/// <summary> /// Calculate the values needed to properly display this <see cref="GasGaugeNeedle"/>. /// </summary> /// <param name="pane"> /// A graphic device object to be drawn into. This is normally e.Graphics from the /// PaintEventArgs argument to the Paint() method. /// </param> public static void CalculateGasGaugeParameters(GraphPane pane) { //loop thru slices and get total value and maxDisplacement double minVal = double.MaxValue; double maxVal = double.MinValue; foreach (CurveItem curve in pane.CurveList) { if (curve is GasGaugeRegion) { GasGaugeRegion ggr = (GasGaugeRegion)curve; if (maxVal < ggr.MaxValue) { maxVal = ggr.MaxValue; } if (minVal > ggr.MinValue) { minVal = ggr.MinValue; } } } //Set Needle Sweep angle values here based on the min and max values of the GasGuage foreach (CurveItem curve in pane.CurveList) { if (curve is GasGaugeNeedle) { GasGaugeNeedle ggn = (GasGaugeNeedle)curve; float sweep = ((float)ggn.NeedleValue - (float)minVal) / ((float)maxVal - (float)minVal) * 180.0f; ggn.SweepAngle = sweep; } } }
/// <summary> /// The Copy Constructor /// </summary> /// <param name="ggr">The <see cref="GasGaugeRegion"/> object from which to copy</param> public GasGaugeRegion(GasGaugeRegion ggr) : base(ggr) { _minValue = ggr._minValue; _maxValue = ggr._maxValue; _color = ggr._color; _startAngle = ggr._startAngle; _sweepAngle = ggr._sweepAngle; _border = ggr._border.Clone(); _labelDetail = ggr._labelDetail.Clone(); }
/// <summary> /// Calculate the values needed to properly display this <see cref="GasGaugeRegion"/>. /// </summary> /// <param name="pane"> /// A graphic device object to be drawn into. This is normally e.Graphics from the /// PaintEventArgs argument to the Paint() method. /// </param> public static void CalculateGasGuageParameters(GraphPane pane) { //loop thru slices and get total value and maxDisplacement double minVal = double.MaxValue; double maxVal = double.MinValue; foreach (CurveItem curve in pane.CurveList) { if (curve is GasGaugeRegion) { GasGaugeRegion ggr = (GasGaugeRegion)curve; if (maxVal < ggr.MaxValue) { maxVal = ggr.MaxValue; } if (minVal > ggr.MinValue) { minVal = ggr.MinValue; } } } //Calculate start and sweep angles for each of the GasGaugeRegion based on teh min and max value foreach (CurveItem curve in pane.CurveList) { if (curve is GasGaugeRegion) { GasGaugeRegion ggr = (GasGaugeRegion)curve; float start = ((float)ggr.MinValue - (float)minVal) / ((float)maxVal - (float)minVal) * 180.0f; float sweep = ((float)ggr.MaxValue - (float)minVal) / ((float)maxVal - (float)minVal) * 180.0f; sweep = sweep - start; Fill f = new Fill(Color.White, ggr.RegionColor, -(sweep / 2f)); ggr.Fill = f; ggr.StartAngle = start; ggr.SweepAngle = sweep; } } }
/// <summary> /// Calculate the <see cref="RectangleF"/> that will be used to define the bounding rectangle of /// the GasGaugeNeedle. /// </summary> /// <remarks>This rectangle always lies inside of the <see cref="Chart.Rect"/>, and it is /// normally a square so that the pie itself is not oval-shaped.</remarks> /// <param name="g"> /// A graphic device object to be drawn into. This is normally e.Graphics from the /// PaintEventArgs argument to the Paint() method. /// </param> /// <param name="pane"> /// A reference to the <see cref="ZedGraph.GraphPane"/> object that is the parent or /// owner of this object. /// </param> /// <param name="scaleFactor"> /// The scaling factor to be used for rendering objects. This is calculated and /// passed down by the parent <see cref="ZedGraph.GraphPane"/> object using the /// <see cref="PaneBase.CalcScaleFactor"/> method, and is used to proportionally adjust /// font sizes, etc. according to the actual size of the graph. /// </param> /// <param name="chartRect">The <see cref="RectangleF"/> (normally the <see cref="Chart.Rect"/>) /// that bounds this pie.</param> /// <returns></returns> public static RectangleF CalcRectangle(Graphics g, GraphPane pane, float scaleFactor, RectangleF chartRect) { RectangleF nonExpRect = chartRect; if ((2 * nonExpRect.Height) > nonExpRect.Width) { //Scale based on width float percentS = ((nonExpRect.Height * 2) - nonExpRect.Width) / (nonExpRect.Height * 2); nonExpRect.Height = ((nonExpRect.Height * 2) - ((nonExpRect.Height * 2) * percentS)); } else { nonExpRect.Height = nonExpRect.Height * 2; } nonExpRect.Width = nonExpRect.Height; float xDelta = (chartRect.Width / 2) - (nonExpRect.Width / 2); //Align Horizontally nonExpRect.X += xDelta; //nonExpRect.Y += -(float)0.025F * nonExpRect.Height; //nonExpRect.Y += ((chartRect.Height) - (nonExpRect.Height / 2)) - 10.0f; nonExpRect.Inflate(-(float)0.05F * nonExpRect.Height, -(float)0.05 * nonExpRect.Width); GasGaugeRegion.CalculateGasGuageParameters(pane); foreach (CurveItem curve in pane.CurveList) { if (curve is GasGaugeRegion) { GasGaugeRegion gg = (GasGaugeRegion)curve; gg._boundingRectangle = nonExpRect; } } return(nonExpRect); }
/// <summary> /// The Copy Constructor /// </summary> /// <param name="ggr">The <see cref="GasGaugeRegion"/> object from which to copy</param> public GasGaugeRegion( GasGaugeRegion ggr ) : base(ggr) { _minValue = ggr._minValue; _maxValue = ggr._maxValue; _color = ggr._color; _startAngle = ggr._startAngle; _sweepAngle = ggr._sweepAngle; _border = ggr._border.Clone(); _labelDetail = ggr._labelDetail.Clone(); }