U, 0U); _sfTime_ = sf_get_time(chartInstance->S); _SFD_CC_CALL(CHART_ENTER_SFUNCTION_TAG, 0U, chartInstance->c1_sfEvent); _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c1_pedal, 1U, 1U, 0U, chartInstance->c1_sfEvent, false); _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c1_mode, 0U, 1U, 0U, chartInstance->c1_sfEvent, false); chartInstance->c1_sfEvent = CALL_EVENT; _SFD_CC_CALL(CHART_ENTER_DURING_FUNCTION_TAG, 0U, chartInstance->c1_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 0U, chartInstance->c1_sfEvent); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 1U, chartInstance->c1_sfEvent); c1_out = (CV_TRANSITION_EVAL(1U, (int32_T)_SFD_CCP_CALL(1U, 0, CV_RELATIONAL_EVAL(5U, 1U, 0, (real_T)*chartInstance->c1_mode, (real_T)chartInstance->c1_LO, 0, 0U, *chartInstance->c1_mode == chartInstance->c1_LO) != 0U, chartInstance->c1_sfEvent)) != 0); guard1 = false; guard2 = false; if (c1_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 1U, chartInstance->c1_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 3U, chartInstance->c1_sfEvent); *chartInstance->c1_r = chartInstance->c1_BRAKE_PRESSURE_LO; _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c1_r, 2U, 5U, 3U, chartInstance->c1_sfEvent, false); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 11U, chartInstance->c1_sfEvent); guard2 = true; } else { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 2U, chartInstance->c1_sfEvent); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 4U, chartInstance->c1_sfEvent); c1_b_out = (CV_TRANSITION_EVAL(4U, (int32_T)_SFD_CCP_CALL(4U, 0, CV_RELATIONAL_EVAL(5U, 4U, 0, (real_T)*chartInstance->c1_mode, (real_T) chartInstance->c1_MED, 0, 0U, *chartInstance->c1_mode == chartInstance->c1_MED) != 0U, chartInstance->c1_sfEvent)) != 0); if (c1_b_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 4U, chartInstance->c1_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 6U, chartInstance->c1_sfEvent); *chartInstance->c1_r = chartInstance->c1_BRAKE_PRESSURE_MED; _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c1_r, 2U, 5U, 6U, chartInstance->c1_sfEvent, false); guard2 = true; } else { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 5U, chartInstance->c1_sfEvent); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG, 7U, chartInstance->c1_sfEvent); c1_c_out = (CV_TRANSITION_EVAL(7U, (int32_T)_SFD_CCP_CALL(7U, 0, CV_RELATIONAL_EVAL(5U, 7U, 0, (real_T)*chartInstance->c1_mode, (real_T) chartInstance->c1_MAX, 0, 0U, *chartInstance->c1_mode == chartInstance->c1_MAX) != 0U, chartInstance->c1_sfEvent)) != 0); if (c1_c_out) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 7U, chartInstance->c1_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 9U, chartInstance->c1_sfEvent); *chartInstance->c1_r = chartInstance->c1_BRAKE_PRESSURE_MAX; _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c1_r, 2U, 5U, 9U, chartInstance->c1_sfEvent, false); guard1 = true; } else { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 13U, chartInstance->c1_sfEvent); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 8U, chartInstance->c1_sfEvent); *chartInstance->c1_r = *chartInstance->c1_pedal; _SFD_DATA_RANGE_CHECK((real_T)*chartInstance->c1_r, 2U, 5U, 8U, chartInstance->c1_sfEvent, false); } } } if (guard2 == true) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 10U, chartInstance->c1_sfEvent); guard1 = true; } if (guard1 == true) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 14U, chartInstance->c1_sfEvent); } _SFD_CT_CALL(TRANSITION_ACTIVE_TAG, 12U, chartInstance->c1_sfEvent); _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 0U, chartInstance->c1_sfEvent); _SFD_SYMBOL_SCOPE_POP(); _SFD_CHECK_FOR_STATE_INCONSISTENCY(_MON_sl_after_replacement3MachineNumber_, chartInstance->chartNumber, chartInstance->instanceNumber); }
static void sf_c2_Pedal_Interpretation_exe(void) { uint8_T c2_previousEvent; real_T *c2_TestCase; real_T *c2_variant; c2_TestCase = (real_T *)ssGetOutputPortSignal(chartInstance.S, 1); c2_variant = (real_T *)ssGetOutputPortSignal(chartInstance.S, 2); _sfTime_ = (real_T)ssGetT(chartInstance.S); _SFD_CC_CALL(CHART_ENTER_SFUNCTION_TAG,0); _SFD_DATA_RANGE_CHECK(*c2_TestCase, 0U); _SFD_DATA_RANGE_CHECK(*c2_variant, 1U); c2_previousEvent = _sfEvent_; _sfEvent_ = CALL_EVENT; _SFD_CC_CALL(CHART_ENTER_DURING_FUNCTION_TAG,0); if (chartInstance.c2_temporalCounter_i1 < 2047) { chartInstance.c2_temporalCounter_i1 = (uint16_T) (chartInstance.c2_temporalCounter_i1 + 1); } if (chartInstance.c2_is_active_c2_Pedal_Interpretation_exe == 0) { _SFD_CC_CALL(CHART_ENTER_ENTRY_FUNCTION_TAG,0); chartInstance.c2_is_active_c2_Pedal_Interpretation_exe = 1U; _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG,0); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,0); _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,0); *c2_variant = 1.0; _SFD_DATA_RANGE_CHECK(*c2_variant, 1U); chartInstance.c2_is_c2_Pedal_Interpretation_exe = (uint8_T)c2_IN_TestCase1; _SFD_CS_CALL(STATE_ACTIVE_TAG,0); chartInstance.c2_temporalCounter_i1 = 0U; chartInstance.c2_tp_TestCase1 = 1U; *c2_TestCase = 1.0; _SFD_DATA_RANGE_CHECK(*c2_TestCase, 0U); } else { switch (chartInstance.c2_is_c2_Pedal_Interpretation_exe) { case c2_IN_TestCase1: CV_CHART_EVAL(0,0,1); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG,0); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,1); if (CV_TRANSITION_EVAL(1U, (_SFD_CCP_CALL(1,0,((1)!=0)) != 0) && (_SFD_CCP_CALL(1,1, ((chartInstance.c2_temporalCounter_i1 >= 400)!=0)) != 0)) != 0) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,1); _SFD_CS_CALL(STATE_ENTER_EXIT_FUNCTION_TAG,0); chartInstance.c2_tp_TestCase1 = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG,0); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,0); chartInstance.c2_is_c2_Pedal_Interpretation_exe = (uint8_T) c2_IN_TestCase2; _SFD_CS_CALL(STATE_ACTIVE_TAG,1); chartInstance.c2_temporalCounter_i1 = 0U; chartInstance.c2_tp_TestCase2 = 1U; *c2_TestCase = 2.0; _SFD_DATA_RANGE_CHECK(*c2_TestCase, 0U); } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,0); break; case c2_IN_TestCase2: CV_CHART_EVAL(0,0,2); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG,1); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,2); if (CV_TRANSITION_EVAL(2U, (_SFD_CCP_CALL(2,0,((1)!=0)) != 0) && (_SFD_CCP_CALL(2,1, ((chartInstance.c2_temporalCounter_i1 >= 400)!=0)) != 0)) != 0) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,2); _SFD_CS_CALL(STATE_ENTER_EXIT_FUNCTION_TAG,1); chartInstance.c2_tp_TestCase2 = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG,1); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,1); chartInstance.c2_is_c2_Pedal_Interpretation_exe = (uint8_T) c2_IN_TestCase3; _SFD_CS_CALL(STATE_ACTIVE_TAG,2); chartInstance.c2_temporalCounter_i1 = 0U; chartInstance.c2_tp_TestCase3 = 1U; *c2_TestCase = 3.0; _SFD_DATA_RANGE_CHECK(*c2_TestCase, 0U); } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,1); break; case c2_IN_TestCase3: CV_CHART_EVAL(0,0,3); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG,2); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,3); if (CV_TRANSITION_EVAL(3U, (_SFD_CCP_CALL(3,0,((1)!=0)) != 0) && (_SFD_CCP_CALL(3,1, ((chartInstance.c2_temporalCounter_i1 >= 200)!=0)) != 0)) != 0) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,3); _SFD_CS_CALL(STATE_ENTER_EXIT_FUNCTION_TAG,2); chartInstance.c2_tp_TestCase3 = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG,2); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,2); chartInstance.c2_is_c2_Pedal_Interpretation_exe = (uint8_T) c2_IN_TestCase4; _SFD_CS_CALL(STATE_ACTIVE_TAG,3); chartInstance.c2_temporalCounter_i1 = 0U; chartInstance.c2_tp_TestCase4 = 1U; *c2_TestCase = 4.0; _SFD_DATA_RANGE_CHECK(*c2_TestCase, 0U); } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,2); break; case c2_IN_TestCase4: CV_CHART_EVAL(0,0,4); _SFD_CS_CALL(STATE_ENTER_DURING_FUNCTION_TAG,3); _SFD_CT_CALL(TRANSITION_BEFORE_PROCESSING_TAG,4); if (CV_TRANSITION_EVAL(4U, (_SFD_CCP_CALL(4,0,((1)!=0)) != 0) && (_SFD_CCP_CALL(4,1, ((chartInstance.c2_temporalCounter_i1 >= 1200)!=0)) != 0)) != 0) { _SFD_CT_CALL(TRANSITION_ACTIVE_TAG,4); *c2_variant = *c2_variant + 1.0; _SFD_DATA_RANGE_CHECK(*c2_variant, 1U); _SFD_CS_CALL(STATE_ENTER_EXIT_FUNCTION_TAG,3); chartInstance.c2_tp_TestCase4 = 0U; _SFD_CS_CALL(STATE_INACTIVE_TAG,3); _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,3); chartInstance.c2_is_c2_Pedal_Interpretation_exe = (uint8_T) c2_IN_TestCase1; _SFD_CS_CALL(STATE_ACTIVE_TAG,0); chartInstance.c2_temporalCounter_i1 = 0U; chartInstance.c2_tp_TestCase1 = 1U; *c2_TestCase = 1.0; _SFD_DATA_RANGE_CHECK(*c2_TestCase, 0U); } _SFD_CS_CALL(EXIT_OUT_OF_FUNCTION_TAG,3); break; default: CV_CHART_EVAL(0,0,0); chartInstance.c2_is_c2_Pedal_Interpretation_exe = (uint8_T) c2_IN_NO_ACTIVE_CHILD; _SFD_CS_CALL(STATE_INACTIVE_TAG,0); break; } } _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG,0); _sfEvent_ = c2_previousEvent; sf_debug_check_for_state_inconsistency(_Pedal_Interpretation_exeMachineNumber_, chartInstance.chartNumber, chartInstance. instanceNumber); }