ovenstatics.h
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#ifndef OVENSTATICS_H
#define OVENSTATICS_H
#include <QObject>
#include <time.h>
#include "../../app-prime-modbus/include/all_share.h"
#include "udphandler.h"
#include "oven.h"
#include "servicedatas.h"
#define SYS_STATE_MAX 4
#define SYS_ERR_MAX 10
#define SYS_ERR_MASK_ERR_CLEAR_COOKING 0x00ff
#define SYS_ERR_MASK_ERR_CLEAR_NONCOOKING 0x00ff
#define SYS_ERR_MASK_COOKING 0x00ff
#define SYS_ERR_MASK_NONCOOKING (SYS_ERR_OVNE_TEMP_ALARM)
#define COMM_ERR_MAX 5
#define COMM_ERR_MASK_ERR_CLEAR_COOKING 0x0000
#define COMM_ERR_MASK_ERR_CLEAR_NONCOOKING 0x0000
#define COMM_ERR_MASK_COOKING 0x0000
#define COMM_ERR_MASK_NONCOOKING 0x0000
#define SENSOR_ERR_MAX 10
#define SENSOR_ERR_MASK_ERR_CLEAR 0x0000
#define SENSOR_ERR_MASK_COOKING 0x0000
#define SENSOR_ERR_MASK_NONCOOKING 0x0000
#define MAKE_MASK(MASK) (1<<MASK)
#define LOAD_STATE1_UPPER_BUNNER 0x0001
#define LOAD_STATE1_LOWER_BUNNER 0x0002
#define LOAD_STATE1_STEAM_BUNNER 0x0004
#define LOAD_STATE1_UPPER_FAN 0x0008
#define LOAD_STATE1_LOWER_FAN 0x0010
#define LOAD_STATE1_STEAM_FAN 0x0020
#define LOAD_STATE1_CONVEC_FAN1 0x0040
#define LOAD_STATE1_CONVEC_FAN2 0x0080
/*#define LOAD_STATE2_DV 0x0001
#define LOAD_STATE2_CFAN 0x0002
#define LOAD_STATE2_WSV 0x0004
#define LOAD_STATE2_QNV 0x0008
#define LOAD_STATE2_SSV 0x0010
#define LOAD_STATE2_SNV 0x0020
#define LOAD_STATE2_ERRLED 0x0040
#define LOAD_STATE2_ATVLED 0x0080
#define LOAD_STATE2_HL 0x0100
#define LOAD_STATE2_DP 0x0200
#define LOAD_STATE2_SSP 0x0400
#define LOAD_STATE2_UNP 0x0800
#define LOAD_STATE2_HT1 0x1000
#define LOAD_STATE2_HT2 0x2000
#define LOAD_STATE2_HDM 0x4000
#define LOAD_STATE2_ST1 0x8000*/
#define LOAD_STATE2_DV 0x0001
#define LOAD_STATE2_CFAN 0x0002
#define LOAD_STATE2_WSV 0x0004
#define LOAD_STATE2_QNV 0x0008
#define LOAD_STATE2_SSV 0x0010
#define LOAD_STATE2_SNV 0x0020
#define LOAD_STATE2_HL 0x0040
#define LOAD_STATE2_DP 0x0080
#define LOAD_STATE2_SSP 0x0100
#define LOAD_STATE2_UNP 0x0200
#define LOAD_STATE2_HDM 0x0400
#define LOAD_STATE2_SGNV 0x0800
enum sys_state_type{
SYS_OFF_COOK_OFF=0,
SYS_ON_COOK_OFF=1,
SYS_ON_COOK_ON=2,
SYS_OFF_COOK_ON=3 //unnormal state
};
enum sys_error_id{
SYS_ERR_FIRE_TRIGGER1 =0,
SYS_ERR_FIRE_TRIGGER2 ,
SYS_ERR_FIRE_TRIGGER3 ,
SYS_ERR_OVNE_TEMP_ALARM ,
SYS_ERR_QUN_TEMP_ALARM ,
SYS_ERR_CENTER_TEMP_ALARM ,
SYS_ERR_WALL_TEMP_ALARM ,
SYS_ERR_STAM_TEMP_ALARM ,
SYS_ERR_WATER_LEVEL_FAIL ,
SYS_ERR_WATER_SPLY_FAIL
};
enum comm_err_id{
COMM_ERR_BUNNER1 =0,
COMM_ERR_BUNNER2 ,
COMM_ERR_BUNNER3 ,
COMM_ERR_UPPERFAN ,
COMM_ERR_LOWERFAN
};
enum sensor_err_id{
SENSOR_ERR_SENSOR_1 =0,
SENSOR_ERR_SENSOR_2 ,
SENSOR_ERR_SENSOR_3 ,
SENSOR_ERR_SENSOR_4 ,
SENSOR_ERR_SENSOR_5 ,
SENSOR_ERR_SENSOR_6 ,
SENSOR_ERR_SENSOR_7 ,
SENSOR_ERR_SENSOR_8 ,
SENSOR_ERR_SENSOR_9 ,
SENSOR_ERR_SENSOR_10
};
enum error_exe_type{
error_type_allnone=0,
error_type_onlypop,
error_type_onlyeng,
error_type_onlychk,
error_type_popnonclr,
error_type_engnonclr,
error_type_clrsplit,
error_type_chkclr,
error_type_popclr,
error_type_engclr,
};
enum wash_mode_type{
wash_mode_nocleanser=1,
wash_mode_simple,
wash_mode_standard,
wash_mode_strong,
wash_mode_highspeed
};
typedef union
{
uint32_t d32;
struct
{
uint32_t reserved : 9;
uint32_t door_open : 1;
uint32_t wsv_open : 1;
uint32_t dv_open : 1;
uint32_t sgnv_open : 1;
uint32_t water_level : 16;
uint32_t snv_open : 1;
uint32_t qnv_open : 1;
uint32_t ssv_open : 1;
}b;
}realtime_data;
class OvenStatics : public QObject
{
Q_OBJECT
public:
servicedatas* srvdatas;
static OvenStatics* getInstance(QObject* parent = 0,UdpHandler * udp=0, Oven* oven=0);
static void destroy();
bool getNeedErrorClear();
void clearNeedErrorClear();
realtime_data getPartsRealtimeData(void);
uint8_t getSensorTypeByIdx(uint16_t idx);
type_temp getCurSensorValueByIdx(uint16_t idx);
private:
const error_exe_type sys_err_type_def[SYS_STATE_MAX][SYS_ERR_MAX]={
{error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,
error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr}, // SYS_OFF_COOK_OFF state
{error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,
error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr}, // SYS_ON_COOK_OFF state
{error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,
error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr}, // SYS_ON_COOK_ON state
{error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,
error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr,error_type_popclr}, // SYS_OFF_COOK_ON state
};
const error_exe_type comm_err_type_def[SYS_STATE_MAX][COMM_ERR_MAX] ={\
{error_type_popnonclr,error_type_popnonclr,error_type_popnonclr,error_type_engnonclr,error_type_engnonclr}, //SYS_OFF_COO_OFF
{error_type_popnonclr,error_type_popnonclr,error_type_popnonclr,error_type_engnonclr,error_type_engnonclr}, //SYS_ON_COO_OFF
{error_type_popnonclr,error_type_popnonclr,error_type_popnonclr,error_type_popnonclr,error_type_popnonclr}, //SYS_ON_COO_ON
{error_type_popnonclr,error_type_popnonclr,error_type_popnonclr,error_type_engnonclr,error_type_engnonclr}, //SYS_OFF_COO_ON
};
const error_exe_type sensor_err_type_def[SYS_STATE_MAX][SENSOR_ERR_MAX]={
{error_type_engnonclr,error_type_popnonclr,error_type_allnone,error_type_popnonclr,error_type_onlychk,
error_type_popnonclr,error_type_allnone,error_type_allnone,error_type_allnone,error_type_popnonclr}, // SYS_OFF_COOK_OFF state
{error_type_engnonclr,error_type_popnonclr,error_type_allnone,error_type_popnonclr,error_type_onlychk,
error_type_popnonclr,error_type_allnone,error_type_allnone,error_type_allnone,error_type_popnonclr}, // SYS_ON_COOK_OFF state
{error_type_onlychk,error_type_onlychk,error_type_allnone,error_type_popnonclr,error_type_popnonclr,
error_type_popnonclr,error_type_allnone,error_type_allnone,error_type_allnone,error_type_popnonclr}, // SYS_ON_COOK_ON state
{error_type_engnonclr,error_type_popnonclr,error_type_allnone,error_type_popnonclr,error_type_onlychk,
error_type_popnonclr,error_type_allnone,error_type_allnone,error_type_allnone,error_type_popnonclr}, // SYS_OFF_COOK_ON state same with SYS_OFF_COOK_OFF
};
const uint8_t sensorTypeInfo[MAX_LOG_SENSOR] = {
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
1, 1, 2, 0, 1, 1
}; //Type 2 is /10 value;
type_temp curSensorValue[MAX_LOG_SENSOR];
static OvenStatics* p_singtonInstance;
UdpHandler *udp;
Oven* oven;
oven_control_t control;
oven_state_t state;
error_item* m_pLastErrItem;
bool curdoorstate;
uint16_t curSysErrorState;
uint16_t curCommErrorState;
uint16_t curSensorErrorState;
bool bNeedErrorClear;
bool bDataRefreshed;
realtime_data realdata;
explicit OvenStatics(QObject* parent);
~OvenStatics();
void processSystemError(uint16_t errflag,time_t ltime);
void processCommError(uint16_t errflag,time_t ltime);
void processSensorError(uint16_t errflag, time_t ltime);
void processErrorItems(error_item *item, error_exe_type errtype, const QString &MsgDesc,const QString &MsgTitle, time_t ltime);
public slots:
void onDataChanged();
void oneSecTimerFired(void);
};
#endif // OVENSTATICS_H