public DigitalDataPoint(DigitalDataPoint copyMe) { // parameter is a struct, so this is a copy operation this.parameter = copyMe.parameter; this.digitalPulse = copyMe.digitalPulse; this.DigitalContinue = copyMe.digitalContinue; }
public void setPulse(Pulse pulse) { if (this.pulse == pulse) return; // if already set corrently, return immediately if (pulse != null) { this.pulse = pulse; this.startDelayTime.setParameterData(pulse.startDelay); this.endDelayTime.setParameterData(pulse.endDelay); this.pulseDuration.setParameterData(pulse.pulseDuration); this.startDelayEnabled.Checked = pulse.startDelayEnabled; this.endDelayEnabled.Checked = pulse.endDelayEnabled; this.startDelayed.Checked = pulse.startDelayed; this.endDelayed.Checked = pulse.endDelayed; this.pulseValue.Checked = pulse.PulseValue; this.pulseNameTextBox.Text = pulse.PulseName; this.pulseDescriptionTextBox.Text = pulse.PulseDescription; this.startCondition.SelectedItem = pulse.startCondition; this.endCondition.SelectedItem = pulse.endCondition; this.getValueFromVariableCheckBox.Checked = pulse.ValueFromVariable; } updateElements(); }
public Pulse(Pulse copyMe) { this.endCondition = copyMe.endCondition; this.endDelay = new DimensionedParameter(copyMe.endDelay); this.endDelayed = copyMe.endDelayed; this.endDelayEnabled = copyMe.endDelayEnabled; this.pulseDescription = copyMe.pulseDescription; this.pulseDuration = new DimensionedParameter(copyMe.pulseDuration); this.pulseName = "Copy of " + copyMe.pulseName; this.pulseValue = copyMe.pulseValue; this.startCondition = copyMe.startCondition; this.startDelay = new DimensionedParameter(copyMe.startDelay); this.startDelayed = copyMe.startDelayed; this.startDelayEnabled = copyMe.startDelayEnabled; }
public Pulse(Pulse copyMe) { this.endCondition = copyMe.endCondition; this.endDelay = new DimensionedParameter(copyMe.endDelay); this.endDelayed = copyMe.endDelayed; this.endDelayEnabled = copyMe.endDelayEnabled; this.pulseDescription = copyMe.pulseDescription; this.pulseDuration = new DimensionedParameter(copyMe.pulseDuration); this.pulseName = "Copy of " + copyMe.pulseName; this.pulseValue = copyMe.pulseValue; this.startCondition = copyMe.startCondition; this.startDelay = new DimensionedParameter(copyMe.startDelay); this.startDelayed = copyMe.startDelayed; this.startDelayEnabled = copyMe.startDelayEnabled; this.autoName = copyMe.autoName; }
private static bool ComparePulses(string preString, Pulse a, Pulse b, List <SequenceDifference> ans) { bool diffs = false; diffs |= CompareGenericStructsAsStrings <Pulse.PulseTimingCondition>(preString + "end condition ", a.endCondition, b.endCondition, ans); diffs |= CompareParameters(preString + "end delay ", a.endDelay, b.endDelay, ans); diffs |= CompareBools(preString + "end delayed/advanced ", a.endDelayed, b.endDelayed, ans); diffs |= CompareBools(preString + "end delay enabled/disabled ", a.endDelayEnabled, b.endDelayEnabled, ans); diffs |= CompareStrings(preString + "pulse name ", a.PulseName, b.PulseName, ans); diffs |= CompareBools(preString + "pulse value ", a.PulseValue, b.PulseValue, ans); diffs |= CompareGenericStructsAsStrings <Pulse.PulseTimingCondition>(preString + "start condition ", a.startCondition, b.startCondition, ans); diffs |= CompareParameters(preString + "start delay ", a.startDelay, b.startDelay, ans); diffs |= CompareBools(preString + "start delayed/advanced ", a.startDelayed, b.startDelayed, ans); diffs |= CompareBools(preString + "start delay enabled/disabled ", a.startDelayEnabled, b.startDelayEnabled, ans); diffs |= CompareBools(preString + "value from variable/manual ", a.ValueFromVariable, b.ValueFromVariable, ans); if (a.ValueVariable != null && b.ValueVariable != null) { diffs |= CompareStrings(preString + "name of value variable ", a.ValueVariable.VariableName, b.ValueVariable.VariableName, ans); } return(diffs); }
/// <summary> /// Replaces all occurences of pulse replaceMe with withMe, and then removes replaceMe /// from Pulses list. /// </summary> /// <param name="replaceMe"></param> /// <param name="withMe"></param> public void replacePulse(Pulse replaceMe, Pulse withMe) { foreach (TimeStep step in TimeSteps) { foreach (DigitalDataPoint dp in step.DigitalData.Values) { if (dp.usesPulse()) { if (dp.DigitalPulse == replaceMe) { dp.DigitalPulse = withMe; } } } } if (DigitalPulses.Contains(replaceMe)) { DigitalPulses.Remove(replaceMe); } }
private PulseEditor createAndRegisterPulseEditor(Pulse pulse) { PulseEditor pe = new PulseEditor(pulse); pulseEditors.Add(pe); pe.pulseDeleted += new EventHandler(pe_pulseDeleted); return pe; }
public PulseEditor(Pulse pulse) : this() { setPulse(pulse); }
private void duplicateButton_Click(object sender, EventArgs e) { Pulse newPulse = new Pulse(pulse); int currentIndex = Storage.sequenceData.DigitalPulses.IndexOf(pulse); Storage.sequenceData.DigitalPulses.Insert(currentIndex + 1, newPulse); WordGenerator.mainClientForm.instance.RefreshSequenceDataToUI(Storage.sequenceData); }
public static bool Equivalent(Pulse a, Pulse b) { if (a.endCondition != b.endCondition) return false; if (!DimensionedParameter.Equivalent(a.endDelay, b.endDelay)) return false; if (a.endDelayed != b.endDelayed) return false; if (a.endDelayEnabled != b.endDelayEnabled) return false; if (a.PulseDescription != b.PulseDescription) return false; if (!DimensionedParameter.Equivalent(a.pulseDuration, b.pulseDuration)) return false; if (a.PulseName != b.PulseName) return false; if (a.PulseValue != b.PulseValue) return false; if (a.startCondition != b.startCondition) return false; if (!DimensionedParameter.Equivalent(a.startDelay ,b.startDelay)) return false; if (a.startDelayed != b.startDelayed) return false; if (a.startDelayEnabled != b.startDelayEnabled) return false; if (a.ValueFromVariable != b.ValueFromVariable) return false; if (a.ValueVariable != b.ValueVariable) return false; return true; }
public static bool Equivalent(Pulse a, Pulse b) { if (a.endCondition != b.endCondition) { return(false); } if (!DimensionedParameter.Equivalent(a.endDelay, b.endDelay)) { return(false); } if (a.endDelayed != b.endDelayed) { return(false); } if (a.endDelayEnabled != b.endDelayEnabled) { return(false); } if (a.PulseDescription != b.PulseDescription) { return(false); } if (!DimensionedParameter.Equivalent(a.pulseDuration, b.pulseDuration)) { return(false); } if (a.PulseName != b.PulseName) { return(false); } if (a.PulseValue != b.PulseValue) { return(false); } if (a.startCondition != b.startCondition) { return(false); } if (!DimensionedParameter.Equivalent(a.startDelay, b.startDelay)) { return(false); } if (a.startDelayed != b.startDelayed) { return(false); } if (a.startDelayEnabled != b.startDelayEnabled) { return(false); } if (a.ValueFromVariable != b.ValueFromVariable) { return(false); } if (a.ValueVariable != b.ValueVariable) { return(false); } return(true); }