package com.moral.api.util; import lombok.extern.slf4j.Slf4j; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.stereotype.Component; import org.springframework.util.ObjectUtils; import org.springframework.util.StringUtils; import java.math.BigDecimal; import java.text.SimpleDateFormat; import java.util.Date; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.Optional; import java.util.Set; import com.alibaba.fastjson.JSON; import com.alibaba.fastjson.JSONObject; import com.googlecode.aviator.AviatorEvaluator; import com.googlecode.aviator.Expression; import com.moral.api.entity.DeviceAdjustValue; import com.moral.api.mapper.HistoryHourlyMapper; import com.moral.constant.Constants; import com.moral.util.DateUtils; @Slf4j @Component public class AdjustDataUtils { @Autowired private HistoryHourlyMapper historyHourlyMapper; /** * @param deviceData 设备数据 * @param adjustFormula 校准公式,包含所有因子校准公式,key为因子code,value为校准公式(各个时间段的公式List) * @param aqiMap 与设备绑定的国控站点aqi数据 * @return Map 校准后数据 */ public Map adjust(Map deviceData, Map adjustFormula, Map aqiMap,String code) { try { Date time = DateUtils.getDate((String) deviceData.remove("DataTime"), DateUtils.yyyyMMddHHmmss_EN); String mac = deviceData.remove("mac").toString(); long finalTime = DateUtils.dataToTimeStampTime(time, DateUtils.HH_mm_ss_EN).getTime(); //先校准烟气流速,再用流速校准烟气流量 if (deviceData.get(Constants.SENSOR_CODE_CURRENT_SPEED) != null) { deviceData = adjustFlueSpeedAndFlow(deviceData, adjustFormula); } //硬件没有的传感器,但是需要显示的 Set dateKey = deviceData.keySet(); for (String adjustKey : adjustFormula.keySet()) { if (!dateKey.contains(adjustKey)) { deviceData.put(adjustKey, "0"); } } for (String key : deviceData.keySet()) { if (!key.contains("Flag")) { //测量值 Object measuredValue = deviceData.get(key); //单个因子校准公式 List sensorFormulas = (List) adjustFormula.get(key); if (ObjectUtils.isEmpty(sensorFormulas)) { deviceData.put(key, measuredValue); continue; } //根据时间段筛选校准公式 DeviceAdjustValue deviceAdjustValue = new DeviceAdjustValue(); Optional optional = sensorFormulas.stream() .filter(o -> o.getStartTime().getTime() <= finalTime && o.getEndTime().getTime() > finalTime) .findFirst(); if (optional.isPresent()) { deviceAdjustValue = optional.get(); } String formula = deviceAdjustValue.getValue(); if (StringUtils.isEmpty(formula)) { deviceData.put(key, measuredValue); continue; } Expression expression = AviatorEvaluator.compile(formula); Map env = new HashMap<>(); if (formula.contains("aqi")) { Object aqiValue = null; if (aqiMap != null) { aqiValue = aqiMap.get(key); } env.put("aqi", ObjectUtils.isEmpty(aqiValue) ? 0F : new BigDecimal(String.valueOf(aqiValue)).floatValue()); } if (formula.contains("vocs")) { Object vocsValue = ObjectUtils.isEmpty(deviceData.get(Constants.SENSOR_CODE_VOCS)) ? 0F : deviceData.get(Constants.SENSOR_CODE_VOCS); env.put("vocs", vocsValue); } if (formula.contains("cel")) { //env.put("cel", Float.parseFloat((String) measuredValue)); env.put("cel", new BigDecimal(String.valueOf(measuredValue)).floatValue()); } //校准 measuredValue = expression.execute(env); //温度处理 if (!Constants.SENSOR_CODE_TEMP.equals(measuredValue) && Float.parseFloat(measuredValue.toString()) < 0) { measuredValue = 0F; } deviceData.put(key, Double.parseDouble(String.format("%.4f", measuredValue))); } } if (code.equals("2")){ HashMap result = new HashMap<>(); String yearAndMonth = DateUtils.dateToDateString(DateUtils.addHours(time, -2), DateUtils.yyyyMM_EN); SimpleDateFormat simpleDateFormat = new SimpleDateFormat("yyyy-MM-dd HH:00:00"); String format = simpleDateFormat.format(DateUtils.addHours(time, -2)); result.put("timeUnits",yearAndMonth); result.put("mac",mac); result.put("time",format); Map map = historyHourlyMapper.selectHistoryHourly(result); if (ObjectUtils.isEmpty(map)){ return deviceData; } if (ObjectUtils.isEmpty(aqiMap.get("a21005"))){ JSONObject jsonObject = JSONObject.parseObject(map.get("value").toString()); String a21005 = jsonObject.get("a21005").toString(); deviceData.put("a21005",Double.parseDouble(a21005)); } if (ObjectUtils.isEmpty(aqiMap.get("a21026"))){ JSONObject jsonObject = JSONObject.parseObject(map.get("value").toString()); String a21026 = jsonObject.get("a21026").toString(); deviceData.put("a21026",Double.parseDouble(a21026)); } if (ObjectUtils.isEmpty(aqiMap.get("a21004"))){ JSONObject jsonObject = JSONObject.parseObject(map.get("value").toString()); String a21004 = jsonObject.get("a21004").toString(); deviceData.put("a21004",Double.parseDouble(a21004)); } if (ObjectUtils.isEmpty(aqiMap.get("a34002"))){ JSONObject jsonObject = JSONObject.parseObject(map.get("value").toString()); String a34002 = jsonObject.get("a34002").toString(); deviceData.put("a34002",Double.parseDouble(a34002)); } if (ObjectUtils.isEmpty(aqiMap.get("a34004"))){ JSONObject jsonObject = JSONObject.parseObject(map.get("value").toString()); String a34004 = jsonObject.get("a34004").toString(); deviceData.put("a34004",Double.parseDouble(a34004)); } if (ObjectUtils.isEmpty(aqiMap.get("a05024"))){ JSONObject jsonObject = JSONObject.parseObject(map.get("value").toString()); String a05024 = jsonObject.get("a05024").toString(); deviceData.put("a05024",Double.parseDouble(a05024)); } } } catch (Exception e) { log.error("param[0] deviceData:" + JSON.toJSONString(deviceData)); } return deviceData; } /** * 烟道流速,烟道流量校准 * * @param deviceData 数据,其中包含各传感器值,和数据时间(用于不同时间段不同校准公式校准) * @param adjustFormula 该数据所属设备所有因子的校准公式,key为因子code */ public Map adjustFlueSpeedAndFlow(Map deviceData, Map adjustFormula) { Date time = DateUtils.getDate((String) deviceData.remove("DataTime"), DateUtils.yyyyMMddHHmmss_EN); long finalTime = DateUtils.dataToTimeStampTime(time, DateUtils.HH_mm_ss_EN).getTime(); //流速测量值 Object measuredValue = deviceData.get(Constants.SENSOR_CODE_CURRENT_SPEED); //流速校准 List speedFormulas = (List) adjustFormula.get(Constants.SENSOR_CODE_CURRENT_SPEED); if (!ObjectUtils.isEmpty(speedFormulas)) { //根据时间段筛选校准公式 DeviceAdjustValue deviceAdjustValue = new DeviceAdjustValue(); Optional optional = speedFormulas.stream() .filter(o -> o.getStartTime().getTime() <= finalTime && o.getEndTime().getTime() > finalTime) .findFirst(); if (optional.isPresent()) { deviceAdjustValue = optional.get(); } String formula = deviceAdjustValue.getValue(); if (!StringUtils.isEmpty(formula)) { Expression expression = AviatorEvaluator.compile(formula); Map env = new HashMap<>(); env.put("cel", Float.parseFloat((String) measuredValue)); //校准 measuredValue = expression.execute(env); deviceData.put(Constants.SENSOR_CODE_CURRENT_SPEED, Double.parseDouble(String.format("%.4f", measuredValue))); } //流量校准 List flowFormulas = (List) adjustFormula.get(Constants.SENSOR_CODE_CURRENT_FLOW); //根据时间段筛选校准公式 optional = flowFormulas.stream() .filter(o -> o.getStartTime().getTime() <= finalTime && o.getEndTime().getTime() > finalTime) .findFirst(); if (optional.isPresent()) { deviceAdjustValue = optional.get(); } formula = deviceAdjustValue.getValue(); if (!StringUtils.isEmpty(formula)) { Expression expression = AviatorEvaluator.compile(formula); Map env = new HashMap<>(); String currentSpeed = deviceData.get(Constants.SENSOR_CODE_CURRENT_SPEED).toString(); env.put("currentSpeed", Float.parseFloat(currentSpeed)); deviceData.put(Constants.SENSOR_CODE_CURRENT_FLOW, Double.parseDouble(String.format("%.4f", expression.execute(env)))); } } return deviceData; } }