rcs-flow.git - Gitblit

			@@ -1,24 +1,32 @@
			package com.zy.acs.manager.core.service;

			import com.alibaba.fastjson.JSONObject;
			import com.zy.acs.common.enums.AgvDirectionType;
			import com.zy.acs.framework.common.Cools;
			import com.zy.acs.manager.common.utils.MapDataUtils;
			import com.zy.acs.manager.core.constant.MapDataConstant;
			import com.zy.acs.manager.core.domain.SortCodeDto;
			import com.zy.acs.manager.core.domain.UnlockPathTask;
			import com.zy.acs.manager.core.service.astart.*;
			import com.zy.acs.manager.core.service.astart.domain.AStarNavigateNode;
			import com.zy.acs.manager.core.service.astart.domain.DynamicNode;
			import com.zy.acs.manager.core.service.floyd.FloydNavigateService;
			import com.zy.acs.manager.manager.entity.Code;
			import com.zy.acs.manager.manager.entity.Loc;
			import com.zy.acs.manager.manager.entity.Segment;
			import com.zy.acs.manager.manager.entity.Sta;
			import com.zy.acs.manager.manager.service.ActionService;
			import com.zy.acs.manager.manager.service.CodeService;
			import com.zy.acs.manager.system.service.ConfigService;
			import lombok.extern.slf4j.Slf4j;
			import org.apache.commons.lang.time.StopWatch;
			import org.springframework.beans.factory.annotation.Autowired;
			import org.springframework.beans.factory.annotation.Value;
			import org.springframework.stereotype.Component;

			import java.util.*;
			import java.util.concurrent.ConcurrentLinkedQueue;
			import java.util.concurrent.LinkedBlockingQueue;
			import java.util.concurrent.TimeUnit;
			import java.util.stream.Collectors;
			import java.util.stream.IntStream;

			/**
			* Created by vincent on 2023/6/14
			@@ -27,6 +35,10 @@
			@Component("mapService")
			public class MapService {

			private final static int[][] DIRECTIONS = {{0,1},{0,-1},{-1,0},{1,0}};

			@Value("${floyd.enable}")
			private Boolean floydEnable;
			@Autowired
			private CodeService codeService;
			@Autowired
			@@ -39,54 +51,54 @@
			private ConfigService configService;
			@Autowired
			private ActionService actionService;

			public List<String> checkoutPath(String agvNo, Code startCode, Code endCode, Boolean lock) {
			return this.checkoutPath(agvNo, startCode, endCode, lock, null);
			}
			@Autowired
			private LinkedBlockingQueue<UnlockPathTask> unlockTaskQueue;

			/**
			* 寻址 ===>> A Star
			*/
			public synchronized List<String> checkoutPath(String agvNo, Code startCode, Code endCode
			, Boolean lock, List<String> blackList) {
			, Boolean lock, List<String> blackList, Segment segment) {

			int[] startMapIdx = mapDataDispatcher.getCodeMatrixIdx(null, startCode.getData());
			int[] endMapIdx = mapDataDispatcher.getCodeMatrixIdx(null, endCode.getData());

			NavigateNode startNode = new NavigateNode(startMapIdx[0], startMapIdx[1], startCode.getData());
			NavigateNode endNode = new NavigateNode(endMapIdx[0], endMapIdx[1], endCode.getData());
			AStarNavigateNode startNode = new AStarNavigateNode(startMapIdx[0], startMapIdx[1], startCode.getData());
			AStarNavigateNode endNode = new AStarNavigateNode(endMapIdx[0], endMapIdx[1], endCode.getData());

			NavigateNode finishNode = aStarNavigateService.execute(agvNo, startNode, endNode, lock, blackList);

			// long startTime = System.currentTimeMillis();
			AStarNavigateNode finishNode = aStarNavigateService.execute(agvNo, startNode, endNode, lock, blackList, segment);
			// System.out.println("A Star Spend time :" + (System.currentTimeMillis() - startTime));
			if (null == finishNode) {
			log.warn("{} 号AGV检索[{}] ===>> [{}]路径失败......", agvNo, startCode.getData(), endCode.getData());
			return new ArrayList<>();
			}

			ArrayList<NavigateNode> navigateNodes = new ArrayList<>();
			ArrayList<AStarNavigateNode> navigateNodes = new ArrayList<>();

			// 渲染
			NavigateNode parentNode = null; // 当前循环上一节点，用于拐点计算
			while (finishNode != null) {
			navigateNodes.add(finishNode);

			parentNode = finishNode;
			finishNode = finishNode.getParent();
			}

			Collections.reverse(navigateNodes);

			// for (NavigateNode navigateNode : navigateNodes) {
			// navigateNode.setParent(null);
			// }
			List<String> navigatePath = navigateNodes.stream().map(AStarNavigateNode::getCodeData).collect(Collectors.toList());

			return navigateNodes.stream().map(NavigateNode::getCodeData).collect(Collectors.toList());
			// max count of steps
			if (navigatePath.size() > MapDataConstant.MAX_STEPS_SINGLE) {
			navigatePath = navigatePath.subList(0, MapDataConstant.MAX_STEPS_SINGLE);
			}

			return navigatePath;
			}

			/**
			* 寻址 ===>> Floyd
			*/
			public synchronized List<String> validFeasibility(Code startCode, Code endCode) {
			if (!floydEnable) {
			return Arrays.asList("00000001", "00000002", "00000003", "00000004", "00000005", "00000006");
			}

			int startIdx = floydNavigateService.codeIdx(startCode.getId());
			int endIdx = floydNavigateService.codeIdx(endCode.getId());
			@@ -107,14 +119,26 @@

			return floydNavigateService.calculatePath(startIdx, endIdx).stream().map(path -> {
			Long codeId = floydNavigateService.getCodeId(path);
			Code code = codeService.getById(codeId);
			Code code = codeService.getCacheById(codeId);
			return code.getData();
			}).collect(Collectors.toList());
			}

			public static Double mapToNearest(Double angle) {
			if (null == angle) {
			return null;
			}
			angle = (angle + 360) % 360;
			double remainder = angle % 45;
			if (remainder < 22.5) {
			return angle - remainder;
			} else {
			return angle + (45 - remainder);
			}
			}

			// 角度计算
			public Double calculateDirection(Code startCode, Code endCode) {
			public Double calculateDirection(Code startCode, Code endCode, int angleOffsetVal) {
			Double x0 = startCode.getX();
			Double y0 = startCode.getY();

			@@ -124,17 +148,14 @@
			double deltaX = x1 - x0;
			double deltaY = y1 - y0;
			double angle = Math.atan2(deltaX, deltaY);
			int offsetAngle = configService.getVal("mapXoffset", Integer.class);
			angle = angle + offsetAngle;
			angle = Math.toDegrees(angle);
			angle = Math.toDegrees(angle) + angleOffsetVal;
			angle = (angle + 360) % 360; // 将角度转换为正值

			return angle;
			}

			// 坐标货架阈值 todo:luxiaotao
			public AgvDirectionType calculateAgvWorkDirection(JSONObject storeDirection, Loc loc, Code code) {
			storeDirection.getString("key");
			public AgvDirectionType calculateAgvWorkDirectionByShelf(Loc loc, Code code) {
			Integer compDirect = loc.getCompDirect();
			AgvDirectionType agvDirectionType = null;
			if (compDirect == 0) {
			@@ -146,6 +167,19 @@
			return agvDirectionType;
			}

			public Double getStaAngle(Sta sta, Double workDirection) {
			if (null == sta) {
			return null;
			}
			if (Cools.isEmpty(sta.getAngle())) {
			return workDirection;
			}
			return Double.parseDouble(sta.getAngle());
			}

			public Double calculateAgvWorkDirectionByStation(Double staWorkDirection, Double lastDirection) {
			return Math.abs(staWorkDirection - lastDirection) + 90.0D;
			}

			public double calculateDistance(double x1, double y1, double x2, double y2) {
			double deltaX = x2 - x1;
			@@ -170,56 +204,54 @@
			}

			public void lockPath(Integer lev, List<String> pathList, String agvNo) {
			mapDataDispatcher.modifyDynamicMatrix(lev, pathList, agvNo);
			List<int[]> codeMatrixIdxList = mapDataDispatcher.getCodeMatrixIdxList(lev, pathList);
			mapDataDispatcher.modifyDynamicMatrix(lev, codeMatrixIdxList, agvNo);
			}

			public synchronized void unlockPath(String agvNo, String codeData) {
			try {
			StopWatch stopWatch = new StopWatch();
			stopWatch.start();

			if (Cools.isEmpty(agvNo, codeData)) {
			return;
			}

			Integer lev = null;

			String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(null);
			int[] codeMatrixIdx = mapDataDispatcher.getCodeMatrixIdx(lev, codeData);


			DynamicNode[][] dynamicMatrix = mapDataDispatcher.getDynamicMatrix(lev);

			DynamicNode dynamicNode = dynamicMatrix[codeMatrixIdx[0]][codeMatrixIdx[1]];


			Integer serial = dynamicNode.getSerial();

			List<String> resetCodeList = new ArrayList<>();

			for (int i = 0; i < dynamicMatrix.length; i++) {
			for (int j = 0; j < dynamicMatrix[i].length; j++) {
			DynamicNode node = dynamicMatrix[i][j];
			if (node.getVehicle().equals(agvNo) && node.getSerial() < serial) {
			resetCodeList.add(codeMatrix[i][j]);
			}
			}
			}

			if (!Cools.isEmpty(resetCodeList)) {

			mapDataDispatcher.clearDynamicMatrixByCodeList(lev, resetCodeList);
			}

			stopWatch.stop();
			if (stopWatch.getTime() > 50) {
			log.info("解锁路径函数花费时间为：{}毫秒......", stopWatch.getTime());
			}

			} catch (Exception e) {
			log.error("TrafficService.unlockPath", e);
			public void unlockPath(String agvNo, String codeData) {
			if (Cools.isEmpty(agvNo, codeData)) {
			return;
			}
			try {
			unlockTaskQueue.offer(new UnlockPathTask(agvNo, codeData), 5, TimeUnit.SECONDS);

			// Integer lev = null;
			//
			// String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(null);
			// int[] codeMatrixIdx = mapDataDispatcher.getCodeMatrixIdx(lev, codeData);
			//
			//
			// DynamicNode[][] dynamicMatrix = mapDataDispatcher.getDynamicMatrix(lev);
			//
			// DynamicNode dynamicNode = dynamicMatrix[codeMatrixIdx[0]][codeMatrixIdx[1]];
			//
			//
			// int serial = dynamicNode.getSerial();
			//
			// List<int[]> resetCodeIdxList = new ArrayList<>();
			//
			// for (int i = 0; i < dynamicMatrix.length; i++) {
			// for (int j = 0; j < dynamicMatrix[i].length; j++) {
			//
			//// if (i == codeMatrixIdx[0] && j == codeMatrixIdx[1]) { continue; }
			//
			// DynamicNode node = dynamicMatrix[i][j];
			// if (node.getVehicle().equals(agvNo)) {
			// if (node.getSerial() < serial) {
			// resetCodeIdxList.add(new int[] {i, j});
			// }
			// }
			// }
			// }
			//
			// if (!Cools.isEmpty(resetCodeIdxList)) {
			//
			// mapDataDispatcher.clearDynamicMatrixByCodeList(lev, resetCodeIdxList);
			// }

			} catch (InterruptedException e) {
			log.error("unlockTaskQueue", e);
			}
			}

			public List<String> getWaveScopeByCodeList(Integer lev, List<String> codeList, Double radiusLen) {
			@@ -240,38 +272,42 @@
			return nodeList.stream().map(NavigateNode::getCodeData).distinct().collect(Collectors.toList());
			}

			// v1 BFS ------------------------------------------------------------------------------
			public List<NavigateNode> getWaveScopeByCode(Integer lev, String code, Double radiusLen) {
			double radiusLenSquared = Math.pow(radiusLen, 2);

			String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(lev);
			Double[][][] cdaMatrix = mapDataDispatcher.getCdaMatrix(lev);

			int[] codeMatrixIdx = mapDataDispatcher.getCodeMatrixIdx(lev, code);
			NavigateNode originNode = new NavigateNode(codeMatrixIdx[0], codeMatrixIdx[1], code);

			List<NavigateNode> includeList = new ArrayList<>();
			List<NavigateNode> existNodes = new ArrayList<>();
			Set<NavigateNode> existNodes = new HashSet<>();

			includeList.add(originNode);
			existNodes.add(originNode);

			this.spreadWaveNode(originNode, originNode, codeMatrix, radiusLen, includeList, existNodes);
			this.spreadWaveNode(originNode, originNode, codeMatrix, cdaMatrix, radiusLenSquared, includeList, existNodes);

			return includeList;
			}

			public void spreadWaveNode(NavigateNode originNode, NavigateNode currNode
			, String[][] codeMatrix, Double radiusLen
			, List<NavigateNode> includeList, List<NavigateNode> existNodes) {
			, String[][] codeMatrix, Double[][][] cdaMatrix, Double radiusLenSquared
			, List<NavigateNode> includeList, Set<NavigateNode> existNodes) {
			int x = currNode.getX();
			int y = currNode.getY();

			this.extendNeighborNodes(originNode, new NavigateNode(x, y + 1), codeMatrix, radiusLen, includeList, existNodes);
			this.extendNeighborNodes(originNode, new NavigateNode(x, y - 1), codeMatrix, radiusLen, includeList, existNodes);
			this.extendNeighborNodes(originNode, new NavigateNode(x - 1, y), codeMatrix, radiusLen, includeList, existNodes);
			this.extendNeighborNodes(originNode, new NavigateNode(x + 1, y), codeMatrix, radiusLen, includeList, existNodes);
			this.extendNeighborNodes(originNode, new NavigateNode(x, y + 1), codeMatrix, cdaMatrix, radiusLenSquared, includeList, existNodes);
			this.extendNeighborNodes(originNode, new NavigateNode(x, y - 1), codeMatrix, cdaMatrix, radiusLenSquared, includeList, existNodes);
			this.extendNeighborNodes(originNode, new NavigateNode(x - 1, y), codeMatrix, cdaMatrix, radiusLenSquared, includeList, existNodes);
			this.extendNeighborNodes(originNode, new NavigateNode(x + 1, y), codeMatrix, cdaMatrix, radiusLenSquared, includeList, existNodes);
			}

			public void extendNeighborNodes(NavigateNode originNode, NavigateNode nextNode
			, String[][] codeMatrix, Double radiusLen
			, List<NavigateNode> includeList, List<NavigateNode> existNodes) {
			, String[][] codeMatrix, Double[][][] cdaMatrix, Double radiusLenSquared
			, List<NavigateNode> includeList, Set<NavigateNode> existNodes) {

			int x = nextNode.getX();
			int y = nextNode.getY();
			@@ -281,54 +317,105 @@
			return;
			}

			if (this.isExist(nextNode, existNodes)) {
			if (existNodes.contains(nextNode)) {
			return;
			}

			existNodes.add(nextNode);

			String nextNodeCodeData = codeMatrix[x][y];
			Double[] o1Cda = cdaMatrix[originNode.getX()][originNode.getY()];
			Double[] o2Cda = cdaMatrix[x][y];
			if (Math.pow(o1Cda[0] - o2Cda[0], 2) + Math.pow(o1Cda[1] - o2Cda[1], 2) <= radiusLenSquared) {
			nextNode.setCodeData(codeMatrix[x][y]);

			if (nextNodeCodeData.equals(CodeNodeType.NONE.val)) {

			this.spreadWaveNode(originNode, nextNode, codeMatrix, radiusLen, includeList, existNodes);

			} else {

			Integer lev = MapDataDispatcher.MAP_DEFAULT_LEV;
			String[][] cdaMatrix = mapDataDispatcher.getCdaMatrix(lev);

			// Code o1 = codeService.selectByData(originNode.getCodeData());
			// Code o2 = codeService.selectByData(nextNodeCodeData);
			List<Double> o1Cda = MapDataUtils.parseCdaNode(cdaMatrix[originNode.getX()][originNode.getY()]);
			List<Double> o2Cda = MapDataUtils.parseCdaNode(cdaMatrix[nextNode.getX()][nextNode.getY()]);

			// if (Math.pow(o1.getX() - o2.getX(), 2) + Math.pow(o1.getY() - o2.getY(), 2) <= Math.pow(radiusLen, 2)) {
			if (Math.pow(o1Cda.get(0) - o2Cda.get(0), 2) + Math.pow(o1Cda.get(1) - o2Cda.get(1), 2) <= Math.pow(radiusLen, 2)) {
			nextNode.setCodeData(nextNodeCodeData);
			if (!nextNode.getCodeData().equals(CodeNodeType.NONE.val)) {
			includeList.add(nextNode);

			this.spreadWaveNode(originNode, nextNode, codeMatrix, radiusLen, includeList, existNodes);

			}

			this.spreadWaveNode(originNode, nextNode, codeMatrix, cdaMatrix, radiusLenSquared, includeList, existNodes);
			}

			}

			private boolean isExist(NavigateNode node, List<NavigateNode> existNodes) {
			for (NavigateNode existNode : existNodes) {
			if (this.isSame(node, existNode)) {
			return true;
			}
			}
			return false;
			}
			// v2 BFS ------------------------------------------------------------------------------
			// public List<NavigateNode> getWaveScopeByCode0(Integer lev, String code, Double radiusLen) {
			// String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(lev);
			//
			// int[] codeMatrixIdx = mapDataDispatcher.getCodeMatrixIdx(lev, code);
			// NavigateNode originNode = new NavigateNode(codeMatrixIdx[0], codeMatrixIdx[1], code);
			//
			// List<NavigateNode> includeList = new ArrayList<>();
			// Set<NavigateNode> visited = new HashSet<>(); // Track visited nodes to avoid re-processing
			// Queue<NavigateNode> queue = new LinkedList<>();
			//
			// includeList.add(originNode);
			// visited.add(originNode);
			// queue.offer(originNode);
			//
			// while (!queue.isEmpty()) {
			// NavigateNode currNode = queue.poll();
			// this.spreadWaveNode0(originNode, currNode, codeMatrix, radiusLen, includeList, visited, queue);
			// }
			//
			// return includeList;
			// }
			//
			// public void spreadWaveNode0(NavigateNode originNode, NavigateNode currNode,
			// String[][] codeMatrix, Double radiusLen,
			// List<NavigateNode> includeList, Set<NavigateNode> visited, Queue<NavigateNode> queue) {
			//
			// int x = currNode.getX();
			// int y = currNode.getY();
			//
			// // Expand neighbors in all four directions (up, down, left, right)
			// this.extendNeighborNodes0(originNode, new NavigateNode(x, y + 1), codeMatrix, radiusLen, includeList, visited, queue);
			// this.extendNeighborNodes0(originNode, new NavigateNode(x, y - 1), codeMatrix, radiusLen, includeList, visited, queue);
			// this.extendNeighborNodes0(originNode, new NavigateNode(x - 1, y), codeMatrix, radiusLen, includeList, visited, queue);
			// this.extendNeighborNodes0(originNode, new NavigateNode(x + 1, y), codeMatrix, radiusLen, includeList, visited, queue);
			// }
			//
			// public void extendNeighborNodes0(NavigateNode originNode, NavigateNode nextNode,
			// String[][] codeMatrix, Double radiusLen,
			// List<NavigateNode> includeList, Set<NavigateNode> visited, Queue<NavigateNode> queue) {
			// int x = nextNode.getX();
			// int y = nextNode.getY();
			//
			// // Check if the node is out of bounds
			// if (x < 0 \|\| x >= codeMatrix.length \|\| y < 0 \|\| y >= codeMatrix[0].length) {
			// return;
			// }
			//
			// // If the node has already been visited, skip it
			// if (visited.contains(nextNode)) {
			// return;
			// }
			//
			// visited.add(nextNode);
			//
			// String nextNodeCodeData = codeMatrix[x][y];
			//
			// // If it's a NONE node, we still need to check its surroundings
			// if (nextNodeCodeData.equals(CodeNodeType.NONE.val)) {
			// this.spreadWaveNode0(originNode, nextNode, codeMatrix, radiusLen, includeList, visited, queue);
			// } else {
			// Integer lev = MapDataDispatcher.MAP_DEFAULT_LEV;
			// String[][] cdaMatrix = mapDataDispatcher.getCdaMatrix(lev);
			//
			// // Check if the distance between nodes is within the radius length
			// List<Double> o1Cda = MapDataUtils.parseCdaNode(cdaMatrix[originNode.getX()][originNode.getY()]);
			// List<Double> o2Cda = MapDataUtils.parseCdaNode(cdaMatrix[nextNode.getX()][nextNode.getY()]);
			//
			// // Calculate Euclidean distance between the nodes
			// if (Math.pow(o1Cda.get(0) - o2Cda.get(0), 2) + Math.pow(o1Cda.get(1) - o2Cda.get(1), 2) <= Math.pow(radiusLen, 2)) {
			// nextNode.setCodeData(nextNodeCodeData);
			// includeList.add(nextNode);
			//
			// // Add the node to the queue to expand its neighbors
			// queue.offer(nextNode);
			// }
			// }
			// }

			private boolean isSame(NavigateNode o1, NavigateNode o2) {
			if (Cools.isEmpty(o1, o2)) {
			return false;
			}
			return o1.getX() == o2.getX() && o1.getY() == o2.getY();
			}

			public Boolean isTurnCorner(String codeData) {
			if (Cools.isEmpty(codeData)) {
			@@ -343,4 +430,103 @@
			return turnMatrixNode == TurnNodeType.TURN.val;
			}

			/**
			* That vehicle is walking if the dynamic node count > 1
			*/
			@SuppressWarnings("all")
			public boolean isWalkingByVehicle(Integer lev, String vehicle) {
			if (Cools.isEmpty(vehicle)) {
			return false;
			}

			lev = Optional.ofNullable(lev).orElse(MapDataDispatcher.MAP_DEFAULT_LEV);
			DynamicNode[][] dynamicMatrix = mapDataDispatcher.getDynamicMatrix(lev);

			int count = 0;
			for (int i = 0; i < dynamicMatrix.length; i++) {
			for (int j = 0; j < dynamicMatrix[i].length; j++) {
			if (vehicle.equals(dynamicMatrix[i][j].getVehicle())) {
			count++;
			if (count > 1) {
			return true;
			}
			}
			}
			}

			return false;
			}

			public List<String> queryCodeListFromDynamicNode(Integer lev, String nodeType) {
			if (Cools.isEmpty(nodeType)) {
			return new ArrayList<>();
			}
			lev = Optional.ofNullable(lev).orElse(MapDataDispatcher.MAP_DEFAULT_LEV);

			DynamicNode[][] dynamicMatrix = mapDataDispatcher.getDynamicMatrix(lev);
			String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(lev);

			// concurrent
			ConcurrentLinkedQueue<SortCodeDto> codeList = new ConcurrentLinkedQueue<>();
			IntStream.range(0, codeMatrix.length).parallel().forEach(i -> {
			for (int j = 0; j < codeMatrix[i].length; j++) {
			DynamicNode dynamicNode = dynamicMatrix[i][j];
			if (nodeType.equals(dynamicNode.getVehicle())) {
			codeList.add(new SortCodeDto(codeMatrix[i][j], dynamicNode.getSerial()));
			}
			}
			});

			// synchronize
			// List<SortCodeDto> codeList = new ArrayList<>();
			// for (int i = 0; i < codeMatrix.length; i++) {
			// for (int j = 0; j < codeMatrix[i].length; j++) {
			// DynamicNode dynamicNode = dynamicMatrix[i][j];
			// if (nodeType.equals(dynamicNode.getVehicle())) {
			// codeList.add(new SortCodeDto(codeMatrix[i][j], dynamicNode.getSerial()));
			// }
			// }
			// }

			return codeList.stream()
			.sorted(Comparator.comparingInt(SortCodeDto::getSerial))
			.map(SortCodeDto::getCode)
			.collect(Collectors.toList());
			}

			public Map<String, List<String>> queryCodeListFromDynamicNode(Integer lev, Set<String> vehicles) {
			if (Cools.isEmpty(vehicles)) {
			return new HashMap<>();
			}
			lev = Optional.ofNullable(lev).orElse(MapDataDispatcher.MAP_DEFAULT_LEV);

			DynamicNode[][] dynamicMatrix = mapDataDispatcher.getDynamicMatrix(lev);
			String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(lev);

			Map<String, List<SortCodeDto>> map = new HashMap<>(vehicles.size());

			for (int i = 0; i < codeMatrix.length; i++) {
			for (int j = 0; j < codeMatrix[i].length; j++) {
			DynamicNode dynamicNode = dynamicMatrix[i][j];
			String vehicle = dynamicNode.getVehicle();

			if (vehicles.contains(vehicle)) {
			int serial = dynamicNode.getSerial();
			map.computeIfAbsent(vehicle, k -> new ArrayList<>()).add(new SortCodeDto(codeMatrix[i][j], serial));
			}
			}
			}

			Map<String, List<String>> result = new HashMap<>(vehicles.size());
			for (Map.Entry<String, List<SortCodeDto>> entry : map.entrySet()) {
			List<String> codeDataList = entry.getValue().stream()
			.sorted(Comparator.comparingInt(SortCodeDto::getSerial))
			.map(SortCodeDto::getCode)
			.collect(Collectors.toList());
			result.put(entry.getKey(), codeDataList);
			}

			return result;
			}

			}