#光伏数据bug修复

hzims-service/hzims-scheduled/src/main/java/com/hnac/hzims/scheduled/service/operation/home/impl/RealTargetServiceImpl.java

@@ -447,6 +447,9 @@ public class RealTargetServiceImpl implements RealTargetService {
 			real.setState(this.getPhotovoltaicState(device, map));
 			// 容量
 			real.setCapacity(device.getInstalledCapacity());
+			if(MapUtils.isEmpty(device.getPoint())){
+				return real;
+			}
 			// 发电量
 			real.setGenerate(this.getSignageValue(device, map, HomePageConstant.PV_GENERATION_CAPACITY));
 			// 功率
@@ -585,6 +588,9 @@ public class RealTargetServiceImpl implements RealTargetService {
 		// 接入站点设备统计
 		devices.forEach(device -> {
 			PhotovoltaicTargetVo target = new PhotovoltaicTargetVo();
+			if(MapUtils.isEmpty(device.getPoint())){
+				return;
+			}
 			target.setDeptId(device.getCreateDept());
 			target.setDeviceCode(device.getEmCode());
 			target.setDeviceName(device.getName());

hzims-service/operational/src/main/java/com/hnac/hzims/operational/main/service/impl/PhotovoltaicServiceImpl.java

@@ -698,7 +698,7 @@ public class PhotovoltaicServiceImpl implements PhotovoltaicService {
                 // 容量
                 kpi.setInstalledCapacity(reals.stream().mapToDouble(PhotovoltaicRealVo::getCapacity).sum());
                 // 负荷
-                kpi.setLoad(reals.stream().mapToDouble(PhotovoltaicRealVo::getLoad).sum());
+                kpi.setLoad(reals.stream().filter(o-> !ObjectUtil.isEmpty(o.getLoad())).mapToDouble(PhotovoltaicRealVo::getLoad).sum());
             }
         }
         // 指标数据
@@ -945,7 +945,7 @@ public class PhotovoltaicServiceImpl implements PhotovoltaicService {
                 subordinate.setStationCount((long) entry.getValue().size());
                 subordinate.setStationUseCount(reals.stream().filter(device -> device.getState() == 1).map(PhotovoltaicRealVo::getDeptId).distinct().count());
                 subordinate.setCapacity(reals.stream().mapToDouble(PhotovoltaicRealVo::getCapacity).sum());
-                subordinate.setLoad(reals.stream().mapToDouble(PhotovoltaicRealVo::getLoad).sum());
+                subordinate.setLoad(reals.stream().filter(o-> !ObjectUtil.isEmpty(o.getLoad())).mapToDouble(PhotovoltaicRealVo::getLoad).sum());
             }
             // 区域/站点 设备指标数据
             if (deviceTargets != null) {
@@ -1514,31 +1514,35 @@ public class PhotovoltaicServiceImpl implements PhotovoltaicService {
             return;
         }
         // 容量
-        photovoltaic.setCapacity(photovoltaic.getDevices().stream().mapToDouble(PhotovoltaicDeviceVo::getCapacity).sum());
+        photovoltaic.setCapacity(photovoltaic.getDevices().stream().filter(o->!ObjectUtil.isEmpty(o.getCapacity())).mapToDouble(PhotovoltaicDeviceVo::getCapacity).sum());
         // 总发电量
-        photovoltaic.setGenerate(photovoltaic.getDevices().stream().mapToDouble(PhotovoltaicDeviceVo::getGenerate).sum());
+        photovoltaic.setGenerate(photovoltaic.getDevices().stream().filter(o->!ObjectUtil.isEmpty(o.getGenerate())).mapToDouble(PhotovoltaicDeviceVo::getGenerate).sum());
-        // 收益
+        //  // 收益
+        if(ObjectUtil.isEmpty(photovoltaic.getGenerate())){
+            photovoltaic.setIncome(0.0);
+        }else{
             photovoltaic.setIncome(photovoltaic.getGenerate() * 0.34);
+        }
         // 年发电量
-        photovoltaic.setGenerateYear(photovoltaic.getDevices().stream().mapToDouble(PhotovoltaicDeviceVo::getGenerateYear).sum());
+        photovoltaic.setGenerateYear(photovoltaic.getDevices().stream().filter(o->!ObjectUtil.isEmpty(o.getGenerateYear())).mapToDouble(PhotovoltaicDeviceVo::getGenerateYear).sum());
         // 月发电量
-        photovoltaic.setGenerateMon(photovoltaic.getDevices().stream().mapToDouble(PhotovoltaicDeviceVo::getGenerateMon).sum());
+        photovoltaic.setGenerateMon(photovoltaic.getDevices().stream().filter(o->!ObjectUtil.isEmpty(o.getGenerateMon())).mapToDouble(PhotovoltaicDeviceVo::getGenerateMon).sum());
         // 日发电量
-        photovoltaic.setGenerateDay(photovoltaic.getDevices().stream().mapToDouble(PhotovoltaicDeviceVo::getGenerateDay).sum());
+        photovoltaic.setGenerateDay(photovoltaic.getDevices().stream().filter(o->!ObjectUtil.isEmpty(o.getGenerateDay())).mapToDouble(PhotovoltaicDeviceVo::getGenerateDay).sum());
         // 功率
-        photovoltaic.setLoad(photovoltaic.getDevices().stream().mapToDouble(PhotovoltaicDeviceVo::getLoad).sum());
+        photovoltaic.setLoad(photovoltaic.getDevices().stream().filter(o->!ObjectUtil.isEmpty(o.getLoad())).mapToDouble(PhotovoltaicDeviceVo::getLoad).sum());
-        double generationDay = photovoltaic.getDevices().stream().mapToDouble(PhotovoltaicDeviceVo::getGenerateDay).sum();
+        double generationDay = photovoltaic.getDevices().stream().filter(o->!ObjectUtil.isEmpty(o.getGenerateDay())).mapToDouble(PhotovoltaicDeviceVo::getGenerateDay).sum();
-        double generationYesterday = photovoltaic.getDevices().stream().mapToDouble(PhotovoltaicDeviceVo::getGenerationYesterday).sum();
+        double generationYesterday = photovoltaic.getDevices().stream().filter(o->!ObjectUtil.isEmpty(o.getGenerationYesterday())).mapToDouble(PhotovoltaicDeviceVo::getGenerationYesterday).sum();
         // 环比发电量
-        if (Math.abs(generationDay) <= 0 || Math.abs(generationYesterday) <= 0) {
+        if (ObjectUtil.isEmpty(generationDay) || ObjectUtil.isEmpty(generationYesterday) || Math.abs(generationDay) <= 0 || Math.abs(generationYesterday) <= 0) {
             photovoltaic.setGenerateDayRatio(0.0);
         } else {
             photovoltaic.setGenerateDayRatio(BigDecimal.valueOf((generationDay - generationYesterday) / generationYesterday * 100).setScale(2, BigDecimal.ROUND_HALF_UP).doubleValue());
         }
-        double load = photovoltaic.getDevices().stream().mapToDouble(PhotovoltaicDeviceVo::getLoad).sum();
+        double load = photovoltaic.getDevices().stream().filter(o->!ObjectUtil.isEmpty(o.getLoad())).mapToDouble(PhotovoltaicDeviceVo::getLoad).sum();
-        double lastLoad = photovoltaic.getDevices().stream().mapToDouble(PhotovoltaicDeviceVo::getLastLoad).sum();
+        double lastLoad = photovoltaic.getDevices().stream().filter(o->!ObjectUtil.isEmpty(o.getLastLoad())).mapToDouble(PhotovoltaicDeviceVo::getLastLoad).sum();
         // 环比功率
-        if (Math.abs(load) <= 0 || Math.abs(lastLoad) <= 0) {
+        if (ObjectUtil.isEmpty(load) || ObjectUtil.isEmpty(lastLoad) || Math.abs(load) <= 0 || Math.abs(lastLoad) <= 0) {
             photovoltaic.setLoadRatio(0.0);
         } else {
             photovoltaic.setLoadRatio(BigDecimal.valueOf((load - lastLoad) / lastLoad * 100).setScale(2, BigDecimal.ROUND_HALF_UP).doubleValue());
@@ -1709,7 +1713,7 @@ public class PhotovoltaicServiceImpl implements PhotovoltaicService {
                 // 串流电压12
                 item.setSe_voltage_twelve(mateReals.get(0).getSe_voltage_twelve());
                 // 环比功率
-                if (Math.abs(mateReals.get(0).getLoad()) <= 0 || mateReals.get(0).getLastLoad() <= 0) {
+                if (ObjectUtil.isEmpty(mateReals.get(0).getLoad()) || ObjectUtil.isEmpty(mateReals.get(0).getLastLoad()) || Math.abs(mateReals.get(0).getLoad()) <= 0 || mateReals.get(0).getLastLoad() <= 0) {
                     item.setLoadRatio(0.0);
                 } else {
                     item.setLoadRatio(BigDecimal.valueOf((mateReals.get(0).getLoad() - mateReals.get(0).getLastLoad()) / mateReals.get(0).getLastLoad() * 100).setScale(2, BigDecimal.ROUND_HALF_UP).doubleValue());