XMPoleManager.git

			@@ -1,5 +1,6 @@
			package com.sandu.ximon.admin.manager.iot.frame.inner.report;

			import cn.hutool.core.util.HexUtil;
			import cn.hutool.core.util.StrUtil;
			import com.sandu.ximon.admin.manager.iot.frame.inner.BaseResponseInnerFrame;
			import com.sandu.ximon.admin.manager.iot.frame.inner.IResponseInnerFrame;
			@@ -67,7 +68,7 @@
			private String sec;
			// 充电桩口
			private String chargingPort;
			// 充电桩口状态位
			// 充电桩口状态位 1.空闲 2.充电中 3.充电中断，等待服务器确认 4.充电结束，等待服务器确认 5.有故障 6.与充电桩对接中
			private String statusBit;
			// 设备温度 0.1℃
			private String deviceTemperature;
			@@ -98,27 +99,77 @@
			return null;
			}
			this.c3Mac = hex.substring(0, 8);
			this.year = hex.substring(8, 10);
			this.month = hex.substring(10, 12);
			this.day = hex.substring(12, 14);
			this.hour = hex.substring(14, 16);
			this.min = hex.substring(16, 18);
			this.sec = hex.substring(18, 20);
			this.chargingPort = hex.substring(20, 24);
			this.statusBit = hex.substring(24, 26);
			this.deviceTemperature = hex.substring(26, 30);
			this.gridVoltage = hex.substring(30, 34);
			this.gridCurrent = hex.substring(34, 38);
			this.frequency = hex.substring(38, 42);
			this.powerFactor = hex.substring(42, 46);
			this.activePower = hex.substring(46, 50);
			this.reactivePower = hex.substring(50, 54);
			this.chargedCapacity = hex.substring(54, 58);
			this.reservedCapacity = hex.substring(58, 62);
			this.remainingAmount = hex.substring(62, 66);
			this.alreadyChargingTime = hex.substring(66, 72);
			this.year = parseVal(hex.substring(8, 10));
			this.month = parseVal(hex.substring(10, 12));
			this.day = parseVal(hex.substring(12, 14));
			this.hour = parseVal(hex.substring(14, 16));
			this.min = parseVal(hex.substring(16, 18));
			this.sec = parseVal(hex.substring(18, 20));
			this.chargingPort = parseVal(hex.substring(20, 24));
			this.statusBit = parseVal(hex.substring(24, 26));
			this.deviceTemperature = temperatureTransition(hex.substring(26, 30)) + "";
			this.gridVoltage = (parseVal(hex, 30, 34) * 0.01) + "";
			this.gridCurrent = (parseVal(hex, 34, 38) * 0.01 + "");
			this.frequency = (parseVal(hex, 38, 42) * 0.01 + "");
			this.powerFactor = (parseVal(hex, 42, 46) * 0.01 + "");
			this.activePower = (parseVal(hex, 46, 50) * 0.01 + "");
			this.reactivePower = (parseVal(hex, 50, 54) * 0.01 + "");
			this.chargedCapacity = (parseVal(hex, 54, 58) * 0.01 + "");
			this.reservedCapacity = (parseVal(hex, 58, 62) * 0.01 + "");
			this.remainingAmount = (parseVal(hex, 62, 66) * 0.01 + "");
			this.alreadyChargingTime = parseVal(hex.substring(66, 72));
			//72-80保留，暂未使用

			return this;
			}

			private Integer parseVal(String frame, int start, int end) {
			return Integer.parseInt(frame.substring(start, end), 16);
			}

			private String parseVal(String hex) {
			return Integer.parseInt(hex, 16) + "";
			}

			/**
			* 将16进制转成2进制，进行补码（反码基础上+1），得到正确数值
			* 传入16进制的温度，类型为String
			* 如F500
			*/
			public Double temperatureTransition(String temperature) {

			//将传进来的16进制的转为2进制
			String twoBinStr = hexStr2BinStr(temperature);

			if ("1".equals(twoBinStr.substring(0, 1))) {
			//最高位是1，为负数,将16进制的进行补码，返回
			int max = 0b1111111111111111;
			double result = (max - HexUtil.hexToInt(temperature)) * (-0.01);
			return result;

			} else if ("0".equals(twoBinStr.substring(0, 1))) {
			//最高位是0，正数，直接返回
			double result = (HexUtil.hexToInt(temperature)) * (0.01);
			return result;

			}
			//
			return 0.00;
			}

			/**
			* 16进制字符串转为二进制
			*/
			public String hexStr2BinStr(String hexStr) {
			if (hexStr == null \|\| hexStr.length() % 2 != 0) {
			return null;
			}
			String bString = "", tmp;
			for (int i = 0; i < hexStr.length(); i++) {
			tmp = "0000" + Integer.toBinaryString(Integer.parseInt(hexStr.substring(i, i + 1), 16));
			bString += tmp.substring(tmp.length() - 4);
			}
			return bString;
			}
			}
			}