内阻计测试-单数据分析导出

whycxzp

2023-12-04 c9fea85fe8e0a6f9dcac863b725d8cf122ab1a4c

 src/main/java/com/whyc/service/ExcelExportService.java

@@ -9,6 +9,7 @@
import com.whyc.pojo.BattgroupData;
import com.whyc.pojo.FileParam;
import com.whyc.pojo.StationInfo;
import com.whyc.pojo.TestParam;
import com.whyc.util.MathUtil;
import org.apache.poi.ss.usermodel.Workbook;
import org.springframework.beans.factory.annotation.Autowired;
@@ -40,37 +41,114 @@
    @Autowired
    private StationInfoService stationInfoService;

    @Autowired
    private TestParamService testParamService;

    public void resTestReport(BattGroupStationInfoWithFileParam info, HttpServletResponse response) throws IOException {
        HashMap<String, Object> map = Maps.newHashMap();
        //总体评价:内阻/电压/连接条/?容量
        int resGoodCount = 0;
        int volGoodCount = 0;
        int chainResGoodCount = 0;
        FileParam fileParam = info.getFileParam();
        //总体评价:有效的电阻/电压/连接条 数
        int battVolTestCount = 0;
        int battResTestCount = 0;
        int battChainResTestCount = 0;
        FileParam param = info.getFileParam();
        SimpleDateFormat format = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");

        fileParam.setTestTimeStr(format.format(fileParam.getTestTime()));
        param.setTestTimeStr(format.format(param.getTestTime()));
        //查询全局的测试系数和参数
        TestParam param2 = testParamService.getFactorsAndThreshold();
        //判断测试数据告警范围
        Float stdRes = param.getBattRes();
        Float volLowCoeK1 = null;
        Float volHighCoeK2 = null;
        //电压不同,电压阈值不同
        if(param.getBattVol() == 2){
            volLowCoeK1 = param2.getVol2LowCoeK1();
            volHighCoeK2 = param2.getVol2HighCoeK2();
        }
        else if(param.getBattVol() == 1.2){
            volLowCoeK1 = param2.getVol1d2LowCoeK1();
            volHighCoeK2 = param2.getVol1d2HighCoeK2();
        }
        else if(param.getBattVol() == 6){
            volLowCoeK1 = param2.getVol6LowCoeK1();
            volHighCoeK2 = param2.getVol6HighCoeK2();
        }
        else if(param.getBattVol() == 12){
            volLowCoeK1 = param2.getVol12LowCoeK1();
            volHighCoeK2 = param2.getVol12HighCoeK2();
        }else{ //电压非常规值,则默认设置为2v的电压阈值
            volLowCoeK1 = param2.getVol2LowCoeK1();
            volHighCoeK2 = param2.getVol2HighCoeK2();
        }
        Float resGoodCoeK3 = param2.getResGoodCoeK3();
        Float resBadCoeK4 = param2.getResBadCoeK4();
        Float chainRes = param.getVersion().toUpperCase().contains("V2.0")?param.getChainRes():param.getConnRes();
        Float finalVolLowCoeK = volLowCoeK1;
        Float finalVolHighCoeK = volHighCoeK2;
        List<BattgroupData> dataList = info.getDataList();
        for(BattgroupData data : dataList){
            //计算电压,内阻,连接条数值是否有效,被测试过
            float bv = Float.parseFloat(data.getBv());
            float br = Float.parseFloat(data.getBr());
            float cr = Float.parseFloat(data.getCr());
            if (bv!=0.0){
                battVolTestCount++;
            }
            if(br!=0.0){
                battResTestCount++;
            }
            if (cr!=0.0){
                battChainResTestCount++;
            }

            data.setMonNumStr("#"+data.getMonNum());
            if(!data.isHighResFlag1() && !data.isHighResFlag2()){
            if(br==0.0){
                data.setResEvaluation("—");
            }
            /*else if(!data.isHighResFlag1() && !data.isHighResFlag2()){
                resGoodCount +=1;
                data.setResEvaluation("优");
            }else if(data.isHighResFlag1()){
                data.setResEvaluation("差");
                data.setResEvaluation("良");
            }else{
                data.setResEvaluation("很差");
                data.setResEvaluation("差");
            }*/
            else if(br >= stdRes*resGoodCoeK3/100){
                if(br >= stdRes*resBadCoeK4/100){
                    // data.setHighResFlag2(true);
                    data.setResEvaluation("差");
                }else{
                    // data.setHighResFlag1(true);
                    data.setResEvaluation("良");
                }
            }else{
                resGoodCount +=1;
                data.setResEvaluation("优");
            }
            if(!data.isLowVolFlag() && !data.isHighVolFlag()){
            /*if(bv!=0.0 && !data.isLowVolFlag() && !data.isHighVolFlag()){
                volGoodCount +=1;
            }*/
            if(bv!=0.0 && bv > finalVolLowCoeK && bv < finalVolHighCoeK){
                volGoodCount +=1;
            }
            if(!data.isHighChainResFlag1() && !data.isHighChainResFlag2()){
            /*if(cr!=0.0 && !data.isHighChainResFlag1() && !data.isHighChainResFlag2()){
                chainResGoodCount +=1;
            }*/
            if(cr!=0.0 && cr < chainRes*param2.getChainResCoeK5()/100){
                chainResGoodCount +=1;
            }
        };
        info.setResGoodCount(resGoodCount);
        info.setVolGoodCount(volGoodCount);
        info.setChainResGoodCount(chainResGoodCount);

        info.setBattVolTestCount(battVolTestCount);
        info.setBattResTestCount(battResTestCount);
        info.setBattChainResTestCount(battChainResTestCount);

        StationInfo stationInfo = info.getStationInfo();
        if(stationInfo!=null) {
@@ -82,6 +160,7 @@
        }
        map.put("dto", info);
        //图片
        //电压柱状图
        BASE64Decoder decoder = new BASE64Decoder();
        if(!info.getVolPic().equals("")) {
            ImageEntity volImage = new ImageEntity();
@@ -91,6 +170,7 @@

            map.put("volImage",volImage);
        }
        //内阻柱状图
        if(!info.getResPic().equals("")) {
            ImageEntity resImage = new ImageEntity();
            resImage.setData(decoder.decodeBuffer(info.getResPic().substring(info.getResPic().indexOf(",") + 1)));
@@ -98,6 +178,24 @@
            resImage.setRowspan(16);

            map.put("resImage", resImage);
        }
        //电导柱状图
        if(!info.getCondPic().equals("")) {
            ImageEntity condImage = new ImageEntity();
            condImage.setData(decoder.decodeBuffer(info.getCondPic().substring(info.getCondPic().indexOf(",") + 1)));
            condImage.setColspan(6);
            condImage.setRowspan(16);

            map.put("condImage", condImage);
        }
        //链接条柱状图
        if(!info.getChainPic().equals("")) {
            ImageEntity chainImage = new ImageEntity();
            chainImage.setData(decoder.decodeBuffer(info.getChainPic().substring(info.getChainPic().indexOf(",") + 1)));
            chainImage.setColspan(6);
            chainImage.setRowspan(16);

            map.put("chainImage", chainImage);
        }

        //map.put("volImage","volImage");
@@ -127,11 +225,24 @@
        List<BattgroupData> dataList = (List<BattgroupData>) comparedList.getData();
        List<BattgroupData> dataList2 = (List<BattgroupData>) comparedList.getData2();
        Map<String,List<String>> data3 = (Map<String, List<String>>) comparedList.getData3();

        int baseSize = dataList.size();
        int size = dataList2.size();
        if(baseSize > size){
            dataList = dataList.subList(0,size);
        }else{
            dataList2 = dataList2.subList(0,baseSize);
        }


        //变化率
        List<String> resChangeRateList = data3.get("resChangeRate");
        List<String> volChangeRateList = data3.get("volChangeRate");
        map.put("resChangeRateList",resChangeRateList.subList(0,resChangeRateList.size()-1));
        map.put("volChangeRateList",volChangeRateList.subList(0,volChangeRateList.size()-1));
        /*map.put("resChangeRateList",resChangeRateList.subList(0,resChangeRateList.size()-1));
        map.put("volChangeRateList",volChangeRateList.subList(0,volChangeRateList.size()-1));*/

        map.put("resChangeRateList",resChangeRateList);
        map.put("volChangeRateList",volChangeRateList);

        map.put("volBalanceRateChangeRate",volChangeRateList.get(volChangeRateList.size()-1));
        map.put("resBalanceRateChangeRate",resChangeRateList.get(resChangeRateList.size()-1));
@@ -186,20 +297,43 @@
        int resGoodCount = 0;
        int volGoodCount = 0;
        int chainResGoodCount = 0;

        //总体评价:有效的电阻/电压/连接条 数
        int battVolTestCount = 0;
        int battResTestCount = 0;
        int battChainResTestCount = 0;

        for(BattgroupData data : dataList2){
            //计算电压,内阻,连接条数值是否有效,被测试过
            float bv = Float.parseFloat(data.getBv());
            float br = Float.parseFloat(data.getBr());
            float cr = Float.parseFloat(data.getCr());
            if (bv!=0.0){
                battVolTestCount++;
            }
            if(br!=0.0){
                battResTestCount++;
            }
            if (cr!=0.0){
                battChainResTestCount++;
            }

            data.setMonNumStr("#"+data.getMonNum());
            if(!data.isHighResFlag1() && !data.isHighResFlag2()){
            if(br==0.0){
                data.setResEvaluation("—");
            }
            else if(!data.isHighResFlag1() && !data.isHighResFlag2() ){
                resGoodCount +=1;
                data.setResEvaluation("优");
            }else if(data.isHighResFlag1()){
                data.setResEvaluation("差");
                data.setResEvaluation("良");
            }else{
                data.setResEvaluation("很差");
                data.setResEvaluation("差");
            }
            if(!data.isLowVolFlag() && !data.isHighVolFlag()){
            if(bv!=0.0 && !data.isLowVolFlag() && !data.isHighVolFlag()){
                volGoodCount +=1;
            }
            if(!data.isHighChainResFlag1() && !data.isHighChainResFlag2()){
            if(cr!=0.0 && !data.isHighChainResFlag1() && !data.isHighChainResFlag2()){
                chainResGoodCount +=1;
            }
        };
@@ -207,6 +341,10 @@
        map.put("volGoodCount",volGoodCount);
        map.put("chainResGoodCount",chainResGoodCount);

        map.put("battVolTestCount",battVolTestCount);
        map.put("battResTestCount",battResTestCount);
        map.put("battChainResTestCount",battChainResTestCount);

        map.put("dataList",dataList);
        map.put("dataList2",dataList2);