/// <summary> /// Determines equality between two <see cref="VoltagePhasorGroup"/> objects /// </summary> /// <param name="target">The target object for equality testing.</param> /// <returns>A bool representing the result of the equality check.</returns> public override bool Equals(object target) { // If parameter is null return false. if (target == null) { return(false); } // If parameter cannot be cast to PhasorBase return false. VoltagePhasorGroup voltagePhasorGroup = target as VoltagePhasorGroup; if ((object)voltagePhasorGroup == null) { return(false); } // Return true if the fields match: if (!base.Equals(voltagePhasorGroup)) { return(false); } else if (this.m_measuredNodeID != voltagePhasorGroup.MeasuredNodeID) { return(false); } else { return(true); } }
/// <summary> /// Performs a deep copy of the <see cref="VoltagePhasorGroup"/> object. /// </summary> /// <returns>A deep copy of the target <see cref="VoltagePhasorGroup"/>.</returns> public VoltagePhasorGroup Copy() { VoltagePhasorGroup copy = (VoltagePhasorGroup)this.MemberwiseClone(); copy.Status = this.Status.Copy(); copy.PositiveSequence = PositiveSequence.Copy(); copy.PhaseA = PhaseA.Copy(); copy.PhaseB = PhaseB.Copy(); copy.PhaseC = PhaseC.Copy(); return(copy); }
/// <summary> /// The designated constructor for the <see cref="LinearStateEstimator.Measurements.ComplexPowerGroup"/> class. /// </summary> /// <param name="voltage">The <see cref="LinearStateEstimator.Measurements.VoltagePhasorGroup"/> to use to calculate the complex power.</param> /// <param name="current">The <see cref="LinearStateEstimator.Measurements.CurrentFlowPhasorGroup"/> to use to calculate the complex power.</param> public ComplexPowerGroup(VoltagePhasorGroup voltage, CurrentFlowPhasorGroup current) { m_voltage = voltage; m_current = current; PositiveSequence.Measurement.BaseKV = m_voltage.PositiveSequence.Measurement.BaseKV; PositiveSequence.Estimate.BaseKV = m_voltage.PositiveSequence.Estimate.BaseKV; PhaseA.Measurement.BaseKV = m_voltage.PhaseA.Measurement.BaseKV; PhaseA.Estimate.BaseKV = m_voltage.PhaseA.Estimate.BaseKV; PhaseB.Measurement.BaseKV = m_voltage.PhaseB.Measurement.BaseKV; PhaseB.Estimate.BaseKV = m_voltage.PhaseB.Estimate.BaseKV; PhaseC.Measurement.BaseKV = m_voltage.PhaseC.Measurement.BaseKV; PhaseC.Estimate.BaseKV = m_voltage.PhaseC.Estimate.BaseKV; InternalID = m_voltage.InternalID; Acronym = "POWER"; Description = m_voltage.Description + " | " + m_current.Description; Name = m_voltage.Name + " | " + m_current.Name; Number = m_voltage.Number; }