pgdsc/src/com/szpg/plc/message/response/read/ReadCOValueCommandResponse.java at 0722a19be046afc80beb3028a7b76e7fadccad93

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pgdsc / src / com / szpg / plc / message / response / read / ReadCOValueCommandResponse.java
ty-pc\admin on 19 Jun 2018 5 KB 20180619 修改提交
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package com.szpg.plc.message.response.read;

import java.util.ArrayList;
import java.util.Calendar;
import java.util.List;

import org.apache.commons.lang3.StringUtils;
import org.apache.log4j.Logger;

import com.szpg.db.dao.PgCODao;
import com.szpg.db.dao.PgDeviceDao;
import com.szpg.db.dao.PgHjsbblDao;
import com.szpg.db.dao.impl.PgCODaoImpl;
import com.szpg.db.dao.impl.PgDeviceDaoImpl;
import com.szpg.db.dao.impl.PgHjsbblDaoImpl;
import com.szpg.db.data.PgHjsbbl;
import com.szpg.plc.message.response.ReadMemoryCommandResponse;
import com.szpg.plc.util.ByteUtil;
import com.szpg.plc.util.Bytes;
import com.szpg.util.Configure;
import com.szpg.util.HttpRequest;
import com.szpg.util.TimeFormat;

public class ReadCOValueCommandResponse extends ReadMemoryCommandResponse {

	/**
	 * 
	 */
	private static final long serialVersionUID = -6176747812714170040L;

	private final Logger logger = Logger.getLogger(this.getClass().getName());
	
	private List<Float> cond; //一氧化碳浓度值
	private List<Float> coldbjz; //一氧化碳联动报警值
	private String[] zcList; //一氧化碳监测的资产列表，从配置文件中获取
	
	public ReadCOValueCommandResponse() {
		cond = new ArrayList<Float>();
		coldbjz = new ArrayList<Float>();
	}

	public List<Float> getCond() {
		return cond;
	}

	public void setCond(List<Float> cond) {
		this.cond = cond;
	}

	public List<Float> getColdbjz() {
		return coldbjz;
	}

	public void setColdbjz(List<Float> coldbjz) {
		this.coldbjz = coldbjz;
	}
	
	public String[] getZcList() {
		return zcList;
	}

	public void setZcList(String[] zcList) {
		this.zcList = zcList;
	}

	@Override
	public void afterAction() {
		// 1将一氧化碳浓度数据存入数据库
		PgCODao coDao = new PgCODaoImpl();
		PgDeviceDao deviceDao = new PgDeviceDaoImpl();
		
		if (null != zcList && zcList.length > 0) {
			// 遍历一氧化碳设备列表，将一氧化碳浓度监测值存入数据库
			for (int i = 0; i < zcList.length; i++) {
				String zcbh = zcList[i];
				
				int id = deviceDao.findDeviceIdByCode(zcbh);
				if (id > 0) {
					coDao.addPblzRecord(cond.get(i), TimeFormat.formatTimestamp(this.getTime().getTime()), id);
					
					// 推送至上级平台
					// TODO 代码待优化
					if (getTime().get(Calendar.MINUTE) >=0 || getTime().get(Calendar.MINUTE) < 10) {
						StringBuilder cosb = new StringBuilder();
						cosb.append("tableName=HJSBBLZB");
						cosb.append("&Ent.BLBH=").append(zcbh + ".Value");
						cosb.append("&Ent.ZCBH=").append(zcbh);
						cosb.append("&Ent.BLZ=").append(cond.get(i));
						cosb.append("&Ent.SJC=").append(TimeFormat.format(getTime().getTime(), "yyyyMMddHHmmss"));
	
						String cosr = HttpRequest.sendPostByHttp("http://10.10.2.19:9056/GLTHXC/api/Common/AddData", cosb.toString());
	
						logger.info(cosr);
					}
				}
			}
		}
	}

	@Override
	public void parseData(byte[] messageData) {
		// 获取目标ACU的代码
		String acucode = this.getAcucode();
		
		// 判断数据的长度是否满足要求
		if (messageData.length != Integer.parseInt(Configure.getProperty("acubl", acucode + ".CO.WORDCOUNT")) * 2) {
			logger.error("返回的数据长度与读取的不一致！");
			this.setValid(false);
			return;
		}
		
		PgHjsbblDao blDao = new PgHjsbblDaoImpl();
		
		// 获取目标ACU一氧化碳监测值内存区域的起始字地址
		int start = Integer.parseInt(Configure.getProperty("acubl", acucode + ".CO.START"));
		
		// 获取目标ACU一氧化碳相关的资产列表，即一氧化碳设备列表
		String zcListStr = Configure.getProperty("acubl", acucode + ".CO.ZC.LIST");
		if (StringUtils.isEmpty(zcListStr) == true) {
			this.setValid(false);
			return;
		}
		zcList = zcListStr.split(";");
		
		// 解析一氧化碳浓度监测值以及一氧化碳浓度报警阈值
		for (int i = 0; i < zcList.length; i++) {
			String zcbh = zcList[i];
			
			// 解析一氧化碳浓度监测值
			PgHjsbbl valueBlObj = blDao.findBlByBh(zcbh + ".Value");
			if (null == valueBlObj) {
				continue;
			}
			
			int vkszdz = valueBlObj.getKszdz(); //开始字地址
			int vjszdz = valueBlObj.getJszdz(); //结束字地址
			int vn = vjszdz - (vkszdz - 1); //字数
			int voffset = vkszdz - start; //与开始字的偏移量
			
			Bytes valueBytes = new Bytes();
			for (int j = vn; j > 0; j--) {
				valueBytes.append(new byte[] {messageData[(voffset + j - 1) * 2], messageData[(voffset + j - 1) * 2 + 1]});
			}
			
			float value = Float.intBitsToFloat(Integer.parseInt(ByteUtil.binToHexString(valueBytes.toBytes()), 16)); //一氧化碳浓度值
			
			// 解析一氧化碳浓度报警阈值
			PgHjsbbl thresholdBlObj = blDao.findBlByBh(zcbh + ".Set");
			if (null == thresholdBlObj) {
				continue;
			}
			
			int tkszdz = thresholdBlObj.getKszdz(); //开始字地址
			int tjszdz= thresholdBlObj.getJszdz(); //结束字地址
			int tn = tjszdz - (tkszdz - 1); //字数
			int toffset = tkszdz - start; //与开始字的偏移量
			
			Bytes thresholdBytes = new Bytes();
			for (int k = tn; k > 0; k--) {
				thresholdBytes.append(new byte[] {messageData[(toffset + k - 1) * 2], messageData[(toffset + k - 1) * 2 + 1]});
			}
			
			float threshold = Float.intBitsToFloat(Integer.parseInt(ByteUtil.binToHexString(thresholdBytes.toBytes()), 16)); //一氧化碳报警阈值
			
			getCond().add(value);
			getColdbjz().add(threshold);
		}
	}

}