underway-spring.git

			@@ -1,18 +1,15 @@
			package com.flightfeather.uav.lightshare.service.impl

			import com.flightfeather.uav.common.utils.DateUtil
			import com.flightfeather.uav.biz.dataprocess.ElectricDailyAnalysis
			import com.flightfeather.uav.domain.entity.CompanyDevice
			import com.flightfeather.uav.domain.entity.ElectricMinuteValue
			import com.flightfeather.uav.domain.entity.toAirData
			import com.flightfeather.uav.domain.mapper.CompanyDeviceMapper
			import com.flightfeather.uav.domain.mapper.ElectricMinuteValueMapper
			import com.flightfeather.uav.lightshare.bean.BaseResponse
			import com.flightfeather.uav.lightshare.bean.DataHead
			import com.flightfeather.uav.lightshare.bean.DataVo
			import com.flightfeather.uav.lightshare.bean.ElectricVo
			import com.flightfeather.uav.lightshare.bean.*
			import com.flightfeather.uav.lightshare.eunm.ElectricityType
			import com.flightfeather.uav.lightshare.service.ElectricityService
			import com.flightfeather.uav.socket.bean.AirData
			import com.github.pagehelper.PageHelper
			import org.springframework.stereotype.Service
			import tk.mybatis.mapper.entity.Example
			@@ -20,6 +17,7 @@
			import java.time.LocalDateTime
			import java.time.ZoneId
			import java.time.format.DateTimeFormatter
			import java.time.format.DateTimeParseException

			@Service
			class ElectricityServiceImpl(
			@@ -28,11 +26,9 @@

			private var dateFormatter = SimpleDateFormat("yyyy-MM-dd HH:mm:ss")
			private var dateFormatter2 = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm")
			private var dateFormatter3 = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm:ss")

			override fun getMinuteData(
			deviceCode: String, startTime: String?,
			endTime: String?, page: Int?, perPage: Int?
			): BaseResponse<List<ElectricMinuteValue>> {
			override fun getMinuteData(deviceCode: String, startTime: String?, endTime: String?, page: Int?, perPage: Int?): BaseResponse<List<ElectricMinuteValue>> {
			val perP = perPage ?: 60
			val p = page ?: 1
			val sTime = startTime?.let { dateFormatter.parse(it) }
			@@ -132,11 +128,13 @@
			if (startTime == null && endTime == null) {
			dataList1.reverse()
			}
			pageInfo = PageHelper.startPage<ElectricMinuteValue>(p, perP)
			if (dataList1.isEmpty()) return BaseResponse(true, data = result)

			// pageInfo = PageHelper.startPage<ElectricMinuteValue>(p, perP)
			val dataList2 = electricMinuteValueMapper.selectByExample(Example(ElectricMinuteValue::class.java).apply {
			createCriteria().andEqualTo("mvStatCode", d2?.cdDeviceCode)
			.apply {
			sTime?.let { andGreaterThanOrEqualTo("mvDataTime", it) }
			andGreaterThanOrEqualTo("mvDataTime", sTime ?: dataList1[0].mvDataTime)
			eTime?.let { andLessThanOrEqualTo("mvDataTime", it) }
			}
			orderBy("mvDataTime").apply {
			@@ -178,78 +176,198 @@
			null
			}

			var lsT = LocalDateTime.ofInstant(sT?.toInstant(), ZoneId.systemDefault()).withSecond(0)
			val leT = LocalDateTime.ofInstant(eT?.toInstant(), ZoneId.systemDefault()).withSecond(0)
			if (sT == null \|\| eT == null) {
			return BaseResponse(true, data = result)
			}

			if (sT != null && eT != null) {
			while (!lsT.isAfter(leT)) {
			var lsT = LocalDateTime.ofInstant(sT.toInstant(), ZoneId.systemDefault()).withSecond(0)
			val leT = LocalDateTime.ofInstant(eT.toInstant(), ZoneId.systemDefault()).withSecond(0)

			// 根据两台设备的最长起始时间，计算其中每一分钟的对应均值
			while (!lsT.isAfter(leT)) {
			// FIXME: 2021/11/22 此处由于前端设备的采样时间不标准，采样周期并不是严格的1分钟，导致采样时间有时会缺少1分钟的数据
			// FIXME: 2021/11/22 因此，当某一分钟该设备数据轮空时，采用前一个数据作为填充
			val data1 = if (dataList1.isNotEmpty()) dataList1[0] else null
			val t1 = data1?.let { LocalDateTime.ofInstant(it.mvDataTime?.toInstant(), ZoneId.systemDefault()).withSecond(0) }
			val data2 = if (dataList2.isNotEmpty()) dataList2[0] else null
			val t2 = data2?.let { LocalDateTime.ofInstant(it.mvDataTime?.toInstant(), ZoneId.systemDefault()).withSecond(0) }
			if ((data1 == null \|\| !lsT.isEqual(t1))
			&& (data2 == null \|\| !lsT.isEqual(t2))
			) {

			} else {
			// 两台设备的数据根据时间合并为一个结构体
			val vo = ElectricVo(lsT.format(dateFormatter2))
			if (dataList1.isNotEmpty()) {
			val d = dataList1[0]
			val t = LocalDateTime.ofInstant(d?.mvDataTime?.toInstant(), ZoneId.systemDefault()).withSecond(0)
			if (lsT.isEqual(t)) {
			if (data1 == null \|\| !lsT.isEqual(t1)) {
			result.lastOrNull()?.let {
			vo.apply {
			d1eA = d?.mvElectricityA ?: .0
			d1eB = d?.mvElectricityB ?: .0
			d1eC = d?.mvElectricityC ?: .0
			val s = getStatus(d, d1)
			d1Status = s.first
			d1StatusName = s.second
			d1eA = it.d1eA
			d1eB = it.d1eB
			d1eC = it.d1eC
			d1Status = it.d1Status
			d1StatusName = it.d1StatusName
			d1Avg = it.d1Avg
			}
			dataList1.removeAt(0)
			}
			}
			if (dataList2.isNotEmpty()) {
			val d = dataList2[0]
			val t = LocalDateTime.ofInstant(d?.mvDataTime?.toInstant(), ZoneId.systemDefault()).withSecond(0)
			if (lsT.isEqual(t)) {
			vo.apply {
			d2eA = d?.mvElectricityA ?: .0
			d2eB = d?.mvElectricityB ?: .0
			d2eC = d?.mvElectricityC ?: .0
			val s = getStatus(d, d2)
			d2Status = s.first
			d2StatusName = s.second
			}
			dataList2.removeAt(0)
			} else {
			vo.apply {
			d1eA = data1.mvElectricityA ?: .0
			d1eB = data1.mvElectricityB ?: .0
			d1eC = data1.mvElectricityC ?: .0
			val s = ElectricDailyAnalysis.getStatus(data1, d1)
			d1Status = s.first
			d1StatusName = s.second
			d1Avg = s.third
			}
			dataList1.removeAt(0)
			}
			result.add(vo)

			lsT = lsT.plusMinutes(1)
			if (data2 == null \|\| !lsT.isEqual(t2)) {
			result.lastOrNull()?.let {
			vo.apply {
			d2eA = it.d2eA
			d2eB = it.d2eB
			d2eC = it.d2eC
			d2Status = it.d2Status
			d2StatusName = it.d2StatusName
			d2Avg = it.d2Avg
			}
			}
			} else {
			vo.apply {
			d2eA = data2.mvElectricityA ?: .0
			d2eB = data2.mvElectricityB ?: .0
			d2eC = data2.mvElectricityC ?: .0
			val s = ElectricDailyAnalysis.getStatus(data2, d2)
			d2Status = s.first
			d2StatusName = s.second
			d2Avg = s.third
			}
			dataList2.removeAt(0)
			}

			result.add(vo)
			}
			// if (dataList1.isNotEmpty()) {
			// val d = dataList1[0]
			// val t = LocalDateTime.ofInstant(d?.mvDataTime?.toInstant(), ZoneId.systemDefault()).withSecond(0)
			// if (lsT.isEqual(t)) {
			// vo.apply {
			// d1eA = d?.mvElectricityA ?: .0
			// d1eB = d?.mvElectricityB ?: .0
			// d1eC = d?.mvElectricityC ?: .0
			// val s = ElectricDailyAnalysis.getStatus(d, d1)
			// d1Status = s.first
			// d1StatusName = s.second
			// d1Avg = s.third
			// }
			// dataList1.removeAt(0)
			// } else {
			// result.lastOrNull()?.let {
			// vo.apply {
			// d1eA = it.d1eA
			// d1eB = it.d1eB
			// d1eC = it.d1eC
			// d1Status = it.d1Status
			// d1StatusName = it.d1StatusName
			// d1Avg = it.d1Avg
			// }
			// }
			// }
			// } else {
			// result.lastOrNull()?.let {
			// vo.apply {
			// d1eA = it.d1eA
			// d1eB = it.d1eB
			// d1eC = it.d1eC
			// d1Status = it.d1Status
			// d1StatusName = it.d1StatusName
			// d1Avg = it.d1Avg
			// }
			// }
			// }
			// if (dataList2.isNotEmpty()) {
			// val d = dataList2[0]
			// val t = LocalDateTime.ofInstant(d?.mvDataTime?.toInstant(), ZoneId.systemDefault()).withSecond(0)
			// if (lsT.isEqual(t)) {
			// vo.apply {
			// d2eA = d?.mvElectricityA ?: .0
			// d2eB = d?.mvElectricityB ?: .0
			// d2eC = d?.mvElectricityC ?: .0
			// val s = ElectricDailyAnalysis.getStatus(d, d2)
			// d2Status = s.first
			// d2StatusName = s.second
			// d2Avg = s.third
			// }
			// dataList2.removeAt(0)
			// } else {
			// result.lastOrNull()?.let {
			// vo.apply {
			// d2eA = it.d2eA
			// d2eB = it.d2eB
			// d2eC = it.d2eC
			// d2Status = it.d2Status
			// d2StatusName = it.d2StatusName
			// d2Avg = it.d2Avg
			// }
			// }
			// }
			// } else {
			// result.lastOrNull()?.let {
			// vo.apply {
			// d2eA = it.d2eA
			// d2eB = it.d2eB
			// d2eC = it.d2eC
			// d2Status = it.d2Status
			// d2StatusName = it.d2StatusName
			// d2Avg = it.d2Avg
			// }
			// }
			// }

			lsT = lsT.plusMinutes(1)
			}

			return BaseResponse(true, head = DataHead(pageInfo.pageNum, pageInfo.pages), data = result)
			}

			// FIXME: 2021/11/5 此处暂时写死，后续修改
			private fun getStatus(e: ElectricMinuteValue?, d: CompanyDevice?): Pair<String, String> {
			var values = mutableListOf<Int>().apply {
			d?.cdLimits?.split(";")?.forEach {
			it.toIntOrNull()?.let { i -> add(i) }
			override fun dailyAnalysis(cId: String, startTime: String?, endTime: String?): BaseResponse<List<ElectricDailyInfo>> {
			// 根据企业id获取对应设备
			val devices = companyDeviceMapper.selectByExample(Example(CompanyDevice::class.java).apply {
			createCriteria().andEqualTo("cdCompanyId", cId)
			})
			val deviceCodeList = mutableListOf<String>()
			devices.forEach { it?.let { deviceCodeList.add(it.cdDeviceCode) }}

			val st:LocalDateTime
			val et:LocalDateTime
			// 当没有开始或结束时间时，使用最新一条数据时间的当天作为统计时间
			if (startTime == null \|\| endTime == null) {
			val em = electricMinuteValueMapper.selectOneByExample(Example(ElectricMinuteValue::class.java).apply {
			createCriteria().andIn("mvStatCode", deviceCodeList)
			orderBy("mvDataTime").desc()
			})
			val dataTime = LocalDateTime.ofInstant(em?.mvDataTime?.toInstant(), ZoneId.systemDefault())
			st = dataTime.withHour(0).withMinute(0).withSecond(0)
			et = dataTime.withHour(23).withMinute(59).withSecond(59)
			}
			// 当有开始结束时间时，判断格式是否正确
			else {
			try {
			st = LocalDateTime.parse("$startTime 00:00:00", dateFormatter3)
			et = LocalDateTime.parse("$endTime 23:59:59", dateFormatter3)
			} catch (e: DateTimeParseException) {
			return BaseResponse(false, "时间格式错误，应为yyyy-MM-dd")
			}
			}
			var status = d?.cdStatus?.split(";") ?: emptyList()
			var statusNames = d?.cdStatusName?.split(";") ?: emptyList()
			if (values.isEmpty()) values = mutableListOf(1, 100)
			if (status.isEmpty()) status = listOf("0", "2", "3")
			if (statusNames.isEmpty()) statusNames = listOf("待机", "运行", "超负荷")
			if (e == null) {
			return Pair(status.first(), statusNames.first())
			}

			val electricityList = mutableListOf<Double>()
			electricityList.add(e.mvElectricityA)
			electricityList.add(e.mvElectricityB)
			electricityList.add(e.mvElectricityC)
			val dataList = electricMinuteValueMapper.selectByExample(Example(ElectricMinuteValue::class.java).apply {
			createCriteria().andIn("mvStatCode", deviceCodeList)
			.andBetween("mvDataTime", st, et)
			orderBy("mvDataTime")
			})
			val result = ElectricDailyAnalysis.analysis(devices, dataList)

			val avg = electricityList.average()
			for (i in values.indices) {
			if (avg < values[i]) {
			return Pair(status[i], statusNames[i])
			}
			}
			return Pair(status.last(), statusNames.last())
			return BaseResponse(true, data = result)
			}
			}