public static void Amount(SampleValue sample, AmountEntry amountEntry, Style style) { if (device == null || (!style.chartOutput) || Exec.IsVesselVariant(sample)) { return; } }
public static void Sample(SampleValue sample, Style style) { if (device == null || (!style.chartOutput) || Exec.IsVesselVariant(sample)) { return; } device.Sample(sample, style); }
public static List <Place> StartEquilibrate(List <SampleValue> inSamples, double fortime, Style style) { if (device == null || !style.chartOutput) { return(null); } foreach (SampleValue inSample in inSamples) { if (Exec.IsVesselVariant(inSample)) { return(null); } } return(device.StartEquilibrate(inSamples, fortime, style)); }
public static void Dispose(List <SampleValue> samples, Style style) { if (device == null || !style.chartOutput) { return; } foreach (SampleValue sample in samples) { if (Exec.IsVesselVariant(sample)) { return; } } device.Dispose(samples, style); }
public static void Split(List <SampleValue> outSamples, SampleValue inSample, Style style) { if (device == null || (!style.chartOutput) || Exec.IsVesselVariant(inSample)) { return; } foreach (SampleValue outSample in outSamples) { if (Exec.IsVesselVariant(outSample)) { return; } } device.Split(outSamples, inSample, style); }
public static void Concentrate(List <SampleValue> outSamples, List <SampleValue> inSamples, Style style) { if (device == null || !style.chartOutput) { return; } foreach (SampleValue inSample in inSamples) { if (Exec.IsVesselVariant(inSample)) { return; } } foreach (SampleValue outSample in outSamples) { if (Exec.IsVesselVariant(outSample)) { return; } } device.Concentrate(outSamples, inSamples, style); }
public static void EndEquilibrate(List <Place> goBacks, List <SampleValue> outSamples, List <SampleValue> inSamples, double fortime, Style style) { if (device == null || !style.chartOutput) { return; } foreach (SampleValue inSample in inSamples) { if (Exec.IsVesselVariant(inSample)) { return; } } foreach (SampleValue outSample in outSamples) { if (Exec.IsVesselVariant(outSample)) { return; } } Thread.Sleep(device.stepDelay); device.EndEquilibrate(goBacks, outSamples, inSamples, fortime, style); }