static Displayable deserialise_displayable(FDisplayable?displayable) { if (displayable.HasValue) { var d = displayable.Value; switch (d.DisplayableValueType) { case FDisplayableValue.NONE: break; case FDisplayableValue.FValue: return(new DisplayableFloat(d.DisplayableName, d.DisplayableValue <FValue>()?.Val)); case FDisplayableValue.FValues: var v3 = d.DisplayableValue <FValues>().GetValueOrDefault(); _float_out.Clear(); for (var i = 0; i < v3.ValsLength; i++) { _float_out.Add((float)v3.Vals(i)); } return(new DisplayableValues(d.DisplayableName, _float_out.ToArray())); case FDisplayableValue.FVector3s: var v2 = d.DisplayableValue <FVector3s>().GetValueOrDefault(); _vector_out.Clear(); for (var i = 0; i < v2.PointsLength; i++) { var p = v2.Points(i).GetValueOrDefault(); var v = new Vector3((float)p.X, (float)p.Y, (float)p.Z); _vector_out.Add(v); } return(new DisplayableVector3S(d.DisplayableName, _vector_out.ToArray())); case FDisplayableValue.FValuedVector3s: var flat_fvec3 = d.DisplayableValue <FValuedVector3s>().GetValueOrDefault(); _output.Clear(); for (var i = 0; i < flat_fvec3.PointsLength; i++) { var val = (float)flat_fvec3.Vals(i); var p = flat_fvec3.Points(i).GetValueOrDefault(); var v = new Points.ValuePoint(new Vector3((float)p.X, (float)p.Y, (float)p.Z), val, 1); _output.Add(v); } return(new DisplayableValuedVector3S(d.DisplayableName, _output.ToArray())); case FDisplayableValue.FString: return(new DisplayableString(d.DisplayableName, d.DisplayableValue <FString>()?.Str)); case FDisplayableValue.FByteArray: break; default: throw new ArgumentOutOfRangeException(); } } return(null); }
/// <inheritdoc /> /// <summary> /// </summary> public override void Display(Points.ValuePoint points) { if (this._text_component) { this._text_component.text = points.ToString(); } }
/// <inheritdoc /> /// <summary> /// </summary> public override void Display(Points.ValuePoint points) { #if NEODROID_DEBUG DebugPrinting.DisplayPrint(points, this.Identifier, this.Debugging); #endif this.SetText(points.ToString()); }
/// <summary> /// </summary> /// <param name="size"></param> /// <param name="min_val"></param> /// <param name="max_val"></param> /// <param name="particle_size"></param> /// <returns></returns> public static Points.ValuePoint[] SampleRandomSeries( int size, float min_val = 0, float max_val = 5, float particle_size = 1) { _points.Clear(); for (var j = 0; j < size; j++) { var point = new Vector3(j, Random.Range(min_val, max_val), 0); var vp = new Points.ValuePoint(point, Random.Range(min_val, max_val), particle_size); _points.Add(vp); } var points = _points.ToArray(); return(points); }
/// <summary> /// </summary> /// <param name="size"></param> /// <param name="min_val"></param> /// <param name="max_val"></param> /// <param name="particle_size_min"></param> /// <param name="particle_size_max"></param> /// <returns></returns> public static Points.ValuePoint[] SampleRandomSeries(int size, float min_val = 0, float max_val = 5, float particle_size_min = 0.2f, float particle_size_max = 1.8f) { var s = new SampleSpace3 { _space = Space3.MinusOneOne }; _points.Clear(); for (var j = 0; j < size; j++) { var point = s.Sample() * max_val; var vp = new Points.ValuePoint(point, Random.Range(min_val, max_val), Random.Range(particle_size_min, particle_size_max)); _points.Add(vp); } var points = _points.ToArray(); return(points); }
/// <inheritdoc /> /// <summary> /// </summary> public override void Display(Points.ValuePoint points) { throw new NotImplementedException(); }
public override void Display(Points.ValuePoint points) { this.PlotSeries(new[] { points }); }
/// <summary> /// /// </summary> /// <param name="point"></param> public abstract void Display(Points.ValuePoint point);