예제 #1
0
        public bool AddFrame(IFrame frame)
        {
            if (HasFrame(frame.GetType()))
            {
                return(false);
            }

            m_frames.Add(frame);
            frame.OnAttached();

            return(true);
        }
예제 #2
0
        /// <summary>
        /// Assign <see cref="IMeasurement"/> to its <see cref="IFrame"/>.
        /// </summary>
        /// <param name="frame"><see cref="IFrame"/> to assign <paramref name="measurement"/> to.</param>
        /// <param name="measurement"><see cref="IMeasurement"/> to assign to <paramref name="frame"/>.</param>
        /// <returns><c>true</c> if <see cref="IMeasurement"/> was successfully assigned to its <see cref="IFrame"/>.</returns>
        /// <remarks>
        /// In simple concentration scenarios all you need to do is assign a measurement to its frame based on
        /// time. In the case of a phasor data concentrator you need to assign a measurement to its particular
        /// location in its <see cref="IDataFrame"/> - so this method overrides the default behavior in order
        /// to accomplish this task.
        /// </remarks>
        protected override void AssignMeasurementToFrame(IFrame frame, IMeasurement measurement)
        {
            ConcurrentDictionary<MeasurementKey, IMeasurement> measurements = frame.Measurements;

            // Make sure the measurement is a "SignalReferenceMeasurement" (it should be)
            SignalReferenceMeasurement signalMeasurement = measurement as SignalReferenceMeasurement;
            IDataFrame dataFrame = frame as IDataFrame;

            if ((object)signalMeasurement != null && (object)dataFrame != null)
            {
                PhasorValueCollection phasorValues;
                SignalReference signal = signalMeasurement.SignalReference;
                IDataCell dataCell = dataFrame.Cells[signal.CellIndex];
                int signalIndex = signal.Index;
                double signalValue = m_useAdjustedValue ? signalMeasurement.AdjustedValue : signalMeasurement.Value;

                // Assign measurement to its destination field in the data cell based on signal type
                switch (signal.Kind)
                {
                    case SignalKind.Angle:
                        // Assign "phase angle" measurement to data cell
                        phasorValues = dataCell.PhasorValues;
                        if (phasorValues.Count >= signalIndex)
                            phasorValues[signalIndex - 1].Angle = Angle.FromDegrees(signalValue);
                        break;
                    case SignalKind.Magnitude:
                        // Assign "phase magnitude" measurement to data cell
                        phasorValues = dataCell.PhasorValues;
                        if (phasorValues.Count >= signalIndex)
                            phasorValues[signalIndex - 1].Magnitude = signalValue;
                        break;
                    case SignalKind.Frequency:
                        // Assign "frequency" measurement to data cell
                        dataCell.FrequencyValue.Frequency = signalValue;
                        break;
                    case SignalKind.DfDt:
                        // Assign "dF/dt" measurement to data cell
                        dataCell.FrequencyValue.DfDt = signalValue;
                        break;
                    case SignalKind.Status:
                        // Assign "common status flags" measurement to data cell
                        dataCell.CommonStatusFlags = unchecked((uint)signalValue);

                        // Assign by arrival sorting flag for bad synchronization
                        if (!dataCell.SynchronizationIsValid && AllowSortsByArrival && !IgnoreBadTimestamps)
                            dataCell.DataSortingType = DataSortingType.ByArrival;
                        break;
                    case SignalKind.Digital:
                        // Assign "digital" measurement to data cell
                        DigitalValueCollection digitalValues = dataCell.DigitalValues;
                        if (digitalValues.Count >= signalIndex)
                            digitalValues[signalIndex - 1].Value = unchecked((ushort)signalValue);
                        break;
                    case SignalKind.Analog:
                        // Assign "analog" measurement to data cell
                        AnalogValueCollection analogValues = dataCell.AnalogValues;
                        if (analogValues.Count >= signalIndex)
                            analogValues[signalIndex - 1].Value = signalValue;
                        break;
                    case SignalKind.Quality:
                        // Assign "quality flags" measurement to data frame
                        dataFrame.QualityFlags = unchecked((uint)signalValue);
                        break;
                }

                // So that we can accurately track the total measurements that were sorted into this frame,
                // we also assign measurement to frame's measurement dictionary - this is important since
                // in down-sampling scenarios more than one of the same measurement can be sorted into a frame
                // but this only needs to be counted as "one" sort so that when preemptive publishing is
                // enabled you can compare expected measurements to sorted measurements...
                measurements[measurement.Key] = measurement;

                return;
            }

            // This is not expected to occur - but just in case
            if ((object)signalMeasurement == null && (object)measurement != null)
                OnProcessException(new InvalidCastException(string.Format("Attempt was made to assign an invalid measurement to phasor data concentration frame, expected a \"SignalReferenceMeasurement\" but received a \"{0}\"", measurement.GetType().Name)));

            if ((object)dataFrame == null)
                OnProcessException(new InvalidCastException(string.Format("During measurement assignment, incoming frame was not a phasor data concentration frame, expected a type derived from \"IDataFrame\" but received a \"{0}\"", frame.GetType().Name)));
        }