moral.git - Gitblit

			@@ -18,6 +18,7 @@
			import com.moral.api.pojo.vo.uav.UAVQueryTimeSlotVO;
			import com.moral.api.pojo.vo.uav.UAVQueryTimeSlotVOs;
			import com.moral.api.service.HistorySecondUavService;
			import com.moral.api.service.UAVService;
			import com.moral.constant.ResponseCodeEnum;
			import com.moral.constant.ResultMessage;
			import com.moral.util.DateUtils;
			@@ -25,14 +26,11 @@
			import lombok.extern.slf4j.Slf4j;
			import org.springframework.beans.factory.annotation.Autowired;
			import org.springframework.beans.factory.annotation.Value;
			import org.springframework.web.bind.annotation.CrossOrigin;
			import org.springframework.web.bind.annotation.PostMapping;
			import org.springframework.web.bind.annotation.RequestBody;
			import org.springframework.web.bind.annotation.RequestMapping;
			import org.springframework.web.bind.annotation.RestController;
			import org.springframework.web.bind.annotation.*;

			import java.awt.geom.GeneralPath;
			import java.awt.geom.Point2D;
			import java.math.BigDecimal;
			import java.text.DecimalFormat;
			import java.util.*;
			import java.util.stream.Collectors;
			@@ -55,6 +53,8 @@
			HistorySecondUavService historySecondUavService;
			@Autowired
			HistorySecondUavMapper historySecondUavMapper;
			@Autowired
			UAVService uavService;

			/**
			* @Description: 根据批次号查询无人机飞行数据
			@@ -75,279 +75,16 @@
			return new ResultMessage(ResponseCodeEnum.SUCCESS.getCode(), ResponseCodeEnum.SUCCESS.getMsg(),vo);
			}

			@PostMapping("test")
			@PostMapping("getUav")
			public ResultMessage test(@RequestBody Map<String, Object> params){
			//判断是否缺少参数
			if (!params.containsKey("mac") \|\| !params.containsKey("batch") \|\| !params.containsKey("height1")\|\| !params.containsKey("uvasize")\|\| !params.containsKey("height2")) {
			return ResultMessage.fail(ResponseCodeEnum.PARAMETERS_IS_MISSING.getCode(), ResponseCodeEnum.PARAMETERS_IS_MISSING.getMsg());
			}
			String uvasize = params.get("uvasize").toString();
			int size = Integer.parseInt(uvasize);
			//纬度
			ArrayList<Double> flyLatList = new ArrayList<>();
			//经度
			ArrayList<Double> flyLonList = new ArrayList<>();

			List<HistorySecondUav> historySecondUavs = historySecondUavMapper.reList(params);
			ArrayList<UAVGetBD> rsBDList = new ArrayList<>();
			for (HistorySecondUav historySecondUav : historySecondUavs) {
			UAVGetBD uavGetBD = new UAVGetBD();
			String value = historySecondUav.getValue();
			JSONObject jsonObject = JSONObject.parseObject(value);

			String flylon = jsonObject.get("flylon").toString();
			String flylat = jsonObject.get("flylat").toString();
			//WGS84 转百度坐标
			double[] doubles = transformWGS84ToBD09(Double.parseDouble(flylon), Double.parseDouble(flylat));
			uavGetBD.setFlyLon(doubles[0]);
			uavGetBD.setFlyLat(doubles[1]);
			uavGetBD.setTime(DateUtils.dateToDateString(historySecondUav.getTime()));
			uavGetBD.setValue(value);
			rsBDList.add(uavGetBD);
			// flyLatList.add(Double.parseDouble(flylat));
			// flyLonList.add(Double.parseDouble(flylon));
			flyLatList.add(doubles[1]);
			flyLonList.add(doubles[0]);
			List<UAVResultDTO> uavResultDTOS = uavService.getUav(params);
			if (ObjectUtils.isEmpty(uavResultDTOS)){
			return new ResultMessage(ResponseCodeEnum.SENSOR_IS_NOT_EXIST,"null");
			}
			if (ObjectUtils.isEmpty(historySecondUavs)){
			return new ResultMessage(ResponseCodeEnum.TARGET_IS_NULL,"null");
			}
			//获取最大最小的经纬度
			Double maxLat = Collections.max(flyLatList);
			Double maxLon = Collections.max(flyLonList);
			Double minLat = Collections.min(flyLatList);
			Double minLon = Collections.min(flyLonList);
			//大四边形右下
			// String leftTop = minLat +";"+ maxLon;
			//右上
			// String rightTop = maxLat +";"+ maxLon;
			//左下
			// String leftBottom = minLat +";" + minLon;
			//左上
			// String rightBottom = maxLat +";" + minLon;
			//计算纬度的距离
			double distance1 = getDistance(maxLon, minLat, maxLon, maxLat);
			//计算经度的距离
			double distance2 = getDistance(maxLon, minLat, minLon, minLat);
			ArrayList<UAVGteForDTO> list = new ArrayList<>();
			//小四边形

			// String [] lefts =new String[]{maxLon.toString(),minLat.toString()};
			//右上2
			String[] youshang = calLocationByDistanceAndLocationAndDirection(90, minLon, maxLat, size);
			//右下2
			String[] youxia = calLocationByDistanceAndLocationAndDirection(180, Double.parseDouble(youshang[0]), Double.parseDouble(youshang[1]), size);
			//左下2
			String[] zuoxia = calLocationByDistanceAndLocationAndDirection(180, minLon, maxLat, size);

			for (int i = 0; i <distance2 ; i+=size) {
			UAVGteForDTO dto1 = new UAVGteForDTO();
			String[] strings2 = calLocationByDistanceAndLocationAndDirection(90, minLon, maxLat, i);
			String[] strings3 = calLocationByDistanceAndLocationAndDirection(90, Double.parseDouble(youshang[0].toString()), Double.parseDouble(youshang[1].toString()), i);
			String[] strings4 = calLocationByDistanceAndLocationAndDirection(90, Double.parseDouble(youxia[0].toString()), Double.parseDouble(youxia[1].toString()), i);
			String[] strings5 = calLocationByDistanceAndLocationAndDirection(90, Double.parseDouble(zuoxia[0].toString()), Double.parseDouble(zuoxia[1].toString()), i);
			dto1.setLeftTop(strings2);
			dto1.setRightTop(strings3);
			dto1.setRightBottom(strings4);
			dto1.setLeftBottom(strings5);
			list.add(dto1);
			for (int j = 0; j < distance1; j+=size) {
			UAVGteForDTO dto2 = new UAVGteForDTO();
			String[] strings6 = calLocationByDistanceAndLocationAndDirection(180, Double.parseDouble(strings2[0].toString()), Double.parseDouble(strings2[1].toString()), j);
			String[] strings7 = calLocationByDistanceAndLocationAndDirection(180, Double.parseDouble(strings3[0].toString()), Double.parseDouble(strings3[1].toString()), j);
			String[] strings8 = calLocationByDistanceAndLocationAndDirection(180, Double.parseDouble(strings4[0].toString()), Double.parseDouble(strings4[1].toString()), j);
			String[] strings9 = calLocationByDistanceAndLocationAndDirection(180, Double.parseDouble(strings5[0].toString()), Double.parseDouble(strings5[1].toString()), j);
			dto2.setLeftTop(strings6);
			dto2.setRightTop(strings7);
			dto2.setRightBottom(strings8);
			dto2.setLeftBottom(strings9);
			if (j!=0){
			list.add(dto2);
			}
			}
			}
			HashMap<String,List<String>> rsMap = new HashMap<>();
			List<String> stringList = new ArrayList<>();
			for (UAVGteForDTO uavGteForDTO : list) {
			ArrayList<String> list1 = new ArrayList<>();
			ArrayList<String[]> doubleArrayList = new ArrayList<>();
			doubleArrayList.add(uavGteForDTO.getLeftTop());
			doubleArrayList.add(uavGteForDTO.getLeftBottom());
			doubleArrayList.add(uavGteForDTO.getRightTop());
			doubleArrayList.add(uavGteForDTO.getRightBottom());
			String[] leftTops = uavGteForDTO.getLeftTop();
			String[] rightBottoms = uavGteForDTO.getRightBottom();
			Double x1 = Double.parseDouble(leftTops[0]);
			Double x2 = Double.parseDouble(rightBottoms[0]);
			Double y1 = Double.parseDouble(leftTops[1]);
			Double y2 = Double.parseDouble(rightBottoms[1]);
			//获取区域对象
			// for (int i = 0; i < historySecondUavs.size(); i++) {
			// HistorySecondUav historySecondUav = historySecondUavs.get(i);
			// String value = historySecondUav.getValue();
			// Map map1 = JSON.parseObject(value, Map.class);
			// String flylat = map1.get("flylat").toString();
			// String flylon = map1.get("flylon").toString();
			// //判断点是否在区域内
			// boolean flag = isInPolygon(flylon,flylat,x1,x2,y1,y2);
			// if (flag){
			// String time = DateUtils.dateToDateString(historySecondUav.getTime());
			// //historySecondUavs.remove(i);
			// if(!stringList.contains(time)){
			// list1.add(historySecondUav.getValue());
			// stringList.add(time);
			// }
			// }
			// }
			for (UAVGetBD uavGetBD : rsBDList) {
			boolean flag = isInPolygon(uavGetBD.getFlyLon().toString(),uavGetBD.getFlyLat().toString(),x1,x2,y1,y2);
			if (flag){
			String time = uavGetBD.getTime();
			//historySecondUavs.remove(i);
			if(!stringList.contains(time)){
			list1.add(uavGetBD.getValue());
			stringList.add(time);
			}
			}
			}
			//获取中心点坐标
			String result = getResult(doubleArrayList);
			rsMap.put(result,list1);
			}

			//计算区域类所有因子的平均数
			ArrayList<UAVResultDTO> uavResultDTOS = new ArrayList<>();
			Set<String> strings = rsMap.keySet();
			for (String string : strings) {
			UAVResultDTO dto = new UAVResultDTO();
			List<String> list1 = rsMap.get(string);
			if (ObjectUtils.isEmpty(list1)){
			continue;
			}
			ArrayList<Double> TVOCArrayList = new ArrayList<>();
			ArrayList<Double> PM10ArrayList = new ArrayList<>();
			ArrayList<Double> PM25ArrayList = new ArrayList<>();
			ArrayList<Double> SOArrayList = new ArrayList<>();
			ArrayList<Double> NOArrayList = new ArrayList<>();
			ArrayList<Double> QYArrayList = new ArrayList<>();
			ArrayList<Double> COArrayList = new ArrayList<>();
			ArrayList<Double> WDArrayList = new ArrayList<>();
			ArrayList<Double> SHArrayList = new ArrayList<>();
			ArrayList<Double> O3ArrayList = new ArrayList<>();
			for (String s : list1) {
			JSONObject jsonObject = JSON.parseObject(s);
			//tvoc
			Object a99054 = jsonObject.get("a99054");
			if (!Objects.isNull(a99054)){
			TVOCArrayList.add(Double.parseDouble(a99054.toString()));
			}
			//pm2.5
			Object a34004 = jsonObject.get("a34004");
			if (!Objects.isNull(a34004)){
			PM25ArrayList.add(Double.parseDouble(a34004.toString()));
			}
			//二氧化硫
			Object a21026 = jsonObject.get("a21026");
			if (!Objects.isNull(a21026)){
			SOArrayList.add(Double.parseDouble(a21026.toString()));
			}

			//二氧化氮
			Object a21004 = jsonObject.get("a21004");
			if (!Objects.isNull(a21004)){
			NOArrayList.add(Double.parseDouble(a21004.toString()));
			}

			//气压
			Object a01006 = jsonObject.get("a01006");
			if (!Objects.isNull(a01006)){
			QYArrayList.add(Double.parseDouble(a01006.toString()));
			}
			//pm10
			Object a34002 = jsonObject.get("a34002");
			if (!Objects.isNull(a34002)){
			PM10ArrayList.add(Double.parseDouble(a34002.toString()));
			}
			//co
			Object a21005 = jsonObject.get("a21005");
			if (!Objects.isNull(a21005)){
			COArrayList.add(Double.parseDouble(a21005.toString()));
			}
			//湿度
			Object a01002 = jsonObject.get("a01002");
			if (!Objects.isNull(a01002)){
			QYArrayList.add(Double.parseDouble(a01002.toString()));
			}
			//温度
			Object a01001 = jsonObject.get("a01001");
			if (!Objects.isNull(a01001)){
			QYArrayList.add(Double.parseDouble(a01001.toString()));
			}
			//臭氧
			Object a05024 = jsonObject.get("a05024");
			if (!Objects.isNull(a05024)){
			O3ArrayList.add(Double.parseDouble(a05024.toString()));
			}

			}
			double WDDouble =0.0;
			double SHDouble =0.0;
			double QYDouble =0.0;
			double CODouble =0.0;
			double TVODouble =0.0;
			double PM10Double =0.0;
			double PM25Double =0.0;
			double SODouble =0.0;
			double NODouble =0.0;
			double O3Double =0.0;
			if (COArrayList.size()>0){
			CODouble = COArrayList.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
			}
			if (TVOCArrayList.size()>0){
			TVODouble = TVOCArrayList.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
			}
			if (PM10ArrayList.size()>0){
			PM10Double = PM10ArrayList.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
			}
			if (PM25ArrayList.size()>0){
			PM25Double = PM25ArrayList.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
			}
			if (SOArrayList.size()>0){
			SODouble = SOArrayList.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
			}
			if (NOArrayList.size()>0){
			NODouble = NOArrayList.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
			}
			if (WDArrayList.size()>0){
			WDDouble = WDArrayList.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
			}
			if (SHArrayList.size()>0){
			SHDouble = SHArrayList.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
			}
			if (QYArrayList.size()>0){
			QYDouble = QYArrayList.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
			}
			if (O3ArrayList.size()>0){
			O3Double = O3ArrayList.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
			}

			dto.setA21005(CODouble);
			dto.setA21004(NODouble);
			dto.setA05024(O3Double);
			dto.setA99054(TVODouble);
			dto.setA34002(PM10Double);
			dto.setA34004(PM25Double);
			dto.setA21026(SODouble);
			dto.setA01001(WDDouble);
			dto.setA01002(SHDouble);
			dto.setA01006(QYDouble);
			String[] s = string.split("_");
			dto.setFlyLat(Double.parseDouble(s[1]));
			dto.setFlyLon(Double.parseDouble(s[0]));
			uavResultDTOS.add(dto);
			}


			return new ResultMessage(ResponseCodeEnum.SUCCESS.getCode(), ResponseCodeEnum.SUCCESS.getMsg(),uavResultDTOS);
			}

			@@ -395,349 +132,10 @@
			return new ResultMessage(ResponseCodeEnum.SUCCESS.getCode(), ResponseCodeEnum.SUCCESS.getMsg(),vo);
			}

			private static final double EARTH_RADIUS = 6378137;

			private static final double R = 6371e3;
			/ 180° /
			private static final DecimalFormat df = new DecimalFormat("0.00000000");

			/**
			* 根据一点的坐标与距离，以及方向，计算另外一点的位置
			* @param angle 角度，从正北顺时针方向开始计算
			* @param startLong 起始点经度
			* @param startLat 起始点纬度
			* @param distance 距离，单位m
			* @return
			*/
			public static String[] calLocationByDistanceAndLocationAndDirection(double angle, double startLong,double startLat, double distance){
			String[] result = new String[2];
			//将距离转换成经度的计算公式
			double δ = distance/R;
			// 转换为radian，否则结果会不正确
			angle = Math.toRadians(angle);
			startLong = Math.toRadians(startLong);
			startLat = Math.toRadians(startLat);
			double lat = Math.asin(Math.sin(startLat)Math.cos(δ)+Math.cos(startLat)Math.sin(δ)*Math.cos(angle));
			double lon = startLong + Math.atan2(Math.sin(angle)Math.sin(δ)Math.cos(startLat),Math.cos(δ)-Math.sin(startLat)*Math.sin(lat));
			// 转为正常的10进制经纬度
			lon = Math.toDegrees(lon);
			lat = Math.toDegrees(lat);
			result[0] = df.format(lon);
			result[1] = df.format(lat);
			return result;
			}

			/**
			* 根据经纬度，计算两点间的距离
			*
			* @param longitude1 第一个点的经度
			* @param latitude1 第一个点的纬度
			* @param longitude2 第二个点的经度
			* @param latitude2 第二个点的纬度
			* @return 返回距离单位米
			*/
			public static double getDistance(double longitude1, double latitude1, double longitude2, double latitude2) {
			// 纬度
			double lat1 = Math.toRadians(latitude1);
			double lat2 = Math.toRadians(latitude2);
			// 经度
			double lng1 = Math.toRadians(longitude1);
			double lng2 = Math.toRadians(longitude2);
			// 纬度之差
			double a = lat1 - lat2;
			// 经度之差
			double b = lng1 - lng2;
			// 计算两点距离的公式
			double s = 2 * Math.asin(Math.sqrt(Math.pow(Math.sin(a / 2), 2) +
			Math.cos(lat1) * Math.cos(lat2) * Math.pow(Math.sin(b / 2), 2)));
			// 弧长乘地球半径, 返回单位: 米
			s = s * EARTH_RADIUS;
			return s;
			}

			//获取中心点
			public static String getResult(ArrayList<String[]> doubleArrayList){

			int total = doubleArrayList.size();
			double X = 0, Y = 0, Z = 0;
			for (int i = 0; i < total; i++) {
			double lat, lon, x, y, z;
			String[] strings = doubleArrayList.get(i);
			lon = Double.parseDouble(strings[0]) * Math.PI / 180;
			lat = Double.parseDouble(strings[1]) * Math.PI / 180;
			x = Math.cos(lat) * Math.cos(lon);
			y = Math.cos(lat) * Math.sin(lon);
			z = Math.sin(lat);
			X += x;
			Y += y;
			Z += z;
			}
			X = X / total;
			Y = Y / total;
			Z = Z / total;
			double Lon = Math.atan2(Y, X);
			double Hyp = Math.sqrt(X * X + Y * Y);
			double Lat = Math.atan2(Z, Hyp);
			DecimalFormat decimalFormat = new DecimalFormat("#.00000000");
			double rsLon = Lon * 180 / Math.PI;
			double rsLat = Lat * 180 / Math.PI;

			// double[] doubles = transformWGS84ToGCJ02(rsLon, rsLat);
			// String s = transformGCJ02ToBD09(doubles[0], doubles[1]);


			return decimalFormat.format(rsLon)+"_"+decimalFormat.format(rsLat);
			// return rsLon+"_"+rsLat;
			// return s;
			}


			//获取中心点
			public static UAVResultDTO getResults(ArrayList<String[]> doubleArrayList){
			UAVResultDTO uavResultDTO = new UAVResultDTO();
			int total = doubleArrayList.size();
			double X = 0, Y = 0, Z = 0;
			for (int i = 0; i < total; i++) {
			double lat, lon, x, y, z;
			String[] strings = doubleArrayList.get(i);
			lon = Double.parseDouble(strings[0]) * Math.PI / 180;
			lat = Double.parseDouble(strings[1]) * Math.PI / 180;
			x = Math.cos(lat) * Math.cos(lon);
			y = Math.cos(lat) * Math.sin(lon);
			z = Math.sin(lat);
			X += x;
			Y += y;
			Z += z;
			}
			X = X / total;
			Y = Y / total;
			Z = Z / total;
			double Lon = Math.atan2(Y, X);
			double Hyp = Math.sqrt(X * X + Y * Y);
			double Lat = Math.atan2(Z, Hyp);

			double rsLon = Lon * 180 / Math.PI;
			double rsLat = Lat * 180 / Math.PI;
			uavResultDTO.setFlyLon(rsLon);
			uavResultDTO.setFlyLat(rsLat);

			// return rsLon+"_"+rsLat;
			return uavResultDTO;
			}

			/**
			* 将经纬度点集合转换为GeneralPath对象
			*
			* @param points 点集合(有序)
			*
			* @return GeneralPath对象
			*/
			public static GeneralPath genGeneralPath(ArrayList<Point2D.Double> points) {
			GeneralPath path = new GeneralPath();

			if (points.size() < 3) {
			return null;
			}

			path.moveTo((float) points.get(0).getX(), (float) points.get(0).getY());

			for (Iterator<Point2D.Double> it = points.iterator(); it.hasNext();) {
			Point2D.Double point = (Point2D.Double) it.next();

			path.lineTo((float) point.getX(), (float) point.getY());
			}

			path.closePath();

			return path;
			}
			/**
			* 判断点是否在多边形内，如果点位于多边形的顶点或边上，也算做点在多边形内，直接返回true
			* @param point 检测点
			* @param pts 多边形的顶点
			* @return 点在多边形内返回true,否则返回false
			*/
			public static boolean IsPtInPoly(Point2D.Double point, List<Point2D.Double> pts){

			int N = pts.size();
			boolean boundOrVertex = true; //如果点位于多边形的顶点或边上，也算做点在多边形内，直接返回true
			int intersectCount = 0;//cross points count of x
			double precision = 2e-10; //浮点类型计算时候与0比较时候的容差
			Point2D.Double p1, p2;//neighbour bound vertices
			Point2D.Double p = point; //当前点

			p1 = pts.get(0);//left vertex
			for(int i = 1; i <= N; ++i){//check all rays
			if(p.equals(p1)){
			return boundOrVertex;//p is an vertex
			}

			p2 = pts.get(i % N);
			if(p.x < Math.min(p1.x, p2.x) \|\| p.x > Math.max(p1.x, p2.x)){
			p1 = p2;
			continue;
			}

			if(p.x > Math.min(p1.x, p2.x) && p.x < Math.max(p1.x, p2.x)){
			if(p.y <= Math.max(p1.y, p2.y)){
			if(p1.x == p2.x && p.y >= Math.min(p1.y, p2.y)){
			return boundOrVertex;
			}

			if(p1.y == p2.y){
			if(p1.y == p.y){
			return boundOrVertex;
			}else{//before ray
			++intersectCount;
			}
			}else{
			double xinters = (p.x - p1.x) * (p2.y - p1.y) / (p2.x - p1.x) + p1.y;
			if(Math.abs(p.y - xinters) < precision){
			return boundOrVertex;
			}

			if(p.y < xinters){
			++intersectCount;
			}
			}
			}
			}else{
			if(p.x == p2.x && p.y <= p2.y){
			Point2D.Double p3 = pts.get((i+1) % N);
			if(p.x >= Math.min(p1.x, p3.x) && p.x <= Math.max(p1.x, p3.x)){
			++intersectCount;
			}else{
			intersectCount += 2;
			}
			}
			}
			p1 = p2;
			}

			if(intersectCount % 2 == 0){//偶数在多边形外
			return false;
			} else { //奇数在多边形内
			return true;
			}
			}

			/**
			* 判断当前位置是否在多边形区域内
			* @param
			* @param doubleArrayList 区域顶点
			* @return
			*/
			public static boolean isInPolygon(String X,String Y,ArrayList<String[]> doubleArrayList){

			double p_x =Double.parseDouble(X);
			double p_y =Double.parseDouble(Y);
			Point2D.Double point = new Point2D.Double(p_x, p_y);
			List<Point2D.Double> pointList= new ArrayList<Point2D.Double>();
			for (String[] strings : doubleArrayList) {
			double polygonPoint_x=Double.parseDouble(strings[0]);
			double polygonPoint_y=Double.parseDouble(strings[1]);
			Point2D.Double polygonPoint = new Point2D.Double(polygonPoint_x,polygonPoint_y);
			pointList.add(polygonPoint);
			}
			return IsPtInPoly(point,pointList);

			}

			public boolean isInPolygon(String X,String Y,double x1,double x2,double y1,double y2){
			boolean result = false;
			double x =Double.parseDouble(X);
			double y =Double.parseDouble(Y);
			if(x >= Math.min(x1, x2) && x <= Math.max(x1, x2) ){
			if(y >= Math.min(y1, y2) && y <= Math.max(y1, y2)){
			result = true;
			}
			}
			return result;

			}

			private static final double x_PI = 3.14159265358979324 * 3000.0 / 180.0;
			private static final double PI = 3.1415926535897932384626;
			private static final double a = 6378245.0;
			private static final double ee = 0.00669342162296594323;
			/**
			* WGS84 坐标转 GCJ02
			*
			* @param lng 经度
			* @param lat 纬度
			* @return GCJ02 坐标：[经度，纬度]
			*/
			public static double[] transformWGS84ToGCJ02(double lng, double lat) {
			if (outOfChina(lng, lat)) {
			return new double[]{lng, lat};
			} else {
			double dLat = transformLat(lng - 105.0, lat - 35.0);
			double dLng = transformLng(lng - 105.0, lat - 35.0);
			double redLat = lat / 180.0 * PI;
			double magic = Math.sin(redLat);
			magic = 1 - ee * magic * magic;
			double sqrtMagic = Math.sqrt(magic);
			dLat = (dLat * 180.0) / ((a * (1 - ee)) / (magic * sqrtMagic) * PI);
			dLng = (dLng * 180.0) / (a / sqrtMagic * Math.cos(redLat) * PI);
			double mgLat = lat + dLat;
			double mgLng = lng + dLng;
			return new double[]{mgLng, mgLat};
			}
			}

			private static double transformLat(double lng, double lat) {
			double ret = -100.0 + 2.0 * lng + 3.0 * lat + 0.2 * lat * lat + 0.1 * lng * lat + 0.2 * Math.sqrt(Math.abs(lng));
			ret += (20.0 * Math.sin(6.0 * lng * PI) + 20.0 * Math.sin(2.0 * lng * PI)) * 2.0 / 3.0;
			ret += (20.0 * Math.sin(lat * PI) + 40.0 * Math.sin(lat / 3.0 * PI)) * 2.0 / 3.0;
			ret += (160.0 * Math.sin(lat / 12.0 * PI) + 320 * Math.sin(lat * PI / 30.0)) * 2.0 / 3.0;
			return ret;
			}

			private static double transformLng(double lng, double lat) {
			double ret = 300.0 + lng + 2.0 * lat + 0.1 * lng * lng + 0.1 * lng * lat + 0.1 * Math.sqrt(Math.abs(lng));
			ret += (20.0 * Math.sin(6.0 * lng * PI) + 20.0 * Math.sin(2.0 * lng * PI)) * 2.0 / 3.0;
			ret += (20.0 * Math.sin(lng * PI) + 40.0 * Math.sin(lng / 3.0 * PI)) * 2.0 / 3.0;
			ret += (150.0 * Math.sin(lng / 12.0 * PI) + 300.0 * Math.sin(lng / 30.0 * PI)) * 2.0 / 3.0;
			return ret;
			}
			/**
			* 判断坐标是否不在国内
			*
			* @param lng 经度
			* @param lat 纬度
			* @return 坐标是否在国内
			*/
			public static boolean outOfChina(double lng, double lat) {
			return (lng < 72.004 \|\| lng > 137.8347) \|\| (lat < 0.8293 \|\| lat > 55.8271);
			}

			/**
			* GCJ02 转百度坐标
			*
			* @param lng GCJ02 经度
			* @param lat GCJ02 纬度
			* @return 百度坐标：[经度，纬度]
			*/
			public static double[] transformGCJ02ToBD09(double lng, double lat) {
			double z = Math.sqrt(lng * lng + lat * lat) + 0.00002 * Math.sin(lat * x_PI);
			double theta = Math.atan2(lat, lng) + 0.000003 * Math.cos(lng * x_PI);
			double bd_lng = z * Math.cos(theta) + 0.0065;
			double bd_lat = z * Math.sin(theta) + 0.006;
			return new double[]{bd_lng, bd_lat};
			}


			/**
			* WGS84 转百度坐标BD09
			*
			* @param lng 经度
			* @param lat 纬度
			* @return BD09 坐标：[经度，纬度]
			*/
			public static double[] transformWGS84ToBD09(double lng, double lat) {
			double[] lngLat = transformWGS84ToGCJ02(lng, lat);

			return transformGCJ02ToBD09(lngLat[0], lngLat[1]);
			@GetMapping("UAVTest")
			public ResultMessage UAVTest(BigDecimal lat, BigDecimal lon, String batch){
			historySecondUavService.UAVTest(lat, lon, batch);
			return new ResultMessage();
			}

			}