rcs-flow.git - Gitblit

			@@ -1,39 +1,37 @@
			package com.zy.acs.manager.core.service.astart;

			import com.zy.acs.common.constant.RedisConstant;
			import com.zy.acs.common.utils.GsonUtils;
			import com.zy.acs.common.utils.RedisSupport;
			import com.zy.acs.framework.common.Cools;
			import com.zy.acs.manager.common.utils.MapDataUtils;
			import com.zy.acs.manager.core.domain.Lane;
			import com.zy.acs.manager.core.domain.type.BlockSeverityType;
			import com.zy.acs.manager.core.service.LaneService;
			import com.zy.acs.manager.core.service.astart.domain.DynamicNode;
			import com.zy.acs.manager.manager.entity.Route;
			import com.zy.acs.manager.core.utils.RouteGenerator;
			import com.zy.acs.manager.manager.entity.Segment;
			import com.zy.acs.manager.manager.service.CodeService;
			import com.zy.acs.manager.manager.service.JamService;
			import com.zy.acs.manager.manager.service.RouteService;
			import com.zy.acs.manager.system.service.ConfigService;
			import lombok.extern.slf4j.Slf4j;
			import org.springframework.beans.factory.annotation.Autowired;
			import org.springframework.stereotype.Service;

			import java.util.*;
			import java.util.concurrent.CopyOnWriteArrayList;

			/**
			* Created by vincent on 6/12/2024
			*/
			@Slf4j
			@Service
			public class AStarNavigateService {

			private final RedisSupport redis = RedisSupport.defaultRedisSupport;

			public static final boolean OPEN_TURN_COST_WEIGHT = Boolean.FALSE;
			public static final boolean OPEN_TURN_COST_WEIGHT = Boolean.TRUE;

			public static final int WEIGHT_CALC_FACTOR = 1;

			@Autowired
			private CodeService codeService;
			@Autowired
			private RouteService routeService;
			@Autowired
			private MapDataDispatcher mapDataDispatcher;
			@Autowired
			@@ -44,34 +42,44 @@
			private ConfigService configService;

			public synchronized NavigateNode execute(String agvNo, NavigateNode start, NavigateNode end
			, Boolean lock, List<String> blackList, Segment segment, BlockSeverityType blockSeverity) {
			, Boolean lock, List<String> blackList, Segment segment) {
			if (start.getX() == end.getX() && start.getY() == end.getY()) {
			return end;
			}
			Integer maxAgvCountInLane = configService.getVal("maxAgvCountInLane", Integer.class);

			PriorityQueue<NavigateNode> openQueue = new PriorityQueue<>();
			ArrayList<NavigateNode> existNodes = new ArrayList<>();
			Set<NavigateNode> existNodes = new HashSet<>();

			openQueue.add(start);
			existNodes.add(start);

			int[][] mapMatrix = mapDataDispatcher.getMapMatrix(null, null);
			String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(null);
			DynamicNode[][] dynamicMatrix = mapDataDispatcher.getDynamicMatrix(null);
			String[][] waveMatrix = mapDataDispatcher.getWaveMatrix(null);

			while (openQueue.size() > 0) {
			while (!openQueue.isEmpty()) {
			// 取优先队列顶部元素并且把这个元素从Open表中删除，取F值最小的节点
			NavigateNode currentNode = openQueue.poll();

			ArrayList<NavigateNode> neighbourNodes = this.getNeighborNodes(currentNode, mapMatrix, existNodes);
			List<NavigateNode> neighbourNodes = this.getNeighborNodes(currentNode, mapMatrix, existNodes);
			for (NavigateNode node : neighbourNodes) {
			node.setCodeData(codeMatrix[node.getX()][node.getY()]);

			boolean isEndNode = node.getX() == end.getX() && node.getY() == end.getY();

			int weight = 0;

			if (!Cools.isEmpty(blackList) && blackList.contains(node.getCodeData())) {
			continue;
			}
			// 特殊情况，当blackList有且只有一个元素且为startNode时
			// 说明blackList已经知道当前导航起始点和目标点为相邻节点
			// 但是当前blackList的任务是不让系统走相邻的最短路径，所以才会有下面的判断和continue
			if (blackList.size() == 1 && blackList.get(0).equals(start.getCodeData())) {
			if (isEndNode && currentNode.getCodeData().equals(start.getCodeData())) {
			continue;
			}
			}

			// 节点被占用
			@@ -81,10 +89,13 @@
			if (!vehicle.equals(DynamicNodeType.ACCESS.val)) {
			if (!vehicle.equals(agvNo)) {

			// 存在车辆，且为已经避让的车，则权重值增加
			// 如果存在车辆，则增加权重 2 或者 3，因为拐点会增加权重 1
			// vehicle已经为当前segment做过了避让，且避让任务已完成，则权重值增加
			if (null != segment) {
			if (!Cools.isEmpty(jamService.getJamFromSegmentByAvo(segment, vehicle))) {
			weight += WEIGHT_CALC_FACTOR;
			weight += (WEIGHT_CALC_FACTOR * 3);
			} else {
			weight += (WEIGHT_CALC_FACTOR * 2);
			}
			}

			@@ -110,30 +121,24 @@
			}

			// 单巷道车辆容载数量
			Lane lane = laneService.search(node.getCodeData());
			if (null != lane) {
			List<int[]> laneCodeIdxList = laneService.getLaneCodeIdxList(node.getCodeData());
			if (!Cools.isEmpty(laneCodeIdxList)) {
			Set<String> lanVehicleSet = new HashSet<>();

			List<String> laneCodes = lane.getCodes();
			for (String laneCodeData : laneCodes) {
			int[] laneCodeMatrixIdx = mapDataDispatcher.getCodeMatrixIdx(null, laneCodeData);
			// scan dynamicMatrix or WaveMatrix
			DynamicNode laneDynamicNode = dynamicMatrix[laneCodeMatrixIdx[0]][laneCodeMatrixIdx[1]];
			for (int[] codeMatrixIdx : laneCodeIdxList) {
			DynamicNode laneDynamicNode = dynamicMatrix[codeMatrixIdx[0]][codeMatrixIdx[1]];
			String laneVehicle = laneDynamicNode.getVehicle();
			assert !laneVehicle.equals(DynamicNodeType.BLOCK.val);
			if (!laneVehicle.equals(DynamicNodeType.ACCESS.val)) {
			if (!laneVehicle.equals(agvNo)) {
			lanVehicleSet.add(laneVehicle);
			// redis.setObject(RedisConstant.AGV_TO_STANDBY_FLAG, laneVehicle, true, 30);
			}
			}
			}

			if (lanVehicleSet.size() + 1 > maxAgvCountInLane) {
			continue;
			}
			}


			//找到目标结点就返回
			if (isEndNode) {
			@@ -143,7 +148,11 @@
			}

			// G + H + T (对启发函数增加去拐点方案calcNodeTurnCost)
			int gCost = calcNodeCost(currentNode, node) * (OPEN_TURN_COST_WEIGHT ? calcNodeTurnCost(currentNode, node, end) : 1);
			int gCost = calcNodeCost(currentNode, node);

			if (OPEN_TURN_COST_WEIGHT) {
			gCost += calcNodeTurnCost(currentNode, node, end);
			}

			//进行计算对 G, F, H 等值
			node.setWeight(weight);
			@@ -161,38 +170,29 @@
			}

			// 获取四周节点
			private ArrayList<NavigateNode> getNeighborNodes(NavigateNode currentNode, int[][] mapMatrix, List<NavigateNode> existNodes) {
			//获取当前结点的x, y
			private List<NavigateNode> getNeighborNodes(NavigateNode currentNode, int[][] mapMatrix, Set<NavigateNode> existNodes) {
			int x = currentNode.getX();
			int y = currentNode.getY();
			//如果当前结点的邻结点合法，就加入到neighbour_node
			ArrayList<NavigateNode> neighbourNodes = new ArrayList<>();

			NavigateNode rightNode = extendNeighborNodes(currentNode, new NavigateNode(x, y + 1), mapMatrix, existNodes, null, null);
			if (is_valid(currentNode, rightNode, mapMatrix, existNodes)) {
			neighbourNodes.add(rightNode);
			}
			List<NavigateNode> neighbourNodes = new CopyOnWriteArrayList<>();

			NavigateNode leftNode = extendNeighborNodes(currentNode, new NavigateNode(x, y - 1), mapMatrix, existNodes, null, null);
			if (is_valid(currentNode, leftNode, mapMatrix, existNodes)) {
			neighbourNodes.add(leftNode);
			}
			List<NavigateNode> possibleNodes = Arrays.asList(
			new NavigateNode(x, y + 1), // right
			new NavigateNode(x, y - 1), // left
			new NavigateNode(x - 1, y), // up
			new NavigateNode(x + 1, y) // down
			);

			NavigateNode topNode = extendNeighborNodes(currentNode, new NavigateNode(x - 1, y), mapMatrix, existNodes, null, null);
			if (is_valid(currentNode, topNode, mapMatrix, existNodes)) {
			neighbourNodes.add(topNode);
			}

			NavigateNode bottomNode = extendNeighborNodes(currentNode, new NavigateNode(x + 1, y), mapMatrix, existNodes, null, null);
			if (is_valid(currentNode, bottomNode, mapMatrix, existNodes)) {
			neighbourNodes.add(bottomNode);
			}
			possibleNodes.parallelStream()
			.map(extendNode -> extendNeighborNodes(currentNode, extendNode, mapMatrix, existNodes, null, null))
			.filter(Objects::nonNull)
			.forEach(neighbourNodes::add);

			return neighbourNodes;
			}

			private NavigateNode extendNeighborNodes(NavigateNode currentNode, NavigateNode extendNode, int[][] mapMatrix, List<NavigateNode> existNodes, Integer dx, Integer dy) {
			NavigateNode nextNode = null;
			private NavigateNode extendNeighborNodes(NavigateNode currentNode, NavigateNode extendNode, int[][] mapMatrix, Set<NavigateNode> existNodes, Integer dx, Integer dy) {
			NavigateNode nextNode;

			if (null == dx \|\| null == dy) {
			dx = extendNode.getX() - currentNode.getX();
			@@ -213,104 +213,27 @@
			if (mapMatrix[x][y] == MapNodeType.DISABLE.val) {

			return extendNeighborNodes(currentNode, nextNode, mapMatrix, existNodes, dx, dy);

			} else {

			if (isExist(nextNode, existNodes)) {
			return null;
			}

			// 节点是否可用
			if (mapMatrix[x][y] != MapNodeType.ENABLE.val) {
			return null;
			}

			String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(null);
			String currentNodeCodeData = codeMatrix[currentNode.getX()][currentNode.getY()];
			String nextNodeCodeData = codeMatrix[nextNode.getX()][nextNode.getY()];
			nextNode.setCodeData(nextNodeCodeData);

			// 判断通过性
			Route route = routeService.findByCodeOfBoth(
			codeService.selectByData(currentNodeCodeData).getId(),
			codeService.selectByData(nextNodeCodeData).getId()
			);
			if (null == route) {
			return null;
			}

			return nextNode;
			}
			}

			private boolean is_valid(NavigateNode currentNode, NavigateNode node, int[][] mapMatrix, List<NavigateNode> existNodes) {
			if (null == node) {
			return false;
			assert mapMatrix[x][y] == MapNodeType.ENABLE.val;

			if (existNodes.contains(nextNode)) {
			return null;
			}
			// int x = node.getX();
			// int y = node.getY();
			// if (x < 0 \|\| x >= mapMatrix.length
			// \|\| y < 0 \|\| y >= mapMatrix[0].length) {
			// return false;
			// }
			//
			// // 如果结点的位置小于0，则不合法
			// if (mapMatrix[x][y] < 0) return false;
			//
			// if (is_exist(node, existNodes)) {
			// return false;
			// }
			//
			// // 判断通过性
			// String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(null);
			// String currentNodeCodeData = codeMatrix[currentNode.getX()][currentNode.getY()];
			// String nextNodeCodeData = codeMatrix[node.getX()][node.getY()];
			// node.setCodeData(nextNodeCodeData);
			//
			// Route route = routeService.findByCodeOfBoth(
			// codeService.selectByData(currentNodeCodeData).getId(),
			// codeService.selectByData(nextNodeCodeData).getId()
			// );
			// if (null == route) {
			// return false;
			// }

			return true;
			}

			// private boolean is_exist(NavigateNode node, List<NavigateNode> existNodes) {
			// for (NavigateNode exist_node : existNodes) {
			// if (node.getX() == exist_node.getX() && node.getY() == exist_node.getY()) {
			// return true;
			// }
			// }
			// return false;
			// }

			private boolean isExist(NavigateNode node, List<NavigateNode> existNodes) {
			for (NavigateNode existNode : existNodes) {
			if (this.isSame(node, existNode)) {
			return true;
			}
			// 判断通过性
			String routeCdaKey = RouteGenerator.generateRouteCdaKey(new int[]{currentNode.getX(), currentNode.getY()}, new int[]{nextNode.getX(), nextNode.getY()});
			if (!mapDataDispatcher.validRouteCdaKey(routeCdaKey)) {
			return null;
			}
			return false;
			}

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

			//------------------A*启发函数------------------//

			//计算通过现在的结点的位置和最终结点的位置计算H值(曼哈顿法：坐标分别取差值相加)
			private int calcNodeCost(NavigateNode node1, NavigateNode node2) {
			// Code code1 = codeService.selectByData(node1.getCodeData());
			// Code code2 = codeService.selectByData(node2.getCodeData());
			// return (int) (Math.abs(code2.getX() - code1.getX()) + Math.abs(code2.getY() - code1.getY()));

			return Math.abs(node2.getX() - node1.getX()) + Math.abs(node2.getY() - node1.getY());
			}

			@@ -321,21 +244,16 @@
			\|\| nextNode.getX() == currNode.getParent().getX()
			\|\| nextNode.getY() == currNode.getParent().getY()
			) {
			return 1;
			return 0;
			}

			// 拐向终点的点
			if (nextNode.getX() == endNode.getX() \|\| nextNode.getY() == endNode.getY()) {
			return 2;
			return 1;
			}

			// 普通拐点
			/*
			拐点判断逻辑
			拿到父节点和下一节点
			通过判断父节点和下一节点的x数据和y数据都不相同时，则表明当前坐标是一个拐点
			*/
			return 3;
			return 1;
			}

			}