OTS/OTSIncAMeasureApp/0-OTSModel/OTSDataType/COTSXRayParam.cs

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.Xml;
using static OTSDataType.otsdataconst;

namespace OTSDataType
{
    public class COTSXRayParam : ISlo
    {
        // x-ray scan mode
        const OTS_X_RAY_SCAN_MODE DEFAULE_XRAY_SCAN_MODE = OTS_X_RAY_SCAN_MODE.PointMode;

        // search x-ray low counts cut off
        const int DEFAULE_XRAY_LOW_COUNT = 800;

    
        // x-ray speed analysis
        const int DEFAULE_XRAY_ANALY_MID_TIME = 1000;
        const double DEFAULE_XRAY_QUANTIFY_MINSIZE = 50;

       

        const int DEFAULE_FASTXRAYTIME = 100;
        const int Default_Xray_Limit = 50;
        private OTS_X_RAY_SCAN_MODE m_nScanMode;

      
        private int m_nAnalyLowestCount;
     
        private int m_nMidAnalyAQTime;

        private double m_nQutantifyMinSize;
        private int m_nSmallPartXrayTime;

        private bool m_nUsingXray;
       
        private int m_XrayLimit;

        private string m_analysisElements;
        private bool m_IfAutoId;
        public string AnalysisElements { get => m_analysisElements; set => m_analysisElements = value; }
        public bool IfAutoId { get => m_IfAutoId; set => m_IfAutoId = value; }

        void Init()
        {
            m_nScanMode = DEFAULE_XRAY_SCAN_MODE;
    
        
            m_nAnalyLowestCount = DEFAULE_XRAY_LOW_COUNT;

            m_nMidAnalyAQTime = DEFAULE_XRAY_ANALY_MID_TIME;
            m_nQutantifyMinSize = DEFAULE_XRAY_QUANTIFY_MINSIZE;
          
            m_XrayLimit = Default_Xray_Limit;
            m_nQutantifyMinSize = DEFAULE_XRAY_QUANTIFY_MINSIZE;
            m_nSmallPartXrayTime = DEFAULE_FASTXRAYTIME;
        }
        public COTSXRayParam()
        {
            Init();
        }
        // duplication
        void Duplicate(COTSXRayParam a_oSource)
        {

            // copy data over
            m_nScanMode = a_oSource.m_nScanMode;

            m_nAnalyLowestCount = a_oSource.m_nAnalyLowestCount;
 
            m_nMidAnalyAQTime = a_oSource.m_nMidAnalyAQTime;


            m_nUsingXray = a_oSource.m_nUsingXray;
            //m_UseFilter = a_oSource.m_UseFilter;
            m_XrayLimit = a_oSource.m_XrayLimit;
            m_nQutantifyMinSize = a_oSource.m_nQutantifyMinSize;
            m_nSmallPartXrayTime = a_oSource.m_nSmallPartXrayTime;
            m_IfAutoId = a_oSource.m_IfAutoId;
            m_analysisElements = a_oSource.m_analysisElements;

        }
        // copy constructor
        public COTSXRayParam(COTSXRayParam a_oSource)
        {       // copy data over
            Duplicate(a_oSource);
        }
        // ==operator
        public bool Equals(COTSXRayParam a_oSource)
        {
            // return test result
            return m_nScanMode == a_oSource.m_nScanMode &&

                m_nAnalyLowestCount == a_oSource.m_nAnalyLowestCount &&

                m_nMidAnalyAQTime == a_oSource.m_nMidAnalyAQTime &&
                 m_nQutantifyMinSize == a_oSource.m_nQutantifyMinSize &&
                m_nSmallPartXrayTime == a_oSource.m_nSmallPartXrayTime &&
                m_nUsingXray == a_oSource.m_nUsingXray;/* &&*/
                //m_UseFilter == a_oSource.m_UseFilter;
        }



        public OTS_X_RAY_SCAN_MODE GetScanMode() { return m_nScanMode; }
        public void SetScanMode(OTS_X_RAY_SCAN_MODE a_nVal) { m_nScanMode = a_nVal; }



     

        public int GetAnalyExpCount() { return m_nAnalyLowestCount; }
        public void SetAnalyExpCount(int a_nVal) { m_nAnalyLowestCount = a_nVal; }
        public double GetFeatureModeMinSize() { return m_nQutantifyMinSize; }
        public void SetFeatureModeMinSize(double a_nQuantifyMinSize)
        {
            m_nQutantifyMinSize = a_nQuantifyMinSize;
        }
        //public int GetFastXrayTime() { return m_nFastXrayTime; }
        //public void SetFastXrayTime(int a_nFastXrayTime)
        //{
        //    m_nFastXrayTime = a_nFastXrayTime;
        //}

        public int GetMidAnalyAQTime() { return m_nMidAnalyAQTime; }
        public void SetMidAnalyAQTime(int a_nMidAnalyAQTime) { m_nMidAnalyAQTime = a_nMidAnalyAQTime; }


       
        public int GetSmallPartXrayTime() { return m_nSmallPartXrayTime; }
        public void SetSmallPartXrayTime(int a_nFastXrayTime)
        {
            m_nSmallPartXrayTime = a_nFastXrayTime;
        }
        public int GetXrayLimit() { return m_XrayLimit; }
        public void SetXrayLimit(int a_xrayLimit)
        {
            m_XrayLimit = a_xrayLimit;
        }

        public bool GetUsingXray() { return m_nUsingXray; }
        public void SetUsingXray(bool a_nUsingXray)
        {
            m_nUsingXray = a_nUsingXray;
        }

        //public bool GetUseFilter() { return m_UseFilter; }
        //public void SetUseFilter(bool a_UseFilter)
        //{
        //    m_UseFilter = a_UseFilter;
        //}

        public override void Serialize(bool isStoring, XmlDocument classDoc, XmlNode rootNode)
        {
            xString xnScanMode = new xString();
    
            xInt xnAnalyExpCount = new xInt();
        
            xInt xnMidAnalyAQTime = new xInt();

            xInt xSmallPartAQTime = new xInt();

            xDouble xQuantifyMinSize = new xDouble();

            xBool xnUsingXray = new xBool();

            xBool xnUseFilter = new xBool();

            xInt xXrayLimit = new xInt();

            xBool xIfautoid = new xBool();

            xString xknownelements = new xString();
            
          

            Slo slo = new Slo();

            slo.Register("ScanMode", xnScanMode);
    
            slo.Register("AnalyExpCount", xnAnalyExpCount);
   
            slo.Register("MidAnalyAQTime", xnMidAnalyAQTime);

            slo.Register("SmallPartAQTime", xSmallPartAQTime);

            slo.Register("QuantifyMinSize", xQuantifyMinSize);

            slo.Register("UsingXray", xnUsingXray);

            slo.Register("UseFilter", xnUseFilter);

            slo.Register("XrayLimit", xXrayLimit);

            slo.Register("IfAutoId", xIfautoid);

            slo.Register("KnownElements", xknownelements);



           


            if (isStoring)
            {
                xnScanMode.AssignValue((int)m_nScanMode+":"+m_nScanMode.ToString());
    
                xnAnalyExpCount.AssignValue(m_nAnalyLowestCount);
            
                xnMidAnalyAQTime.AssignValue(m_nMidAnalyAQTime);

                xSmallPartAQTime.AssignValue(m_nSmallPartXrayTime);

                xQuantifyMinSize.AssignValue(m_nQutantifyMinSize);

                xnUsingXray.AssignValue(m_nUsingXray);

                //xnUseFilter.AssignValue(m_UseFilter);

                xXrayLimit.AssignValue(m_XrayLimit);

                xIfautoid.AssignValue(m_IfAutoId);

                xknownelements.AssignValue(m_analysisElements);
              

                slo.Serialize(true, classDoc, rootNode);
            }
            else
            {
                slo.Serialize(false, classDoc, rootNode);

                m_nScanMode = (OTS_X_RAY_SCAN_MODE)Convert.ToInt32( xnScanMode.value().Split(':')[0]);
         
                m_nAnalyLowestCount = xnAnalyExpCount.value();
             
                m_nMidAnalyAQTime = xnMidAnalyAQTime.value();

                m_nSmallPartXrayTime = xSmallPartAQTime.value();

                m_nQutantifyMinSize = xQuantifyMinSize.value();

                m_nUsingXray = xnUsingXray.value();

                //m_UseFilter = xnUseFilter.value();

                m_XrayLimit = xXrayLimit.value();
               
                    

                m_IfAutoId = xIfautoid.value();

                m_analysisElements = xknownelements.value();
               
            }
        }
    }
}