rcs-flow.git - Gitblit

			@@ -31,7 +31,7 @@

			private final RedisSupport redis = RedisSupport.defaultRedisSupport;

			public static final int WEIGHT_CALC_COEFFICIENT = 1000;
			public static final int WEIGHT_CALC_FACTOR = 10000;

			@Autowired
			private CodeService codeService;
			@@ -65,7 +65,7 @@
			List<String> blackList = Utils.singletonList(sponsor);

			Double avoidDistance = MapDataUtils.getVehicleWaveSafeDistance(agvModelService.getById(agvService.selectByUuid(sponsor).getAgvModel()).getDiameter()
			, MapDataConstant.IDLE_DISTANCE_COE);
			, MapDataConstant.MAX_DISTANCE_BETWEEN_ADJACENT_AGV_FACTOR);
			List<String> avoidPathListWave = mapService.getWaveScopeByCodeList(lev, avoidPathList, avoidDistance);

			DynamicNode[][] dynamicMatrix = mapDataDispatcher.getDynamicMatrix(lev);
			@@ -79,6 +79,7 @@

			openQueue.add(start);
			existNodes.add(start);
			boolean phaseSecond = true;

			while (openQueue.size() > 0 && null == finialNode) {

			@@ -87,6 +88,7 @@
			List<RetreatNavigateNode> enableNodes = new ArrayList<>();

			ArrayList<RetreatNavigateNode> neighborNodes = this.getNeighborNodes(currentNode, existNodes);
			boolean pointOfTurn = neighborNodes.size() >= 2;
			label: for (RetreatNavigateNode node : neighborNodes) {
			if (node.getCodeData().equals(breakPoint)) { continue; }

			@@ -103,35 +105,46 @@
			continue label;
			}
			if (1 < mapDataDispatcher.queryCodeListFromDynamicNode(lev, otherWave).size()) {
			phaseSecond = false; // there is a way to go
			continue label;
			} else {
			weight += WEIGHT_CALC_COEFFICIENT;
			weight += WEIGHT_CALC_FACTOR;
			}
			}
			}

			// lane
			Lane lane = laneService.search(node.getCodeData());
			if (null != lane) {
			Set<String> lanVehicleSet = new HashSet<>();
			if (pointOfTurn) {
			Lane lane = laneService.search(node.getCodeData());
			if (null != lane) {
			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]];
			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);
			for (String laneCodeData : lane.getCodes()) {
			// overlap with sponsor
			if (avoidPathList.contains(laneCodeData)) {
			lanVehicleSet.add(sponsor);
			}

			int[] laneCodeMatrixIdx = mapDataDispatcher.getCodeMatrixIdx(null, laneCodeData);
			// scan dynamicMatrix or WaveMatrix
			DynamicNode laneDynamicNode = dynamicMatrix[laneCodeMatrixIdx[0]][laneCodeMatrixIdx[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;
			if (lanVehicleSet.size() + 1 > maxAgvCountInLane) {
			phaseSecond = false; // there is a way to go
			continue;
			}
			if (lanVehicleSet.contains(sponsor)) {
			weight += WEIGHT_CALC_FACTOR * 2;
			}
			}
			}

			@@ -159,7 +172,7 @@
			}


			if (null == finialNode) {
			if (null == finialNode && phaseSecond) {
			// assert openQueue.size() == 0;

			existNodes.clear();
			@@ -169,6 +182,7 @@
			RetreatNavigateNode availablePointOfTurn = null;
			List<String> availablePointWaveScopeOfTurn = new ArrayList<>();
			int actualLanesOfTurn = 0;
			int filterPointOfTurnTimes = 0;

			while (openQueue.size() > 0 && null == finialNode) {

			@@ -181,14 +195,16 @@
			if (null == availablePointOfTurn) {
			// 计算是否为可用转弯点
			if (neighborNodes.size() >= 2 && !isSame(start, currentNode)) {
			filterPointOfTurnTimes ++;
			if (filterPointOfTurnTimes > 2) { break; }

			for (RetreatNavigateNode node : neighborNodes) {
			// lane
			Lane lane = laneService.search(node.getCodeData());
			if (null != lane) {
			Set<String> lanVehicleSet = new HashSet<>();

			List<String> laneCodes = lane.getCodes();
			for (String laneCodeData : laneCodes) {
			for (String laneCodeData : lane.getCodes()) {
			int[] laneCodeMatrixIdx = mapDataDispatcher.getCodeMatrixIdx(null, laneCodeData);
			// scan dynamicMatrix or WaveMatrix
			DynamicNode laneDynamicNode = dynamicMatrix[laneCodeMatrixIdx[0]][laneCodeMatrixIdx[1]];
			@@ -197,7 +213,7 @@
			if (!laneVehicle.equals(DynamicNodeType.ACCESS.val)) {
			if (!laneVehicle.equals(agvNo)) {
			lanVehicleSet.add(laneVehicle);
			// redis.setObject(RedisConstant.AGV_TO_STANDBY_FLAG, laneVehicle, true, 30);
			// redis.setObject(RedisConstant.AGV_TO_STANDBY_FLAG, laneVehicle, true, 30);
			}
			}
			}
			@@ -215,6 +231,8 @@
			availablePointOfTurn = currentNode;
			availablePointWaveScopeOfTurn = mapService.getWaveScopeByCode(lev, availablePointOfTurn.getCodeData(), avoidDistance)
			.stream().map(NavigateNode::getCodeData).distinct().collect(Collectors.toList());
			} else {
			actualLanesOfTurn = 0;
			}
			}
			}
			@@ -238,10 +256,9 @@
			if (null != availablePointOfTurn && actualLanesOfTurn > 0) {
			actualLanesOfTurn --;
			}

			continue label;
			} else {
			weight += WEIGHT_CALC_COEFFICIENT;
			weight += WEIGHT_CALC_FACTOR;
			}
			}
			}