func DoUpdateDayTableItemBySQL(r *PvInverterDayData) error {
tableName := getDayTableName(r.Day)
s := fmt.Sprintf("UPDATE `%s`", tableName)
s = fmt.Sprintf("%s SET ", s)
s = fmt.Sprintf("%s `input_time` = '%v',", s, time.Now().Unix())
s = fmt.Sprintf("%s `data_validate` = '%v',", s, r.DataValidate)
s = fmt.Sprintf("%s `ac_active_power_total` = '%v',", s, r.AcActivePowerTotal)
s = fmt.Sprintf("%s `energy_today` = '%v',", s, r.EnergyToday)
s = fmt.Sprintf("%s `energy_total` = '%v',", s, r.EnergyTotal)
s = fmt.Sprintf("%s `power_content` = '%v',", s, r.PowerContent)
s = fmt.Sprintf("%s `nominal_hours` = '%v',", s, r.NominalHours)
s = fmt.Sprintf("%s `today_hours` = '%v',", s, r.TodayHours)
s = fmt.Sprintf("%s `avg_direct_power` = '%v',", s, r.AvgDirectPower)
s = fmt.Sprintf("%s `avg_alternating_power` = '%v',", s, r.AvgAlternatingPower)
s = fmt.Sprintf("%s `avg_efficiency` = '%v'", s, r.AvgEfficiency)
s = fmt.Sprintf("%s WHERE (`ivt_id` = %d AND `day` = %v);", s, r.IvtId, r.Day)
//fmt.Println("s=", s)
o := orm.NewOrm()
_, err := o.Raw(s).Exec()
if err == nil {
utils.WriteDebugLog("Update record(ivt_id=%d & day=%v) in table %s ...... DONE", r.IvtId, r.Day, tableName)
} else {
utils.WriteErrorLog("Update record(ivt_id=%d & day=%v) in table %s ...... ERROR", r.IvtId, r.Day, tableName)
}
return err
}
func InsertRunDataTableItemBySQL(r *PvInverterRunData) {
// use the r.SmplTime to generate the table
t := time.Unix(r.SmplTime, 0)
fmt.Println("t=%v", t)
//fmt.Println("t.Unix=%v", t.Unix())
// first, try to create the table
CreateRunDataTableBySQL(t.Unix())
// insert data to the table
tableName := getRunDataTableName(t.Unix())
s := fmt.Sprintf("INSERT INTO `%s`", tableName)
s = fmt.Sprintf("%s (`ivt_id`, `batch_order`, `smpl_time`, `input_time`, `work_status`, `run_time_total`, `energy_total`, `energy_day`, `internal_temperature`, `vdc_pv1`, `idc_pv1`, `dcpower_pv1`, `vdc_pv2`, `idc_pv2`, `dcpower_pv2`, `vdc_pv3`, `idc_pv3`, `dcpower_pv3`, `vdc_pv4`, `idc_pv4`, `dcpower_pv4`, `pv1_resistor`, `pv2_resistor`, `pv3_resistor`, `pv4_resistor`, `aver_vdc_pv`, `idc_total`, `dcpower_total`, `vac_r`, `iac_r`, `acpower_r`, `fac_r`, `vac_s`, `iac_s`, `acpower_s`, `fac_s`, `vac_t`, `iac_t`, `acpower_t`, `fac_t`, `aver_vac`, `ac_active_power_total`, `iac_total`, `vac_balance`, `iac_balance`, `fgrid`, `efficiency`, `simu_kwh5_min`)", s)
s = fmt.Sprintf("%s VALUES ", s)
s = fmt.Sprintf("%s ('%v', '%v', '%v', '%v', '%s', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v');", s, r.IvtId, r.BatchOrder, r.SmplTime, time.Now().Unix(), r.WorkStatus, r.RunTimeTotal, r.EnergyTotal, r.EnergyDay, r.InternalTemperature, r.VdcPv1, r.IdcPv1, r.DcpowerPv1, r.VdcPv2, r.IdcPv2, r.DcpowerPv2, r.VdcPv3, r.IdcPv3, r.DcpowerPv3, r.VdcPv4, r.IdcPv4, r.DcpowerPv4, r.Pv1Resistor, r.Pv2Resistor, r.Pv3Resistor, r.Pv4Resistor, r.AverVdcPv, r.IdcTotal, r.DcpowerTotal, r.VacR, r.IacR, r.AcpowerR, r.FacR, r.VacS, r.IacS, r.AcpowerS, r.FacS, r.VacT, r.IacT, r.AcpowerT, r.FacT, r.AverVac, r.AcActivePowerTotal, r.IacTotal, r.VacBalance, r.IacBalance, r.Fgrid, r.Efficiency, r.SimuKwh5Min)
//fmt.Println("s=", s)
o := orm.NewOrm()
res, err := o.Raw(s).Exec()
if err == nil {
num, _ := res.RowsAffected()
fmt.Println("mysql row affected nums: ", num)
utils.WriteDebugLog("Insert a record to %s table ...... DONE", tableName)
} else {
fmt.Printf("err=%v\n", err)
fmt.Println("mysql insert data have an ERROR!")
utils.WriteErrorLog("Insert a record to %s table ...... ERROR", tableName)
}
}
func DoInsertDayTableRecordBySQL(r *PvInverterDayData) {
tableName := getDayTableName(r.Day)
s := fmt.Sprintf("INSERT INTO `%s`", tableName)
s = fmt.Sprintf("%s (`ivt_id`, `input_time`, `day`, `data_validate`, `ac_active_power_total`, `energy_today`, `energy_total`, `power_content`, `nominal_hours`, `today_hours`, `avg_direct_power`, `avg_alternating_power`, `avg_efficiency`)", s)
s = fmt.Sprintf("%s VALUES ", s)
s = fmt.Sprintf("%s ('%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v', '%v');", s, r.IvtId, time.Now().Unix(), r.Day, r.DataValidate, r.AcActivePowerTotal, r.EnergyToday, r.EnergyTotal, r.PowerContent, r.NominalHours, r.TodayHours, r.AvgDirectPower, r.AvgAlternatingPower, r.AvgEfficiency)
//fmt.Println("s=", s)
// Run the SQL
o := orm.NewOrm()
res, err := o.Raw(s).Exec()
if err == nil {
num, _ := res.RowsAffected()
fmt.Println("mysql row affected nums: ", num)
utils.WriteDebugLog("Insert a record to %s table ...... DONE", tableName)
} else {
fmt.Printf("err=%v\n", err)
fmt.Println("mysql insert data have an ERROR!")
utils.WriteErrorLog("Insert a record to %s table ...... ERROR", tableName)
}
}
func CreateDayTableBySQL(t int64) {
year := time.Unix(t, 0).Year()
//month := time.Unix(t, 0).Month()
tableName := getDayTableName(t)
s := "CREATE TABLE IF NOT EXISTS"
s = fmt.Sprintf("%s `%s`", s, tableName)
s = fmt.Sprintf("%s ( `id` bigint AUTO_INCREMENT NOT NULL PRIMARY KEY,", s)
s = fmt.Sprintf("%s `ivt_id` int(11) NOT NULL DEFAULT '0' COMMENT '逆变器ID',", s)
s = fmt.Sprintf("%s `input_time` int(10) DEFAULT NULL DEFAULT '0' COMMENT '最后更新时间',", s)
s = fmt.Sprintf("%s `day` int(10) NOT NULL DEFAULT '0' COMMENT '数据日期',", s)
s = fmt.Sprintf("%s `data_validate` smallint(1) NOT NULL DEFAULT '0' COMMENT '数据完整性验算',", s)
s = fmt.Sprintf("%s `ac_active_power_total` float(8,2) NOT NULL DEFAULT '0.00' COMMENT '实时总功率',", s)
s = fmt.Sprintf("%s `energy_today` float(8,2) NOT NULL DEFAULT '0.00' COMMENT '当日实时总发电量',", s)
s = fmt.Sprintf("%s `energy_total` double(10,2) NOT NULL DEFAULT '0.00' COMMENT '总发电量',", s)
s = fmt.Sprintf("%s `power_content` text NOT NULL DEFAULT '' COMMENT '当日历史功率',", s)
s = fmt.Sprintf("%s `nominal_hours` int(11) NOT NULL DEFAULT '0' COMMENT '名义发电小时数',", s)
s = fmt.Sprintf("%s `today_hours` float(5,3) NOT NULL DEFAULT '0.000' COMMENT '当日有效发电小时数',", s)
s = fmt.Sprintf("%s `avg_direct_power` float(8,1) NOT NULL DEFAULT '0.0' COMMENT '当日有效直流平均功率',", s)
s = fmt.Sprintf("%s `avg_alternating_power` float(8,1) NOT NULL DEFAULT '0.0' COMMENT '当日截止到目前的有效交流平均功率',", s)
s = fmt.Sprintf("%s `avg_efficiency` float(4,3) NOT NULL DEFAULT '0.000' COMMENT '当日截止到目前的逆变器平均效率')", s)
s = fmt.Sprintf("%s ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='%d年所有逆变器每日数据统计表';", s, year)
//fmt.Println("s=", s)
o := orm.NewOrm()
_, err := o.Raw(s).Exec()
if err == nil {
fmt.Println("Create %s table SUCCESS!", tableName)
utils.WriteDebugLog("Create %s table ...... DONE", tableName)
} else {
fmt.Printf("Create err=%v\n", err)
fmt.Println("Create table ERROR!")
utils.WriteErrorLog("Create %s table ...... ERROR", tableName)
}
}
func CreateRunDataTableBySQL(t int64) {
year := time.Unix(t, 0).Year()
month := time.Unix(t, 0).Month()
tableName := getRunDataTableName(t)
s := "CREATE TABLE IF NOT EXISTS"
s = fmt.Sprintf("%s `%s` (", s, tableName)
s = fmt.Sprintf("%s `id` bigint AUTO_INCREMENT NOT NULL PRIMARY KEY,", s)
s = fmt.Sprintf("%s `ivt_id` int(11) NOT NULL DEFAULT '0' COMMENT '逆变器ID',", s)
s = fmt.Sprintf("%s `batch_order` int(4) NOT NULL DEFAULT '0' COMMENT '数据采集序号',", s)
s = fmt.Sprintf("%s `smpl_time` int(10) NOT NULL DEFAULT '0' COMMENT '数据采集时间',", s)
s = fmt.Sprintf("%s `input_time` int(10) NOT NULL DEFAULT '0' COMMENT '数据写入时间',", s)
s = fmt.Sprintf("%s `work_status` varchar(32) NOT NULL DEFAULT '' COMMENT '当前最新运行状态',", s)
s = fmt.Sprintf("%s `run_time_total` double(8,2) NOT NULL DEFAULT '0' COMMENT '总运行时间',", s)
s = fmt.Sprintf("%s `energy_total` double(10,2) NOT NULL DEFAULT '0' COMMENT '总发电量',", s)
s = fmt.Sprintf("%s `energy_day` float(8,2) NOT NULL DEFAULT '0' COMMENT '今日总发电量',", s)
s = fmt.Sprintf("%s `internal_temperature` float(5, 2) NOT NULL DEFAULT '0' COMMENT '逆变器内部温度',", s)
s = fmt.Sprintf("%s `vdc_pv1` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV1直流电压',", s)
s = fmt.Sprintf("%s `idc_pv1` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV1直流电流',", s)
s = fmt.Sprintf("%s `dcpower_pv1` float(8, 1) NOT NULL DEFAULT '0' COMMENT 'PV1直流功率',", s)
s = fmt.Sprintf("%s `vdc_pv2` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV2直流电压',", s)
s = fmt.Sprintf("%s `idc_pv2` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV2直流电流',", s)
s = fmt.Sprintf("%s `dcpower_pv2` float(8, 1) NOT NULL DEFAULT '0' COMMENT 'PV2直流功率',", s)
s = fmt.Sprintf("%s `vdc_pv3` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV3直流电压',", s)
s = fmt.Sprintf("%s `idc_pv3` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV3直流电流',", s)
s = fmt.Sprintf("%s `dcpower_pv3` float(8, 1) NOT NULL DEFAULT '0' COMMENT 'PV3直流功率',", s)
s = fmt.Sprintf("%s `vdc_pv4` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV4直流电压',", s)
s = fmt.Sprintf("%s `idc_pv4` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV4直流电流',", s)
s = fmt.Sprintf("%s `dcpower_pv4` float(8, 1) NOT NULL DEFAULT '0' COMMENT 'PV4直流功率',", s)
s = fmt.Sprintf("%s `pv1_resistor` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV1正对地绝缘阻抗',", s)
s = fmt.Sprintf("%s `pv2_resistor` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV2正对地绝缘阻抗',", s)
s = fmt.Sprintf("%s `pv3_resistor` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV3正对地绝缘阻抗',", s)
s = fmt.Sprintf("%s `pv4_resistor` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'PV4正对地绝缘阻抗',", s)
s = fmt.Sprintf("%s `aver_vdc_pv` float(4, 1) NOT NULL DEFAULT '0' COMMENT '平均直流电压',", s)
s = fmt.Sprintf("%s `idc_total` float(4, 1) NOT NULL DEFAULT '0' COMMENT '总直流电流',", s)
s = fmt.Sprintf("%s `dcpower_total` float(9, 1) NOT NULL DEFAULT '0' COMMENT '总直流功率',", s)
s = fmt.Sprintf("%s `vac_r` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'R相电压',", s)
s = fmt.Sprintf("%s `iac_r` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'R相电流',", s)
s = fmt.Sprintf("%s `acpower_r` float(8, 1) NOT NULL DEFAULT '0' COMMENT 'R相输出功率',", s)
s = fmt.Sprintf("%s `fac_r` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'R相频率',", s)
s = fmt.Sprintf("%s `vac_s` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'S相电压',", s)
s = fmt.Sprintf("%s `iac_s` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'S相电流',", s)
s = fmt.Sprintf("%s `acpower_s` float(8, 1) NOT NULL DEFAULT '0' COMMENT 'S相输出功率',", s)
s = fmt.Sprintf("%s `fac_s` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'S相频率',", s)
s = fmt.Sprintf("%s `vac_t` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'T相电压',", s)
s = fmt.Sprintf("%s `iac_t` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'T相电流',", s)
s = fmt.Sprintf("%s `acpower_t` float(8, 1) NOT NULL DEFAULT '0' COMMENT 'T相输出功率',", s)
s = fmt.Sprintf("%s `fac_t` float(5, 2) NOT NULL DEFAULT '0' COMMENT 'T相频率',", s)
s = fmt.Sprintf("%s `aver_vac` float(4, 1) NOT NULL DEFAULT '0' COMMENT '平均交流电压',", s)
s = fmt.Sprintf("%s `ac_active_power_total` float(8, 2) NOT NULL DEFAULT '0' COMMENT '总有功功率',", s)
s = fmt.Sprintf("%s `iac_total` float(4, 1) NOT NULL DEFAULT '0' COMMENT '总交流电流',", s)
s = fmt.Sprintf("%s `vac_balance` float(5, 2) NOT NULL DEFAULT '0' COMMENT '交流电压三相平衡度',", s)
s = fmt.Sprintf("%s `iac_balance` float(5, 2) NOT NULL DEFAULT '0' COMMENT '交流直流三相平衡度',", s)
s = fmt.Sprintf("%s `fgrid` float(5, 2) NOT NULL DEFAULT '0' COMMENT '电网频率',", s)
s = fmt.Sprintf("%s `efficiency` float(7, 3) NOT NULL DEFAULT '0' COMMENT '逆变器效率',", s)
s = fmt.Sprintf("%s `simu_kwh5_min` float(7, 2) NOT NULL DEFAULT '0' COMMENT '五分钟模拟发电量'", s)
s = fmt.Sprintf("%s ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='%d年%02d月份所有逆变器实时运行数据表';", s, year, month)
//fmt.Println("s=", s)
o := orm.NewOrm()
_, err := o.Raw(s).Exec()
if err == nil {
utils.WriteDebugLog("Create %s table ...... DONE", tableName)
fmt.Println("Create %s table SUCCESS!", tableName)
} else {
fmt.Printf("Create err=%v\n", err)
fmt.Println("Create table ERROR!")
utils.WriteErrorLog("Create %s table ...... ERROR", tableName)
}
}
