rcs-flow.git - Gitblit

			@@ -3,9 +3,13 @@
			import com.baomidou.mybatisplus.core.conditions.query.LambdaQueryWrapper;
			import com.zy.acs.common.utils.Utils;
			import com.zy.acs.framework.common.Cools;
			import com.zy.acs.framework.exception.CoolException;
			import com.zy.acs.manager.common.config.RedisProperties;
			import com.zy.acs.manager.common.utils.MapDataUtils;
			import com.zy.acs.manager.core.constant.MapDataConstant;
			import com.zy.acs.manager.core.domain.VehicleFootprint;
			import com.zy.acs.manager.core.domain.VehicleRuntime;
			import com.zy.acs.manager.core.service.astart.CodeNodeType;
			import com.zy.acs.manager.core.service.astart.DynamicNodeType;
			import com.zy.acs.manager.core.service.astart.MapDataDispatcher;
			import com.zy.acs.manager.core.service.astart.NavigateNode;
			@@ -33,7 +37,9 @@
			import java.io.InputStreamReader;
			import java.nio.file.Files;
			import java.nio.file.StandardCopyOption;
			import java.util.HashMap;
			import java.util.List;
			import java.util.Map;
			import java.util.concurrent.ExecutorService;
			import java.util.concurrent.Executors;
			import java.util.concurrent.TimeUnit;
			@@ -172,39 +178,94 @@
			return true;
			}

			private boolean calcWaveScopeByJava(Integer lev, AgvModel agvModel) throws Exception {
			if (null == agvModel.getDiameter() \|\| agvModel.getDiameter() <= 0) {
			log.warn("There is no diameter or diameter value was wrong...");
			}

			Double avoidDistance = MapDataUtils.getVehicleWaveSafeDistance(agvModel.getDiameter(), MapDataConstant.MAX_DISTANCE_BETWEEN_ADJACENT_AGV_FACTOR);

			// java
			private boolean calcWaveScopeByJava(Integer lev, AgvModel agvModel) {
			assert null != agvModel.getDiameter();
			String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(lev);
			String[][] waveMatrix = mapDataDispatcher.initWaveMatrix(lev);

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

			// 当前调度车型的最大旋转半径
			double bufferRadius = buildFootprint(agvModel).maxExtent();

			Map<String, VehicleRuntime> runtimeCache = new HashMap<>();
			for (int i = 0; i < dynamicMatrix.length; i++) {
			for (int j = 0; j < dynamicMatrix[i].length; j++) {
			DynamicNode dynamicNode = dynamicMatrix[i][j];
			String vehicle = dynamicNode.getVehicle();
			if (!DynamicNodeType.ACCESS.val.equals(vehicle) && !DynamicNodeType.BLOCK.val.equals(vehicle)) {
			if (DynamicNodeType.ACCESS.val.equals(vehicle) \|\| DynamicNodeType.BLOCK.val.equals(vehicle)) {
			continue;
			}
			String codeData = codeMatrix[i][j];
			if (CodeNodeType.NONE.val.equals(codeData)) {
			continue;
			}

			List<NavigateNode> includeList = mapService.getWaveScopeByCode(lev, codeMatrix[i][j], avoidDistance);
			// cache
			VehicleRuntime runtime = runtimeCache.computeIfAbsent(vehicle, this::loadRuntime);
			assert null != runtime; assert null != runtime.getFootprint();

			List<NavigateNode> includeList = mapService.getWaveScopeByCode(lev, codeData, runtime.getFootprint(), runtime.getHeadingRad(), bufferRadius);

			for (NavigateNode navigateNode : includeList) {
			String waveNode = waveMatrix[navigateNode.getX()][navigateNode.getY()]; // overlay
			String waveNode = waveMatrix[navigateNode.getX()][navigateNode.getY()];
			waveMatrix[navigateNode.getX()][navigateNode.getY()] = MapDataUtils.generateWaveNode(waveNode, vehicle);
			}
			}
			}

			mapDataDispatcher.setWaveMatrix(lev, waveMatrix);
			return true;
			}

			// mapDataDispatcher.printMatrix(waveMatrix);
			mapDataDispatcher.setWaveMatrix(lev, waveMatrix);
			private VehicleRuntime loadRuntime(String agvNo) {
			AgvModel model = agvModelService.getByAgvNo(agvNo);
			if (model == null) {
			return null;
			}
			VehicleFootprint footprint = this.buildFootprint(model);

			return true;
			AgvDetail detail = agvDetailService.selectByAgvNo(agvNo);
			if (detail == null \|\| null == detail.getAgvAngle()) {
			throw new CoolException(agvNo + " does not have an agv angle");
			}
			double headingDeg = detail.getAgvAngle();

			return new VehicleRuntime(footprint, Math.toRadians(90 - headingDeg));
			}

			private double toMapLength(Integer mm) {
			if (mm == null \|\| mm <= 0) {
			throw new IllegalArgumentException("Invalid map length: " + mm);
			}
			return MapDataUtils.getVehicleWaveSafeDistance(mm, MapDataConstant.MAX_DISTANCE_BETWEEN_ADJACENT_AGV_FACTOR);
			}

			private double resolveAvoidDistance(AgvModel agvModel) {
			if (agvModel == null \|\| agvModel.getDiameter() == null \|\| agvModel.getDiameter() <= 0) {
			return 0D;
			}
			return MapDataUtils.getVehicleWaveSafeDistance(agvModel.getDiameter(), MapDataConstant.MAX_DISTANCE_BETWEEN_ADJACENT_AGV_FACTOR);
			}

			private VehicleFootprint buildFootprint(AgvModel agvModel) {
			if (null == agvModel) {
			throw new IllegalArgumentException("AgvModel is null");
			}
			if (agvModel.getHeadOffset() == null \|\| agvModel.getHeadOffset() <= 0) {
			throw new IllegalArgumentException("Invalid head offset: " + agvModel.getHeadOffset());
			}
			if (agvModel.getTailOffset() == null \|\| agvModel.getTailOffset() <= 0) {
			throw new IllegalArgumentException("Invalid tail offset: " + agvModel.getTailOffset());
			}
			if (agvModel.getWidth() == null \|\| agvModel.getWidth() <= 0) {
			throw new IllegalArgumentException("Invalid width: " + agvModel.getWidth());
			}

			double head = toMapLength(agvModel.getHeadOffset());
			double tail = toMapLength(agvModel.getTailOffset());
			double halfWidth = toMapLength(agvModel.getWidth()) / 2;

			return new VehicleFootprint(head, tail, halfWidth);
			}

			private File loadPythonFile() {