rcs-flow.git - Gitblit

			@@ -1,8 +1,9 @@
			package com.zy.acs.manager.core.service;

			import com.baomidou.mybatisplus.core.conditions.query.LambdaQueryWrapper;
			import com.zy.acs.framework.common.Cools;
			import com.zy.acs.common.utils.Utils;
			import com.zy.acs.framework.common.Cools;
			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.service.astart.DynamicNodeType;
			@@ -13,6 +14,7 @@
			import com.zy.acs.manager.manager.entity.AgvDetail;
			import com.zy.acs.manager.manager.entity.AgvModel;
			import com.zy.acs.manager.manager.entity.Code;
			import com.zy.acs.manager.manager.enums.AgvModelType;
			import com.zy.acs.manager.manager.service.AgvDetailService;
			import com.zy.acs.manager.manager.service.AgvModelService;
			import com.zy.acs.manager.manager.service.AgvService;
			@@ -20,10 +22,15 @@
			import lombok.extern.slf4j.Slf4j;
			import org.apache.commons.lang.time.StopWatch;
			import org.springframework.beans.factory.annotation.Autowired;
			import org.springframework.core.io.ClassPathResource;
			import org.springframework.core.io.Resource;
			import org.springframework.stereotype.Component;

			import javax.annotation.PostConstruct;
			import javax.annotation.PreDestroy;
			import java.io.*;
			import java.nio.file.Files;
			import java.nio.file.StandardCopyOption;
			import java.util.List;
			import java.util.concurrent.ExecutorService;
			import java.util.concurrent.Executors;
			@@ -55,6 +62,8 @@
			private CodeService codeService;
			@Autowired
			private MapService mapService;
			@Autowired
			private RedisProperties redisProperties;

			@PostConstruct
			@SuppressWarnings("all")
			@@ -66,14 +75,34 @@

			this.calcDynamicNodeWhenBoot();

			while (!Thread.currentThread().isInterrupted()) {

			this.calcWaveScope();

			try { Thread.sleep(500); } catch (InterruptedException ignore) {}
			}
			// while (!Thread.currentThread().isInterrupted()) {
			//
			// this.calcWaveScope();
			//
			// try { Thread.sleep(500); } catch (InterruptedException ignore) {}
			// }

			});
			}

			private File pythonFile = null;

			private File loadPythonFile() {
			File scriptFile = null;
			try {
			Resource resource = new ClassPathResource("agv.py");

			InputStream is = resource.getInputStream();
			scriptFile = File.createTempFile("agv", ".py");
			scriptFile.deleteOnExit();

			Files.copy(is, scriptFile.toPath(), StandardCopyOption.REPLACE_EXISTING);

			scriptFile.setExecutable(true);
			} catch (Exception e) {
			throw new RuntimeException(e);
			}
			return scriptFile;
			}

			public void calcWaveScope() {
			@@ -89,47 +118,82 @@
			return;
			}

			String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(lev);
			String[][] waveMatrix = mapDataDispatcher.initWaveMatrix(lev);
			// python
			AgvModel agvModel = agvModelService.selectByType(AgvModelType.CTU_BOX_TRANSPORT_AGV.toString()); // can be optimized
			Double avoidDistance = MapDataUtils.getVehicleWaveSafeDistance(agvModel.getDiameter(), MapDataConstant.MAX_DISTANCE_BETWEEN_ADJACENT_AGV_FACTOR);

			// vehicle
			// for (Agv agv : agvService.list(new LambdaQueryWrapper<>())) {
			// AgvDetail agvDetail = agvDetailService.selectByAgvId(agv.getId());
			// AgvModel agvModel = agvModelService.getById(agv.getAgvModel());
			// Code code = codeService.getById(agvDetail.getRecentCode());
			//
			// Double avoidDistance = MapDataUtils.getVehicleWaveSafeDistance(agvModel.getDiameter(), MapDataConstant.MAX_DISTANCE_BETWEEN_ADJACENT_AGV_FACTOR);
			// List<NavigateNode> includeList = mapService.getWaveScopeByCode(lev, code.getData(), avoidDistance);
			//
			// for (NavigateNode navigateNode : includeList) {
			// String waveNode = waveMatrix[navigateNode.getX()][navigateNode.getY()];
			// waveMatrix[navigateNode.getX()][navigateNode.getY()] = MapDataUtils.generateWaveNode(waveNode, agv.getUuid());
			// }
			//
			// }

			// lock path
			DynamicNode[][] dynamicMatrix = mapDataDispatcher.getDynamicMatrix(lev);
			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)) {
			AgvModel agvModel = agvModelService.getById(agvService.selectByUuid(vehicle).getAgvModel()); // can be optimized

			Double avoidDistance = MapDataUtils.getVehicleWaveSafeDistance(agvModel.getDiameter(), MapDataConstant.MAX_DISTANCE_BETWEEN_ADJACENT_AGV_FACTOR);
			List<NavigateNode> includeList = mapService.getWaveScopeByCode(lev, codeMatrix[i][j], avoidDistance);

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

			// mapDataDispatcher.printMatrix(waveMatrix);
			mapDataDispatcher.setWaveMatrix(lev, waveMatrix);
			ProcessBuilder processBuilder = new ProcessBuilder(
			"python" // 或者 "python3" 取决于系统配置
			, pythonFile.getAbsolutePath()
			, String.valueOf(avoidDistance)
			, redisProperties.getHost()
			, redisProperties.getPassword()
			, String.valueOf(redisProperties.getPort())
			, String.valueOf(redisProperties.getIndex())
			);

			processBuilder.redirectErrorStream(true);

			Process process = processBuilder.start();

			BufferedReader reader = new BufferedReader(new InputStreamReader(process.getInputStream()));
			String line;
			StringBuilder builder = new StringBuilder();
			while ((line = reader.readLine()) != null) {
			builder.append(line);
			}

			int exitCode = process.waitFor();
			if (exitCode != 0) {
			log.error("Python script exited with error code: {}", exitCode);
			log.error("python error:{}", builder.toString());
			return;
			}
			reader.close();

			if (builder.length() <= 0) {
			return;
			}

			String result = builder.toString();

			if (!Cools.isEmpty(result)) {
			if (!"1".equals(result)) {
			log.error("Failed to call python");
			}
			}
			// log.error("python finish {}", System.currentTimeMillis() - startTime);

			// java
			// String[][] codeMatrix = mapDataDispatcher.getCodeMatrix(lev);
			// String[][] waveMatrix = mapDataDispatcher.initWaveMatrix(lev);
			//
			// // lock path
			// DynamicNode[][] dynamicMatrix = mapDataDispatcher.getDynamicMatrix(lev);
			// 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)) {
			// AgvModel agvModel = agvModelService.getById(agvService.selectByUuid(vehicle).getAgvModel()); // can be optimized
			//
			// Double avoidDistance = MapDataUtils.getVehicleWaveSafeDistance(agvModel.getDiameter(), MapDataConstant.MAX_DISTANCE_BETWEEN_ADJACENT_AGV_FACTOR);
			// List<NavigateNode> includeList = mapService.getWaveScopeByCode(lev, codeMatrix[i][j], avoidDistance);
			//
			// for (NavigateNode navigateNode : includeList) {
			// String waveNode = waveMatrix[navigateNode.getX()][navigateNode.getY()]; // overlay
			// waveMatrix[navigateNode.getX()][navigateNode.getY()] = MapDataUtils.generateWaveNode(waveNode, vehicle);
			// }
			// }
			// }
			// }
			//
			//// mapDataDispatcher.printMatrix(waveMatrix);
			// mapDataDispatcher.setWaveMatrix(lev, waveMatrix);

			} catch (Exception e) {