private void UpdateBasicInformationGroup(PipeInfo pipeInfo)
        {
            // Pipe No.
               m_labelPipeId.Text =  string.Format(Resources.IDS_PIPE_ID_IMMSERING, pipeInfo.PipeId);

            // Data time
            m_labelDateTime.Text = pipeInfo.Time.ToString();
        }
        private void UpdateAngleInformationGroup(PipeInfo pipeInfo)
        {
            // Angle1
            const string strAngleFormat = "{0:0.###}";
            m_Angle1.Text =  string.Format(strAngleFormat, pipeInfo.RollInclineAngle);

            m_MaxAngle1.Text = string.Format(strAngleFormat, pipeInfo.MaxAbsRoll);

            // Angle 2
            m_Angle2.Text =  string.Format(strAngleFormat, pipeInfo.PitchInclineAngle);

            m_MaxAngle2.Text = string.Format(strAngleFormat, pipeInfo.MaxAbsPitch);
        }
        /// <summary>
        /// This function is used to be called outside to refresh the data shown in the UI
        /// </summary>
        public void UpdateData(PipeInfo pipeInfo)
        {
            // Basic information
            UpdateBasicInformationGroup(pipeInfo);

            // GPS information
            UpdateGPSInformationGroup(pipeInfo);

            // Angle information
            UpdateAngleInformationGroup(pipeInfo);

            // Connection Point pair information
            UpdateConnectionPointPairGroup(pipeInfo);
        }
        //public static bool CalcaulateConnection(PipeInfo currentPipeInfo, out IList<CPipeConnectionPointPair> connectionPointPair)
        //{
        //    // Construct the connection pair list
        //    connectionPointPair = new List<CPipeConnectionPointPair>();
        //    if (null == currentPipeInfo) return false;
        //    // Assert valid
        //    int iPipeIndex = currentPipeInfo.PipeId;
        //    int iPipeTotalCount = IApp.theApp.DataModel.PipeModels.Count;
        //    if (iPipeIndex <= 0 || iPipeIndex > iPipeTotalCount) return false; // Something goes wrong
        //    CPipeModel currentPipeModel = IApp.theApp.DataModel.PipeModels[iPipeIndex - 1];
        //    if (null == currentPipeModel) return false;
        //    // Get current pipe transformation
        //    //vtk.vtkTransform transform = currentPipeInfo.Matrix.ToVTKTransformation();
        //    vtk.vtkTransform transform = currentPipeModel.GetPipeTransformByPipeInfo(currentPipeInfo);
        //    //Random ro = new Random();
        //    //transform.Translate(ro.NextDouble() * -20000, ro.NextDouble() * -5000, ro.NextDouble() * -14000);
        //    //transform.Update();
        //    // How to calculate the start and end connection point.
        //    if (iPipeIndex == 1) // First pipe
        //    {
        //        // For the first pipe, then the previous start point is its start point
        //        foreach (CPipeConnectionPointPair pair in currentPipeModel.ConnectionPointPairList)
        //        {
        //            CPipeConnectionPointPair newPair = new CPipeConnectionPointPair();
        //            newPair.Name = pair.Name;
        //            // If the pipe is first pipe, we should use its start connection point to be the previous end connection point.
        //            newPair.StartConnectionPoint = pair.StartConnectionPoint;
        //            // The end point should be the pipe model's current start connection point
        //            double[] ptTransformed = new double[3];
        //            transform.TransformPoint(pair.StartConnectionPoint.Point, ptTransformed);
        //            newPair.EndConnectionPoint = new CPoint3D(ptTransformed);
        //            connectionPointPair.Add(newPair);
        //        }
        //    }
        //    else if (iPipeIndex > 1)
        //    {
        //        bool bUpdatePreviousPipeConnectionPoints = ApplicationOptions.Instance().UpdateConnectionPointPositionByLastTransform;
        //        CPipeModel previousPipeModel = IApp.theApp.DataModel.PipeModels[iPipeIndex - 2];
        //        foreach (CPipeConnectionPointPair pair in currentPipeModel.ConnectionPointPairList)
        //        {
        //            CPipeConnectionPointPair newPair = new CPipeConnectionPointPair();
        //            newPair.Name = pair.Name;
        //            // For none first pipe, we should take care if the first pipe is not placed as the position of the modeling one.
        //            double[] lastPipeStartConnectionPoint = null;
        //            if (bUpdatePreviousPipeConnectionPoints && previousPipeModel.FinalTransform != null)
        //            {
        //                lastPipeStartConnectionPoint = previousPipeModel.FinalTransform.TransformDoublePoint(pair.StartConnectionPoint.Point);
        //            }
        //            else
        //            {
        //                lastPipeStartConnectionPoint = pair.StartConnectionPoint.Point;
        //            }
        //            // If the pipe is first pipe, we should use its start connection point to be the previous end connection point.
        //            newPair.StartConnectionPoint = new CPoint3D(lastPipeStartConnectionPoint);
        //            // The end point should be the pipe model's current start connection point
        //            double[] ptTransformed = new double[3];
        //            transform.TransformPoint(pair.StartConnectionPoint.Point, ptTransformed);
        //            newPair.EndConnectionPoint = new CPoint3D(ptTransformed);
        //            connectionPointPair.Add(newPair);
        //        }
        //    }
        //    return true;
        //}
        public static bool CalcaulateConnection(PipeInfo currentPipeInfo, out IList<CPipeConnectionPointPair> connectionPointPair)
        {
            // Construct the connection pair list
            connectionPointPair = new List<CPipeConnectionPointPair>();

            if (null == currentPipeInfo) return false;

            // Assert valid
            int iPipeIndex = currentPipeInfo.PipeId;
            int iPipeTotalCount = IApp.theApp.DataModel.PipeModels.Count;
            if (iPipeIndex <= 0 || iPipeIndex > iPipeTotalCount) return false; // Something goes wrong

            CPipeModel currentPipeModel = IApp.theApp.DataModel.PipeModels[iPipeIndex - 1];
            if (null == currentPipeModel) return false;

            // Get current pipe transformation
            //vtk.vtkTransform transform = currentPipeInfo.Matrix.ToVTKTransformation();
            vtk.vtkTransform transform = currentPipeModel.GetPipeTransformByPipeInfo(currentPipeInfo);
            //Random ro = new Random();
            //transform.Translate(ro.NextDouble() * -20000, ro.NextDouble() * -5000, ro.NextDouble() * -14000);
            //transform.Update();

            // How to calculate the start and end connection point.
            if (iPipeIndex == 1) // First pipe
            {
                // For the first pipe, then the previous start point is its start point
                foreach (CPipeConnectionPointPairEx pair in currentPipeModel.ConnectionPointPairList)
                {
                    CPipeConnectionPointPair newPair = new CPipeConnectionPointPair();
                    newPair.Name = pair.Name;

                    // If the pipe is first pipe, ingore the ConnectionPositionEnum for the StartConnectionPoint
                    newPair.StartConnectionPoint = pair.StartConnectionPoint;

                    // The end point should be the pipe model's current start connection point
                    if (pair.EndPositionEnum == ConnectionPositionEnum.kStaticPosition)
                    {
                        newPair.EndConnectionPoint = pair.EndConnectionPoint;
                    }
                    else if (pair.EndPositionEnum == ConnectionPositionEnum.kOnThisPipe)
                    {
                        double[] ptTransformed = new double[3];
                        transform.TransformPoint(pair.EndConnectionPoint.Point, ptTransformed);
                        newPair.EndConnectionPoint = new CPoint3D(ptTransformed);
                    }
                    else if (pair.EndPositionEnum == ConnectionPositionEnum.kOnPreviousPipe)
                    {
                        newPair.EndConnectionPoint = pair.EndConnectionPoint;
                    }

                    connectionPointPair.Add(newPair);
                }
            }
            else if (iPipeIndex > 1)
            {
                bool bUpdatePreviousPipeConnectionPoints = ApplicationOptions.Instance().UpdateConnectionPointPositionByLastTransform;

                CPipeModel previousPipeModel = IApp.theApp.DataModel.PipeModels[iPipeIndex - 2];
                foreach (CPipeConnectionPointPairEx pair in currentPipeModel.ConnectionPointPairList)
                {
                    CPipeConnectionPointPair newPair = new CPipeConnectionPointPair();
                    newPair.Name = pair.Name;

                    // For none first pipe, we should take care if the first pipe is not placed as the position of the modeling one.
                    double[] lastPipeStartConnectionPoint = pair.StartConnectionPoint.Point;
                    double[] lastPipeStartConnectionPointTransformed = null;
                    if (bUpdatePreviousPipeConnectionPoints && previousPipeModel.FinalTransform != null)
                    {
                        lastPipeStartConnectionPointTransformed = previousPipeModel.FinalTransform.TransformDoublePoint(pair.StartConnectionPoint.Point);
                    }
                    else
                    {
                        lastPipeStartConnectionPointTransformed = pair.StartConnectionPoint.Point;
                    }

                    // If the pipe is first pipe, we should use its start connection point to be the previous end connection point.
                    if (pair.StartPositionEnum == ConnectionPositionEnum.kStaticPosition)
                    {
                        newPair.StartConnectionPoint = new CPoint3D(lastPipeStartConnectionPoint);
                    }
                    else if (pair.StartPositionEnum == ConnectionPositionEnum.kOnPreviousPipe)
                    {
                        newPair.StartConnectionPoint = new CPoint3D(lastPipeStartConnectionPointTransformed);
                    }
                    else if (pair.StartPositionEnum == ConnectionPositionEnum.kOnThisPipe)
                    {
                        double[] ptTransformed = new double[3];
                        transform.TransformPoint(pair.StartConnectionPoint.Point, ptTransformed);
                        newPair.StartConnectionPoint = new CPoint3D(ptTransformed);
                    }

                    // The end point should be the pipe model's current start connection point
                    if (pair.EndPositionEnum == ConnectionPositionEnum.kStaticPosition)
                    {
                        newPair.EndConnectionPoint = pair.EndConnectionPoint;
                    }
                    else if (pair.EndPositionEnum == ConnectionPositionEnum.kOnThisPipe)
                    {
                        double[] ptTransformed = new double[3];
                        transform.TransformPoint(pair.EndConnectionPoint.Point, ptTransformed);
                        newPair.EndConnectionPoint = new CPoint3D(ptTransformed);
                    }
                    else if (pair.EndPositionEnum == ConnectionPositionEnum.kOnPreviousPipe)
                    {
                        newPair.EndConnectionPoint = new CPoint3D(lastPipeStartConnectionPointTransformed);
                    }

                    connectionPointPair.Add(newPair);
                }
            }

            return true;
        }
        protected virtual void SetMaxAngle(PipeInfo pipeInfo)
        {
            if (pipeInfo == null)
                return;

            double maxAbsRoll;
            double maxAbsPitch;

            QueryMaxAngle(pipeInfo, out maxAbsRoll, out maxAbsPitch);

            pipeInfo.MaxAbsRoll = maxAbsRoll;
            pipeInfo.MaxAbsPitch = maxAbsPitch;
        }
        /// <summary>
        /// 
        /// </summary>
        /// <param name="pipeInfo"></param>
        protected override void SetMaxAngle(PipeInfo pipeInfo)
        {
            if (pipeInfo == null)
                return;

            if (pipeInfo.PipeId > m_currentPipeId)
            {
                m_maxAbsRoll = pipeInfo.RollInclineAngle;
                m_maxAbsPitch = pipeInfo.PitchInclineAngle;
            }
            else if (pipeInfo.PipeId == m_currentPipeId)
            {
                if (Math.Abs(pipeInfo.RollInclineAngle) > m_maxAbsRoll)
                    m_maxAbsRoll = pipeInfo.RollInclineAngle;

                if (Math.Abs(pipeInfo.PitchInclineAngle) > m_maxAbsPitch)
                    m_maxAbsPitch = pipeInfo.PitchInclineAngle;
            }

            pipeInfo.MaxAbsRoll = m_maxAbsRoll;
            pipeInfo.MaxAbsPitch = m_maxAbsPitch;
        }
        protected PipeInfo ExtractPipeInfo(List<GPSRecord> lstGPSRecords, InclineRecord inclineRcd, out int lastGPSMeasureId)
        {
            for (int idx = lstGPSRecords.Count - 1; idx >= 0; idx++)
            {
                // find first matching GPS Record
                if (inclineRcd.PipeId == lstGPSRecords[idx].PipeId &&
                    (inclineRcd.MeasureTime - lstGPSRecords[idx].MeasureTime).Duration() <= m_inclineGPSMeasureTimeTolerance)
                {
                    for (int jdx = idx - 1; jdx >= 0; jdx++)
                    {
                        //  find send matching GPS Record
                        if (inclineRcd.PipeId == lstGPSRecords[jdx].PipeId &&
                            lstGPSRecords[idx].ProjectPointId != lstGPSRecords[jdx].ProjectPointId &&
                            (lstGPSRecords[idx].MeasureTime - lstGPSRecords[jdx].MeasureTime).Duration() <= m_GPSMeasureTimeTolerance)
                        {
                            GPSRecord gpsPrjPt1 = (lstGPSRecords[idx].ProjectPointId < lstGPSRecords[jdx].ProjectPointId) ?
                                lstGPSRecords[idx] : lstGPSRecords[jdx];
                            GPSRecord gpsPrjPt2 = (lstGPSRecords[idx].ProjectPointId < lstGPSRecords[jdx].ProjectPointId) ?
                                lstGPSRecords[jdx] : lstGPSRecords[idx];

                            PipeInfo pipeInfo = new PipeInfo(inclineRcd.PipeId, gpsPrjPt1.Location, gpsPrjPt2.Location,
                                inclineRcd.Alpha, inclineRcd.Beta, inclineRcd.MeasureTime);
                            lastGPSMeasureId = lstGPSRecords[idx].MeasureId;

                            return pipeInfo;
                        }
                    }
                }
            }
            lastGPSMeasureId = 0;

            return null;
        }
        private PipeInfo ToPipeInfo(SqlDataReader sqlDataReader)
        {
            PipeInfo pipeInfo = null;

            if (sqlDataReader.Read() && sqlDataReader.FieldCount > 11)
            {
                pipeInfo = new PipeInfo((int)(sqlDataReader.GetDecimal(0)),
                                        (int)(sqlDataReader.GetDecimal(10)),
                                        (int)(sqlDataReader.GetDecimal(11)));

                pipeInfo.Time = sqlDataReader.GetDateTime(1);

                const double mToMm = 1000.0;

                //  negate z component to convert to right-hand coordinate system
                pipeInfo.StartPoint = new Point3D((double)(sqlDataReader.GetDecimal(2)) * mToMm,
                                                  (double)(sqlDataReader.GetDecimal(3)) * mToMm,
                                                  -(double)(sqlDataReader.GetDecimal(4)) * mToMm);
                pipeInfo.EndPoint = new Point3D((double)(sqlDataReader.GetDecimal(5)) * mToMm,
                                                 (double)(sqlDataReader.GetDecimal(6)) * mToMm,
                                                 -(double)(sqlDataReader.GetDecimal(7)) * mToMm);
                pipeInfo.PitchInclineAngle = (double)(sqlDataReader.GetDecimal(8));
                pipeInfo.RollInclineAngle = (double)(sqlDataReader.GetDecimal(9));
            }

            return pipeInfo;
        }
        protected void QueryMaxAngle(PipeInfo pipeInfo, out double maxAbsRoll, out double maxAbsPitch)
        {
            maxAbsRoll = 0.0;
            maxAbsPitch = 0.0;

            if (pipeInfo == null)
                return;

            string strInclineSql = String.Format(@"SELECT MAX(ABS(Angle1)) AS MaxAlpha, MAX(ABS(Angle2)) AS MaxBeta 
                                                   FROM InclineMeasure WHERE PipeID='{0}' AND MeasureID <='{1}'",
                                                   pipeInfo.PipeId, pipeInfo.InclineMeasureId);

            lock (m_dbConn)
            {
                //  read Incline records
                using (SqlCommand sqlCmd = new SqlCommand(strInclineSql, m_dbConn))
                {
                    using (SqlDataReader sqlDataReader = sqlCmd.ExecuteReader())
                    {
                        if (sqlDataReader.Read())
                        {
                            maxAbsRoll = (double)(sqlDataReader.GetDecimal(0));
                            maxAbsPitch = (double)(sqlDataReader.GetDecimal(1));
                        }
                    }
                }
            }
        }
 private void UpdateConnectionPointPairGroup(PipeInfo pipeInfo)
 {
     // Update the connection indicator
     IList<CPipeConnectionPointPair> connectionPointPairList = null;
     if (CPipeConnetionUtility.CalcaulateConnection(IApp.theApp.DataDriven.CurrentData, out connectionPointPairList))
     {
         cStatisticDataBindingSource.DataSource = connectionPointPairList;
     }
 }
        private void UpdateGPSInformationGroup(PipeInfo pipeInfo)
        {
            // GPS 1
            const string strCoordFormat = "{0,15:0,0.000}";
            string strStartPoint;
            strStartPoint = string.Concat("(",
                                          string.Format(strCoordFormat, pipeInfo.StartDisplayPoint.X * IApp.theApp.DataModel.GPSUnitToMeter), " ,",
                                          string.Format(strCoordFormat, pipeInfo.StartDisplayPoint.Y * IApp.theApp.DataModel.GPSUnitToMeter), " ,",
                                          string.Format(strCoordFormat, pipeInfo.StartDisplayPoint.Z * IApp.theApp.DataModel.GPSUnitToMeter), ")");

            m_GPS1Detail.Text = strStartPoint;

            // GPS 2
            string strEndPoint;
            strEndPoint = string.Concat("(",
                                          string.Format(strCoordFormat, pipeInfo.EndDisplayPoint.X * IApp.theApp.DataModel.GPSUnitToMeter), " ,",
                                          string.Format(strCoordFormat, pipeInfo.EndDisplayPoint.Y * IApp.theApp.DataModel.GPSUnitToMeter), " ,",
                                          string.Format(strCoordFormat, pipeInfo.EndDisplayPoint.Z * IApp.theApp.DataModel.GPSUnitToMeter), ")");
            m_GPS2Detail.Text = strEndPoint;
        }
Esempio n. 12
0
        private void DriveModel(PipeInfo pipeInfo)
        {
            IApp.theApp.DataDriven.DriveModel(pipeInfo);

            // Update the dialog
            if (IApp.theApp.DataDriven.CurrentData != null)
            {
                if (m_immersingInformationForm != null)
                {
                    m_immersingInformationForm.UpdateData(IApp.theApp.DataDriven.CurrentData);
                }

                // Update the connection indicator
                IList<CPipeConnectionPointPair> connectionPointPairList = null;
                if (CPipeConnetionUtility.CalcaulateConnection(IApp.theApp.DataDriven.CurrentData, out connectionPointPairList))
                {
                    CPipeConnectionIndicator pipeConnectionIndicator = IApp.theApp.PipeConnectionIndicator;
                    if (pipeConnectionIndicator != null)
                    {
                        pipeConnectionIndicator.SetPoints(connectionPointPairList);
                        pipeConnectionIndicator.Impl.UpatePoints();
                    }
                }

                // Update the Text Display
                // Show it only in debug mode
                if (ApplicationOptions.Instance().AppOptions.DebugMode)
                {
                    CStatisticData statisticData = new CStatisticData();
                    statisticData.ConnectionPointPairList = connectionPointPairList;

                    IApp.theApp.StatisticTextDisplayer.DisplayText(statisticData.ToTextString());

                    // Make sure we make the StatisticTextDisplayerAdditional appeal after the StatisticTextDisplayer
                    IApp.theApp.StatisticTextDisplayerAdditional.DisplayText(statisticData.ToDataString());

                    //// Update the WarningTextDisplayer
                    //CAngleWarningData angleWarningData = new CAngleWarningData();
                    //IApp.theApp.WarningTextDisplayer.DisplayText(angleWarningData.ToString());
                }
            }

            // Update Angle warning
            UpdateAngleWarning();

            // Render the scene
            IApp.theApp.RenderScene();
        }
Esempio n. 13
0
        private void dataQuery_DataArrivedCallback(PipeInfo queryResult)
        {
            // A message is arrived, we need to sync this to drive the model
            // This must happen during observer mode.
            // Must in monitor mode
            if (IApp.theApp.ObserverModeManager.ActiveModeType != ObserverMode.ObserverMode.eMonitorMode) return;

            if (IApp.theApp.vtkControl.InvokeRequired)
            {
                dataQuery_DataArrivedCallback_Invoke d = new dataQuery_DataArrivedCallback_Invoke(dataQuery_DataArrivedCallback);
                this.Invoke(d, new object[] { queryResult });
            }
            else
            {
                DriveModel(queryResult);
            }
        }
Esempio n. 14
0
        private void UpdateAnimationLabelTextByPipeInfo(PipeInfo pipeInfo)
        {
            // Pipe info must be not null
            DateTime dateTime = DateTime.Now;

            // Get the current pipe info
            try
            {
                dateTime = pipeInfo.Time;

                UpdateAnimationLabelTextByDateTime(dateTime, true);
            }
            catch (Exception ex)
            {
                string errMsg = ex.Message + "\n" + ex.StackTrace;
                vtk.vtkOutputWindow.GetInstance().DisplayErrorText(errMsg);
            }
        }