// Generator version : v3.1 // DBC filename : CCUdbg.dbc #pragma once #ifdef __cplusplus extern "C" { #endif #include // DBC file version #define VER_CANDB_DBG_MAJ (0U) #define VER_CANDB_DBG_MIN (0U) // include current dbc-driver compilation config #include "candb_dbg-config.h" #ifdef CANDB_DBG_USE_DIAG_MONITORS // This file must define: // base monitor struct #include "canmonitorutil.h" #endif // CANDB_DBG_USE_DIAG_MONITORS // DLC maximum value which is used as the limit for frame's data buffer size. // Client can set its own value (not sure why) in driver-config // or can test it on some limit specified by application // e.g.: static_assert(TESTDB_MAX_DLC_VALUE <= APPLICATION_FRAME_DATA_SIZE, "Max DLC value in the driver is too big") #ifndef CANDB_DBG_MAX_DLC_VALUE // The value which was found out by generator (real max value) #define CANDB_DBG_MAX_DLC_VALUE 8U #endif // The limit is used for setting frame's data bytes #define CANDB_DBG_VALIDATE_DLC(msgDlc) (((msgDlc) <= (CANDB_DBG_MAX_DLC_VALUE)) ? (msgDlc) : (CANDB_DBG_MAX_DLC_VALUE)) // Initial byte value to be filles in data bytes of the frame before pack signals // User can define its own custom value in driver-config file #ifndef CANDB_DBG_INITIAL_BYTE_VALUE #define CANDB_DBG_INITIAL_BYTE_VALUE 0U #endif // def @dbg_Logic_State CAN Message (992 0x3e0) #define dbg_Logic_State_IDE (0U) #define dbg_Logic_State_DLC (8U) #define dbg_Logic_State_CANID (0x3e0U) // Value tables for @Logic_Operation_Mode signal #ifndef Logic_Operation_Mode_dbg_Logic_State_Full_Mode #define Logic_Operation_Mode_dbg_Logic_State_Full_Mode (3) #endif #ifndef Logic_Operation_Mode_dbg_Logic_State_Reduced_Mode #define Logic_Operation_Mode_dbg_Logic_State_Reduced_Mode (1) #endif #ifndef Logic_Operation_Mode_dbg_Logic_State_Off_Mode #define Logic_Operation_Mode_dbg_Logic_State_Off_Mode (0) #endif // Value tables for @Logic_Amb_Level signal #ifndef Logic_Amb_Level_dbg_Logic_State_AMB_LV5 #define Logic_Amb_Level_dbg_Logic_State_AMB_LV5 (5) #endif #ifndef Logic_Amb_Level_dbg_Logic_State_AMB_LV4 #define Logic_Amb_Level_dbg_Logic_State_AMB_LV4 (4) #endif #ifndef Logic_Amb_Level_dbg_Logic_State_AMB_LV3 #define Logic_Amb_Level_dbg_Logic_State_AMB_LV3 (3) #endif #ifndef Logic_Amb_Level_dbg_Logic_State_AMB_LV2 #define Logic_Amb_Level_dbg_Logic_State_AMB_LV2 (2) #endif #ifndef Logic_Amb_Level_dbg_Logic_State_AMB_LV1 #define Logic_Amb_Level_dbg_Logic_State_AMB_LV1 (1) #endif #ifndef Logic_Amb_Level_dbg_Logic_State_AMB_LV0 #define Logic_Amb_Level_dbg_Logic_State_AMB_LV0 (0) #endif // Value tables for @Logic_AutoDemist_Electric signal #ifndef Logic_AutoDemist_Electric_dbg_Logic_State_On #define Logic_AutoDemist_Electric_dbg_Logic_State_On (1) #endif #ifndef Logic_AutoDemist_Electric_dbg_Logic_State_OFF #define Logic_AutoDemist_Electric_dbg_Logic_State_OFF (0) #endif // Value tables for @Logic_AutoDemist_Garage signal #ifndef Logic_AutoDemist_Garage_dbg_Logic_State_On #define Logic_AutoDemist_Garage_dbg_Logic_State_On (1) #endif #ifndef Logic_AutoDemist_Garage_dbg_Logic_State_OFF #define Logic_AutoDemist_Garage_dbg_Logic_State_OFF (0) #endif // Value tables for @Logic_AutoDemist_Lv_Summer signal #ifndef Logic_AutoDemist_Lv_Summer_dbg_Logic_State_AutoDemist_LV4 #define Logic_AutoDemist_Lv_Summer_dbg_Logic_State_AutoDemist_LV4 (4) #endif #ifndef Logic_AutoDemist_Lv_Summer_dbg_Logic_State_AutoDemist_LV3 #define Logic_AutoDemist_Lv_Summer_dbg_Logic_State_AutoDemist_LV3 (3) #endif #ifndef Logic_AutoDemist_Lv_Summer_dbg_Logic_State_AutoDemist_LV2 #define Logic_AutoDemist_Lv_Summer_dbg_Logic_State_AutoDemist_LV2 (2) #endif #ifndef Logic_AutoDemist_Lv_Summer_dbg_Logic_State_AutoDemist_LV1 #define Logic_AutoDemist_Lv_Summer_dbg_Logic_State_AutoDemist_LV1 (1) #endif #ifndef Logic_AutoDemist_Lv_Summer_dbg_Logic_State_AutoDemist_LV0 #define Logic_AutoDemist_Lv_Summer_dbg_Logic_State_AutoDemist_LV0 (0) #endif // Value tables for @Logic_RemoteStart signal #ifndef Logic_RemoteStart_dbg_Logic_State_Remote_Starte_Step_3 #define Logic_RemoteStart_dbg_Logic_State_Remote_Starte_Step_3 (3) #endif #ifndef Logic_RemoteStart_dbg_Logic_State_Remote_Starte_Step_2 #define Logic_RemoteStart_dbg_Logic_State_Remote_Starte_Step_2 (2) #endif #ifndef Logic_RemoteStart_dbg_Logic_State_Remote_Starte_Step_1 #define Logic_RemoteStart_dbg_Logic_State_Remote_Starte_Step_1 (1) #endif #ifndef Logic_RemoteStart_dbg_Logic_State_Remote_Starte_Step_0 #define Logic_RemoteStart_dbg_Logic_State_Remote_Starte_Step_0 (0) #endif // Value tables for @Logic_Rest_Mode signal #ifndef Logic_Rest_Mode_dbg_Logic_State_Rest_Mode_Summer #define Logic_Rest_Mode_dbg_Logic_State_Rest_Mode_Summer (2) #endif #ifndef Logic_Rest_Mode_dbg_Logic_State_Rest_Mode_Winter #define Logic_Rest_Mode_dbg_Logic_State_Rest_Mode_Winter (1) #endif #ifndef Logic_Rest_Mode_dbg_Logic_State_No_Rest_Mode #define Logic_Rest_Mode_dbg_Logic_State_No_Rest_Mode (0) #endif // Value tables for @Logic_LoHi_Front signal #ifndef Logic_LoHi_Front_dbg_Logic_State_HI_Full_4zone #define Logic_LoHi_Front_dbg_Logic_State_HI_Full_4zone (99) #endif #ifndef Logic_LoHi_Front_dbg_Logic_State_HI_Both_Left_Right #define Logic_LoHi_Front_dbg_Logic_State_HI_Both_Left_Right (88) #endif #ifndef Logic_LoHi_Front_dbg_Logic_State_HI_Left_Only #define Logic_LoHi_Front_dbg_Logic_State_HI_Left_Only (80) #endif #ifndef Logic_LoHi_Front_dbg_Logic_State_LO_Full_4zone #define Logic_LoHi_Front_dbg_Logic_State_LO_Full_4zone (22) #endif #ifndef Logic_LoHi_Front_dbg_Logic_State_LO_Both_Left_Right #define Logic_LoHi_Front_dbg_Logic_State_LO_Both_Left_Right (11) #endif #ifndef Logic_LoHi_Front_dbg_Logic_State_LO_Left_Only #define Logic_LoHi_Front_dbg_Logic_State_LO_Left_Only (10) #endif #ifndef Logic_LoHi_Front_dbg_Logic_State_HI_Right_Only #define Logic_LoHi_Front_dbg_Logic_State_HI_Right_Only (8) #endif #ifndef Logic_LoHi_Front_dbg_Logic_State_LO_Right_Only #define Logic_LoHi_Front_dbg_Logic_State_LO_Right_Only (1) #endif #ifndef Logic_LoHi_Front_dbg_Logic_State_IDLE_No_LoHi #define Logic_LoHi_Front_dbg_Logic_State_IDLE_No_LoHi (0) #endif // Value tables for @Logic_LoHi_Rear signal #ifndef Logic_LoHi_Rear_dbg_Logic_State_HI_Full_4zone #define Logic_LoHi_Rear_dbg_Logic_State_HI_Full_4zone (99) #endif #ifndef Logic_LoHi_Rear_dbg_Logic_State_HI_Both_Left_Right #define Logic_LoHi_Rear_dbg_Logic_State_HI_Both_Left_Right (88) #endif #ifndef Logic_LoHi_Rear_dbg_Logic_State_HI_Left_Only #define Logic_LoHi_Rear_dbg_Logic_State_HI_Left_Only (80) #endif #ifndef Logic_LoHi_Rear_dbg_Logic_State_LO_Full_4zone #define Logic_LoHi_Rear_dbg_Logic_State_LO_Full_4zone (22) #endif #ifndef Logic_LoHi_Rear_dbg_Logic_State_LO_Both_Left_Right #define Logic_LoHi_Rear_dbg_Logic_State_LO_Both_Left_Right (11) #endif #ifndef Logic_LoHi_Rear_dbg_Logic_State_LO_Left_Only #define Logic_LoHi_Rear_dbg_Logic_State_LO_Left_Only (10) #endif #ifndef Logic_LoHi_Rear_dbg_Logic_State_HI_Right_Only #define Logic_LoHi_Rear_dbg_Logic_State_HI_Right_Only (8) #endif #ifndef Logic_LoHi_Rear_dbg_Logic_State_LO_Right_Only #define Logic_LoHi_Rear_dbg_Logic_State_LO_Right_Only (1) #endif #ifndef Logic_LoHi_Rear_dbg_Logic_State_IDLE_No_LoHi #define Logic_LoHi_Rear_dbg_Logic_State_IDLE_No_LoHi (0) #endif // Value tables for @Logic_2WayValve_Status signal #ifndef Logic_2WayValve_Status_dbg_Logic_State_Open #define Logic_2WayValve_Status_dbg_Logic_State_Open (2) #endif #ifndef Logic_2WayValve_Status_dbg_Logic_State_Close_Exit #define Logic_2WayValve_Status_dbg_Logic_State_Close_Exit (1) #endif #ifndef Logic_2WayValve_Status_dbg_Logic_State_Close #define Logic_2WayValve_Status_dbg_Logic_State_Close (0) #endif // Value tables for @Logic_Start_Ctrl_Front signal #ifndef Logic_Start_Ctrl_Front_dbg_Logic_State_Start_Ctrl_Step3 #define Logic_Start_Ctrl_Front_dbg_Logic_State_Start_Ctrl_Step3 (4) #endif #ifndef Logic_Start_Ctrl_Front_dbg_Logic_State_Start_Ctrl_Step1 #define Logic_Start_Ctrl_Front_dbg_Logic_State_Start_Ctrl_Step1 (2) #endif #ifndef Logic_Start_Ctrl_Front_dbg_Logic_State_Start_Ctrl_Step2 #define Logic_Start_Ctrl_Front_dbg_Logic_State_Start_Ctrl_Step2 (3) #endif #ifndef Logic_Start_Ctrl_Front_dbg_Logic_State_Start_Ctrl_Step0 #define Logic_Start_Ctrl_Front_dbg_Logic_State_Start_Ctrl_Step0 (1) #endif #ifndef Logic_Start_Ctrl_Front_dbg_Logic_State_No_Start_Ctrl #define Logic_Start_Ctrl_Front_dbg_Logic_State_No_Start_Ctrl (0) #endif // Value tables for @Logic_Start_Ctrl_Rear signal #ifndef Logic_Start_Ctrl_Rear_dbg_Logic_State_Start_Ctrl_Step3 #define Logic_Start_Ctrl_Rear_dbg_Logic_State_Start_Ctrl_Step3 (4) #endif #ifndef Logic_Start_Ctrl_Rear_dbg_Logic_State_Start_Ctrl_Step1 #define Logic_Start_Ctrl_Rear_dbg_Logic_State_Start_Ctrl_Step1 (2) #endif #ifndef Logic_Start_Ctrl_Rear_dbg_Logic_State_Start_Ctrl_Step2 #define Logic_Start_Ctrl_Rear_dbg_Logic_State_Start_Ctrl_Step2 (3) #endif #ifndef Logic_Start_Ctrl_Rear_dbg_Logic_State_Start_Ctrl_Step0 #define Logic_Start_Ctrl_Rear_dbg_Logic_State_Start_Ctrl_Step0 (1) #endif #ifndef Logic_Start_Ctrl_Rear_dbg_Logic_State_No_Start_Ctrl #define Logic_Start_Ctrl_Rear_dbg_Logic_State_No_Start_Ctrl (0) #endif // Value tables for @Logic_Duct_WaitCorrection_FRL signal #ifndef Logic_Duct_WaitCorrection_FRL_dbg_Logic_State_DONE #define Logic_Duct_WaitCorrection_FRL_dbg_Logic_State_DONE (3) #endif #ifndef Logic_Duct_WaitCorrection_FRL_dbg_Logic_State_CHANGE #define Logic_Duct_WaitCorrection_FRL_dbg_Logic_State_CHANGE (2) #endif #ifndef Logic_Duct_WaitCorrection_FRL_dbg_Logic_State_WAIT #define Logic_Duct_WaitCorrection_FRL_dbg_Logic_State_WAIT (1) #endif #ifndef Logic_Duct_WaitCorrection_FRL_dbg_Logic_State_OFF #define Logic_Duct_WaitCorrection_FRL_dbg_Logic_State_OFF (0) #endif // Value tables for @Logic_Duct_WaitCorrection_FLL signal #ifndef Logic_Duct_WaitCorrection_FLL_dbg_Logic_State_DONE #define Logic_Duct_WaitCorrection_FLL_dbg_Logic_State_DONE (3) #endif #ifndef Logic_Duct_WaitCorrection_FLL_dbg_Logic_State_CHANGE #define Logic_Duct_WaitCorrection_FLL_dbg_Logic_State_CHANGE (2) #endif #ifndef Logic_Duct_WaitCorrection_FLL_dbg_Logic_State_WAIT #define Logic_Duct_WaitCorrection_FLL_dbg_Logic_State_WAIT (1) #endif #ifndef Logic_Duct_WaitCorrection_FLL_dbg_Logic_State_OFF #define Logic_Duct_WaitCorrection_FLL_dbg_Logic_State_OFF (0) #endif // Value tables for @Logic_AutoDemist_Lv_Winter signal #ifndef Logic_AutoDemist_Lv_Winter_dbg_Logic_State_AutoDemist_LV4 #define Logic_AutoDemist_Lv_Winter_dbg_Logic_State_AutoDemist_LV4 (4) #endif #ifndef Logic_AutoDemist_Lv_Winter_dbg_Logic_State_AutoDemist_LV3 #define Logic_AutoDemist_Lv_Winter_dbg_Logic_State_AutoDemist_LV3 (3) #endif #ifndef Logic_AutoDemist_Lv_Winter_dbg_Logic_State_AutoDemist_LV2 #define Logic_AutoDemist_Lv_Winter_dbg_Logic_State_AutoDemist_LV2 (2) #endif #ifndef Logic_AutoDemist_Lv_Winter_dbg_Logic_State_AutoDemist_LV1 #define Logic_AutoDemist_Lv_Winter_dbg_Logic_State_AutoDemist_LV1 (1) #endif #ifndef Logic_AutoDemist_Lv_Winter_dbg_Logic_State_AutoDemist_LV0 #define Logic_AutoDemist_Lv_Winter_dbg_Logic_State_AutoDemist_LV0 (0) #endif // Value tables for @Logic_AF_WaitCorrection_FL signal #ifndef Logic_AF_WaitCorrection_FL_dbg_Logic_State_DONE #define Logic_AF_WaitCorrection_FL_dbg_Logic_State_DONE (3) #endif #ifndef Logic_AF_WaitCorrection_FL_dbg_Logic_State_CHANGE #define Logic_AF_WaitCorrection_FL_dbg_Logic_State_CHANGE (2) #endif #ifndef Logic_AF_WaitCorrection_FL_dbg_Logic_State_WAIT #define Logic_AF_WaitCorrection_FL_dbg_Logic_State_WAIT (1) #endif #ifndef Logic_AF_WaitCorrection_FL_dbg_Logic_State_OFF #define Logic_AF_WaitCorrection_FL_dbg_Logic_State_OFF (0) #endif // Value tables for @Logic_AF_WaitCorrection_FR signal #ifndef Logic_AF_WaitCorrection_FR_dbg_Logic_State_DONE #define Logic_AF_WaitCorrection_FR_dbg_Logic_State_DONE (3) #endif #ifndef Logic_AF_WaitCorrection_FR_dbg_Logic_State_CHANGE #define Logic_AF_WaitCorrection_FR_dbg_Logic_State_CHANGE (2) #endif #ifndef Logic_AF_WaitCorrection_FR_dbg_Logic_State_WAIT #define Logic_AF_WaitCorrection_FR_dbg_Logic_State_WAIT (1) #endif #ifndef Logic_AF_WaitCorrection_FR_dbg_Logic_State_OFF #define Logic_AF_WaitCorrection_FR_dbg_Logic_State_OFF (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 3 : "Full Mode" // 1 : "Reduced Mode" // 0 : "Off Mode" uint8_t Logic_Operation_Mode : 2; // Bits= 2 // 5 : "AMB_LV5" // 4 : "AMB_LV4" // 3 : "AMB_LV3" // 2 : "AMB_LV2" // 1 : "AMB_LV1" // 0 : "AMB_LV0" uint8_t Logic_Amb_Level : 4; // Bits= 4 // 1 : "On" // 0 : "OFF" uint8_t Logic_AutoDemist_Electric : 1; // Bits= 1 // 1 : "On" // 0 : "OFF" uint8_t Logic_AutoDemist_Garage : 1; // Bits= 1 // 4 : "AutoDemist_LV4" // 3 : "AutoDemist_LV3" // 2 : "AutoDemist_LV2" // 1 : "AutoDemist_LV1" // 0 : "AutoDemist_LV0" uint8_t Logic_AutoDemist_Lv_Summer : 4; // Bits= 4 // 3 : "Remote Starte Step 3" // 2 : "Remote Starte Step 2" // 1 : "Remote Starte Step 1" // 0 : "Remote Starte Step 0" uint8_t Logic_RemoteStart : 2; // Bits= 2 // 2 : "Rest Mode_Summer" // 1 : "Rest Mode_Winter" // 0 : "No Rest Mode" uint8_t Logic_Rest_Mode : 2; // Bits= 2 // 99 : "HI_Full_4zone" // 88 : "HI_Both_Left_Right" // 80 : "HI_Left_Only" // 22 : "LO_Full_4zone" // 11 : "LO_Both_Left_Right" // 10 : "LO_Left_Only" // 8 : "HI_Right_Only" // 1 : "LO_Right_Only" // 0 : "IDLE_No_LoHi" uint8_t Logic_LoHi_Front; // Bits= 8 // 99 : "HI_Full_4zone" // 88 : "HI_Both_Left_Right" // 80 : "HI_Left_Only" // 22 : "LO_Full_4zone" // 11 : "LO_Both_Left_Right" // 10 : "LO_Left_Only" // 8 : "HI_Right_Only" // 1 : "LO_Right_Only" // 0 : "IDLE_No_LoHi" uint8_t Logic_LoHi_Rear; // Bits= 8 // 2 : "Open" // 1 : "Close_Exit" // 0 : "Close" uint8_t Logic_2WayValve_Status : 2; // Bits= 2 uint8_t Logic_Full_Auto_FL : 1; // Bits= 1 Unit:'(off 0, on 1)' uint8_t Logic_Full_Auto_FR : 1; // Bits= 1 Unit:'(off 0, on 1)' uint8_t Logic_Full_Auto_RL : 1; // Bits= 1 Unit:'(off 0, on 1)' uint8_t Logic_Full_Auto_RR : 1; // Bits= 1 Unit:'(off 0, on 1)' uint8_t Logic_Full_MaxAc : 1; // Bits= 1 Unit:'(off 0, on 1)' uint8_t Logic_Full_MaxDef : 1; // Bits= 1 Unit:'(off 0, on 1)' // 4 : "Start_Ctrl_Step3" // 2 : "Start_Ctrl_Step1" // 3 : "Start_Ctrl_Step2" // 1 : "Start_Ctrl_Step0" // 0 : "No_Start_Ctrl" uint8_t Logic_Start_Ctrl_Front : 3; // Bits= 3 // 4 : "Start_Ctrl_Step3" // 2 : "Start_Ctrl_Step1" // 3 : "Start_Ctrl_Step2" // 1 : "Start_Ctrl_Step0" // 0 : "No_Start_Ctrl" uint8_t Logic_Start_Ctrl_Rear : 3; // Bits= 3 uint8_t Logic_Valve_Use_DiffBlr_R2 : 1; // Bits= 1 Unit:'(off 0, on 1)' // 3 : "DONE" // 2 : "CHANGE" // 1 : "WAIT" // 0 : "OFF" uint8_t Logic_Duct_WaitCorrection_FRL : 2; // Bits= 2 // 3 : "DONE" // 2 : "CHANGE" // 1 : "WAIT" // 0 : "OFF" uint8_t Logic_Duct_WaitCorrection_FLL : 2; // Bits= 2 // 4 : "AutoDemist_LV4" // 3 : "AutoDemist_LV3" // 2 : "AutoDemist_LV2" // 1 : "AutoDemist_LV1" // 0 : "AutoDemist_LV0" uint8_t Logic_AutoDemist_Lv_Winter : 4; // Bits= 4 // 3 : "DONE" // 2 : "CHANGE" // 1 : "WAIT" // 0 : "OFF" uint8_t Logic_AF_WaitCorrection_FL : 2; // Bits= 2 // 3 : "DONE" // 2 : "CHANGE" // 1 : "WAIT" // 0 : "OFF" uint8_t Logic_AF_WaitCorrection_FR : 2; // Bits= 2 #else // 3 : "Full Mode" // 1 : "Reduced Mode" // 0 : "Off Mode" uint8_t Logic_Operation_Mode; // Bits= 2 // 5 : "AMB_LV5" // 4 : "AMB_LV4" // 3 : "AMB_LV3" // 2 : "AMB_LV2" // 1 : "AMB_LV1" // 0 : "AMB_LV0" uint8_t Logic_Amb_Level; // Bits= 4 // 1 : "On" // 0 : "OFF" uint8_t Logic_AutoDemist_Electric; // Bits= 1 // 1 : "On" // 0 : "OFF" uint8_t Logic_AutoDemist_Garage; // Bits= 1 // 4 : "AutoDemist_LV4" // 3 : "AutoDemist_LV3" // 2 : "AutoDemist_LV2" // 1 : "AutoDemist_LV1" // 0 : "AutoDemist_LV0" uint8_t Logic_AutoDemist_Lv_Summer; // Bits= 4 // 3 : "Remote Starte Step 3" // 2 : "Remote Starte Step 2" // 1 : "Remote Starte Step 1" // 0 : "Remote Starte Step 0" uint8_t Logic_RemoteStart; // Bits= 2 // 2 : "Rest Mode_Summer" // 1 : "Rest Mode_Winter" // 0 : "No Rest Mode" uint8_t Logic_Rest_Mode; // Bits= 2 // 99 : "HI_Full_4zone" // 88 : "HI_Both_Left_Right" // 80 : "HI_Left_Only" // 22 : "LO_Full_4zone" // 11 : "LO_Both_Left_Right" // 10 : "LO_Left_Only" // 8 : "HI_Right_Only" // 1 : "LO_Right_Only" // 0 : "IDLE_No_LoHi" uint8_t Logic_LoHi_Front; // Bits= 8 // 99 : "HI_Full_4zone" // 88 : "HI_Both_Left_Right" // 80 : "HI_Left_Only" // 22 : "LO_Full_4zone" // 11 : "LO_Both_Left_Right" // 10 : "LO_Left_Only" // 8 : "HI_Right_Only" // 1 : "LO_Right_Only" // 0 : "IDLE_No_LoHi" uint8_t Logic_LoHi_Rear; // Bits= 8 // 2 : "Open" // 1 : "Close_Exit" // 0 : "Close" uint8_t Logic_2WayValve_Status; // Bits= 2 uint8_t Logic_Full_Auto_FL; // Bits= 1 Unit:'(off 0, on 1)' uint8_t Logic_Full_Auto_FR; // Bits= 1 Unit:'(off 0, on 1)' uint8_t Logic_Full_Auto_RL; // Bits= 1 Unit:'(off 0, on 1)' uint8_t Logic_Full_Auto_RR; // Bits= 1 Unit:'(off 0, on 1)' uint8_t Logic_Full_MaxAc; // Bits= 1 Unit:'(off 0, on 1)' uint8_t Logic_Full_MaxDef; // Bits= 1 Unit:'(off 0, on 1)' // 4 : "Start_Ctrl_Step3" // 2 : "Start_Ctrl_Step1" // 3 : "Start_Ctrl_Step2" // 1 : "Start_Ctrl_Step0" // 0 : "No_Start_Ctrl" uint8_t Logic_Start_Ctrl_Front; // Bits= 3 // 4 : "Start_Ctrl_Step3" // 2 : "Start_Ctrl_Step1" // 3 : "Start_Ctrl_Step2" // 1 : "Start_Ctrl_Step0" // 0 : "No_Start_Ctrl" uint8_t Logic_Start_Ctrl_Rear; // Bits= 3 uint8_t Logic_Valve_Use_DiffBlr_R2; // Bits= 1 Unit:'(off 0, on 1)' // 3 : "DONE" // 2 : "CHANGE" // 1 : "WAIT" // 0 : "OFF" uint8_t Logic_Duct_WaitCorrection_FRL; // Bits= 2 // 3 : "DONE" // 2 : "CHANGE" // 1 : "WAIT" // 0 : "OFF" uint8_t Logic_Duct_WaitCorrection_FLL; // Bits= 2 // 4 : "AutoDemist_LV4" // 3 : "AutoDemist_LV3" // 2 : "AutoDemist_LV2" // 1 : "AutoDemist_LV1" // 0 : "AutoDemist_LV0" uint8_t Logic_AutoDemist_Lv_Winter; // Bits= 4 // 3 : "DONE" // 2 : "CHANGE" // 1 : "WAIT" // 0 : "OFF" uint8_t Logic_AF_WaitCorrection_FL; // Bits= 2 // 3 : "DONE" // 2 : "CHANGE" // 1 : "WAIT" // 0 : "OFF" uint8_t Logic_AF_WaitCorrection_FR; // Bits= 2 #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Logic_State_t; // def @dbg_Logic_KM_Status CAN Message (993 0x3e1) #define dbg_Logic_KM_Status_IDE (0U) #define dbg_Logic_KM_Status_DLC (4U) #define dbg_Logic_KM_Status_CANID (0x3e1U) // Value tables for @Logic_KM_Mode_FL signal #ifndef Logic_KM_Mode_FL_dbg_Logic_KM_Status_AC_Max #define Logic_KM_Mode_FL_dbg_Logic_KM_Status_AC_Max (6) #endif #ifndef Logic_KM_Mode_FL_dbg_Logic_KM_Status_Fire_Extinguis #define Logic_KM_Mode_FL_dbg_Logic_KM_Status_Fire_Extinguis (5) #endif #ifndef Logic_KM_Mode_FL_dbg_Logic_KM_Status_Rest_Mode #define Logic_KM_Mode_FL_dbg_Logic_KM_Status_Rest_Mode (4) #endif #ifndef Logic_KM_Mode_FL_dbg_Logic_KM_Status_Auto #define Logic_KM_Mode_FL_dbg_Logic_KM_Status_Auto (3) #endif #ifndef Logic_KM_Mode_FL_dbg_Logic_KM_Status_Defrost #define Logic_KM_Mode_FL_dbg_Logic_KM_Status_Defrost (2) #endif #ifndef Logic_KM_Mode_FL_dbg_Logic_KM_Status_Manual #define Logic_KM_Mode_FL_dbg_Logic_KM_Status_Manual (1) #endif #ifndef Logic_KM_Mode_FL_dbg_Logic_KM_Status_OFF #define Logic_KM_Mode_FL_dbg_Logic_KM_Status_OFF (0) #endif // Value tables for @Logic_KM_Mode_FR signal #ifndef Logic_KM_Mode_FR_dbg_Logic_KM_Status_AC_Max #define Logic_KM_Mode_FR_dbg_Logic_KM_Status_AC_Max (6) #endif #ifndef Logic_KM_Mode_FR_dbg_Logic_KM_Status_Fire_Extinguis #define Logic_KM_Mode_FR_dbg_Logic_KM_Status_Fire_Extinguis (5) #endif #ifndef Logic_KM_Mode_FR_dbg_Logic_KM_Status_Rest_Mode #define Logic_KM_Mode_FR_dbg_Logic_KM_Status_Rest_Mode (4) #endif #ifndef Logic_KM_Mode_FR_dbg_Logic_KM_Status_Auto #define Logic_KM_Mode_FR_dbg_Logic_KM_Status_Auto (3) #endif #ifndef Logic_KM_Mode_FR_dbg_Logic_KM_Status_Defrost #define Logic_KM_Mode_FR_dbg_Logic_KM_Status_Defrost (2) #endif #ifndef Logic_KM_Mode_FR_dbg_Logic_KM_Status_Manual #define Logic_KM_Mode_FR_dbg_Logic_KM_Status_Manual (1) #endif #ifndef Logic_KM_Mode_FR_dbg_Logic_KM_Status_OFF #define Logic_KM_Mode_FR_dbg_Logic_KM_Status_OFF (0) #endif // Value tables for @Logic_KM_Mode_RL signal #ifndef Logic_KM_Mode_RL_dbg_Logic_KM_Status_AC_Max #define Logic_KM_Mode_RL_dbg_Logic_KM_Status_AC_Max (6) #endif #ifndef Logic_KM_Mode_RL_dbg_Logic_KM_Status_Fire_Extinguis #define Logic_KM_Mode_RL_dbg_Logic_KM_Status_Fire_Extinguis (5) #endif #ifndef Logic_KM_Mode_RL_dbg_Logic_KM_Status_Rest_Mode #define Logic_KM_Mode_RL_dbg_Logic_KM_Status_Rest_Mode (4) #endif #ifndef Logic_KM_Mode_RL_dbg_Logic_KM_Status_Auto #define Logic_KM_Mode_RL_dbg_Logic_KM_Status_Auto (3) #endif #ifndef Logic_KM_Mode_RL_dbg_Logic_KM_Status_Defrost #define Logic_KM_Mode_RL_dbg_Logic_KM_Status_Defrost (2) #endif #ifndef Logic_KM_Mode_RL_dbg_Logic_KM_Status_Manual #define Logic_KM_Mode_RL_dbg_Logic_KM_Status_Manual (1) #endif #ifndef Logic_KM_Mode_RL_dbg_Logic_KM_Status_OFF #define Logic_KM_Mode_RL_dbg_Logic_KM_Status_OFF (0) #endif // Value tables for @Logic_KM_Mode_RR signal #ifndef Logic_KM_Mode_RR_dbg_Logic_KM_Status_AC_Max #define Logic_KM_Mode_RR_dbg_Logic_KM_Status_AC_Max (6) #endif #ifndef Logic_KM_Mode_RR_dbg_Logic_KM_Status_Fire_Extinguis #define Logic_KM_Mode_RR_dbg_Logic_KM_Status_Fire_Extinguis (5) #endif #ifndef Logic_KM_Mode_RR_dbg_Logic_KM_Status_Rest_Mode #define Logic_KM_Mode_RR_dbg_Logic_KM_Status_Rest_Mode (4) #endif #ifndef Logic_KM_Mode_RR_dbg_Logic_KM_Status_Auto #define Logic_KM_Mode_RR_dbg_Logic_KM_Status_Auto (3) #endif #ifndef Logic_KM_Mode_RR_dbg_Logic_KM_Status_Defrost #define Logic_KM_Mode_RR_dbg_Logic_KM_Status_Defrost (2) #endif #ifndef Logic_KM_Mode_RR_dbg_Logic_KM_Status_Manual #define Logic_KM_Mode_RR_dbg_Logic_KM_Status_Manual (1) #endif #ifndef Logic_KM_Mode_RR_dbg_Logic_KM_Status_OFF #define Logic_KM_Mode_RR_dbg_Logic_KM_Status_OFF (0) #endif // Value tables for @Logic_KM_Blower_FL signal #ifndef Logic_KM_Blower_FL_dbg_Logic_KM_Status_AC_Max #define Logic_KM_Blower_FL_dbg_Logic_KM_Status_AC_Max (6) #endif #ifndef Logic_KM_Blower_FL_dbg_Logic_KM_Status_Fire_Extinguis #define Logic_KM_Blower_FL_dbg_Logic_KM_Status_Fire_Extinguis (5) #endif #ifndef Logic_KM_Blower_FL_dbg_Logic_KM_Status_Rest_Mode #define Logic_KM_Blower_FL_dbg_Logic_KM_Status_Rest_Mode (4) #endif #ifndef Logic_KM_Blower_FL_dbg_Logic_KM_Status_Auto #define Logic_KM_Blower_FL_dbg_Logic_KM_Status_Auto (3) #endif #ifndef Logic_KM_Blower_FL_dbg_Logic_KM_Status_Defrost #define Logic_KM_Blower_FL_dbg_Logic_KM_Status_Defrost (2) #endif #ifndef Logic_KM_Blower_FL_dbg_Logic_KM_Status_Manual #define Logic_KM_Blower_FL_dbg_Logic_KM_Status_Manual (1) #endif #ifndef Logic_KM_Blower_FL_dbg_Logic_KM_Status_OFF #define Logic_KM_Blower_FL_dbg_Logic_KM_Status_OFF (0) #endif // Value tables for @Logic_KM_Blower_FR signal #ifndef Logic_KM_Blower_FR_dbg_Logic_KM_Status_AC_Max #define Logic_KM_Blower_FR_dbg_Logic_KM_Status_AC_Max (6) #endif #ifndef Logic_KM_Blower_FR_dbg_Logic_KM_Status_Fire_Extinguis #define Logic_KM_Blower_FR_dbg_Logic_KM_Status_Fire_Extinguis (5) #endif #ifndef Logic_KM_Blower_FR_dbg_Logic_KM_Status_Rest_Mode #define Logic_KM_Blower_FR_dbg_Logic_KM_Status_Rest_Mode (4) #endif #ifndef Logic_KM_Blower_FR_dbg_Logic_KM_Status_Auto #define Logic_KM_Blower_FR_dbg_Logic_KM_Status_Auto (3) #endif #ifndef Logic_KM_Blower_FR_dbg_Logic_KM_Status_Defrost #define Logic_KM_Blower_FR_dbg_Logic_KM_Status_Defrost (2) #endif #ifndef Logic_KM_Blower_FR_dbg_Logic_KM_Status_Manual #define Logic_KM_Blower_FR_dbg_Logic_KM_Status_Manual (1) #endif #ifndef Logic_KM_Blower_FR_dbg_Logic_KM_Status_OFF #define Logic_KM_Blower_FR_dbg_Logic_KM_Status_OFF (0) #endif // Value tables for @Logic_KM_Blower_RL signal #ifndef Logic_KM_Blower_RL_dbg_Logic_KM_Status_AC_Max #define Logic_KM_Blower_RL_dbg_Logic_KM_Status_AC_Max (6) #endif #ifndef Logic_KM_Blower_RL_dbg_Logic_KM_Status_Fire_Extinguis #define Logic_KM_Blower_RL_dbg_Logic_KM_Status_Fire_Extinguis (5) #endif #ifndef Logic_KM_Blower_RL_dbg_Logic_KM_Status_Rest_Mode #define Logic_KM_Blower_RL_dbg_Logic_KM_Status_Rest_Mode (4) #endif #ifndef Logic_KM_Blower_RL_dbg_Logic_KM_Status_Auto #define Logic_KM_Blower_RL_dbg_Logic_KM_Status_Auto (3) #endif #ifndef Logic_KM_Blower_RL_dbg_Logic_KM_Status_Defrost #define Logic_KM_Blower_RL_dbg_Logic_KM_Status_Defrost (2) #endif #ifndef Logic_KM_Blower_RL_dbg_Logic_KM_Status_Manual #define Logic_KM_Blower_RL_dbg_Logic_KM_Status_Manual (1) #endif #ifndef Logic_KM_Blower_RL_dbg_Logic_KM_Status_OFF #define Logic_KM_Blower_RL_dbg_Logic_KM_Status_OFF (0) #endif // Value tables for @Logic_KM_Blower_RR signal #ifndef Logic_KM_Blower_RR_dbg_Logic_KM_Status_AC_Max #define Logic_KM_Blower_RR_dbg_Logic_KM_Status_AC_Max (6) #endif #ifndef Logic_KM_Blower_RR_dbg_Logic_KM_Status_Fire_Extinguis #define Logic_KM_Blower_RR_dbg_Logic_KM_Status_Fire_Extinguis (5) #endif #ifndef Logic_KM_Blower_RR_dbg_Logic_KM_Status_Rest_Mode #define Logic_KM_Blower_RR_dbg_Logic_KM_Status_Rest_Mode (4) #endif #ifndef Logic_KM_Blower_RR_dbg_Logic_KM_Status_Auto #define Logic_KM_Blower_RR_dbg_Logic_KM_Status_Auto (3) #endif #ifndef Logic_KM_Blower_RR_dbg_Logic_KM_Status_Defrost #define Logic_KM_Blower_RR_dbg_Logic_KM_Status_Defrost (2) #endif #ifndef Logic_KM_Blower_RR_dbg_Logic_KM_Status_Manual #define Logic_KM_Blower_RR_dbg_Logic_KM_Status_Manual (1) #endif #ifndef Logic_KM_Blower_RR_dbg_Logic_KM_Status_OFF #define Logic_KM_Blower_RR_dbg_Logic_KM_Status_OFF (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Mode_FL : 4; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Mode_FR : 4; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Mode_RL : 4; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Mode_RR : 4; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Blower_FL : 4; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Blower_FR : 4; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Blower_RL : 4; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Blower_RR : 4; // Bits= 4 #else // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Mode_FL; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Mode_FR; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Mode_RL; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Mode_RR; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Blower_FL; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Blower_FR; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Blower_RL; // Bits= 4 // 6 : "AC_Max" // 5 : "Fire_Extinguis" // 4 : "Rest_Mode" // 3 : "Auto" // 2 : "Defrost" // 1 : "Manual" // 0 : "OFF" uint8_t Logic_KM_Blower_RR; // Bits= 4 #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Logic_KM_Status_t; // def @dbg_Logic_Valve CAN Message (994 0x3e2) #define dbg_Logic_Valve_IDE (0U) #define dbg_Logic_Valve_DLC (6U) #define dbg_Logic_Valve_CANID (0x3e2U) // Value tables for @Logic_Valve_Index_FL signal #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Bi2Valve_manual #define Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Bi2Valve_manual (200) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Vent_manual #define Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Vent_manual (190) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Bi2Valve_3 #define Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Bi2Valve_3 (180) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Vent_3 #define Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Vent_3 (170) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Bi2Valve_2 #define Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Bi2Valve_2 (160) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Vent_2 #define Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Vent_2 (150) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Fo2Valve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Fo2Valve (140) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Bi2Valve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Bi2Valve (130) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Vent #define Logic_Valve_Index_FL_dbg_Logic_Valve__Re_Vent (120) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_BiValve_manual #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_BiValve_manual (110) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Hi2Valve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Hi2Valve (100) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Tr2Valve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Tr2Valve (90) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_De2Valve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_De2Valve (80) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Fd2Valve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Fd2Valve (70) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Fo2Valve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Fo2Valve (60) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_AF2Valve_Summer #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_AF2Valve_Summer (50) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_AF2Valve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_AF2Valve (40) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Bi2Valve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Bi2Valve (30) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_BiValve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_BiValve (20) #endif #ifndef Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Ve2Valve #define Logic_Valve_Index_FL_dbg_Logic_Valve__Fr_Ve2Valve (10) #endif // Value tables for @Logic_Valve_Index_FR signal #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Bi2Valve_manual #define Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Bi2Valve_manual (200) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Vent_manual #define Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Vent_manual (190) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Bi2Valve_3 #define Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Bi2Valve_3 (180) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Vent_3 #define Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Vent_3 (170) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Bi2Valve_2 #define Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Bi2Valve_2 (160) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Vent_2 #define Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Vent_2 (150) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Fo2Valve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Fo2Valve (140) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Bi2Valve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Bi2Valve (130) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Vent #define Logic_Valve_Index_FR_dbg_Logic_Valve__Re_Vent (120) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_BiValve_manual #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_BiValve_manual (110) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Hi2Valve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Hi2Valve (100) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Tr2Valve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Tr2Valve (90) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_De2Valve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_De2Valve (80) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Fd2Valve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Fd2Valve (70) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Fo2Valve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Fo2Valve (60) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_AF2Valve_Summer #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_AF2Valve_Summer (50) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_AF2Valve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_AF2Valve (40) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Bi2Valve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Bi2Valve (30) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_BiValve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_BiValve (20) #endif #ifndef Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Ve2Valve #define Logic_Valve_Index_FR_dbg_Logic_Valve__Fr_Ve2Valve (10) #endif // Value tables for @Logic_Valve_Index_RL signal #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Bi2Valve_manual #define Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Bi2Valve_manual (200) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Vent_manual #define Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Vent_manual (190) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Bi2Valve_3 #define Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Bi2Valve_3 (180) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Vent_3 #define Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Vent_3 (170) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Bi2Valve_2 #define Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Bi2Valve_2 (160) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Vent_2 #define Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Vent_2 (150) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Fo2Valve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Fo2Valve (140) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Bi2Valve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Bi2Valve (130) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Vent #define Logic_Valve_Index_RL_dbg_Logic_Valve__Re_Vent (120) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_BiValve_manual #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_BiValve_manual (110) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Hi2Valve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Hi2Valve (100) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Tr2Valve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Tr2Valve (90) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_De2Valve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_De2Valve (80) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Fd2Valve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Fd2Valve (70) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Fo2Valve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Fo2Valve (60) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_AF2Valve_Summer #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_AF2Valve_Summer (50) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_AF2Valve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_AF2Valve (40) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Bi2Valve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Bi2Valve (30) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_BiValve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_BiValve (20) #endif #ifndef Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Ve2Valve #define Logic_Valve_Index_RL_dbg_Logic_Valve__Fr_Ve2Valve (10) #endif // Value tables for @Logic_Valve_Index_RR signal #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Bi2Valve_manual #define Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Bi2Valve_manual (200) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Vent_manual #define Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Vent_manual (190) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Bi2Valve_3 #define Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Bi2Valve_3 (180) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Vent_3 #define Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Vent_3 (170) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Bi2Valve_2 #define Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Bi2Valve_2 (160) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Vent_2 #define Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Vent_2 (150) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Fo2Valve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Fo2Valve (140) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Bi2Valve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Bi2Valve (130) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Vent #define Logic_Valve_Index_RR_dbg_Logic_Valve__Re_Vent (120) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_BiValve_manual #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_BiValve_manual (110) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Hi2Valve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Hi2Valve (100) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Tr2Valve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Tr2Valve (90) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_De2Valve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_De2Valve (80) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Fd2Valve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Fd2Valve (70) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Fo2Valve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Fo2Valve (60) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_AF2Valve_Summer #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_AF2Valve_Summer (50) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_AF2Valve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_AF2Valve (40) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Bi2Valve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Bi2Valve (30) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_BiValve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_BiValve (20) #endif #ifndef Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Ve2Valve #define Logic_Valve_Index_RR_dbg_Logic_Valve__Fr_Ve2Valve (10) #endif // Value tables for @Logic_Valve_Direction_FL signal #ifndef Logic_Valve_Direction_FL_dbg_Logic_Valve_TriLevel__GlassVentFoot #define Logic_Valve_Direction_FL_dbg_Logic_Valve_TriLevel__GlassVentFoot (6) #endif #ifndef Logic_Valve_Direction_FL_dbg_Logic_Valve_HiLevel__GlassVent #define Logic_Valve_Direction_FL_dbg_Logic_Valve_HiLevel__GlassVent (5) #endif #ifndef Logic_Valve_Direction_FL_dbg_Logic_Valve_Def__Glass #define Logic_Valve_Direction_FL_dbg_Logic_Valve_Def__Glass (4) #endif #ifndef Logic_Valve_Direction_FL_dbg_Logic_Valve_FDef__GlassFoot #define Logic_Valve_Direction_FL_dbg_Logic_Valve_FDef__GlassFoot (3) #endif #ifndef Logic_Valve_Direction_FL_dbg_Logic_Valve_Foot__Floor #define Logic_Valve_Direction_FL_dbg_Logic_Valve_Foot__Floor (2) #endif #ifndef Logic_Valve_Direction_FL_dbg_Logic_Valve_BiLevel #define Logic_Valve_Direction_FL_dbg_Logic_Valve_BiLevel (1) #endif #ifndef Logic_Valve_Direction_FL_dbg_Logic_Valve_Face__Vent #define Logic_Valve_Direction_FL_dbg_Logic_Valve_Face__Vent (0) #endif // Value tables for @Logic_Valve_Direction_FR signal #ifndef Logic_Valve_Direction_FR_dbg_Logic_Valve_TriLevel__GlassVentFoot #define Logic_Valve_Direction_FR_dbg_Logic_Valve_TriLevel__GlassVentFoot (6) #endif #ifndef Logic_Valve_Direction_FR_dbg_Logic_Valve_HiLevel__GlassVent #define Logic_Valve_Direction_FR_dbg_Logic_Valve_HiLevel__GlassVent (5) #endif #ifndef Logic_Valve_Direction_FR_dbg_Logic_Valve_Def__Glass #define Logic_Valve_Direction_FR_dbg_Logic_Valve_Def__Glass (4) #endif #ifndef Logic_Valve_Direction_FR_dbg_Logic_Valve_FDef__GlassFoot #define Logic_Valve_Direction_FR_dbg_Logic_Valve_FDef__GlassFoot (3) #endif #ifndef Logic_Valve_Direction_FR_dbg_Logic_Valve_Foot__Floor #define Logic_Valve_Direction_FR_dbg_Logic_Valve_Foot__Floor (2) #endif #ifndef Logic_Valve_Direction_FR_dbg_Logic_Valve_BiLevel #define Logic_Valve_Direction_FR_dbg_Logic_Valve_BiLevel (1) #endif #ifndef Logic_Valve_Direction_FR_dbg_Logic_Valve_Face__Vent #define Logic_Valve_Direction_FR_dbg_Logic_Valve_Face__Vent (0) #endif // Value tables for @Logic_Valve_Direction_RL signal #ifndef Logic_Valve_Direction_RL_dbg_Logic_Valve_TriLevel__GlassVentFoot #define Logic_Valve_Direction_RL_dbg_Logic_Valve_TriLevel__GlassVentFoot (6) #endif #ifndef Logic_Valve_Direction_RL_dbg_Logic_Valve_HiLevel__GlassVent #define Logic_Valve_Direction_RL_dbg_Logic_Valve_HiLevel__GlassVent (5) #endif #ifndef Logic_Valve_Direction_RL_dbg_Logic_Valve_Def__Glass #define Logic_Valve_Direction_RL_dbg_Logic_Valve_Def__Glass (4) #endif #ifndef Logic_Valve_Direction_RL_dbg_Logic_Valve_FDef__GlassFoot #define Logic_Valve_Direction_RL_dbg_Logic_Valve_FDef__GlassFoot (3) #endif #ifndef Logic_Valve_Direction_RL_dbg_Logic_Valve_Foot__Floor #define Logic_Valve_Direction_RL_dbg_Logic_Valve_Foot__Floor (2) #endif #ifndef Logic_Valve_Direction_RL_dbg_Logic_Valve_BiLevel #define Logic_Valve_Direction_RL_dbg_Logic_Valve_BiLevel (1) #endif #ifndef Logic_Valve_Direction_RL_dbg_Logic_Valve_Face__Vent #define Logic_Valve_Direction_RL_dbg_Logic_Valve_Face__Vent (0) #endif // Value tables for @Logic_Valve_Direction_RR signal #ifndef Logic_Valve_Direction_RR_dbg_Logic_Valve_TriLevel__GlassVentFoot #define Logic_Valve_Direction_RR_dbg_Logic_Valve_TriLevel__GlassVentFoot (6) #endif #ifndef Logic_Valve_Direction_RR_dbg_Logic_Valve_HiLevel__GlassVent #define Logic_Valve_Direction_RR_dbg_Logic_Valve_HiLevel__GlassVent (5) #endif #ifndef Logic_Valve_Direction_RR_dbg_Logic_Valve_Def__Glass #define Logic_Valve_Direction_RR_dbg_Logic_Valve_Def__Glass (4) #endif #ifndef Logic_Valve_Direction_RR_dbg_Logic_Valve_FDef__GlassFoot #define Logic_Valve_Direction_RR_dbg_Logic_Valve_FDef__GlassFoot (3) #endif #ifndef Logic_Valve_Direction_RR_dbg_Logic_Valve_Foot__Floor #define Logic_Valve_Direction_RR_dbg_Logic_Valve_Foot__Floor (2) #endif #ifndef Logic_Valve_Direction_RR_dbg_Logic_Valve_BiLevel #define Logic_Valve_Direction_RR_dbg_Logic_Valve_BiLevel (1) #endif #ifndef Logic_Valve_Direction_RR_dbg_Logic_Valve_Face__Vent #define Logic_Valve_Direction_RR_dbg_Logic_Valve_Face__Vent (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 200 : "200_Re_Bi2Valve manual" // 190 : "190_Re_Vent manual" // 180 : "180_Re_Bi2Valve_3" // 170 : "170_Re_Vent_3" // 160 : "160_Re_Bi2Valve_2" // 150 : "150_Re_Vent_2" // 140 : "140_Re_Fo2Valve" // 130 : "130_Re_Bi2Valve" // 120 : "120_Re_Vent" // 110 : "110_Fr_BiValve manual" // 100 : "100_Fr_Hi2Valve" // 90 : "090_Fr_Tr2Valve" // 80 : "080_Fr_De2Valve" // 70 : "070_Fr_Fd2Valve" // 60 : "060_Fr_Fo2Valve" // 50 : "050_Fr_AF2Valve_Summer" // 40 : "040_Fr_AF2Valve" // 30 : "030_Fr_Bi2Valve" // 20 : "020_Fr_BiValve" // 10 : "010_Fr_Ve2Valve" uint8_t Logic_Valve_Index_FL; // Bits= 8 // 200 : "200_Re_Bi2Valve manual" // 190 : "190_Re_Vent manual" // 180 : "180_Re_Bi2Valve_3" // 170 : "170_Re_Vent_3" // 160 : "160_Re_Bi2Valve_2" // 150 : "150_Re_Vent_2" // 140 : "140_Re_Fo2Valve" // 130 : "130_Re_Bi2Valve" // 120 : "120_Re_Vent" // 110 : "110_Fr_BiValve manual" // 100 : "100_Fr_Hi2Valve" // 90 : "090_Fr_Tr2Valve" // 80 : "080_Fr_De2Valve" // 70 : "070_Fr_Fd2Valve" // 60 : "060_Fr_Fo2Valve" // 50 : "050_Fr_AF2Valve_Summer" // 40 : "040_Fr_AF2Valve" // 30 : "030_Fr_Bi2Valve" // 20 : "020_Fr_BiValve" // 10 : "010_Fr_Ve2Valve" uint8_t Logic_Valve_Index_FR; // Bits= 8 // 200 : "200_Re_Bi2Valve manual" // 190 : "190_Re_Vent manual" // 180 : "180_Re_Bi2Valve_3" // 170 : "170_Re_Vent_3" // 160 : "160_Re_Bi2Valve_2" // 150 : "150_Re_Vent_2" // 140 : "140_Re_Fo2Valve" // 130 : "130_Re_Bi2Valve" // 120 : "120_Re_Vent" // 110 : "110_Fr_BiValve manual" // 100 : "100_Fr_Hi2Valve" // 90 : "090_Fr_Tr2Valve" // 80 : "080_Fr_De2Valve" // 70 : "070_Fr_Fd2Valve" // 60 : "060_Fr_Fo2Valve" // 50 : "050_Fr_AF2Valve_Summer" // 40 : "040_Fr_AF2Valve" // 30 : "030_Fr_Bi2Valve" // 20 : "020_Fr_BiValve" // 10 : "010_Fr_Ve2Valve" uint8_t Logic_Valve_Index_RL; // Bits= 8 // 200 : "200_Re_Bi2Valve manual" // 190 : "190_Re_Vent manual" // 180 : "180_Re_Bi2Valve_3" // 170 : "170_Re_Vent_3" // 160 : "160_Re_Bi2Valve_2" // 150 : "150_Re_Vent_2" // 140 : "140_Re_Fo2Valve" // 130 : "130_Re_Bi2Valve" // 120 : "120_Re_Vent" // 110 : "110_Fr_BiValve manual" // 100 : "100_Fr_Hi2Valve" // 90 : "090_Fr_Tr2Valve" // 80 : "080_Fr_De2Valve" // 70 : "070_Fr_Fd2Valve" // 60 : "060_Fr_Fo2Valve" // 50 : "050_Fr_AF2Valve_Summer" // 40 : "040_Fr_AF2Valve" // 30 : "030_Fr_Bi2Valve" // 20 : "020_Fr_BiValve" // 10 : "010_Fr_Ve2Valve" uint8_t Logic_Valve_Index_RR; // Bits= 8 // 6 : "Tri-Level / Glass&Vent&Foot" // 5 : "Hi-Level / Glass&Vent" // 4 : "Def / Glass" // 3 : "FDef / Glass&Foot" // 2 : "Foot / Floor" // 1 : "Bi-Level" // 0 : "Face / Vent" uint8_t Logic_Valve_Direction_FL : 4; // Bits= 4 Unit:'-' // 6 : "Tri-Level / Glass&Vent&Foot" // 5 : "Hi-Level / Glass&Vent" // 4 : "Def / Glass" // 3 : "FDef / Glass&Foot" // 2 : "Foot / Floor" // 1 : "Bi-Level" // 0 : "Face / Vent" uint8_t Logic_Valve_Direction_FR : 4; // Bits= 4 Unit:'-' // 6 : "Tri-Level / Glass&Vent&Foot" // 5 : "Hi-Level / Glass&Vent" // 4 : "Def / Glass" // 3 : "FDef / Glass&Foot" // 2 : "Foot / Floor" // 1 : "Bi-Level" // 0 : "Face / Vent" uint8_t Logic_Valve_Direction_RL : 4; // Bits= 4 Unit:'-' // 6 : "Tri-Level / Glass&Vent&Foot" // 5 : "Hi-Level / Glass&Vent" // 4 : "Def / Glass" // 3 : "FDef / Glass&Foot" // 2 : "Foot / Floor" // 1 : "Bi-Level" // 0 : "Face / Vent" uint8_t Logic_Valve_Direction_RR : 4; // Bits= 4 Unit:'-' #else // 200 : "200_Re_Bi2Valve manual" // 190 : "190_Re_Vent manual" // 180 : "180_Re_Bi2Valve_3" // 170 : "170_Re_Vent_3" // 160 : "160_Re_Bi2Valve_2" // 150 : "150_Re_Vent_2" // 140 : "140_Re_Fo2Valve" // 130 : "130_Re_Bi2Valve" // 120 : "120_Re_Vent" // 110 : "110_Fr_BiValve manual" // 100 : "100_Fr_Hi2Valve" // 90 : "090_Fr_Tr2Valve" // 80 : "080_Fr_De2Valve" // 70 : "070_Fr_Fd2Valve" // 60 : "060_Fr_Fo2Valve" // 50 : "050_Fr_AF2Valve_Summer" // 40 : "040_Fr_AF2Valve" // 30 : "030_Fr_Bi2Valve" // 20 : "020_Fr_BiValve" // 10 : "010_Fr_Ve2Valve" uint8_t Logic_Valve_Index_FL; // Bits= 8 // 200 : "200_Re_Bi2Valve manual" // 190 : "190_Re_Vent manual" // 180 : "180_Re_Bi2Valve_3" // 170 : "170_Re_Vent_3" // 160 : "160_Re_Bi2Valve_2" // 150 : "150_Re_Vent_2" // 140 : "140_Re_Fo2Valve" // 130 : "130_Re_Bi2Valve" // 120 : "120_Re_Vent" // 110 : "110_Fr_BiValve manual" // 100 : "100_Fr_Hi2Valve" // 90 : "090_Fr_Tr2Valve" // 80 : "080_Fr_De2Valve" // 70 : "070_Fr_Fd2Valve" // 60 : "060_Fr_Fo2Valve" // 50 : "050_Fr_AF2Valve_Summer" // 40 : "040_Fr_AF2Valve" // 30 : "030_Fr_Bi2Valve" // 20 : "020_Fr_BiValve" // 10 : "010_Fr_Ve2Valve" uint8_t Logic_Valve_Index_FR; // Bits= 8 // 200 : "200_Re_Bi2Valve manual" // 190 : "190_Re_Vent manual" // 180 : "180_Re_Bi2Valve_3" // 170 : "170_Re_Vent_3" // 160 : "160_Re_Bi2Valve_2" // 150 : "150_Re_Vent_2" // 140 : "140_Re_Fo2Valve" // 130 : "130_Re_Bi2Valve" // 120 : "120_Re_Vent" // 110 : "110_Fr_BiValve manual" // 100 : "100_Fr_Hi2Valve" // 90 : "090_Fr_Tr2Valve" // 80 : "080_Fr_De2Valve" // 70 : "070_Fr_Fd2Valve" // 60 : "060_Fr_Fo2Valve" // 50 : "050_Fr_AF2Valve_Summer" // 40 : "040_Fr_AF2Valve" // 30 : "030_Fr_Bi2Valve" // 20 : "020_Fr_BiValve" // 10 : "010_Fr_Ve2Valve" uint8_t Logic_Valve_Index_RL; // Bits= 8 // 200 : "200_Re_Bi2Valve manual" // 190 : "190_Re_Vent manual" // 180 : "180_Re_Bi2Valve_3" // 170 : "170_Re_Vent_3" // 160 : "160_Re_Bi2Valve_2" // 150 : "150_Re_Vent_2" // 140 : "140_Re_Fo2Valve" // 130 : "130_Re_Bi2Valve" // 120 : "120_Re_Vent" // 110 : "110_Fr_BiValve manual" // 100 : "100_Fr_Hi2Valve" // 90 : "090_Fr_Tr2Valve" // 80 : "080_Fr_De2Valve" // 70 : "070_Fr_Fd2Valve" // 60 : "060_Fr_Fo2Valve" // 50 : "050_Fr_AF2Valve_Summer" // 40 : "040_Fr_AF2Valve" // 30 : "030_Fr_Bi2Valve" // 20 : "020_Fr_BiValve" // 10 : "010_Fr_Ve2Valve" uint8_t Logic_Valve_Index_RR; // Bits= 8 // 6 : "Tri-Level / Glass&Vent&Foot" // 5 : "Hi-Level / Glass&Vent" // 4 : "Def / Glass" // 3 : "FDef / Glass&Foot" // 2 : "Foot / Floor" // 1 : "Bi-Level" // 0 : "Face / Vent" uint8_t Logic_Valve_Direction_FL; // Bits= 4 Unit:'-' // 6 : "Tri-Level / Glass&Vent&Foot" // 5 : "Hi-Level / Glass&Vent" // 4 : "Def / Glass" // 3 : "FDef / Glass&Foot" // 2 : "Foot / Floor" // 1 : "Bi-Level" // 0 : "Face / Vent" uint8_t Logic_Valve_Direction_FR; // Bits= 4 Unit:'-' // 6 : "Tri-Level / Glass&Vent&Foot" // 5 : "Hi-Level / Glass&Vent" // 4 : "Def / Glass" // 3 : "FDef / Glass&Foot" // 2 : "Foot / Floor" // 1 : "Bi-Level" // 0 : "Face / Vent" uint8_t Logic_Valve_Direction_RL; // Bits= 4 Unit:'-' // 6 : "Tri-Level / Glass&Vent&Foot" // 5 : "Hi-Level / Glass&Vent" // 4 : "Def / Glass" // 3 : "FDef / Glass&Foot" // 2 : "Foot / Floor" // 1 : "Bi-Level" // 0 : "Face / Vent" uint8_t Logic_Valve_Direction_RR; // Bits= 4 Unit:'-' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Logic_Valve_t; // def @dbg_Logic_Blower CAN Message (995 0x3e3) #define dbg_Logic_Blower_IDE (0U) #define dbg_Logic_Blower_DLC (8U) #define dbg_Logic_Blower_CANID (0x3e3U) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL uint8_t Logic_Blower_Step_FL : 4; // Bits= 4 uint8_t Logic_Blower_Step_FR : 4; // Bits= 4 uint8_t Logic_Blower_Step_RL : 4; // Bits= 4 uint8_t Logic_Blower_Step_RR : 4; // Bits= 4 uint8_t Logic_Blower_Pwm_Front; // Bits= 8 Unit:'%' uint8_t Logic_Blower_Pwm_Rear; // Bits= 8 Unit:'%' uint8_t Logic_Blower_AF_FL; // Bits= 8 Unit:'AF' uint8_t Logic_Blower_AF_FR; // Bits= 8 Unit:'AF' uint8_t Logic_Blower_AF_RL; // Bits= 8 Unit:'AF' uint8_t Logic_Blower_AF_RR; // Bits= 8 Unit:'AF' #else uint8_t Logic_Blower_Step_FL; // Bits= 4 uint8_t Logic_Blower_Step_FR; // Bits= 4 uint8_t Logic_Blower_Step_RL; // Bits= 4 uint8_t Logic_Blower_Step_RR; // Bits= 4 uint8_t Logic_Blower_Pwm_Front; // Bits= 8 Unit:'%' uint8_t Logic_Blower_Pwm_Rear; // Bits= 8 Unit:'%' uint8_t Logic_Blower_AF_FL; // Bits= 8 Unit:'AF' uint8_t Logic_Blower_AF_FR; // Bits= 8 Unit:'AF' uint8_t Logic_Blower_AF_RL; // Bits= 8 Unit:'AF' uint8_t Logic_Blower_AF_RR; // Bits= 8 Unit:'AF' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Logic_Blower_t; // def @dbg_Logic_Ac CAN Message (996 0x3e4) #define dbg_Logic_Ac_IDE (0U) #define dbg_Logic_Ac_DLC (4U) #define dbg_Logic_Ac_CANID (0x3e4U) // Value tables for @Logic_Ac_Req_Front signal #ifndef Logic_Ac_Req_Front_dbg_Logic_Ac_On #define Logic_Ac_Req_Front_dbg_Logic_Ac_On (1) #endif #ifndef Logic_Ac_Req_Front_dbg_Logic_Ac_Off #define Logic_Ac_Req_Front_dbg_Logic_Ac_Off (0) #endif // Value tables for @Logic_Ac_Txv_Front signal #ifndef Logic_Ac_Txv_Front_dbg_Logic_Ac_On #define Logic_Ac_Txv_Front_dbg_Logic_Ac_On (1) #endif #ifndef Logic_Ac_Txv_Front_dbg_Logic_Ac_Off #define Logic_Ac_Txv_Front_dbg_Logic_Ac_Off (0) #endif // Value tables for @Logic_Ac_Txv_Rear signal #ifndef Logic_Ac_Txv_Rear_dbg_Logic_Ac_On #define Logic_Ac_Txv_Rear_dbg_Logic_Ac_On (1) #endif #ifndef Logic_Ac_Txv_Rear_dbg_Logic_Ac_Off #define Logic_Ac_Txv_Rear_dbg_Logic_Ac_Off (0) #endif // Value tables for @Logic_Ac_Req_Rear signal #ifndef Logic_Ac_Req_Rear_dbg_Logic_Ac_On #define Logic_Ac_Req_Rear_dbg_Logic_Ac_On (1) #endif #ifndef Logic_Ac_Req_Rear_dbg_Logic_Ac_Off #define Logic_Ac_Req_Rear_dbg_Logic_Ac_Off (0) #endif // Value tables for @Logic_Ac_Req_Chiller signal #ifndef Logic_Ac_Req_Chiller_dbg_Logic_Ac_On #define Logic_Ac_Req_Chiller_dbg_Logic_Ac_On (1) #endif #ifndef Logic_Ac_Req_Chiller_dbg_Logic_Ac_Off #define Logic_Ac_Req_Chiller_dbg_Logic_Ac_Off (0) #endif // Value tables for @Logic_Ac_Txv_Chiller signal #ifndef Logic_Ac_Txv_Chiller_dbg_Logic_Ac_On #define Logic_Ac_Txv_Chiller_dbg_Logic_Ac_On (1) #endif #ifndef Logic_Ac_Txv_Chiller_dbg_Logic_Ac_Off #define Logic_Ac_Txv_Chiller_dbg_Logic_Ac_Off (0) #endif // Value tables for @Logic_Ac_EvaCtrl signal #ifndef Logic_Ac_EvaCtrl_dbg_Logic_Ac_Both_On_but_olny_Rear_works #define Logic_Ac_EvaCtrl_dbg_Logic_Ac_Both_On_but_olny_Rear_works (7) #endif #ifndef Logic_Ac_EvaCtrl_dbg_Logic_Ac_Both_On_but_olny_Front_works #define Logic_Ac_EvaCtrl_dbg_Logic_Ac_Both_On_but_olny_Front_works (6) #endif #ifndef Logic_Ac_EvaCtrl_dbg_Logic_Ac_Both_On_with_Rear_FB #define Logic_Ac_EvaCtrl_dbg_Logic_Ac_Both_On_with_Rear_FB (5) #endif #ifndef Logic_Ac_EvaCtrl_dbg_Logic_Ac_Both_On_with_Front_FB #define Logic_Ac_EvaCtrl_dbg_Logic_Ac_Both_On_with_Front_FB (4) #endif #ifndef Logic_Ac_EvaCtrl_dbg_Logic_Ac_Only_Rear_On #define Logic_Ac_EvaCtrl_dbg_Logic_Ac_Only_Rear_On (3) #endif #ifndef Logic_Ac_EvaCtrl_dbg_Logic_Ac_Only_Front_On #define Logic_Ac_EvaCtrl_dbg_Logic_Ac_Only_Front_On (2) #endif #ifndef Logic_Ac_EvaCtrl_dbg_Logic_Ac_Only_Chiller_On #define Logic_Ac_EvaCtrl_dbg_Logic_Ac_Only_Chiller_On (1) #endif #ifndef Logic_Ac_EvaCtrl_dbg_Logic_Ac_All_Off #define Logic_Ac_EvaCtrl_dbg_Logic_Ac_All_Off (0) #endif // signal: @Logic_Ac_Comp_LimitRpm_ro #define CANDB_DBG_Logic_Ac_Comp_LimitRpm_ro_CovFactor (50) #define CANDB_DBG_Logic_Ac_Comp_LimitRpm_ro_toS(x) ( (uint8_t) ((x) / (50)) ) #define CANDB_DBG_Logic_Ac_Comp_LimitRpm_ro_fromS(x) ( ((x) * (50)) ) // Value tables for @Logic_Ac_WinterSts_Front signal #ifndef Logic_Ac_WinterSts_Front_dbg_Logic_Ac_ON_atWinter #define Logic_Ac_WinterSts_Front_dbg_Logic_Ac_ON_atWinter (3) #endif #ifndef Logic_Ac_WinterSts_Front_dbg_Logic_Ac_OFF_atWinter #define Logic_Ac_WinterSts_Front_dbg_Logic_Ac_OFF_atWinter (2) #endif #ifndef Logic_Ac_WinterSts_Front_dbg_Logic_Ac_Not_Used #define Logic_Ac_WinterSts_Front_dbg_Logic_Ac_Not_Used (1) #endif #ifndef Logic_Ac_WinterSts_Front_dbg_Logic_Ac_No_Winter #define Logic_Ac_WinterSts_Front_dbg_Logic_Ac_No_Winter (0) #endif // Value tables for @Logic_Ac_WinterSts_Rear signal #ifndef Logic_Ac_WinterSts_Rear_dbg_Logic_Ac_ON_atWinter #define Logic_Ac_WinterSts_Rear_dbg_Logic_Ac_ON_atWinter (3) #endif #ifndef Logic_Ac_WinterSts_Rear_dbg_Logic_Ac_OFF_atWinter #define Logic_Ac_WinterSts_Rear_dbg_Logic_Ac_OFF_atWinter (2) #endif #ifndef Logic_Ac_WinterSts_Rear_dbg_Logic_Ac_Not_Used #define Logic_Ac_WinterSts_Rear_dbg_Logic_Ac_Not_Used (1) #endif #ifndef Logic_Ac_WinterSts_Rear_dbg_Logic_Ac_No_Winter #define Logic_Ac_WinterSts_Rear_dbg_Logic_Ac_No_Winter (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Req_Front : 1; // Bits= 1 Unit:'(off 0, on 1)' // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Txv_Front : 1; // Bits= 1 Unit:'(off 0, on 1)' // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Txv_Rear : 1; // Bits= 1 Unit:'(off 0, on 1)' // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Req_Rear : 1; // Bits= 1 Unit:'(off 0, on 1)' // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Req_Chiller : 1; // Bits= 1 Unit:'(off 0, on 1)' // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Txv_Chiller : 1; // Bits= 1 Unit:'(off 0, on 1)' // 7 : "Both On but olny Rear works" // 6 : "Both On but olny Front works" // 5 : "Both On with Rear FB" // 4 : "Both On with Front FB" // 3 : "Only Rear On" // 2 : "Only Front On" // 1 : "Only Chiller On" // 0 : "All Off" uint8_t Logic_Ac_EvaCtrl : 4; // Bits= 4 uint8_t Logic_Ac_Comp_EmrStop_Reason : 4; // Bits= 4 uint8_t Logic_Ac_Comp_LimitRpm_ro; // Bits= 8 Factor= 50 Unit:'rpm' #ifdef CANDB_DBG_USE_SIGFLOAT uint16_t Logic_Ac_Comp_LimitRpm_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t Logic_Ac_Txv_Closed_bySen : 1; // Bits= 1 uint8_t Logic_Ac_Comp_Protection_Level : 2; // Bits= 2 Unit:'Lv' // 3 : "ON_atWinter" // 2 : "OFF_atWinter" // 1 : "Not_Used" // 0 : "No_Winter" uint8_t Logic_Ac_WinterSts_Front : 2; // Bits= 2 // 3 : "ON_atWinter" // 2 : "OFF_atWinter" // 1 : "Not_Used" // 0 : "No_Winter" uint8_t Logic_Ac_WinterSts_Rear : 2; // Bits= 2 #else // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Req_Front; // Bits= 1 Unit:'(off 0, on 1)' // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Txv_Front; // Bits= 1 Unit:'(off 0, on 1)' // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Txv_Rear; // Bits= 1 Unit:'(off 0, on 1)' // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Req_Rear; // Bits= 1 Unit:'(off 0, on 1)' // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Req_Chiller; // Bits= 1 Unit:'(off 0, on 1)' // 1 : "On" // 0 : "Off" uint8_t Logic_Ac_Txv_Chiller; // Bits= 1 Unit:'(off 0, on 1)' // 7 : "Both On but olny Rear works" // 6 : "Both On but olny Front works" // 5 : "Both On with Rear FB" // 4 : "Both On with Front FB" // 3 : "Only Rear On" // 2 : "Only Front On" // 1 : "Only Chiller On" // 0 : "All Off" uint8_t Logic_Ac_EvaCtrl; // Bits= 4 uint8_t Logic_Ac_Comp_EmrStop_Reason; // Bits= 4 uint8_t Logic_Ac_Comp_LimitRpm_ro; // Bits= 8 Factor= 50 Unit:'rpm' #ifdef CANDB_DBG_USE_SIGFLOAT uint16_t Logic_Ac_Comp_LimitRpm_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t Logic_Ac_Txv_Closed_bySen; // Bits= 1 uint8_t Logic_Ac_Comp_Protection_Level; // Bits= 2 Unit:'Lv' // 3 : "ON_atWinter" // 2 : "OFF_atWinter" // 1 : "Not_Used" // 0 : "No_Winter" uint8_t Logic_Ac_WinterSts_Front; // Bits= 2 // 3 : "ON_atWinter" // 2 : "OFF_atWinter" // 1 : "Not_Used" // 0 : "No_Winter" uint8_t Logic_Ac_WinterSts_Rear; // Bits= 2 #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Logic_Ac_t; // def @dbg_Logic_Rec CAN Message (997 0x3e5) #define dbg_Logic_Rec_IDE (0U) #define dbg_Logic_Rec_DLC (3U) #define dbg_Logic_Rec_CANID (0x3e5U) // Value tables for @Logic_Rec_Idx signal #ifndef Logic_Rec_Idx_dbg_Logic_Rec_REC #define Logic_Rec_Idx_dbg_Logic_Rec_REC (1) #endif #ifndef Logic_Rec_Idx_dbg_Logic_Rec_FRESH #define Logic_Rec_Idx_dbg_Logic_Rec_FRESH (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 1 : "REC" // 0 : "FRESH" uint8_t Logic_Rec_Idx : 1; // Bits= 1 uint8_t Logic_Rec_Partial_Spd_Sts : 1; // Bits= 1 uint8_t Logic_Rec_Partial_Winter : 1; // Bits= 1 uint8_t Logic_Rec_Partial_Summer : 2; // Bits= 2 uint8_t Logic_Rec_FreshAirPurge_Sts : 4; // Bits= 4 #else // 1 : "REC" // 0 : "FRESH" uint8_t Logic_Rec_Idx; // Bits= 1 uint8_t Logic_Rec_Partial_Spd_Sts; // Bits= 1 uint8_t Logic_Rec_Partial_Winter; // Bits= 1 uint8_t Logic_Rec_Partial_Summer; // Bits= 2 uint8_t Logic_Rec_FreshAirPurge_Sts; // Bits= 4 #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Logic_Rec_t; // def @dbg_DiffBlr_ValveOpen CAN Message (998 0x3e6) #define dbg_DiffBlr_ValveOpen_IDE (0U) #define dbg_DiffBlr_ValveOpen_DLC (8U) #define dbg_DiffBlr_ValveOpen_CANID (0x3e6U) #define dbg_DiffBlr_ValveOpen_CYC (200U) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // MULTIPLEX master signal uint8_t Logic_ValveOpen_MultMsg_Idx : 2; // Bits= 2 // multiplex variable uint8_t Logic_ValveOpen_R2_SFL; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R1_SFL; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R2_CFL; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R1_CFL; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R2_CFR; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R1_CFR; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R2_SFR; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R1_SFR; // Bits= 8 Unit:'%' #else // MULTIPLEX master signal uint8_t Logic_ValveOpen_MultMsg_Idx; // Bits= 2 // multiplex variable uint8_t Logic_ValveOpen_R2_SFL; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R1_SFL; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R2_CFL; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R1_CFL; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R2_CFR; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R1_CFR; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R2_SFR; // Bits= 8 Unit:'%' // multiplex variable uint8_t Logic_ValveOpen_R1_SFR; // Bits= 8 Unit:'%' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_DiffBlr_ValveOpen_t; // This is a message for not used signals, created by Vector CANdb++ DBC OLE DB Provider. // def @dbg_Act0 CAN Message (1008 0x3f0) #define dbg_Act0_IDE (0U) #define dbg_Act0_DLC (8U) #define dbg_Act0_CANID (0x3f0U) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL uint8_t dbg_Act00_Def; // Bits= 8 Unit:'%' uint8_t dbg_Act01_Vent_SFL; // Bits= 8 Unit:'%' uint8_t dbg_Act02_Vent_CFL; // Bits= 8 Unit:'%' uint8_t dbg_Act03_Foot_1FL; // Bits= 8 Unit:'%' uint8_t dbg_Act04_Foot_2FL; // Bits= 8 Unit:'%' uint8_t dbg_Act05_Vent_CFR; // Bits= 8 Unit:'%' uint8_t dbg_Act06_Vent_SFR; // Bits= 8 Unit:'%' uint8_t dbg_Act07_Foot_1FR; // Bits= 8 Unit:'%' #else uint8_t dbg_Act00_Def; // Bits= 8 Unit:'%' uint8_t dbg_Act01_Vent_SFL; // Bits= 8 Unit:'%' uint8_t dbg_Act02_Vent_CFL; // Bits= 8 Unit:'%' uint8_t dbg_Act03_Foot_1FL; // Bits= 8 Unit:'%' uint8_t dbg_Act04_Foot_2FL; // Bits= 8 Unit:'%' uint8_t dbg_Act05_Vent_CFR; // Bits= 8 Unit:'%' uint8_t dbg_Act06_Vent_SFR; // Bits= 8 Unit:'%' uint8_t dbg_Act07_Foot_1FR; // Bits= 8 Unit:'%' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Act0_t; // def @dbg_Act1 CAN Message (1009 0x3f1) #define dbg_Act1_IDE (0U) #define dbg_Act1_DLC (8U) #define dbg_Act1_CANID (0x3f1U) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL uint8_t dbg_Act08_Foot_2FR; // Bits= 8 Unit:'%' uint8_t dbg_Act09_Vent_SRL; // Bits= 8 Unit:'%' uint8_t dbg_Act10_Vent_CRL; // Bits= 8 Unit:'%' uint8_t dbg_Act11_Foot_RL; // Bits= 8 Unit:'%' uint8_t dbg_Act12_Vent_CRR; // Bits= 8 Unit:'%' uint8_t dbg_Act13_Vent_SRR; // Bits= 8 Unit:'%' uint8_t dbg_Act14_Foot_RR; // Bits= 8 Unit:'%' uint8_t dbg_Act15_TempU_FL; // Bits= 8 Unit:'%' #else uint8_t dbg_Act08_Foot_2FR; // Bits= 8 Unit:'%' uint8_t dbg_Act09_Vent_SRL; // Bits= 8 Unit:'%' uint8_t dbg_Act10_Vent_CRL; // Bits= 8 Unit:'%' uint8_t dbg_Act11_Foot_RL; // Bits= 8 Unit:'%' uint8_t dbg_Act12_Vent_CRR; // Bits= 8 Unit:'%' uint8_t dbg_Act13_Vent_SRR; // Bits= 8 Unit:'%' uint8_t dbg_Act14_Foot_RR; // Bits= 8 Unit:'%' uint8_t dbg_Act15_TempU_FL; // Bits= 8 Unit:'%' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Act1_t; // def @dbg_Act2 CAN Message (1010 0x3f2) #define dbg_Act2_IDE (0U) #define dbg_Act2_DLC (8U) #define dbg_Act2_CANID (0x3f2U) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL uint8_t dbg_Act16_TempL_FL; // Bits= 8 Unit:'%' uint8_t dbg_Act17_TempU_FR; // Bits= 8 Unit:'%' uint8_t dbg_Act18_TempL_FR; // Bits= 8 Unit:'%' uint8_t dbg_Act19_Temp_RL; // Bits= 8 Unit:'%' uint8_t dbg_Act20_Temp_RR; // Bits= 8 Unit:'%' uint8_t dbg_Act21_Rec; // Bits= 8 Unit:'%' uint8_t dbg_Act22_OSA; // Bits= 8 Unit:'%' uint8_t dbg_Act23_SealingValve; // Bits= 8 Unit:'%' #else uint8_t dbg_Act16_TempL_FL; // Bits= 8 Unit:'%' uint8_t dbg_Act17_TempU_FR; // Bits= 8 Unit:'%' uint8_t dbg_Act18_TempL_FR; // Bits= 8 Unit:'%' uint8_t dbg_Act19_Temp_RL; // Bits= 8 Unit:'%' uint8_t dbg_Act20_Temp_RR; // Bits= 8 Unit:'%' uint8_t dbg_Act21_Rec; // Bits= 8 Unit:'%' uint8_t dbg_Act22_OSA; // Bits= 8 Unit:'%' uint8_t dbg_Act23_SealingValve; // Bits= 8 Unit:'%' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Act2_t; // def @dbg_Sen_Amb CAN Message (1011 0x3f3) #define dbg_Sen_Amb_IDE (0U) #define dbg_Sen_Amb_DLC (6U) #define dbg_Sen_Amb_CANID (0x3f3U) // signal: @dbg_Sen_Amb_ro #define CANDB_DBG_dbg_Sen_Amb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Amb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Amb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Amb_Raw_ro #define CANDB_DBG_dbg_Sen_Amb_Raw_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Amb_Raw_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Amb_Raw_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Amb_Tg_ro #define CANDB_DBG_dbg_Amb_Tg_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Amb_Tg_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Amb_Tg_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL int16_t dbg_Sen_Amb_ro; // [-] Bits=16 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Amb_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Sen_Amb_Raw_ro; // [-] Bits=16 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Amb_Raw_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Amb_Tg_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Amb_Tg_phys; #endif // CANDB_DBG_USE_SIGFLOAT #else int16_t dbg_Sen_Amb_ro; // [-] Bits=16 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Amb_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Sen_Amb_Raw_ro; // [-] Bits=16 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Amb_Raw_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Amb_Tg_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Amb_Tg_phys; #endif // CANDB_DBG_USE_SIGFLOAT #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Sen_Amb_t; // def @dbg_Sen_0 CAN Message (1016 0x3f8) #define dbg_Sen_0_IDE (0U) #define dbg_Sen_0_DLC (8U) #define dbg_Sen_0_CANID (0x3f8U) #define dbg_Sen_0_CYC (1000U) // signal: @dbg_Sen_BattVolt_ro #define CANDB_DBG_dbg_Sen_BattVolt_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_BattVolt_ro_toS(x) ( (uint8_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_BattVolt_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Pressure_ro #define CANDB_DBG_dbg_Sen_Pressure_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Pressure_ro_toS(x) ( (uint16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Pressure_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL uint8_t dbg_Sen_BattVolt_ro; // Bits= 8 Factor= 0.1 Unit:'Volt' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_BattVolt_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint16_t dbg_Sen_Pressure_ro; // Bits=12 Factor= 0.1 Unit:'ATM' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Pressure_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint16_t dbg_Sen_Sun_L; // Bits=16 Unit:'W/m2' uint16_t dbg_Sen_Sun_R; // Bits=16 Unit:'W/m2' #else uint8_t dbg_Sen_BattVolt_ro; // Bits= 8 Factor= 0.1 Unit:'Volt' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_BattVolt_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint16_t dbg_Sen_Pressure_ro; // Bits=12 Factor= 0.1 Unit:'ATM' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Pressure_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint16_t dbg_Sen_Sun_L; // Bits=16 Unit:'W/m2' uint16_t dbg_Sen_Sun_R; // Bits=16 Unit:'W/m2' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Sen_0_t; // def @dbg_CCU_IO CAN Message (1019 0x3fb) #define dbg_CCU_IO_IDE (0U) #define dbg_CCU_IO_DLC (6U) #define dbg_CCU_IO_CANID (0x3fbU) // Value tables for @dbg_IO_Txv_F signal #ifndef dbg_IO_Txv_F_dbg_CCU_IO_On #define dbg_IO_Txv_F_dbg_CCU_IO_On (1) #endif #ifndef dbg_IO_Txv_F_dbg_CCU_IO_Off #define dbg_IO_Txv_F_dbg_CCU_IO_Off (0) #endif // Value tables for @dbg_IO_Txv_R signal #ifndef dbg_IO_Txv_R_dbg_CCU_IO_On #define dbg_IO_Txv_R_dbg_CCU_IO_On (1) #endif #ifndef dbg_IO_Txv_R_dbg_CCU_IO_Off #define dbg_IO_Txv_R_dbg_CCU_IO_Off (0) #endif // Value tables for @dbg_IO_Txv_Ch signal #ifndef dbg_IO_Txv_Ch_dbg_CCU_IO_On #define dbg_IO_Txv_Ch_dbg_CCU_IO_On (1) #endif #ifndef dbg_IO_Txv_Ch_dbg_CCU_IO_Off #define dbg_IO_Txv_Ch_dbg_CCU_IO_Off (0) #endif // Value tables for @dbg_IO_2WayValve signal #ifndef dbg_IO_2WayValve_dbg_CCU_IO_Open #define dbg_IO_2WayValve_dbg_CCU_IO_Open (1) #endif #ifndef dbg_IO_2WayValve_dbg_CCU_IO_Close #define dbg_IO_2WayValve_dbg_CCU_IO_Close (0) #endif // Value tables for @dbg_IO_IncarMotor_F signal #ifndef dbg_IO_IncarMotor_F_dbg_CCU_IO_On #define dbg_IO_IncarMotor_F_dbg_CCU_IO_On (1) #endif #ifndef dbg_IO_IncarMotor_F_dbg_CCU_IO_Off #define dbg_IO_IncarMotor_F_dbg_CCU_IO_Off (0) #endif // Value tables for @dbg_IO_IncarMotor_R signal #ifndef dbg_IO_IncarMotor_R_dbg_CCU_IO_On #define dbg_IO_IncarMotor_R_dbg_CCU_IO_On (1) #endif #ifndef dbg_IO_IncarMotor_R_dbg_CCU_IO_Off #define dbg_IO_IncarMotor_R_dbg_CCU_IO_Off (0) #endif // signal: @dbg_SetTemp_FL_ro #define CANDB_DBG_dbg_SetTemp_FL_ro_CovFactor (0.5) #define CANDB_DBG_dbg_SetTemp_FL_ro_toS(x) ( (uint8_t) (((x) - (16.0)) / (0.5)) ) #define CANDB_DBG_dbg_SetTemp_FL_ro_fromS(x) ( (((x) * (0.5)) + (16.0)) ) // signal: @dbg_SetTemp_FR_ro #define CANDB_DBG_dbg_SetTemp_FR_ro_CovFactor (0.5) #define CANDB_DBG_dbg_SetTemp_FR_ro_toS(x) ( (uint8_t) (((x) - (16.0)) / (0.5)) ) #define CANDB_DBG_dbg_SetTemp_FR_ro_fromS(x) ( (((x) * (0.5)) + (16.0)) ) // signal: @dbg_SetTemp_RL_ro #define CANDB_DBG_dbg_SetTemp_RL_ro_CovFactor (0.5) #define CANDB_DBG_dbg_SetTemp_RL_ro_toS(x) ( (uint8_t) (((x) - (16.0)) / (0.5)) ) #define CANDB_DBG_dbg_SetTemp_RL_ro_fromS(x) ( (((x) * (0.5)) + (16.0)) ) // signal: @dbg_SetTemp_RR_ro #define CANDB_DBG_dbg_SetTemp_RR_ro_CovFactor (0.5) #define CANDB_DBG_dbg_SetTemp_RR_ro_toS(x) ( (uint8_t) (((x) - (16.0)) / (0.5)) ) #define CANDB_DBG_dbg_SetTemp_RR_ro_fromS(x) ( (((x) * (0.5)) + (16.0)) ) // Value tables for @dbg_IO_Input_Emergency signal #ifndef dbg_IO_Input_Emergency_dbg_CCU_IO_On #define dbg_IO_Input_Emergency_dbg_CCU_IO_On (1) #endif #ifndef dbg_IO_Input_Emergency_dbg_CCU_IO_Off #define dbg_IO_Input_Emergency_dbg_CCU_IO_Off (0) #endif // Value tables for @dbg_IO_Input_FireExtinguisher signal #ifndef dbg_IO_Input_FireExtinguisher_dbg_CCU_IO_On #define dbg_IO_Input_FireExtinguisher_dbg_CCU_IO_On (1) #endif #ifndef dbg_IO_Input_FireExtinguisher_dbg_CCU_IO_Off #define dbg_IO_Input_FireExtinguisher_dbg_CCU_IO_Off (0) #endif // Value tables for @dbg_IO_Install_Sealing_Valve signal #ifndef dbg_IO_Install_Sealing_Valve_dbg_CCU_IO_On #define dbg_IO_Install_Sealing_Valve_dbg_CCU_IO_On (1) #endif #ifndef dbg_IO_Install_Sealing_Valve_dbg_CCU_IO_Off #define dbg_IO_Install_Sealing_Valve_dbg_CCU_IO_Off (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Txv_F : 1; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Txv_R : 1; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Txv_Ch : 1; // Bits= 1 // 1 : "Open" // 0 : "Close" uint8_t dbg_IO_2WayValve : 1; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_IncarMotor_F : 1; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_IncarMotor_R : 1; // Bits= 1 uint8_t dbg_SetTemp_FL_ro; // Bits= 8 Offset= 16.0 Factor= 0.5 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_SetTemp_FL_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t dbg_SetTemp_FR_ro; // Bits= 8 Offset= 16.0 Factor= 0.5 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_SetTemp_FR_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t dbg_SetTemp_RL_ro; // Bits= 8 Offset= 16.0 Factor= 0.5 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_SetTemp_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t dbg_SetTemp_RR_ro; // Bits= 8 Offset= 16.0 Factor= 0.5 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_SetTemp_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Input_Emergency : 1; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Input_FireExtinguisher : 1; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Install_Sealing_Valve : 1; // Bits= 1 #else // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Txv_F; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Txv_R; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Txv_Ch; // Bits= 1 // 1 : "Open" // 0 : "Close" uint8_t dbg_IO_2WayValve; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_IncarMotor_F; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_IncarMotor_R; // Bits= 1 uint8_t dbg_SetTemp_FL_ro; // Bits= 8 Offset= 16.0 Factor= 0.5 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_SetTemp_FL_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t dbg_SetTemp_FR_ro; // Bits= 8 Offset= 16.0 Factor= 0.5 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_SetTemp_FR_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t dbg_SetTemp_RL_ro; // Bits= 8 Offset= 16.0 Factor= 0.5 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_SetTemp_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t dbg_SetTemp_RR_ro; // Bits= 8 Offset= 16.0 Factor= 0.5 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_SetTemp_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Input_Emergency; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Input_FireExtinguisher; // Bits= 1 // 1 : "On" // 0 : "Off" uint8_t dbg_IO_Install_Sealing_Valve; // Bits= 1 #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_CCU_IO_t; // def @dbg_CCU_Info CAN Message (1020 0x3fc) #define dbg_CCU_Info_IDE (0U) #define dbg_CCU_Info_DLC (8U) #define dbg_CCU_Info_CANID (0x3fcU) #define dbg_CCU_Info_CYC (1000U) // Value tables for @dbg_Info_ActivatedCAL signal #ifndef dbg_Info_ActivatedCAL_dbg_CCU_Info_MPV_Cal #define dbg_Info_ActivatedCAL_dbg_CCU_Info_MPV_Cal (5) #endif #ifndef dbg_Info_ActivatedCAL_dbg_CCU_Info_SUV_Cal #define dbg_Info_ActivatedCAL_dbg_CCU_Info_SUV_Cal (4) #endif #ifndef dbg_Info_ActivatedCAL_dbg_CCU_Info_Limo_Cal #define dbg_Info_ActivatedCAL_dbg_CCU_Info_Limo_Cal (3) #endif #ifndef dbg_Info_ActivatedCAL_dbg_CCU_Info_SedanH_Cal #define dbg_Info_ActivatedCAL_dbg_CCU_Info_SedanH_Cal (2) #endif #ifndef dbg_Info_ActivatedCAL_dbg_CCU_Info_SedanL_Cal #define dbg_Info_ActivatedCAL_dbg_CCU_Info_SedanL_Cal (1) #endif #ifndef dbg_Info_ActivatedCAL_dbg_CCU_Info_Base_Cal #define dbg_Info_ActivatedCAL_dbg_CCU_Info_Base_Cal (0) #endif // Value tables for @dbg_Info_CCU_Aroma_Cfg signal #ifndef dbg_Info_CCU_Aroma_Cfg_dbg_CCU_Info_Incomplete #define dbg_Info_CCU_Aroma_Cfg_dbg_CCU_Info_Incomplete (15) #endif #ifndef dbg_Info_CCU_Aroma_Cfg_dbg_CCU_Info_Present #define dbg_Info_CCU_Aroma_Cfg_dbg_CCU_Info_Present (1) #endif #ifndef dbg_Info_CCU_Aroma_Cfg_dbg_CCU_Info_Not_Present #define dbg_Info_CCU_Aroma_Cfg_dbg_CCU_Info_Not_Present (0) #endif // Value tables for @dbg_Info_CCU_Algorithm_Cfg signal #ifndef dbg_Info_CCU_Algorithm_Cfg_dbg_CCU_Info_Incomplete #define dbg_Info_CCU_Algorithm_Cfg_dbg_CCU_Info_Incomplete (15) #endif #ifndef dbg_Info_CCU_Algorithm_Cfg_dbg_CCU_Info_Limousine_Variant #define dbg_Info_CCU_Algorithm_Cfg_dbg_CCU_Info_Limousine_Variant (1) #endif #ifndef dbg_Info_CCU_Algorithm_Cfg_dbg_CCU_Info_Stadard_Variant #define dbg_Info_CCU_Algorithm_Cfg_dbg_CCU_Info_Stadard_Variant (0) #endif // Value tables for @dbg_Info_VehicleBody signal #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_MPVTabletka_29 #define dbg_Info_VehicleBody_dbg_CCU_Info_MPVTabletka_29 (12857) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_MPVOrbita_28 #define dbg_Info_VehicleBody_dbg_CCU_Info_MPVOrbita_28 (12856) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_MPVArmored4SEAT_27 #define dbg_Info_VehicleBody_dbg_CCU_Info_MPVArmored4SEAT_27 (12855) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_MPVArmored9SEAT_23 #define dbg_Info_VehicleBody_dbg_CCU_Info_MPVArmored9SEAT_23 (12851) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_MPVNonArmored9SEAT_22 #define dbg_Info_VehicleBody_dbg_CCU_Info_MPVNonArmored9SEAT_22 (12850) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_MPVArmored8SEAT_21 #define dbg_Info_VehicleBody_dbg_CCU_Info_MPVArmored8SEAT_21 (12849) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_MPVNonArmored4SEAT_20 #define dbg_Info_VehicleBody_dbg_CCU_Info_MPVNonArmored4SEAT_20 (12848) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_SUVArmored__13 #define dbg_Info_VehicleBody_dbg_CCU_Info_SUVArmored__13 (12595) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_SUVNonArmored_12 #define dbg_Info_VehicleBody_dbg_CCU_Info_SUVNonArmored_12 (12594) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_LimoArmoredV8CiVil_0C_NotUsed #define dbg_Info_VehicleBody_dbg_CCU_Info_LimoArmoredV8CiVil_0C_NotUsed (12355) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_CabrioShow_0B_NotUsed_Phase1 #define dbg_Info_VehicleBody_dbg_CCU_Info_CabrioShow_0B_NotUsed_Phase1 (12354) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_SedanLongArmored_0A #define dbg_Info_VehicleBody_dbg_CCU_Info_SedanLongArmored_0A (12353) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_SedanLong__09 #define dbg_Info_VehicleBody_dbg_CCU_Info_SedanLong__09 (12345) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_Sedan4x2__08_NotUsed_Phase1 #define dbg_Info_VehicleBody_dbg_CCU_Info_Sedan4x2__08_NotUsed_Phase1 (12344) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_Cabrio_05 #define dbg_Info_VehicleBody_dbg_CCU_Info_Cabrio_05 (12341) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_LimoArmoredV8_04 #define dbg_Info_VehicleBody_dbg_CCU_Info_LimoArmoredV8_04 (12340) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_LimoArmoredV12_03 #define dbg_Info_VehicleBody_dbg_CCU_Info_LimoArmoredV12_03 (12339) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_SedanArmored__01 #define dbg_Info_VehicleBody_dbg_CCU_Info_SedanArmored__01 (12337) #endif #ifndef dbg_Info_VehicleBody_dbg_CCU_Info_SedanNonArmored00 #define dbg_Info_VehicleBody_dbg_CCU_Info_SedanNonArmored00 (12336) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // MULTIPLEX master signal uint8_t dbg_Info_MultMsg_Idx : 2; // Bits= 2 // multiplex variable uint32_t dbg_Info_Calibration_Ver_Date; // Bits=22 Unit:'yymmdd' // multiplex variable uint32_t dbg_Info_CCU_SW_Ver_Date; // Bits=22 Unit:'yymmdd' // multiplex variable uint8_t dbg_Info_Calibration_Ver_Rev; // Bits= 8 Unit:'Rev.' // multiplex variable uint8_t dbg_Info_CCU_SW_Ver_Rev; // Bits= 8 Unit:'Rev.' // 5 : "MPV_Cal" // 4 : "SUV_Cal" // 3 : "Limo_Cal" // 2 : "SedanH_Cal" // 1 : "SedanL_Cal" // 0 : "Base_Cal" // multiplex variable uint8_t dbg_Info_ActivatedCAL : 4; // Bits= 4 Unit:'Num' // multiplex variable uint32_t dbg_Info_MBD_Ver_Date; // Bits=22 Unit:'yymmdd' // 15 : "Incomplete" // 1 : "Present" // 0 : "Not_Present" // multiplex variable uint8_t dbg_Info_CCU_Aroma_Cfg : 4; // Bits= 4 // 15 : "Incomplete" // 1 : "Limousine_Variant" // 0 : "Stadard_Variant" // multiplex variable uint8_t dbg_Info_CCU_Algorithm_Cfg : 4; // Bits= 4 // 12857 : "MPVTabletka ='29'" // 12856 : "MPVOrbita ='28'" // 12855 : "MPVArmored4SEAT ='27'" // 12851 : "MPVArmored9SEAT ='23'" // 12850 : "MPVNonArmored9SEAT ='22'" // 12849 : "MPVArmored8SEAT ='21'" // 12848 : "MPVNonArmored4SEAT ='20'" // 12595 : "SUVArmored = '13'" // 12594 : "SUVNonArmored ='12'" // 12355 : "LimoArmoredV8CiVil ='0C'_NotUsed" // 12354 : "CabrioShow ='0B'_NotUsed_Phase1" // 12353 : "SedanLongArmored ='0A'" // 12345 : "SedanLong = '09'" // 12344 : "Sedan4x2 = '08'_NotUsed_Phase1" // 12341 : "Cabrio ='05'" // 12340 : "LimoArmoredV8 ='04'" // 12339 : "LimoArmoredV12 ='03'" // 12337 : "SedanArmored = '01'" // 12336 : "SedanNonArmored='00'" // multiplex variable uint16_t dbg_Info_VehicleBody; // Bits=16 Unit:'Vehicle' // multiplex variable uint8_t dbg_Info_MBD_Ver_Rev; // Bits= 8 Unit:'Rev.' #else // MULTIPLEX master signal uint8_t dbg_Info_MultMsg_Idx; // Bits= 2 // multiplex variable uint32_t dbg_Info_Calibration_Ver_Date; // Bits=22 Unit:'yymmdd' // multiplex variable uint32_t dbg_Info_CCU_SW_Ver_Date; // Bits=22 Unit:'yymmdd' // multiplex variable uint8_t dbg_Info_Calibration_Ver_Rev; // Bits= 8 Unit:'Rev.' // multiplex variable uint8_t dbg_Info_CCU_SW_Ver_Rev; // Bits= 8 Unit:'Rev.' // 5 : "MPV_Cal" // 4 : "SUV_Cal" // 3 : "Limo_Cal" // 2 : "SedanH_Cal" // 1 : "SedanL_Cal" // 0 : "Base_Cal" // multiplex variable uint8_t dbg_Info_ActivatedCAL; // Bits= 4 Unit:'Num' // multiplex variable uint32_t dbg_Info_MBD_Ver_Date; // Bits=22 Unit:'yymmdd' // 15 : "Incomplete" // 1 : "Present" // 0 : "Not_Present" // multiplex variable uint8_t dbg_Info_CCU_Aroma_Cfg; // Bits= 4 // 15 : "Incomplete" // 1 : "Limousine_Variant" // 0 : "Stadard_Variant" // multiplex variable uint8_t dbg_Info_CCU_Algorithm_Cfg; // Bits= 4 // 12857 : "MPVTabletka ='29'" // 12856 : "MPVOrbita ='28'" // 12855 : "MPVArmored4SEAT ='27'" // 12851 : "MPVArmored9SEAT ='23'" // 12850 : "MPVNonArmored9SEAT ='22'" // 12849 : "MPVArmored8SEAT ='21'" // 12848 : "MPVNonArmored4SEAT ='20'" // 12595 : "SUVArmored = '13'" // 12594 : "SUVNonArmored ='12'" // 12355 : "LimoArmoredV8CiVil ='0C'_NotUsed" // 12354 : "CabrioShow ='0B'_NotUsed_Phase1" // 12353 : "SedanLongArmored ='0A'" // 12345 : "SedanLong = '09'" // 12344 : "Sedan4x2 = '08'_NotUsed_Phase1" // 12341 : "Cabrio ='05'" // 12340 : "LimoArmoredV8 ='04'" // 12339 : "LimoArmoredV12 ='03'" // 12337 : "SedanArmored = '01'" // 12336 : "SedanNonArmored='00'" // multiplex variable uint16_t dbg_Info_VehicleBody; // Bits=16 Unit:'Vehicle' // multiplex variable uint8_t dbg_Info_MBD_Ver_Rev; // Bits= 8 Unit:'Rev.' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_CCU_Info_t; // def @dbg_Drs CAN Message (1021 0x3fd) #define dbg_Drs_IDE (0U) #define dbg_Drs_DLC (8U) #define dbg_Drs_CANID (0x3fdU) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL uint8_t dbg_Drs_0_SFL_DL : 7; // Bits= 7 Unit:'%' uint8_t dbg_Drs_1_CFL_FPL : 7; // Bits= 7 Unit:'%' uint8_t dbg_Drs_2_CFR_FPR : 7; // Bits= 7 Unit:'%' uint8_t dbg_Drs_3_SFR_DR : 7; // Bits= 7 Unit:'%' uint8_t dbg_Drs_4_SRL_RLB : 7; // Bits= 7 Unit:'%' uint8_t dbg_Drs_5_CRL_FCL : 7; // Bits= 7 Unit:'%' uint8_t dbg_Drs_6_CRR_FCR : 7; // Bits= 7 Unit:'%' uint8_t dbg_Drs_7_SRR_RRB : 7; // Bits= 7 Unit:'%' #else uint8_t dbg_Drs_0_SFL_DL; // Bits= 7 Unit:'%' uint8_t dbg_Drs_1_CFL_FPL; // Bits= 7 Unit:'%' uint8_t dbg_Drs_2_CFR_FPR; // Bits= 7 Unit:'%' uint8_t dbg_Drs_3_SFR_DR; // Bits= 7 Unit:'%' uint8_t dbg_Drs_4_SRL_RLB; // Bits= 7 Unit:'%' uint8_t dbg_Drs_5_CRL_FCL; // Bits= 7 Unit:'%' uint8_t dbg_Drs_6_CRR_FCR; // Bits= 7 Unit:'%' uint8_t dbg_Drs_7_SRR_RRB; // Bits= 7 Unit:'%' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Drs_t; // def @dbg_Sen_Incar CAN Message (1023 0x3ff) #define dbg_Sen_Incar_IDE (0U) #define dbg_Sen_Incar_DLC (8U) #define dbg_Sen_Incar_CANID (0x3ffU) #define dbg_Sen_Incar_CYC (250U) // signal: @dbg_Sen_Incar_Raw_FL_ro #define CANDB_DBG_dbg_Sen_Incar_Raw_FL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Incar_Raw_FL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Incar_Raw_FL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Incar_FL_ro #define CANDB_DBG_dbg_Sen_Incar_FL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Incar_FL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Incar_FL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Incar_Raw_FR_ro #define CANDB_DBG_dbg_Sen_Incar_Raw_FR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Incar_Raw_FR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Incar_Raw_FR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Incar_FR_ro #define CANDB_DBG_dbg_Sen_Incar_FR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Incar_FR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Incar_FR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Incar_Raw_RL_ro #define CANDB_DBG_dbg_Sen_Incar_Raw_RL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Incar_Raw_RL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Incar_Raw_RL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Incar_RL_ro #define CANDB_DBG_dbg_Sen_Incar_RL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Incar_RL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Incar_RL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Incar_Raw_RR_ro #define CANDB_DBG_dbg_Sen_Incar_Raw_RR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Incar_Raw_RR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Incar_Raw_RR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Incar_RR_ro #define CANDB_DBG_dbg_Sen_Incar_RR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Incar_RR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Incar_RR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // MULTIPLEX master signal uint8_t dbg_Sen_Incar_MultMsg_Idx : 2; // Bits= 2 // multiplex variable int16_t dbg_Sen_Incar_Raw_FL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_Raw_FL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_FL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_FL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_Raw_FR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_Raw_FR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_FR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_FR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_Raw_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_Raw_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_Raw_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_Raw_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT #else // MULTIPLEX master signal uint8_t dbg_Sen_Incar_MultMsg_Idx; // Bits= 2 // multiplex variable int16_t dbg_Sen_Incar_Raw_FL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_Raw_FL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_FL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_FL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_Raw_FR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_Raw_FR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_FR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_FR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_Raw_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_Raw_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_Raw_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_Raw_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Incar_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Incar_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Sen_Incar_t; // def @dbg_Cmd_Act_Information CAN Message (1024 0x400) #define dbg_Cmd_Act_Information_IDE (0U) #define dbg_Cmd_Act_Information_DLC (8U) #define dbg_Cmd_Act_Information_CANID (0x400U) // Value tables for @Cmd_Target_Act_Index signal #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information_AutoChange #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information_AutoChange (63) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__SealingValve #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__SealingValve (23) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__OSA #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__OSA (22) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Rec #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Rec (21) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Temp_RR #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Temp_RR (20) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Temp_RL #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Temp_RL (19) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__TempL_FR #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__TempL_FR (18) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__TempU_FR #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__TempU_FR (17) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__TempL_FL #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__TempL_FL (16) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__TempU_FL #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__TempU_FL (15) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_RR #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_RR (14) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_SRR #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_SRR (13) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_CRR #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_CRR (12) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_RL #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_RL (11) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_CRL #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_CRL (10) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_SRL #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_SRL (9) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_2FR #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_2FR (8) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_1FR #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_1FR (7) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_SFR #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_SFR (6) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_CFR #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_CFR (5) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_2FL #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_2FL (4) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_1FL #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Foot_1FL (3) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_CFL #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_CFL (2) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_SFL #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Vent_SFL (1) #endif #ifndef Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Def #define Cmd_Target_Act_Index_dbg_Cmd_Act_Information__Def (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 63 : "AutoChange" // 23 : "23_SealingValve" // 22 : "22_OSA" // 21 : "21_Rec" // 20 : "20_Temp_RR" // 19 : "19_Temp_RL" // 18 : "18_TempL_FR" // 17 : "17_TempU_FR" // 16 : "16_TempL_FL" // 15 : "15_TempU_FL" // 14 : "14_Foot_RR" // 13 : "13_Vent_SRR" // 12 : "12_Vent_CRR" // 11 : "11_Foot_RL" // 10 : "10_Vent_CRL" // 9 : "09_Vent_SRL" // 8 : "08_Foot_2FR" // 7 : "07_Foot_1FR" // 6 : "06_Vent_SFR" // 5 : "05_Vent_CFR" // 4 : "04_Foot_2FL" // 3 : "03_Foot_1FL" // 2 : "02_Vent_CFL" // 1 : "01_Vent_SFL" // 0 : "00_Def" uint8_t Cmd_Target_Act_Index : 6; // Bits= 6 Unit:'Index' #else // 63 : "AutoChange" // 23 : "23_SealingValve" // 22 : "22_OSA" // 21 : "21_Rec" // 20 : "20_Temp_RR" // 19 : "19_Temp_RL" // 18 : "18_TempL_FR" // 17 : "17_TempU_FR" // 16 : "16_TempL_FL" // 15 : "15_TempU_FL" // 14 : "14_Foot_RR" // 13 : "13_Vent_SRR" // 12 : "12_Vent_CRR" // 11 : "11_Foot_RL" // 10 : "10_Vent_CRL" // 9 : "09_Vent_SRL" // 8 : "08_Foot_2FR" // 7 : "07_Foot_1FR" // 6 : "06_Vent_SFR" // 5 : "05_Vent_CFR" // 4 : "04_Foot_2FL" // 3 : "03_Foot_1FL" // 2 : "02_Vent_CFL" // 1 : "01_Vent_SFL" // 0 : "00_Def" uint8_t Cmd_Target_Act_Index; // Bits= 6 Unit:'Index' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Cmd_Act_Information_t; // def @dbg_Info_Act1 CAN Message (1025 0x401) #define dbg_Info_Act1_IDE (0U) #define dbg_Info_Act1_DLC (8U) #define dbg_Info_Act1_CANID (0x401U) // Value tables for @dbg_Info_Act_Index signal #ifndef dbg_Info_Act_Index_dbg_Info_Act1__SealingValve #define dbg_Info_Act_Index_dbg_Info_Act1__SealingValve (23) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__OSA #define dbg_Info_Act_Index_dbg_Info_Act1__OSA (22) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Rec #define dbg_Info_Act_Index_dbg_Info_Act1__Rec (21) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Temp_RR #define dbg_Info_Act_Index_dbg_Info_Act1__Temp_RR (20) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Temp_RL #define dbg_Info_Act_Index_dbg_Info_Act1__Temp_RL (19) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__TempL_FR #define dbg_Info_Act_Index_dbg_Info_Act1__TempL_FR (18) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__TempU_FR #define dbg_Info_Act_Index_dbg_Info_Act1__TempU_FR (17) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__TempL_FL #define dbg_Info_Act_Index_dbg_Info_Act1__TempL_FL (16) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__TempU_FL #define dbg_Info_Act_Index_dbg_Info_Act1__TempU_FL (15) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Foot_RR #define dbg_Info_Act_Index_dbg_Info_Act1__Foot_RR (14) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Vent_SRR #define dbg_Info_Act_Index_dbg_Info_Act1__Vent_SRR (13) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Vent_CRR #define dbg_Info_Act_Index_dbg_Info_Act1__Vent_CRR (12) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Foot_RL #define dbg_Info_Act_Index_dbg_Info_Act1__Foot_RL (11) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Vent_CRL #define dbg_Info_Act_Index_dbg_Info_Act1__Vent_CRL (10) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Vent_SRL #define dbg_Info_Act_Index_dbg_Info_Act1__Vent_SRL (9) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Foot_2FR #define dbg_Info_Act_Index_dbg_Info_Act1__Foot_2FR (8) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Foot_1FR #define dbg_Info_Act_Index_dbg_Info_Act1__Foot_1FR (7) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Vent_SFR #define dbg_Info_Act_Index_dbg_Info_Act1__Vent_SFR (6) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Vent_CFR #define dbg_Info_Act_Index_dbg_Info_Act1__Vent_CFR (5) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Foot_2FL #define dbg_Info_Act_Index_dbg_Info_Act1__Foot_2FL (4) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Foot_1FL #define dbg_Info_Act_Index_dbg_Info_Act1__Foot_1FL (3) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Vent_CFL #define dbg_Info_Act_Index_dbg_Info_Act1__Vent_CFL (2) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Vent_SFL #define dbg_Info_Act_Index_dbg_Info_Act1__Vent_SFL (1) #endif #ifndef dbg_Info_Act_Index_dbg_Info_Act1__Def #define dbg_Info_Act_Index_dbg_Info_Act1__Def (0) #endif // signal: @dbg_Info_Act_App_Percent_ro #define CANDB_DBG_dbg_Info_Act_App_Percent_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Info_Act_App_Percent_ro_toS(x) ( (uint16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Info_Act_App_Percent_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Info_Act_with_Limit_Percent_ro #define CANDB_DBG_dbg_Info_Act_with_Limit_Percent_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Info_Act_with_Limit_Percent_ro_toS(x) ( (uint16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Info_Act_with_Limit_Percent_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 23 : "23_SealingValve" // 22 : "22_OSA" // 21 : "21_Rec" // 20 : "20_Temp_RR" // 19 : "19_Temp_RL" // 18 : "18_TempL_FR" // 17 : "17_TempU_FR" // 16 : "16_TempL_FL" // 15 : "15_TempU_FL" // 14 : "14_Foot_RR" // 13 : "13_Vent_SRR" // 12 : "12_Vent_CRR" // 11 : "11_Foot_RL" // 10 : "10_Vent_CRL" // 9 : "09_Vent_SRL" // 8 : "08_Foot_2FR" // 7 : "07_Foot_1FR" // 6 : "06_Vent_SFR" // 5 : "05_Vent_CFR" // 4 : "04_Foot_2FL" // 3 : "03_Foot_1FL" // 2 : "02_Vent_CFL" // 1 : "01_Vent_SFL" // 0 : "00_Def" uint8_t dbg_Info_Act_Index : 6; // Bits= 6 Unit:'Idx' uint16_t dbg_Info_Act_App_Percent_ro; // Bits=10 Factor= 0.1 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Info_Act_App_Percent_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint16_t dbg_Info_Act_with_Limit_Percent_ro; // Bits=10 Factor= 0.1 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Info_Act_with_Limit_Percent_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint16_t dbg_Info_Act_Current_Count; // Bits=12 Unit:'Count' uint16_t dbg_Info_Act_Range_Count; // Bits=12 Unit:'Count' uint16_t dbg_Info_Act_Default_Count; // Bits=12 Unit:'Count' #else // 23 : "23_SealingValve" // 22 : "22_OSA" // 21 : "21_Rec" // 20 : "20_Temp_RR" // 19 : "19_Temp_RL" // 18 : "18_TempL_FR" // 17 : "17_TempU_FR" // 16 : "16_TempL_FL" // 15 : "15_TempU_FL" // 14 : "14_Foot_RR" // 13 : "13_Vent_SRR" // 12 : "12_Vent_CRR" // 11 : "11_Foot_RL" // 10 : "10_Vent_CRL" // 9 : "09_Vent_SRL" // 8 : "08_Foot_2FR" // 7 : "07_Foot_1FR" // 6 : "06_Vent_SFR" // 5 : "05_Vent_CFR" // 4 : "04_Foot_2FL" // 3 : "03_Foot_1FL" // 2 : "02_Vent_CFL" // 1 : "01_Vent_SFL" // 0 : "00_Def" uint8_t dbg_Info_Act_Index; // Bits= 6 Unit:'Idx' uint16_t dbg_Info_Act_App_Percent_ro; // Bits=10 Factor= 0.1 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Info_Act_App_Percent_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint16_t dbg_Info_Act_with_Limit_Percent_ro; // Bits=10 Factor= 0.1 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Info_Act_with_Limit_Percent_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint16_t dbg_Info_Act_Current_Count; // Bits=12 Unit:'Count' uint16_t dbg_Info_Act_Range_Count; // Bits=12 Unit:'Count' uint16_t dbg_Info_Act_Default_Count; // Bits=12 Unit:'Count' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Info_Act1_t; // def @dbg_Info_Act2 CAN Message (1026 0x402) #define dbg_Info_Act2_IDE (0U) #define dbg_Info_Act2_DLC (8U) #define dbg_Info_Act2_CANID (0x402U) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL uint8_t dbg_Info_Act_Msg_Missing_Flag : 1; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Internal_Fail_Flag : 1; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Homing_Err_Flag : 1; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Range_Err_Flag : 1; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Range_Fail_Flag : 1; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Range_Err_Operation : 1; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Range_Err_Check_Cnt; // Bits= 8 Unit:'count' uint16_t dbg_Info_Act_Range_Err_Timer; // Bits=10 Unit:'sec' #else uint8_t dbg_Info_Act_Msg_Missing_Flag; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Internal_Fail_Flag; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Homing_Err_Flag; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Range_Err_Flag; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Range_Fail_Flag; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Range_Err_Operation; // Bits= 1 Unit:'(clear 0, set 1)' uint8_t dbg_Info_Act_Range_Err_Check_Cnt; // Bits= 8 Unit:'count' uint16_t dbg_Info_Act_Range_Err_Timer; // Bits=10 Unit:'sec' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Info_Act2_t; // def @dbg_Sen_Eva CAN Message (1284 0x504) #define dbg_Sen_Eva_IDE (0U) #define dbg_Sen_Eva_DLC (8U) #define dbg_Sen_Eva_CANID (0x504U) // signal: @dbg_Sen_Eva_Target_ro #define CANDB_DBG_dbg_Sen_Eva_Target_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Eva_Target_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Eva_Target_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Eva_Diff_FrontRear_ro #define CANDB_DBG_dbg_Sen_Eva_Diff_FrontRear_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Eva_Diff_FrontRear_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Eva_Diff_FrontRear_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Eva_F_ro #define CANDB_DBG_dbg_Sen_Eva_F_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Eva_F_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Eva_F_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Eva_R_ro #define CANDB_DBG_dbg_Sen_Eva_R_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Eva_R_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Eva_R_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL int16_t dbg_Sen_Eva_Target_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Eva_Target_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Sen_Eva_Diff_FrontRear_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Eva_Diff_FrontRear_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Sen_Eva_F_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Eva_F_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Sen_Eva_R_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Eva_R_phys; #endif // CANDB_DBG_USE_SIGFLOAT #else int16_t dbg_Sen_Eva_Target_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Eva_Target_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Sen_Eva_Diff_FrontRear_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Eva_Diff_FrontRear_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Sen_Eva_F_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Eva_F_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Sen_Eva_R_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Eva_R_phys; #endif // CANDB_DBG_USE_SIGFLOAT #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Sen_Eva_t; // def @dbg_Sen_Duct CAN Message (1285 0x505) #define dbg_Sen_Duct_IDE (0U) #define dbg_Sen_Duct_DLC (8U) #define dbg_Sen_Duct_CANID (0x505U) #define dbg_Sen_Duct_CYC (250U) // Value tables for @dbg_Sen_Duct_MultMsg_Idx signal #ifndef dbg_Sen_Duct_MultMsg_Idx_dbg_Sen_Duct_RR #define dbg_Sen_Duct_MultMsg_Idx_dbg_Sen_Duct_RR (3) #endif #ifndef dbg_Sen_Duct_MultMsg_Idx_dbg_Sen_Duct_RL #define dbg_Sen_Duct_MultMsg_Idx_dbg_Sen_Duct_RL (2) #endif #ifndef dbg_Sen_Duct_MultMsg_Idx_dbg_Sen_Duct_FR #define dbg_Sen_Duct_MultMsg_Idx_dbg_Sen_Duct_FR (1) #endif #ifndef dbg_Sen_Duct_MultMsg_Idx_dbg_Sen_Duct_FL #define dbg_Sen_Duct_MultMsg_Idx_dbg_Sen_Duct_FL (0) #endif // Value tables for @dbg_Sen_Duct_FL_Fb_Select signal #ifndef dbg_Sen_Duct_FL_Fb_Select_dbg_Sen_Duct_Side #define dbg_Sen_Duct_FL_Fb_Select_dbg_Sen_Duct_Side (1) #endif #ifndef dbg_Sen_Duct_FL_Fb_Select_dbg_Sen_Duct_Central #define dbg_Sen_Duct_FL_Fb_Select_dbg_Sen_Duct_Central (0) #endif // Value tables for @dbg_Sen_Duct_RR_Fb_Select signal #ifndef dbg_Sen_Duct_RR_Fb_Select_dbg_Sen_Duct_Side #define dbg_Sen_Duct_RR_Fb_Select_dbg_Sen_Duct_Side (1) #endif #ifndef dbg_Sen_Duct_RR_Fb_Select_dbg_Sen_Duct_Central #define dbg_Sen_Duct_RR_Fb_Select_dbg_Sen_Duct_Central (0) #endif // Value tables for @dbg_Sen_Duct_RL_Fb_Select signal #ifndef dbg_Sen_Duct_RL_Fb_Select_dbg_Sen_Duct_Side #define dbg_Sen_Duct_RL_Fb_Select_dbg_Sen_Duct_Side (1) #endif #ifndef dbg_Sen_Duct_RL_Fb_Select_dbg_Sen_Duct_Central #define dbg_Sen_Duct_RL_Fb_Select_dbg_Sen_Duct_Central (0) #endif // Value tables for @dbg_Sen_Duct_FR_Fb_Select signal #ifndef dbg_Sen_Duct_FR_Fb_Select_dbg_Sen_Duct_Side #define dbg_Sen_Duct_FR_Fb_Select_dbg_Sen_Duct_Side (1) #endif #ifndef dbg_Sen_Duct_FR_Fb_Select_dbg_Sen_Duct_Central #define dbg_Sen_Duct_FR_Fb_Select_dbg_Sen_Duct_Central (0) #endif // signal: @dbg_Sen_Duct_RL_Tgt_ro #define CANDB_DBG_dbg_Sen_Duct_RL_Tgt_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_RL_Tgt_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_RL_Tgt_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_FR_Upper_Tgt_ro #define CANDB_DBG_dbg_Sen_Duct_FR_Upper_Tgt_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_FR_Upper_Tgt_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_FR_Upper_Tgt_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_RR_Tgt_ro #define CANDB_DBG_dbg_Sen_Duct_RR_Tgt_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_RR_Tgt_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_RR_Tgt_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_FL_Upper_Tgt_ro #define CANDB_DBG_dbg_Sen_Duct_FL_Upper_Tgt_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_FL_Upper_Tgt_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_FL_Upper_Tgt_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_RR_Fb_ro #define CANDB_DBG_dbg_Sen_Duct_RR_Fb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_RR_Fb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_RR_Fb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_RL_Fb_ro #define CANDB_DBG_dbg_Sen_Duct_RL_Fb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_RL_Fb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_RL_Fb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_FR_Upper_Fb_ro #define CANDB_DBG_dbg_Sen_Duct_FR_Upper_Fb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_FR_Upper_Fb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_FR_Upper_Fb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_FL_Upper_Fb_ro #define CANDB_DBG_dbg_Sen_Duct_FL_Upper_Fb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_FL_Upper_Fb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_FL_Upper_Fb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_FR_Side_Fb_ro #define CANDB_DBG_dbg_Sen_Duct_FR_Side_Fb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_FR_Side_Fb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_FR_Side_Fb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_FL_Side_Fb_ro #define CANDB_DBG_dbg_Sen_Duct_FL_Side_Fb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_FL_Side_Fb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_FL_Side_Fb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_RL_Side_Fb_ro #define CANDB_DBG_dbg_Sen_Duct_RL_Side_Fb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_RL_Side_Fb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_RL_Side_Fb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_RR_Side_Fb_ro #define CANDB_DBG_dbg_Sen_Duct_RR_Side_Fb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_RR_Side_Fb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_RR_Side_Fb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_FR_Lower_Tgt_ro #define CANDB_DBG_dbg_Sen_Duct_FR_Lower_Tgt_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_FR_Lower_Tgt_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_FR_Lower_Tgt_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_FL_Lower_Tgt_ro #define CANDB_DBG_dbg_Sen_Duct_FL_Lower_Tgt_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_FL_Lower_Tgt_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_FL_Lower_Tgt_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_FR_Lower_Fb_ro #define CANDB_DBG_dbg_Sen_Duct_FR_Lower_Fb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_FR_Lower_Fb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_FR_Lower_Fb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_Duct_FL_Lower_Fb_ro #define CANDB_DBG_dbg_Sen_Duct_FL_Lower_Fb_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_Duct_FL_Lower_Fb_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_Duct_FL_Lower_Fb_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 3 : "RR" // 2 : "RL" // 1 : "FR" // 0 : "FL" // MULTIPLEX master signal uint8_t dbg_Sen_Duct_MultMsg_Idx : 2; // Bits= 2 // 1 : "Side" // 0 : "Central" // multiplex variable uint8_t dbg_Sen_Duct_FL_Fb_Select : 1; // Bits= 1 Unit:'(central 0, side 1)' // 1 : "Side" // 0 : "Central" // multiplex variable uint8_t dbg_Sen_Duct_RR_Fb_Select : 1; // Bits= 1 Unit:'(central 0, side 1)' // 1 : "Side" // 0 : "Central" // multiplex variable uint8_t dbg_Sen_Duct_RL_Fb_Select : 1; // Bits= 1 Unit:'(central 0, side 1)' // 1 : "Side" // 0 : "Central" // multiplex variable uint8_t dbg_Sen_Duct_FR_Fb_Select : 1; // Bits= 1 Unit:'(central 0, side 1)' // multiplex variable int16_t dbg_Sen_Duct_RL_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RL_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FR_Upper_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FR_Upper_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_RR_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RR_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FL_Upper_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FL_Upper_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_RR_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RR_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_RL_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RL_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FR_Upper_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FR_Upper_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FL_Upper_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FL_Upper_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FR_Side_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FR_Side_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FL_Side_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FL_Side_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_RL_Side_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RL_Side_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_RR_Side_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RR_Side_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FR_Lower_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FR_Lower_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FL_Lower_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FL_Lower_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FR_Lower_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FR_Lower_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FL_Lower_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FL_Lower_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT #else // 3 : "RR" // 2 : "RL" // 1 : "FR" // 0 : "FL" // MULTIPLEX master signal uint8_t dbg_Sen_Duct_MultMsg_Idx; // Bits= 2 // 1 : "Side" // 0 : "Central" // multiplex variable uint8_t dbg_Sen_Duct_FL_Fb_Select; // Bits= 1 Unit:'(central 0, side 1)' // 1 : "Side" // 0 : "Central" // multiplex variable uint8_t dbg_Sen_Duct_RR_Fb_Select; // Bits= 1 Unit:'(central 0, side 1)' // 1 : "Side" // 0 : "Central" // multiplex variable uint8_t dbg_Sen_Duct_RL_Fb_Select; // Bits= 1 Unit:'(central 0, side 1)' // 1 : "Side" // 0 : "Central" // multiplex variable uint8_t dbg_Sen_Duct_FR_Fb_Select; // Bits= 1 Unit:'(central 0, side 1)' // multiplex variable int16_t dbg_Sen_Duct_RL_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RL_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FR_Upper_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FR_Upper_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_RR_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RR_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FL_Upper_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FL_Upper_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_RR_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RR_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_RL_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RL_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FR_Upper_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FR_Upper_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FL_Upper_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FL_Upper_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FR_Side_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FR_Side_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FL_Side_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FL_Side_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_RL_Side_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RL_Side_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_RR_Side_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_RR_Side_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FR_Lower_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FR_Lower_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FL_Lower_Tgt_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FL_Lower_Tgt_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FR_Lower_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FR_Lower_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Sen_Duct_FL_Lower_Fb_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_Duct_FL_Lower_Fb_phys; #endif // CANDB_DBG_USE_SIGFLOAT #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Sen_Duct_t; // def @dbg_Sen_Demist CAN Message (1289 0x509) #define dbg_Sen_Demist_IDE (0U) #define dbg_Sen_Demist_DLC (6U) #define dbg_Sen_Demist_CANID (0x509U) // signal: @dbg_Sen_DewPoint_Diff_ro #define CANDB_DBG_dbg_Sen_DewPoint_Diff_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_DewPoint_Diff_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_DewPoint_Diff_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_WindShield_Humidity_ro #define CANDB_DBG_dbg_Sen_WindShield_Humidity_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_WindShield_Humidity_ro_toS(x) ( (uint16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_WindShield_Humidity_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Sen_WindShield_Temp_ro #define CANDB_DBG_dbg_Sen_WindShield_Temp_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Sen_WindShield_Temp_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Sen_WindShield_Temp_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL int16_t dbg_Sen_DewPoint_Diff_ro; // [-] Bits=16 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_DewPoint_Diff_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint16_t dbg_Sen_WindShield_Humidity_ro; // Bits=10 Factor= 0.1 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_WindShield_Humidity_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Sen_WindShield_Temp_ro; // [-] Bits=16 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_WindShield_Temp_phys; #endif // CANDB_DBG_USE_SIGFLOAT #else int16_t dbg_Sen_DewPoint_Diff_ro; // [-] Bits=16 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_DewPoint_Diff_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint16_t dbg_Sen_WindShield_Humidity_ro; // Bits=10 Factor= 0.1 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_WindShield_Humidity_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Sen_WindShield_Temp_ro; // [-] Bits=16 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Sen_WindShield_Temp_phys; #endif // CANDB_DBG_USE_SIGFLOAT #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Sen_Demist_t; // def @dbg_LIN_AirQS_Stat CAN Message (1296 0x510) #define dbg_LIN_AirQS_Stat_IDE (0U) #define dbg_LIN_AirQS_Stat_DLC (3U) #define dbg_LIN_AirQS_Stat_CANID (0x510U) // Value tables for @LIN_AirQS_LinRespErr_Stat signal #ifndef LIN_AirQS_LinRespErr_Stat_dbg_LIN_AirQS_Stat_Error #define LIN_AirQS_LinRespErr_Stat_dbg_LIN_AirQS_Stat_Error (1) #endif #ifndef LIN_AirQS_LinRespErr_Stat_dbg_LIN_AirQS_Stat_No_Error #define LIN_AirQS_LinRespErr_Stat_dbg_LIN_AirQS_Stat_No_Error (0) #endif // Value tables for @LIN_AirQualSen_Stat signal #ifndef LIN_AirQualSen_Stat_dbg_LIN_AirQS_Stat_Sensor_is_off_standby_mode #define LIN_AirQualSen_Stat_dbg_LIN_AirQS_Stat_Sensor_is_off_standby_mode (2) #endif #ifndef LIN_AirQualSen_Stat_dbg_LIN_AirQS_Stat_Sensor_is_on_active_mode #define LIN_AirQualSen_Stat_dbg_LIN_AirQS_Stat_Sensor_is_on_active_mode (1) #endif #ifndef LIN_AirQualSen_Stat_dbg_LIN_AirQS_Stat_Initializing #define LIN_AirQualSen_Stat_dbg_LIN_AirQS_Stat_Initializing (0) #endif // Value tables for @LIN_AirQualSenCombined_Val signal #ifndef LIN_AirQualSenCombined_Val_dbg_LIN_AirQS_Stat_Low_air_quality_ #define LIN_AirQualSenCombined_Val_dbg_LIN_AirQS_Stat_Low_air_quality_ (3) #endif #ifndef LIN_AirQualSenCombined_Val_dbg_LIN_AirQS_Stat_Medium_air_quality #define LIN_AirQualSenCombined_Val_dbg_LIN_AirQS_Stat_Medium_air_quality (2) #endif #ifndef LIN_AirQualSenCombined_Val_dbg_LIN_AirQS_Stat_Hight_air_quality #define LIN_AirQualSenCombined_Val_dbg_LIN_AirQS_Stat_Hight_air_quality (1) #endif #ifndef LIN_AirQualSenCombined_Val_dbg_LIN_AirQS_Stat_No_Clean_air #define LIN_AirQualSenCombined_Val_dbg_LIN_AirQS_Stat_No_Clean_air (0) #endif // Value tables for @LIN_AirQualSen_Error_Stat signal #ifndef LIN_AirQualSen_Error_Stat_dbg_LIN_AirQS_Stat_Component_malfunction #define LIN_AirQualSen_Error_Stat_dbg_LIN_AirQS_Stat_Component_malfunction (3) #endif #ifndef LIN_AirQualSen_Error_Stat_dbg_LIN_AirQS_Stat_Supply_chain_short #define LIN_AirQualSen_Error_Stat_dbg_LIN_AirQS_Stat_Supply_chain_short (2) #endif #ifndef LIN_AirQualSen_Error_Stat_dbg_LIN_AirQS_Stat_Supply_chain_break #define LIN_AirQualSen_Error_Stat_dbg_LIN_AirQS_Stat_Supply_chain_break (1) #endif #ifndef LIN_AirQualSen_Error_Stat_dbg_LIN_AirQS_Stat_No_error #define LIN_AirQualSen_Error_Stat_dbg_LIN_AirQS_Stat_No_error (0) #endif // Value tables for @LIN_AirQualSenCOlvl_Val signal #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_10_100_pollunion_ #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_10_100_pollunion_ (10) #endif #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_9_90_pollunion_ #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_9_90_pollunion_ (9) #endif #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_8_80_pollunion_ #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_8_80_pollunion_ (8) #endif #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_7_70_pollunion_ #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_7_70_pollunion_ (7) #endif #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_6_60_pollunion_ #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_6_60_pollunion_ (6) #endif #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_5_50_pollunion #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_5_50_pollunion (5) #endif #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_4_40_pollunion_ #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_4_40_pollunion_ (4) #endif #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_3_30_pollunion #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_3_30_pollunion (3) #endif #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_2_20_pollunion #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_2_20_pollunion (2) #endif #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_1_10_pollunion_ #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_1_10_pollunion_ (1) #endif #ifndef LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_0_clean_air #define LIN_AirQualSenCOlvl_Val_dbg_LIN_AirQS_Stat_Level_0_clean_air (0) #endif // Value tables for @LIN_AirQualSenNOxlvl_Val signal #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_10_100_pollunion_ #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_10_100_pollunion_ (10) #endif #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_9_90_pollunion_ #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_9_90_pollunion_ (9) #endif #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_8_80_pollunion_ #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_8_80_pollunion_ (8) #endif #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_7_70_pollunion_ #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_7_70_pollunion_ (7) #endif #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_6_60_pollunion_ #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_6_60_pollunion_ (6) #endif #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_5_50_pollunion #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_5_50_pollunion (5) #endif #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_4_40_pollunion_ #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_4_40_pollunion_ (4) #endif #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_3_30_pollunion #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_3_30_pollunion (3) #endif #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_2_20_pollunion #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_2_20_pollunion (2) #endif #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_1_10_pollunion_ #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_1_10_pollunion_ (1) #endif #ifndef LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_0_clean_air #define LIN_AirQualSenNOxlvl_Val_dbg_LIN_AirQS_Stat_Level_0_clean_air (0) #endif // Value tables for @LIN_AirQualSenNH3lvl_Val signal #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_10_100_pollunion_ #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_10_100_pollunion_ (10) #endif #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_9_90_pollunion_ #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_9_90_pollunion_ (9) #endif #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_8_80_pollunion_ #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_8_80_pollunion_ (8) #endif #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_7_70_pollunion_ #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_7_70_pollunion_ (7) #endif #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_6_60_pollunion_ #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_6_60_pollunion_ (6) #endif #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_5_50_pollunion #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_5_50_pollunion (5) #endif #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_4_40_pollunion_ #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_4_40_pollunion_ (4) #endif #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_3_30_pollunion #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_3_30_pollunion (3) #endif #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_2_20_pollunion #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_2_20_pollunion (2) #endif #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_1_10_pollunion_ #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_1_10_pollunion_ (1) #endif #ifndef LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_0_clean_air #define LIN_AirQualSenNH3lvl_Val_dbg_LIN_AirQS_Stat_Level_0_clean_air (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 1 : "Error" // 0 : "No_Error" uint8_t LIN_AirQS_LinRespErr_Stat : 1; // Bits= 1 // 2 : "Sensor is off (standby mode)" // 1 : "Sensor is on (active mode)" // 0 : "Initializing" uint8_t LIN_AirQualSen_Stat : 2; // Bits= 2 // 3 : "Low air quality " // 2 : "Medium air quality" // 1 : "Hight air quality" // 0 : "No (Clean air)" uint8_t LIN_AirQualSenCombined_Val : 2; // Bits= 2 // 3 : "Component malfunction" // 2 : "Supply chain short" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_AirQualSen_Error_Stat : 2; // Bits= 2 // 10 : "Level 10 (100% pollunion) " // 9 : "Level 9 (90% pollunion) " // 8 : "Level 8 (80% pollunion) " // 7 : "Level 7 (70% pollunion) " // 6 : "Level 6 (60% pollunion) " // 5 : "Level 5 (50% pollunion)" // 4 : "Level 4 (40% pollunion) " // 3 : "Level 3 (30% pollunion)" // 2 : "Level 2 (20% pollunion)" // 1 : "Level 1 (10% pollunion) " // 0 : "Level 0 (clean air)" uint8_t LIN_AirQualSenCOlvl_Val : 4; // Bits= 4 // 10 : "Level 10 (100% pollunion) " // 9 : "Level 9 (90% pollunion) " // 8 : "Level 8 (80% pollunion) " // 7 : "Level 7 (70% pollunion) " // 6 : "Level 6 (60% pollunion) " // 5 : "Level 5 (50% pollunion)" // 4 : "Level 4 (40% pollunion) " // 3 : "Level 3 (30% pollunion)" // 2 : "Level 2 (20% pollunion)" // 1 : "Level 1 (10% pollunion) " // 0 : "Level 0 (clean air)" uint8_t LIN_AirQualSenNOxlvl_Val : 4; // Bits= 4 // 10 : "Level 10 (100% pollunion) " // 9 : "Level 9 (90% pollunion) " // 8 : "Level 8 (80% pollunion) " // 7 : "Level 7 (70% pollunion) " // 6 : "Level 6 (60% pollunion) " // 5 : "Level 5 (50% pollunion)" // 4 : "Level 4 (40% pollunion) " // 3 : "Level 3 (30% pollunion)" // 2 : "Level 2 (20% pollunion)" // 1 : "Level 1 (10% pollunion) " // 0 : "Level 0 (clean air)" uint8_t LIN_AirQualSenNH3lvl_Val : 4; // Bits= 4 #else // 1 : "Error" // 0 : "No_Error" uint8_t LIN_AirQS_LinRespErr_Stat; // Bits= 1 // 2 : "Sensor is off (standby mode)" // 1 : "Sensor is on (active mode)" // 0 : "Initializing" uint8_t LIN_AirQualSen_Stat; // Bits= 2 // 3 : "Low air quality " // 2 : "Medium air quality" // 1 : "Hight air quality" // 0 : "No (Clean air)" uint8_t LIN_AirQualSenCombined_Val; // Bits= 2 // 3 : "Component malfunction" // 2 : "Supply chain short" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_AirQualSen_Error_Stat; // Bits= 2 // 10 : "Level 10 (100% pollunion) " // 9 : "Level 9 (90% pollunion) " // 8 : "Level 8 (80% pollunion) " // 7 : "Level 7 (70% pollunion) " // 6 : "Level 6 (60% pollunion) " // 5 : "Level 5 (50% pollunion)" // 4 : "Level 4 (40% pollunion) " // 3 : "Level 3 (30% pollunion)" // 2 : "Level 2 (20% pollunion)" // 1 : "Level 1 (10% pollunion) " // 0 : "Level 0 (clean air)" uint8_t LIN_AirQualSenCOlvl_Val; // Bits= 4 // 10 : "Level 10 (100% pollunion) " // 9 : "Level 9 (90% pollunion) " // 8 : "Level 8 (80% pollunion) " // 7 : "Level 7 (70% pollunion) " // 6 : "Level 6 (60% pollunion) " // 5 : "Level 5 (50% pollunion)" // 4 : "Level 4 (40% pollunion) " // 3 : "Level 3 (30% pollunion)" // 2 : "Level 2 (20% pollunion)" // 1 : "Level 1 (10% pollunion) " // 0 : "Level 0 (clean air)" uint8_t LIN_AirQualSenNOxlvl_Val; // Bits= 4 // 10 : "Level 10 (100% pollunion) " // 9 : "Level 9 (90% pollunion) " // 8 : "Level 8 (80% pollunion) " // 7 : "Level 7 (70% pollunion) " // 6 : "Level 6 (60% pollunion) " // 5 : "Level 5 (50% pollunion)" // 4 : "Level 4 (40% pollunion) " // 3 : "Level 3 (30% pollunion)" // 2 : "Level 2 (20% pollunion)" // 1 : "Level 1 (10% pollunion) " // 0 : "Level 0 (clean air)" uint8_t LIN_AirQualSenNH3lvl_Val; // Bits= 4 #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_LIN_AirQS_Stat_t; // def @dbg_LIN_Aroma_Stat CAN Message (1297 0x511) #define dbg_LIN_Aroma_Stat_IDE (0U) #define dbg_LIN_Aroma_Stat_DLC (5U) #define dbg_LIN_Aroma_Stat_CANID (0x511U) // Value tables for @LIN_AromaLinRespErr_Stat signal #ifndef LIN_AromaLinRespErr_Stat_dbg_LIN_Aroma_Stat_Error #define LIN_AromaLinRespErr_Stat_dbg_LIN_Aroma_Stat_Error (1) #endif #ifndef LIN_AromaLinRespErr_Stat_dbg_LIN_Aroma_Stat_No_Error #define LIN_AromaLinRespErr_Stat_dbg_LIN_Aroma_Stat_No_Error (0) #endif // Value tables for @LIN_Aroma_1CartridgeSw signal #ifndef LIN_Aroma_1CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_removed #define LIN_Aroma_1CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_removed (1) #endif #ifndef LIN_Aroma_1CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_installed #define LIN_Aroma_1CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_installed (0) #endif // Value tables for @LIN_Aroma_2CartridgeSw signal #ifndef LIN_Aroma_2CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_removed #define LIN_Aroma_2CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_removed (1) #endif #ifndef LIN_Aroma_2CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_installed #define LIN_Aroma_2CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_installed (0) #endif // Value tables for @LIN_Aroma_3CartridgeSw signal #ifndef LIN_Aroma_3CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_removed #define LIN_Aroma_3CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_removed (1) #endif #ifndef LIN_Aroma_3CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_installed #define LIN_Aroma_3CartridgeSw_dbg_LIN_Aroma_Stat_Cartridge_installed (0) #endif // Value tables for @LIN_Aroma_Error_Stat signal #ifndef LIN_Aroma_Error_Stat_dbg_LIN_Aroma_Stat_Aroma_malfunction #define LIN_Aroma_Error_Stat_dbg_LIN_Aroma_Stat_Aroma_malfunction (3) #endif #ifndef LIN_Aroma_Error_Stat_dbg_LIN_Aroma_Stat_Supply_chain_short_circuit #define LIN_Aroma_Error_Stat_dbg_LIN_Aroma_Stat_Supply_chain_short_circuit (2) #endif #ifndef LIN_Aroma_Error_Stat_dbg_LIN_Aroma_Stat_Supply_chain_break #define LIN_Aroma_Error_Stat_dbg_LIN_Aroma_Stat_Supply_chain_break (1) #endif #ifndef LIN_Aroma_Error_Stat_dbg_LIN_Aroma_Stat_No_error #define LIN_Aroma_Error_Stat_dbg_LIN_Aroma_Stat_No_error (0) #endif // Value tables for @LIN_Aroma_Intens signal #ifndef LIN_Aroma_Intens_dbg_LIN_Aroma_Stat_Aroma_malfunction #define LIN_Aroma_Intens_dbg_LIN_Aroma_Stat_Aroma_malfunction (3) #endif #ifndef LIN_Aroma_Intens_dbg_LIN_Aroma_Stat_Aromatization_mode_2_step #define LIN_Aroma_Intens_dbg_LIN_Aroma_Stat_Aromatization_mode_2_step (2) #endif #ifndef LIN_Aroma_Intens_dbg_LIN_Aroma_Stat_Aromatization_mode_1_step #define LIN_Aroma_Intens_dbg_LIN_Aroma_Stat_Aromatization_mode_1_step (1) #endif #ifndef LIN_Aroma_Intens_dbg_LIN_Aroma_Stat_Aromatization_off #define LIN_Aroma_Intens_dbg_LIN_Aroma_Stat_Aromatization_off (0) #endif // Value tables for @LIN_Aroma_CartridgeSel signal #ifndef LIN_Aroma_CartridgeSel_dbg_LIN_Aroma_Stat_Third_cartridge_selected #define LIN_Aroma_CartridgeSel_dbg_LIN_Aroma_Stat_Third_cartridge_selected (3) #endif #ifndef LIN_Aroma_CartridgeSel_dbg_LIN_Aroma_Stat_Second_cartridge_selected #define LIN_Aroma_CartridgeSel_dbg_LIN_Aroma_Stat_Second_cartridge_selected (2) #endif #ifndef LIN_Aroma_CartridgeSel_dbg_LIN_Aroma_Stat_First_cartridge_selected #define LIN_Aroma_CartridgeSel_dbg_LIN_Aroma_Stat_First_cartridge_selected (1) #endif #ifndef LIN_Aroma_CartridgeSel_dbg_LIN_Aroma_Stat_No_cartridge_selected #define LIN_Aroma_CartridgeSel_dbg_LIN_Aroma_Stat_No_cartridge_selected (0) #endif // Value tables for @LIN_Aroma_1CartridgeFlavor signal #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_16 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_16 (15) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_15 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_15 (14) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_14 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_14 (13) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_13 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_13 (12) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_12 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_12 (11) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_11 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_11 (10) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_10 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_10 (9) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_9 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_9 (8) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_8 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_8 (7) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_7 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_7 (6) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_6 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_6 (5) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_5 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_5 (4) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_4 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_4 (3) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_3 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_3 (2) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_2 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_2 (1) #endif #ifndef LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_1 #define LIN_Aroma_1CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_1 (0) #endif // Value tables for @LIN_Aroma_2CartridgeFlavor signal #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_16 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_16 (15) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_15 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_15 (14) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_14 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_14 (13) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_13 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_13 (12) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_12 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_12 (11) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_11 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_11 (10) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_10 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_10 (9) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_9 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_9 (8) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_8 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_8 (7) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_7 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_7 (6) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_6 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_6 (5) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_5 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_5 (4) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_4 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_4 (3) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_3 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_3 (2) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_2 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_2 (1) #endif #ifndef LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_1 #define LIN_Aroma_2CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_1 (0) #endif // Value tables for @LIN_Aroma_3CartridgeFlavor signal #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_16 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_16 (15) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_15 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_15 (14) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_14 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_14 (13) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_13 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_13 (12) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_12 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_12 (11) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_11 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_11 (10) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_10 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_10 (9) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_9 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_9 (8) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_8 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_8 (7) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_7 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_7 (6) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_6 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_6 (5) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_5 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_5 (4) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_4 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_4 (3) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_3 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_3 (2) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_2 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_2 (1) #endif #ifndef LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_1 #define LIN_Aroma_3CartridgeFlavor_dbg_LIN_Aroma_Stat_Flavor_1 (0) #endif // signal: @LIN_Aroma_1CartridgeCapacity_ro #define CANDB_DBG_LIN_Aroma_1CartridgeCapacity_ro_CovFactor (10) #define CANDB_DBG_LIN_Aroma_1CartridgeCapacity_ro_toS(x) ( (uint8_t) ((x) / (10)) ) #define CANDB_DBG_LIN_Aroma_1CartridgeCapacity_ro_fromS(x) ( ((x) * (10)) ) // signal: @LIN_Aroma_2CartridgeCapacity_ro #define CANDB_DBG_LIN_Aroma_2CartridgeCapacity_ro_CovFactor (10) #define CANDB_DBG_LIN_Aroma_2CartridgeCapacity_ro_toS(x) ( (uint8_t) ((x) / (10)) ) #define CANDB_DBG_LIN_Aroma_2CartridgeCapacity_ro_fromS(x) ( ((x) * (10)) ) // signal: @LIN_Aroma_3CartridgeCapacity_ro #define CANDB_DBG_LIN_Aroma_3CartridgeCapacity_ro_CovFactor (10) #define CANDB_DBG_LIN_Aroma_3CartridgeCapacity_ro_toS(x) ( (uint8_t) ((x) / (10)) ) #define CANDB_DBG_LIN_Aroma_3CartridgeCapacity_ro_fromS(x) ( ((x) * (10)) ) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 1 : "Error" // 0 : "No_Error" uint8_t LIN_AromaLinRespErr_Stat : 1; // Bits= 1 // 1 : "Cartridge removed" // 0 : "Cartridge installed" uint8_t LIN_Aroma_1CartridgeSw : 1; // Bits= 1 // 1 : "Cartridge removed" // 0 : "Cartridge installed" uint8_t LIN_Aroma_2CartridgeSw : 1; // Bits= 1 // 1 : "Cartridge removed" // 0 : "Cartridge installed" uint8_t LIN_Aroma_3CartridgeSw : 1; // Bits= 1 // 3 : "Aroma malfunction" // 2 : "Supply chain short circuit" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_Aroma_Error_Stat : 2; // Bits= 2 // 3 : "Aroma malfunction" // 2 : "Aromatization mode 2 step" // 1 : "Aromatization mode 1 step" // 0 : "Aromatization off" uint8_t LIN_Aroma_Intens : 2; // Bits= 2 // 3 : "Third cartridge selected" // 2 : "Second cartridge selected" // 1 : "First cartridge selected" // 0 : "No cartridge selected" uint8_t LIN_Aroma_CartridgeSel : 2; // Bits= 2 // 15 : "Flavor 16" // 14 : "Flavor 15" // 13 : "Flavor 14" // 12 : "Flavor 13" // 11 : "Flavor 12" // 10 : "Flavor 11" // 9 : "Flavor 10" // 8 : "Flavor 9" // 7 : "Flavor 8" // 6 : "Flavor 7" // 5 : "Flavor 6" // 4 : "Flavor 5" // 3 : "Flavor 4" // 2 : "Flavor 3" // 1 : "Flavor 2" // 0 : "Flavor 1" uint8_t LIN_Aroma_1CartridgeFlavor : 4; // Bits= 4 // 15 : "Flavor 16" // 14 : "Flavor 15" // 13 : "Flavor 14" // 12 : "Flavor 13" // 11 : "Flavor 12" // 10 : "Flavor 11" // 9 : "Flavor 10" // 8 : "Flavor 9" // 7 : "Flavor 8" // 6 : "Flavor 7" // 5 : "Flavor 6" // 4 : "Flavor 5" // 3 : "Flavor 4" // 2 : "Flavor 3" // 1 : "Flavor 2" // 0 : "Flavor 1" uint8_t LIN_Aroma_2CartridgeFlavor : 4; // Bits= 4 // 15 : "Flavor 16" // 14 : "Flavor 15" // 13 : "Flavor 14" // 12 : "Flavor 13" // 11 : "Flavor 12" // 10 : "Flavor 11" // 9 : "Flavor 10" // 8 : "Flavor 9" // 7 : "Flavor 8" // 6 : "Flavor 7" // 5 : "Flavor 6" // 4 : "Flavor 5" // 3 : "Flavor 4" // 2 : "Flavor 3" // 1 : "Flavor 2" // 0 : "Flavor 1" uint8_t LIN_Aroma_3CartridgeFlavor : 4; // Bits= 4 uint8_t LIN_Aroma_1CartridgeCapacity_ro : 4; // Bits= 4 Factor= 10 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT uint8_t LIN_Aroma_1CartridgeCapacity_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t LIN_Aroma_2CartridgeCapacity_ro : 4; // Bits= 4 Factor= 10 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT uint8_t LIN_Aroma_2CartridgeCapacity_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t LIN_Aroma_3CartridgeCapacity_ro : 4; // Bits= 4 Factor= 10 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT uint8_t LIN_Aroma_3CartridgeCapacity_phys; #endif // CANDB_DBG_USE_SIGFLOAT #else // 1 : "Error" // 0 : "No_Error" uint8_t LIN_AromaLinRespErr_Stat; // Bits= 1 // 1 : "Cartridge removed" // 0 : "Cartridge installed" uint8_t LIN_Aroma_1CartridgeSw; // Bits= 1 // 1 : "Cartridge removed" // 0 : "Cartridge installed" uint8_t LIN_Aroma_2CartridgeSw; // Bits= 1 // 1 : "Cartridge removed" // 0 : "Cartridge installed" uint8_t LIN_Aroma_3CartridgeSw; // Bits= 1 // 3 : "Aroma malfunction" // 2 : "Supply chain short circuit" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_Aroma_Error_Stat; // Bits= 2 // 3 : "Aroma malfunction" // 2 : "Aromatization mode 2 step" // 1 : "Aromatization mode 1 step" // 0 : "Aromatization off" uint8_t LIN_Aroma_Intens; // Bits= 2 // 3 : "Third cartridge selected" // 2 : "Second cartridge selected" // 1 : "First cartridge selected" // 0 : "No cartridge selected" uint8_t LIN_Aroma_CartridgeSel; // Bits= 2 // 15 : "Flavor 16" // 14 : "Flavor 15" // 13 : "Flavor 14" // 12 : "Flavor 13" // 11 : "Flavor 12" // 10 : "Flavor 11" // 9 : "Flavor 10" // 8 : "Flavor 9" // 7 : "Flavor 8" // 6 : "Flavor 7" // 5 : "Flavor 6" // 4 : "Flavor 5" // 3 : "Flavor 4" // 2 : "Flavor 3" // 1 : "Flavor 2" // 0 : "Flavor 1" uint8_t LIN_Aroma_1CartridgeFlavor; // Bits= 4 // 15 : "Flavor 16" // 14 : "Flavor 15" // 13 : "Flavor 14" // 12 : "Flavor 13" // 11 : "Flavor 12" // 10 : "Flavor 11" // 9 : "Flavor 10" // 8 : "Flavor 9" // 7 : "Flavor 8" // 6 : "Flavor 7" // 5 : "Flavor 6" // 4 : "Flavor 5" // 3 : "Flavor 4" // 2 : "Flavor 3" // 1 : "Flavor 2" // 0 : "Flavor 1" uint8_t LIN_Aroma_2CartridgeFlavor; // Bits= 4 // 15 : "Flavor 16" // 14 : "Flavor 15" // 13 : "Flavor 14" // 12 : "Flavor 13" // 11 : "Flavor 12" // 10 : "Flavor 11" // 9 : "Flavor 10" // 8 : "Flavor 9" // 7 : "Flavor 8" // 6 : "Flavor 7" // 5 : "Flavor 6" // 4 : "Flavor 5" // 3 : "Flavor 4" // 2 : "Flavor 3" // 1 : "Flavor 2" // 0 : "Flavor 1" uint8_t LIN_Aroma_3CartridgeFlavor; // Bits= 4 uint8_t LIN_Aroma_1CartridgeCapacity_ro; // Bits= 4 Factor= 10 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT uint8_t LIN_Aroma_1CartridgeCapacity_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t LIN_Aroma_2CartridgeCapacity_ro; // Bits= 4 Factor= 10 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT uint8_t LIN_Aroma_2CartridgeCapacity_phys; #endif // CANDB_DBG_USE_SIGFLOAT uint8_t LIN_Aroma_3CartridgeCapacity_ro; // Bits= 4 Factor= 10 Unit:'%' #ifdef CANDB_DBG_USE_SIGFLOAT uint8_t LIN_Aroma_3CartridgeCapacity_phys; #endif // CANDB_DBG_USE_SIGFLOAT #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_LIN_Aroma_Stat_t; // def @dbg_LIN_Ionizer_Stat CAN Message (1299 0x513) #define dbg_LIN_Ionizer_Stat_IDE (0U) #define dbg_LIN_Ionizer_Stat_DLC (2U) #define dbg_LIN_Ionizer_Stat_CANID (0x513U) // Value tables for @LIN_Ionizer_Err_Stat signal #ifndef LIN_Ionizer_Err_Stat_dbg_LIN_Ionizer_Stat_Component_malfunction #define LIN_Ionizer_Err_Stat_dbg_LIN_Ionizer_Stat_Component_malfunction (3) #endif #ifndef LIN_Ionizer_Err_Stat_dbg_LIN_Ionizer_Stat_Supply_chain_short #define LIN_Ionizer_Err_Stat_dbg_LIN_Ionizer_Stat_Supply_chain_short (2) #endif #ifndef LIN_Ionizer_Err_Stat_dbg_LIN_Ionizer_Stat_Supply_chain_break #define LIN_Ionizer_Err_Stat_dbg_LIN_Ionizer_Stat_Supply_chain_break (1) #endif #ifndef LIN_Ionizer_Err_Stat_dbg_LIN_Ionizer_Stat_No_error #define LIN_Ionizer_Err_Stat_dbg_LIN_Ionizer_Stat_No_error (0) #endif // Value tables for @LIN_Ionizer_LinRespErr signal #ifndef LIN_Ionizer_LinRespErr_dbg_LIN_Ionizer_Stat_Error #define LIN_Ionizer_LinRespErr_dbg_LIN_Ionizer_Stat_Error (1) #endif #ifndef LIN_Ionizer_LinRespErr_dbg_LIN_Ionizer_Stat_No_Error #define LIN_Ionizer_LinRespErr_dbg_LIN_Ionizer_Stat_No_Error (0) #endif // Value tables for @LIN_Ionizer_Ionization signal #ifndef LIN_Ionizer_Ionization_dbg_LIN_Ionizer_Stat_Ionization_is_off_standby_mode #define LIN_Ionizer_Ionization_dbg_LIN_Ionizer_Stat_Ionization_is_off_standby_mode (2) #endif #ifndef LIN_Ionizer_Ionization_dbg_LIN_Ionizer_Stat_Ionization_is_on_active_mode #define LIN_Ionizer_Ionization_dbg_LIN_Ionizer_Stat_Ionization_is_on_active_mode (1) #endif #ifndef LIN_Ionizer_Ionization_dbg_LIN_Ionizer_Stat_Initializing #define LIN_Ionizer_Ionization_dbg_LIN_Ionizer_Stat_Initializing (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 3 : "Component malfunction" // 2 : "Supply chain short" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_Ionizer_Err_Stat : 2; // Bits= 2 // 1 : "Error" // 0 : "No_Error" uint8_t LIN_Ionizer_LinRespErr : 1; // Bits= 1 // 2 : "Ionization is off (standby mode)" // 1 : "Ionization is on (active mode)" // 0 : "Initializing" uint8_t LIN_Ionizer_Ionization : 2; // Bits= 2 #else // 3 : "Component malfunction" // 2 : "Supply chain short" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_Ionizer_Err_Stat; // Bits= 2 // 1 : "Error" // 0 : "No_Error" uint8_t LIN_Ionizer_LinRespErr; // Bits= 1 // 2 : "Ionization is off (standby mode)" // 1 : "Ionization is on (active mode)" // 0 : "Initializing" uint8_t LIN_Ionizer_Ionization; // Bits= 2 #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_LIN_Ionizer_Stat_t; // def @dbg_LIN_eTXV_Stat CAN Message (1300 0x514) #define dbg_LIN_eTXV_Stat_IDE (0U) #define dbg_LIN_eTXV_Stat_DLC (8U) #define dbg_LIN_eTXV_Stat_CANID (0x514U) // Value tables for @LIN_eTXV1_LinRespErr_Stat signal #ifndef LIN_eTXV1_LinRespErr_Stat_dbg_LIN_eTXV_Stat_Error #define LIN_eTXV1_LinRespErr_Stat_dbg_LIN_eTXV_Stat_Error (1) #endif #ifndef LIN_eTXV1_LinRespErr_Stat_dbg_LIN_eTXV_Stat_No_error #define LIN_eTXV1_LinRespErr_Stat_dbg_LIN_eTXV_Stat_No_error (0) #endif // Value tables for @LIN_eTXVee1_Err_Stat signal #ifndef LIN_eTXVee1_Err_Stat_dbg_LIN_eTXV_Stat_Component_malfunction #define LIN_eTXVee1_Err_Stat_dbg_LIN_eTXV_Stat_Component_malfunction (3) #endif #ifndef LIN_eTXVee1_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_short_circuit #define LIN_eTXVee1_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_short_circuit (2) #endif #ifndef LIN_eTXVee1_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_break #define LIN_eTXVee1_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_break (1) #endif #ifndef LIN_eTXVee1_Err_Stat_dbg_LIN_eTXV_Stat_No_error #define LIN_eTXVee1_Err_Stat_dbg_LIN_eTXV_Stat_No_error (0) #endif // Value tables for @LIN_eTXV2_LinRespErr_Stat signal #ifndef LIN_eTXV2_LinRespErr_Stat_dbg_LIN_eTXV_Stat_Error #define LIN_eTXV2_LinRespErr_Stat_dbg_LIN_eTXV_Stat_Error (1) #endif #ifndef LIN_eTXV2_LinRespErr_Stat_dbg_LIN_eTXV_Stat_No_error #define LIN_eTXV2_LinRespErr_Stat_dbg_LIN_eTXV_Stat_No_error (0) #endif // Value tables for @LIN_eTXVee2_Err_Stat signal #ifndef LIN_eTXVee2_Err_Stat_dbg_LIN_eTXV_Stat_Component_malfunction #define LIN_eTXVee2_Err_Stat_dbg_LIN_eTXV_Stat_Component_malfunction (3) #endif #ifndef LIN_eTXVee2_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_short_circuit #define LIN_eTXVee2_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_short_circuit (2) #endif #ifndef LIN_eTXVee2_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_break #define LIN_eTXVee2_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_break (1) #endif #ifndef LIN_eTXVee2_Err_Stat_dbg_LIN_eTXV_Stat_No_error #define LIN_eTXVee2_Err_Stat_dbg_LIN_eTXV_Stat_No_error (0) #endif // Value tables for @LIN_eTXV3_LinRespErr_Stat signal #ifndef LIN_eTXV3_LinRespErr_Stat_dbg_LIN_eTXV_Stat_Error #define LIN_eTXV3_LinRespErr_Stat_dbg_LIN_eTXV_Stat_Error (1) #endif #ifndef LIN_eTXV3_LinRespErr_Stat_dbg_LIN_eTXV_Stat_No_error #define LIN_eTXV3_LinRespErr_Stat_dbg_LIN_eTXV_Stat_No_error (0) #endif // Value tables for @LIN_eTXVeeChiller1_Err_Stat signal #ifndef LIN_eTXVeeChiller1_Err_Stat_dbg_LIN_eTXV_Stat_Component_malfunction #define LIN_eTXVeeChiller1_Err_Stat_dbg_LIN_eTXV_Stat_Component_malfunction (3) #endif #ifndef LIN_eTXVeeChiller1_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_short_circuit #define LIN_eTXVeeChiller1_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_short_circuit (2) #endif #ifndef LIN_eTXVeeChiller1_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_break #define LIN_eTXVeeChiller1_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_break (1) #endif #ifndef LIN_eTXVeeChiller1_Err_Stat_dbg_LIN_eTXV_Stat_No_error #define LIN_eTXVeeChiller1_Err_Stat_dbg_LIN_eTXV_Stat_No_error (0) #endif // Value tables for @LIN_eTXV4_LinRespErr_Stat signal #ifndef LIN_eTXV4_LinRespErr_Stat_dbg_LIN_eTXV_Stat_Error #define LIN_eTXV4_LinRespErr_Stat_dbg_LIN_eTXV_Stat_Error (1) #endif #ifndef LIN_eTXV4_LinRespErr_Stat_dbg_LIN_eTXV_Stat_No_error #define LIN_eTXV4_LinRespErr_Stat_dbg_LIN_eTXV_Stat_No_error (0) #endif // Value tables for @LIN_eTXVeeChiller2_Err_Stat signal #ifndef LIN_eTXVeeChiller2_Err_Stat_dbg_LIN_eTXV_Stat_Component_malfunction #define LIN_eTXVeeChiller2_Err_Stat_dbg_LIN_eTXV_Stat_Component_malfunction (3) #endif #ifndef LIN_eTXVeeChiller2_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_short_circuit #define LIN_eTXVeeChiller2_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_short_circuit (2) #endif #ifndef LIN_eTXVeeChiller2_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_break #define LIN_eTXVeeChiller2_Err_Stat_dbg_LIN_eTXV_Stat_Supply_chain_break (1) #endif #ifndef LIN_eTXVeeChiller2_Err_Stat_dbg_LIN_eTXV_Stat_No_error #define LIN_eTXVeeChiller2_Err_Stat_dbg_LIN_eTXV_Stat_No_error (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL uint8_t LIN_eTXVee1_Pos_Stat : 7; // Bits= 7 Unit:'%' // 1 : "Error" // 0 : "No error" uint8_t LIN_eTXV1_LinRespErr_Stat : 1; // Bits= 1 // 3 : "Component malfunction" // 2 : "Supply chain short circuit" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_eTXVee1_Err_Stat : 2; // Bits= 2 uint8_t LIN_eTXVee2_Pos_Stat : 7; // Bits= 7 Unit:'%' // 1 : "Error" // 0 : "No error" uint8_t LIN_eTXV2_LinRespErr_Stat : 1; // Bits= 1 // 3 : "Component malfunction" // 2 : "Supply chain short circuit" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_eTXVee2_Err_Stat : 2; // Bits= 2 uint8_t LIN_eTXVeeChiller1_Pos_Stat : 7; // Bits= 7 Unit:'%' // 1 : "Error" // 0 : "No error" uint8_t LIN_eTXV3_LinRespErr_Stat : 1; // Bits= 1 // 3 : "Component malfunction" // 2 : "Supply chain short circuit" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_eTXVeeChiller1_Err_Stat : 2; // Bits= 2 uint8_t LIN_eTXVeeChiller2_Pos_Stat : 7; // Bits= 7 Unit:'%' // 1 : "Error" // 0 : "No error" uint8_t LIN_eTXV4_LinRespErr_Stat : 1; // Bits= 1 // 3 : "Component malfunction" // 2 : "Supply chain short circuit" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_eTXVeeChiller2_Err_Stat : 2; // Bits= 2 #else uint8_t LIN_eTXVee1_Pos_Stat; // Bits= 7 Unit:'%' // 1 : "Error" // 0 : "No error" uint8_t LIN_eTXV1_LinRespErr_Stat; // Bits= 1 // 3 : "Component malfunction" // 2 : "Supply chain short circuit" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_eTXVee1_Err_Stat; // Bits= 2 uint8_t LIN_eTXVee2_Pos_Stat; // Bits= 7 Unit:'%' // 1 : "Error" // 0 : "No error" uint8_t LIN_eTXV2_LinRespErr_Stat; // Bits= 1 // 3 : "Component malfunction" // 2 : "Supply chain short circuit" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_eTXVee2_Err_Stat; // Bits= 2 uint8_t LIN_eTXVeeChiller1_Pos_Stat; // Bits= 7 Unit:'%' // 1 : "Error" // 0 : "No error" uint8_t LIN_eTXV3_LinRespErr_Stat; // Bits= 1 // 3 : "Component malfunction" // 2 : "Supply chain short circuit" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_eTXVeeChiller1_Err_Stat; // Bits= 2 uint8_t LIN_eTXVeeChiller2_Pos_Stat; // Bits= 7 Unit:'%' // 1 : "Error" // 0 : "No error" uint8_t LIN_eTXV4_LinRespErr_Stat; // Bits= 1 // 3 : "Component malfunction" // 2 : "Supply chain short circuit" // 1 : "Supply chain break" // 0 : "No error" uint8_t LIN_eTXVeeChiller2_Err_Stat; // Bits= 2 #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_LIN_eTXV_Stat_t; // def @dbg_LIN_DRS_Stat CAN Message (1304 0x518) #define dbg_LIN_DRS_Stat_IDE (0U) #define dbg_LIN_DRS_Stat_DLC (5U) #define dbg_LIN_DRS_Stat_CANID (0x518U) // signal: @LIN_DRS_BCM_IndFadingTime_ro #define CANDB_DBG_LIN_DRS_BCM_IndFadingTime_ro_CovFactor (0.1) #define CANDB_DBG_LIN_DRS_BCM_IndFadingTime_ro_toS(x) ( (uint8_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_LIN_DRS_BCM_IndFadingTime_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // Value tables for @LIN_DRS_BCM_SwIndIntens signal #ifndef LIN_DRS_BCM_SwIndIntens_dbg_LIN_DRS_Stat_Low_level #define LIN_DRS_BCM_SwIndIntens_dbg_LIN_DRS_Stat_Low_level (1) #endif #ifndef LIN_DRS_BCM_SwIndIntens_dbg_LIN_DRS_Stat_Hight_level #define LIN_DRS_BCM_SwIndIntens_dbg_LIN_DRS_Stat_Hight_level (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL uint8_t LIN_DRS_DLLed1 : 1; // Bits= 1 uint8_t LIN_DRS_DLLed2 : 1; // Bits= 1 uint8_t LIN_DRS_DLLed3 : 1; // Bits= 1 uint8_t LIN_DRS_DRLed1 : 1; // Bits= 1 uint8_t LIN_DRS_DRLed2 : 1; // Bits= 1 uint8_t LIN_DRS_DRLed3 : 1; // Bits= 1 uint8_t LIN_DRS_FPLLed1 : 1; // Bits= 1 uint8_t LIN_DRS_FPLLed2 : 1; // Bits= 1 uint8_t LIN_DRS_FPLLed3 : 1; // Bits= 1 uint8_t LIN_DRS_FPRLed1 : 1; // Bits= 1 uint8_t LIN_DRS_FPRLed2 : 1; // Bits= 1 uint8_t LIN_DRS_FPRLed3 : 1; // Bits= 1 uint8_t LIN_DRS_RLBLed1 : 1; // Bits= 1 uint8_t LIN_DRS_RLBLed2 : 1; // Bits= 1 uint8_t LIN_DRS_RLBLed3 : 1; // Bits= 1 uint8_t LIN_DRS_RRBLed1 : 1; // Bits= 1 uint8_t LIN_DRS_RRBLed2 : 1; // Bits= 1 uint8_t LIN_DRS_RRBLed3 : 1; // Bits= 1 uint8_t LIN_DRS_FCLLed1 : 1; // Bits= 1 uint8_t LIN_DRS_FCLLed2 : 1; // Bits= 1 uint8_t LIN_DRS_FCLLed3 : 1; // Bits= 1 uint8_t LIN_DRS_FCRLed1 : 1; // Bits= 1 uint8_t LIN_DRS_FCRLed2 : 1; // Bits= 1 uint8_t LIN_DRS_FCRLed3 : 1; // Bits= 1 uint8_t LIN_DRS_BCM_IndFadingTime_ro : 5; // Bits= 5 Factor= 0.1 Unit:'sec' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t LIN_DRS_BCM_IndFadingTime_phys; #endif // CANDB_DBG_USE_SIGFLOAT // 1 : "Low level" // 0 : "Hight level" uint8_t LIN_DRS_BCM_SwIndIntens : 1; // Bits= 1 #else uint8_t LIN_DRS_DLLed1; // Bits= 1 uint8_t LIN_DRS_DLLed2; // Bits= 1 uint8_t LIN_DRS_DLLed3; // Bits= 1 uint8_t LIN_DRS_DRLed1; // Bits= 1 uint8_t LIN_DRS_DRLed2; // Bits= 1 uint8_t LIN_DRS_DRLed3; // Bits= 1 uint8_t LIN_DRS_FPLLed1; // Bits= 1 uint8_t LIN_DRS_FPLLed2; // Bits= 1 uint8_t LIN_DRS_FPLLed3; // Bits= 1 uint8_t LIN_DRS_FPRLed1; // Bits= 1 uint8_t LIN_DRS_FPRLed2; // Bits= 1 uint8_t LIN_DRS_FPRLed3; // Bits= 1 uint8_t LIN_DRS_RLBLed1; // Bits= 1 uint8_t LIN_DRS_RLBLed2; // Bits= 1 uint8_t LIN_DRS_RLBLed3; // Bits= 1 uint8_t LIN_DRS_RRBLed1; // Bits= 1 uint8_t LIN_DRS_RRBLed2; // Bits= 1 uint8_t LIN_DRS_RRBLed3; // Bits= 1 uint8_t LIN_DRS_FCLLed1; // Bits= 1 uint8_t LIN_DRS_FCLLed2; // Bits= 1 uint8_t LIN_DRS_FCLLed3; // Bits= 1 uint8_t LIN_DRS_FCRLed1; // Bits= 1 uint8_t LIN_DRS_FCRLed2; // Bits= 1 uint8_t LIN_DRS_FCRLed3; // Bits= 1 uint8_t LIN_DRS_BCM_IndFadingTime_ro; // Bits= 5 Factor= 0.1 Unit:'sec' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t LIN_DRS_BCM_IndFadingTime_phys; #endif // CANDB_DBG_USE_SIGFLOAT // 1 : "Low level" // 0 : "Hight level" uint8_t LIN_DRS_BCM_SwIndIntens; // Bits= 1 #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_LIN_DRS_Stat_t; // def @dbg_Auto_AF CAN Message (1312 0x520) #define dbg_Auto_AF_IDE (0U) #define dbg_Auto_AF_DLC (8U) #define dbg_Auto_AF_CANID (0x520U) #define dbg_Auto_AF_CYC (250U) // Value tables for @dbg_Auto_AF_MultMsg_Idx signal #ifndef dbg_Auto_AF_MultMsg_Idx_dbg_Auto_AF_RR #define dbg_Auto_AF_MultMsg_Idx_dbg_Auto_AF_RR (3) #endif #ifndef dbg_Auto_AF_MultMsg_Idx_dbg_Auto_AF_RL #define dbg_Auto_AF_MultMsg_Idx_dbg_Auto_AF_RL (2) #endif #ifndef dbg_Auto_AF_MultMsg_Idx_dbg_Auto_AF_FR #define dbg_Auto_AF_MultMsg_Idx_dbg_Auto_AF_FR (1) #endif #ifndef dbg_Auto_AF_MultMsg_Idx_dbg_Auto_AF_FL #define dbg_Auto_AF_MultMsg_Idx_dbg_Auto_AF_FL (0) #endif typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 3 : "RR" // 2 : "RL" // 1 : "FR" // 0 : "FL" // MULTIPLEX master signal uint8_t dbg_Auto_AF_MultMsg_Idx : 2; // Bits= 2 // multiplex variable int16_t dbg_Auto_AF_Correct_FL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Correct_FR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Correct_RL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Correct_RR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Vtg_RL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Vtg_FL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Vtg_FR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Vtg_RR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Incar_RL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Incar_FR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Incar_RR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Incar_FL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Amb_RL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Amb_FR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Sun_RR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Amb_FL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Sun_FR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Sun_RL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Amb_RR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Sun_FL; // [-] Bits=12 Unit:'AF' #else // 3 : "RR" // 2 : "RL" // 1 : "FR" // 0 : "FL" // MULTIPLEX master signal uint8_t dbg_Auto_AF_MultMsg_Idx; // Bits= 2 // multiplex variable int16_t dbg_Auto_AF_Correct_FL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Correct_FR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Correct_RL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Correct_RR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Vtg_RL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Vtg_FL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Vtg_FR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Vtg_RR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Incar_RL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Incar_FR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Incar_RR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Incar_FL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Amb_RL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Amb_FR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Sun_RR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Amb_FL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Sun_FR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Sun_RL; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Amb_RR; // [-] Bits=12 Unit:'AF' // multiplex variable int16_t dbg_Auto_AF_Sun_FL; // [-] Bits=12 Unit:'AF' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Auto_AF_t; // def @dbg_Auto_Duct CAN Message (1316 0x524) #define dbg_Auto_Duct_IDE (0U) #define dbg_Auto_Duct_DLC (8U) #define dbg_Auto_Duct_CANID (0x524U) #define dbg_Auto_Duct_CYC (250U) // Value tables for @dbg_Auto_Duct_MultMsg_Idx signal #ifndef dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_IncarTg #define dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_IncarTg (6) #endif #ifndef dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_RR #define dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_RR (5) #endif #ifndef dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_RL #define dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_RL (4) #endif #ifndef dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_FR_Lower #define dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_FR_Lower (3) #endif #ifndef dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_FR_Upper #define dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_FR_Upper (2) #endif #ifndef dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_FL_Lower #define dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_FL_Lower (1) #endif #ifndef dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_FL_Upper #define dbg_Auto_Duct_MultMsg_Idx_dbg_Auto_Duct_FL_Upper (0) #endif // signal: @dbg_Auto_Duct_Tgt_FL_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Tgt_FL_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tgt_FL_Upper_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tgt_FL_Upper_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_Incar_FL_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FL_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FL_Upper_ro_toS(x) ( (int16_t) (((x) - (20.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FL_Upper_ro_fromS(x) ( (((x) * (0.1)) + (20.0)) ) // signal: @dbg_Auto_Duct_Tgt_RR_ro #define CANDB_DBG_dbg_Auto_Duct_Tgt_RR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tgt_RR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tgt_RR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tgt_RL_ro #define CANDB_DBG_dbg_Auto_Duct_Tgt_RL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tgt_RL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tgt_RL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tgt_FR_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Tgt_FR_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tgt_FR_Upper_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tgt_FR_Upper_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tgt_FR_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Tgt_FR_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tgt_FR_Lower_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tgt_FR_Lower_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tgt_FL_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Tgt_FL_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tgt_FL_Lower_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tgt_FL_Lower_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_Incar_FR_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FR_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FR_Upper_ro_toS(x) ( (int16_t) (((x) - (20.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FR_Upper_ro_fromS(x) ( (((x) * (0.1)) + (20.0)) ) // signal: @dbg_Auto_Duct_Tg_FL_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_FL_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_FL_Upper_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_FL_Upper_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_FL_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_FL_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_FL_Lower_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_FL_Lower_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_FR_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_FR_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_FR_Lower_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_FR_Lower_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_FR_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_FR_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_FR_Upper_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_FR_Upper_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_RL_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_RL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_RL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_RL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_RR_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_RR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_RR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_RR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_Incar_FL_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FL_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FL_Lower_ro_toS(x) ( (int16_t) (((x) - (20.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FL_Lower_ro_fromS(x) ( (((x) * (0.1)) + (20.0)) ) // signal: @dbg_Auto_Duct_Incar_FL_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Incar_FL_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Incar_FL_Lower_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Incar_FL_Lower_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Incar_RR_ro #define CANDB_DBG_dbg_Auto_Duct_Incar_RR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Incar_RR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Incar_RR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Incar_RL_ro #define CANDB_DBG_dbg_Auto_Duct_Incar_RL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Incar_RL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Incar_RL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Incar_FR_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Incar_FR_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Incar_FR_Upper_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Incar_FR_Upper_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Incar_FR_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Incar_FR_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Incar_FR_Lower_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Incar_FR_Lower_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Incar_FL_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Incar_FL_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Incar_FL_Upper_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Incar_FL_Upper_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_Incar_FR_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FR_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FR_Lower_ro_toS(x) ( (int16_t) (((x) - (20.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_FR_Lower_ro_fromS(x) ( (((x) * (0.1)) + (20.0)) ) // signal: @dbg_Auto_Duct_Amb_RL_ro #define CANDB_DBG_dbg_Auto_Duct_Amb_RL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Amb_RL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Amb_RL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Amb_FR_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Amb_FR_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Amb_FR_Upper_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Amb_FR_Upper_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Amb_FR_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Amb_FR_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Amb_FR_Lower_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Amb_FR_Lower_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Amb_RR_ro #define CANDB_DBG_dbg_Auto_Duct_Amb_RR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Amb_RR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Amb_RR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Amb_FL_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Amb_FL_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Amb_FL_Lower_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Amb_FL_Lower_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Amb_FL_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Amb_FL_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Amb_FL_Upper_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Amb_FL_Upper_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_Incar_RL_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_RL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_RL_ro_toS(x) ( (int16_t) (((x) - (20.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_RL_ro_fromS(x) ( (((x) * (0.1)) + (20.0)) ) // signal: @dbg_Auto_Duct_Sun_FL_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Sun_FL_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Sun_FL_Lower_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Sun_FL_Lower_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Sun_FR_Lower_ro #define CANDB_DBG_dbg_Auto_Duct_Sun_FR_Lower_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Sun_FR_Lower_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Sun_FR_Lower_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Sun_FR_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Sun_FR_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Sun_FR_Upper_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Sun_FR_Upper_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Sun_RL_ro #define CANDB_DBG_dbg_Auto_Duct_Sun_RL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Sun_RL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Sun_RL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Sun_FL_Upper_ro #define CANDB_DBG_dbg_Auto_Duct_Sun_FL_Upper_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Sun_FL_Upper_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Sun_FL_Upper_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Sun_RR_ro #define CANDB_DBG_dbg_Auto_Duct_Sun_RR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Sun_RR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Sun_RR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Duct_Tg_Incar_RR_ro #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_RR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_RR_ro_toS(x) ( (int16_t) (((x) - (20.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Duct_Tg_Incar_RR_ro_fromS(x) ( (((x) * (0.1)) + (20.0)) ) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL // 6 : "IncarTg" // 5 : "RR" // 4 : "RL" // 3 : "FR_Lower" // 2 : "FR_Upper" // 1 : "FL_Lower" // 0 : "FL_Upper" // MULTIPLEX master signal uint8_t dbg_Auto_Duct_MultMsg_Idx : 4; // Bits= 4 // multiplex variable int16_t dbg_Auto_Duct_Tgt_FL_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_FL_Upper_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tgt_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tgt_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tgt_FR_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tgt_FR_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tgt_FL_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_FR_Upper_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_FL_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_FL_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_FR_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_FR_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_FL_Lower_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_FL_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_FR_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_FR_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_FL_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_FR_Lower_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_FR_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_FR_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_FL_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_FL_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_RL_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_FL_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_FR_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_FR_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_FL_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_RR_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT #else // 6 : "IncarTg" // 5 : "RR" // 4 : "RL" // 3 : "FR_Lower" // 2 : "FR_Upper" // 1 : "FL_Lower" // 0 : "FL_Upper" // MULTIPLEX master signal uint8_t dbg_Auto_Duct_MultMsg_Idx; // Bits= 4 // multiplex variable int16_t dbg_Auto_Duct_Tgt_FL_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_FL_Upper_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tgt_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tgt_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tgt_FR_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tgt_FR_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tgt_FL_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tgt_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_FR_Upper_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_FL_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_FL_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_FR_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_FR_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_FL_Lower_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_FL_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_FR_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_FR_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Incar_FL_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Incar_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_FR_Lower_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_FR_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_FR_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_FL_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Amb_FL_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Amb_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_RL_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_FL_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_FL_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_FR_Lower_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_FR_Lower_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_FR_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_FR_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_RL_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_RL_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_FL_Upper_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_FL_Upper_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Sun_RR_ro; // [-] Bits=12 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Sun_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT // multiplex variable int16_t dbg_Auto_Duct_Tg_Incar_RR_ro; // [-] Bits=10 Offset= 20.0 Factor= 0.1 Unit:'กษ' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Duct_Tg_Incar_RR_phys; #endif // CANDB_DBG_USE_SIGFLOAT #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Auto_Duct_t; // def @dbg_Auto_Valve_Plus CAN Message (1328 0x530) #define dbg_Auto_Valve_Plus_IDE (0U) #define dbg_Auto_Valve_Plus_DLC (8U) #define dbg_Auto_Valve_Plus_CANID (0x530U) // signal: @dbg_Auto_Valve_Plus_Vent_SFL_ro #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_SFL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_SFL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_SFL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Valve_Plus_Vent_CFL_ro #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_CFL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_CFL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_CFL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Valve_Plus_Foot_FL_ro #define CANDB_DBG_dbg_Auto_Valve_Plus_Foot_FL_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Valve_Plus_Foot_FL_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Valve_Plus_Foot_FL_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Valve_Plus_Vent_SFR_ro #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_SFR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_SFR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_SFR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Valve_Plus_Vent_CFR_ro #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_CFR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_CFR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Valve_Plus_Vent_CFR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) // signal: @dbg_Auto_Valve_Plus_Foot_FR_ro #define CANDB_DBG_dbg_Auto_Valve_Plus_Foot_FR_ro_CovFactor (0.1) #define CANDB_DBG_dbg_Auto_Valve_Plus_Foot_FR_ro_toS(x) ( (int16_t) (((x) - (0.0)) / (0.1)) ) #define CANDB_DBG_dbg_Auto_Valve_Plus_Foot_FR_ro_fromS(x) ( (((x) * (0.1)) + (0.0)) ) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL int16_t dbg_Auto_Valve_Plus_Vent_SFL_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Vent_SFL_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Auto_Valve_Plus_Vent_CFL_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Vent_CFL_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Auto_Valve_Plus_Foot_FL_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Foot_FL_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Auto_Valve_Plus_Vent_SFR_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Vent_SFR_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Auto_Valve_Plus_Vent_CFR_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Vent_CFR_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Auto_Valve_Plus_Foot_FR_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Foot_FR_phys; #endif // CANDB_DBG_USE_SIGFLOAT #else int16_t dbg_Auto_Valve_Plus_Vent_SFL_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Vent_SFL_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Auto_Valve_Plus_Vent_CFL_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Vent_CFL_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Auto_Valve_Plus_Foot_FL_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Foot_FL_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Auto_Valve_Plus_Vent_SFR_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Vent_SFR_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Auto_Valve_Plus_Vent_CFR_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Vent_CFR_phys; #endif // CANDB_DBG_USE_SIGFLOAT int16_t dbg_Auto_Valve_Plus_Foot_FR_ro; // [-] Bits=10 Factor= 0.1 Unit:'0.1%' #ifdef CANDB_DBG_USE_SIGFLOAT sigfloat_t dbg_Auto_Valve_Plus_Foot_FR_phys; #endif // CANDB_DBG_USE_SIGFLOAT #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } dbg_Auto_Valve_Plus_t; // def @XCP_CCU_RX CAN Message (1707 0x6ab) #define XCP_CCU_RX_IDE (0U) #define XCP_CCU_RX_DLC (8U) #define XCP_CCU_RX_CANID (0x6abU) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL int64_t XcpCcuRx; // [-] Bits=64 Unit:'-' #else int64_t XcpCcuRx; // [-] Bits=64 Unit:'-' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } XCP_CCU_RX_t; // def @XCP_CCU_TX CAN Message (1723 0x6bb) #define XCP_CCU_TX_IDE (0U) #define XCP_CCU_TX_DLC (8U) #define XCP_CCU_TX_CANID (0x6bbU) typedef struct { #ifdef CANDB_DBG_USE_BITS_SIGNAL int64_t XcpCcuTx; // [-] Bits=64 Unit:'-' #else int64_t XcpCcuTx; // [-] Bits=64 Unit:'-' #endif // CANDB_DBG_USE_BITS_SIGNAL #ifdef CANDB_DBG_USE_DIAG_MONITORS FrameMonitor_t mon1; #endif // CANDB_DBG_USE_DIAG_MONITORS } XCP_CCU_TX_t; // Function signatures uint32_t Unpack_dbg_Logic_State_candb_dbg(dbg_Logic_State_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Logic_State_candb_dbg(dbg_Logic_State_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Logic_State_candb_dbg(dbg_Logic_State_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Logic_KM_Status_candb_dbg(dbg_Logic_KM_Status_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Logic_KM_Status_candb_dbg(dbg_Logic_KM_Status_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Logic_KM_Status_candb_dbg(dbg_Logic_KM_Status_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Logic_Valve_candb_dbg(dbg_Logic_Valve_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Logic_Valve_candb_dbg(dbg_Logic_Valve_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Logic_Valve_candb_dbg(dbg_Logic_Valve_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Logic_Blower_candb_dbg(dbg_Logic_Blower_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Logic_Blower_candb_dbg(dbg_Logic_Blower_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Logic_Blower_candb_dbg(dbg_Logic_Blower_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Logic_Ac_candb_dbg(dbg_Logic_Ac_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Logic_Ac_candb_dbg(dbg_Logic_Ac_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Logic_Ac_candb_dbg(dbg_Logic_Ac_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Logic_Rec_candb_dbg(dbg_Logic_Rec_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Logic_Rec_candb_dbg(dbg_Logic_Rec_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Logic_Rec_candb_dbg(dbg_Logic_Rec_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_DiffBlr_ValveOpen_candb_dbg(dbg_DiffBlr_ValveOpen_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_DiffBlr_ValveOpen_candb_dbg(dbg_DiffBlr_ValveOpen_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_DiffBlr_ValveOpen_candb_dbg(dbg_DiffBlr_ValveOpen_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Act0_candb_dbg(dbg_Act0_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Act0_candb_dbg(dbg_Act0_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Act0_candb_dbg(dbg_Act0_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Act1_candb_dbg(dbg_Act1_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Act1_candb_dbg(dbg_Act1_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Act1_candb_dbg(dbg_Act1_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Act2_candb_dbg(dbg_Act2_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Act2_candb_dbg(dbg_Act2_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Act2_candb_dbg(dbg_Act2_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Sen_Amb_candb_dbg(dbg_Sen_Amb_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Sen_Amb_candb_dbg(dbg_Sen_Amb_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Sen_Amb_candb_dbg(dbg_Sen_Amb_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Sen_0_candb_dbg(dbg_Sen_0_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Sen_0_candb_dbg(dbg_Sen_0_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Sen_0_candb_dbg(dbg_Sen_0_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_CCU_IO_candb_dbg(dbg_CCU_IO_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_CCU_IO_candb_dbg(dbg_CCU_IO_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_CCU_IO_candb_dbg(dbg_CCU_IO_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_CCU_Info_candb_dbg(dbg_CCU_Info_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_CCU_Info_candb_dbg(dbg_CCU_Info_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_CCU_Info_candb_dbg(dbg_CCU_Info_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Drs_candb_dbg(dbg_Drs_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Drs_candb_dbg(dbg_Drs_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Drs_candb_dbg(dbg_Drs_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Sen_Incar_candb_dbg(dbg_Sen_Incar_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Sen_Incar_candb_dbg(dbg_Sen_Incar_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Sen_Incar_candb_dbg(dbg_Sen_Incar_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Cmd_Act_Information_candb_dbg(dbg_Cmd_Act_Information_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Cmd_Act_Information_candb_dbg(dbg_Cmd_Act_Information_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Cmd_Act_Information_candb_dbg(dbg_Cmd_Act_Information_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Info_Act1_candb_dbg(dbg_Info_Act1_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Info_Act1_candb_dbg(dbg_Info_Act1_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Info_Act1_candb_dbg(dbg_Info_Act1_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Info_Act2_candb_dbg(dbg_Info_Act2_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Info_Act2_candb_dbg(dbg_Info_Act2_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Info_Act2_candb_dbg(dbg_Info_Act2_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Sen_Eva_candb_dbg(dbg_Sen_Eva_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Sen_Eva_candb_dbg(dbg_Sen_Eva_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Sen_Eva_candb_dbg(dbg_Sen_Eva_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Sen_Duct_candb_dbg(dbg_Sen_Duct_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Sen_Duct_candb_dbg(dbg_Sen_Duct_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Sen_Duct_candb_dbg(dbg_Sen_Duct_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Sen_Demist_candb_dbg(dbg_Sen_Demist_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Sen_Demist_candb_dbg(dbg_Sen_Demist_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Sen_Demist_candb_dbg(dbg_Sen_Demist_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_LIN_AirQS_Stat_candb_dbg(dbg_LIN_AirQS_Stat_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_LIN_AirQS_Stat_candb_dbg(dbg_LIN_AirQS_Stat_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_LIN_AirQS_Stat_candb_dbg(dbg_LIN_AirQS_Stat_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_LIN_Aroma_Stat_candb_dbg(dbg_LIN_Aroma_Stat_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_LIN_Aroma_Stat_candb_dbg(dbg_LIN_Aroma_Stat_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_LIN_Aroma_Stat_candb_dbg(dbg_LIN_Aroma_Stat_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_LIN_Ionizer_Stat_candb_dbg(dbg_LIN_Ionizer_Stat_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_LIN_Ionizer_Stat_candb_dbg(dbg_LIN_Ionizer_Stat_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_LIN_Ionizer_Stat_candb_dbg(dbg_LIN_Ionizer_Stat_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_LIN_eTXV_Stat_candb_dbg(dbg_LIN_eTXV_Stat_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_LIN_eTXV_Stat_candb_dbg(dbg_LIN_eTXV_Stat_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_LIN_eTXV_Stat_candb_dbg(dbg_LIN_eTXV_Stat_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_LIN_DRS_Stat_candb_dbg(dbg_LIN_DRS_Stat_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_LIN_DRS_Stat_candb_dbg(dbg_LIN_DRS_Stat_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_LIN_DRS_Stat_candb_dbg(dbg_LIN_DRS_Stat_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Auto_AF_candb_dbg(dbg_Auto_AF_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Auto_AF_candb_dbg(dbg_Auto_AF_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Auto_AF_candb_dbg(dbg_Auto_AF_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Auto_Duct_candb_dbg(dbg_Auto_Duct_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Auto_Duct_candb_dbg(dbg_Auto_Duct_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Auto_Duct_candb_dbg(dbg_Auto_Duct_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_dbg_Auto_Valve_Plus_candb_dbg(dbg_Auto_Valve_Plus_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_dbg_Auto_Valve_Plus_candb_dbg(dbg_Auto_Valve_Plus_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_dbg_Auto_Valve_Plus_candb_dbg(dbg_Auto_Valve_Plus_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_XCP_CCU_RX_candb_dbg(XCP_CCU_RX_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_XCP_CCU_RX_candb_dbg(XCP_CCU_RX_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_XCP_CCU_RX_candb_dbg(XCP_CCU_RX_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT uint32_t Unpack_XCP_CCU_TX_candb_dbg(XCP_CCU_TX_t* _m, const uint8_t* _d, uint8_t dlc_); #ifdef CANDB_DBG_USE_CANSTRUCT uint32_t Pack_XCP_CCU_TX_candb_dbg(XCP_CCU_TX_t* _m, __CoderDbcCanFrame_t__* cframe); #else uint32_t Pack_XCP_CCU_TX_candb_dbg(XCP_CCU_TX_t* _m, uint8_t* _d, uint8_t* _len, uint8_t* _ide); #endif // CANDB_DBG_USE_CANSTRUCT #ifdef __cplusplus } #endif