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package com.szpg.plc.message.response.read;
import java.util.ArrayList;
import java.util.List;
import org.apache.commons.lang3.StringUtils;
import org.apache.log4j.Logger;
import com.szpg.db.dao.PgCh4Dao;
import com.szpg.db.dao.PgDeviceDao;
import com.szpg.db.dao.PgHjsbblDao;
import com.szpg.db.dao.impl.PgCh4DaoImpl;
import com.szpg.db.dao.impl.PgDeviceDaoImpl;
import com.szpg.db.dao.impl.PgHjsbblDaoImpl;
import com.szpg.db.data.PgAlarm;
import com.szpg.db.data.PgCh4;
import com.szpg.db.data.PgHjsbbl;
import com.szpg.plc.message.response.ReadMemoryCommandResponse;
import com.szpg.plc.util.ByteUtil;
import com.szpg.util.Configure;
import com.szpg.util.NumberFormat;
public class ReadCH4StatusCommandResponse extends ReadMemoryCommandResponse {
/**
*
*/
private static final long serialVersionUID = -6940879434912360622L;
private final Logger logger = Logger.getLogger(this.getClass().getName());
private List<Boolean> jwbj; // 甲烷浓度报警状态
private List<Boolean> jwldbj; // 甲烷是否联动报警
private String[] zcList; //甲烷监测的资产列表,从配置文件中获取
public ReadCH4StatusCommandResponse() {
jwbj = new ArrayList<Boolean>();
jwldbj = new ArrayList<Boolean>();
}
public List<Boolean> getJwbj() {
return jwbj;
}
public void setJwbj(List<Boolean> jwbj) {
this.jwbj = jwbj;
}
public List<Boolean> getJwldbj() {
return jwldbj;
}
public void setJwldbj(List<Boolean> jwldbj) {
this.jwldbj = jwldbj;
}
public String[] getZcList() {
return zcList;
}
public void setZcList(String[] zcList) {
this.zcList = zcList;
}
@Override
public void afterAction() {
// 1将甲烷浓度数据存入数据库
PgCh4Dao ch4Dao = new PgCh4DaoImpl();
PgDeviceDao deviceDao = new PgDeviceDaoImpl();
// 遍历甲烷设备列表,将甲烷报警状态存入数据库
for (int i = 0; i < zcList.length; i++) {
String zcbh = zcList[i];
int id = deviceDao.findDeviceIdByCode(zcbh);
if (id > 0) {
if (jwbj.get(i) == true) {
PgAlarm alarmRec = new PgAlarm();
alarmRec.setAlarm_date(this.getTime().getTime());
alarmRec.setAlarmdevid(id);
alarmRec.setAlarmtypeid(PgAlarm.ALARM_TYPE_PGRUN);
PgCh4 value = ch4Dao.findLatestPblzByDevice(id);
if (null != value) {
alarmRec.setAlarm_value(NumberFormat.format(value.getCh4(), "0.00"));
}
deviceDao.addGenerlAlarmRecord(alarmRec);
// 推送到上级平台
}
}
}
}
@Override
public void parseData() {
// 获取目标ACU的代码
String acucode = this.getAcucode();
byte[] messageData = this.getResponseData();
// 判断数据的长度是否满足要求
if (messageData.length != Integer.parseInt(Configure.getProperty("acubl", acucode + ".CHALM.WORDCOUNT")) * 2) {
logger.error("返回的数据长度与读取的不一致!");
this.setValid(false);
return;
}
// 将数据转换为字符串
// 按照高字在前,低字在后;高字节在前,低字节在后的顺序
String dataStr = "";
for (int c = 0; c < messageData.length; c = c + 2) {
dataStr = ByteUtil.binToBinString(new byte[] {messageData[c], messageData[c + 1]}) + dataStr;
}
PgHjsbblDao blDao = new PgHjsbblDaoImpl();
// 获取目标ACU甲烷监测值内存区域的起始字地址
int start = Integer.parseInt(Configure.getProperty("acubl", acucode + ".CHALM.START"));
// 获取目标ACU甲烷相关的资产列表,即甲烷设备列表
String zcListStr = Configure.getProperty("acubl", acucode + ".CH.ZC.LIST");
if (StringUtils.isEmpty(zcListStr) == true) {
this.setValid(false);
return;
}
zcList = zcListStr.split(";");
// 解析甲烷浓度报警状态
for (int i = 0; i < zcList.length; i++) {
String zcbh = zcList[i];
// 解析甲烷浓度报警值
PgHjsbbl almBlObj = blDao.findBlByBh(zcbh + ".AH");
if (null == almBlObj) {
continue;
}
int akszdz = almBlObj.getKszdz(); //开始字地址
int aoffset = akszdz - start; //与开始字的偏移量
int abit = almBlObj.getSzw(); //所在位
char bjBt = dataStr.charAt(dataStr.length() - 1 - aoffset * 16 - abit); // 甲烷浓度报警状态标志位
// 解析甲烷浓度报警联动标志位
PgHjsbbl enBlObj = blDao.findBlByBh(zcbh + ".EN");
if (null == enBlObj) {
continue;
}
int ekszdz = enBlObj.getKszdz(); //开始字地址
int eoffset = ekszdz - start; //与开始字的偏移量
int ebit = enBlObj.getSzw(); //所在位
char enBt = dataStr.charAt(dataStr.length() - 1 - eoffset * 16 - ebit); // 甲烷浓度联动报警使能标志位
getJwbj().add(bjBt == '1' ? true : false);
getJwldbj().add(enBt == '1' ? true : false);
}
}
}