public void Render(Axis axis)
{
if (axis == null)
return;
axis.GetTickValues(out majorTickValues, out minorTickValues);
CreatePens(axis);
if (axis.IsHorizontal())
{
RenderHorizontalAxis(axis, Plot.DefaultYAxis);
}
if (axis.IsVertical())
{
RenderVerticalAxis(axis, Plot.DefaultXAxis);
}
if (axis.Position == AxisPosition.Angle)
{
RenderAngleAxis(axis, Plot.DefaultMagnitudeAxis);
}
if (axis.Position == AxisPosition.Magnitude)
{
RenderMagnitudeAxis(axis, Plot.DefaultAngleAxis);
}
}
/// <summary>
/// The render.
/// </summary>
/// <param name="axis">
/// The axis.
/// </param>
/// <param name="pass">
/// The render pass.
/// </param>
public override void Render(Axis axis, int pass)
{
base.Render(axis, pass);
double totalShift = axis.PositionTierMinShift;
double tierSize = axis.PositionTierSize - this.Plot.AxisTierDistance;
// store properties locally for performance
double plotAreaLeft = this.Plot.PlotArea.Left;
double plotAreaRight = this.Plot.PlotArea.Right;
double plotAreaTop = this.Plot.PlotArea.Top;
double plotAreaBottom = this.Plot.PlotArea.Bottom;
// Axis position (x or y screen coordinate)
double axisPosition = 0;
double titlePosition = 0;
switch (axis.Position)
{
case AxisPosition.Left:
axisPosition = plotAreaLeft - totalShift;
titlePosition = axisPosition - tierSize;
break;
case AxisPosition.Right:
axisPosition = plotAreaRight + totalShift;
titlePosition = axisPosition + tierSize;
break;
case AxisPosition.Top:
axisPosition = plotAreaTop - totalShift;
titlePosition = axisPosition - tierSize;
break;
case AxisPosition.Bottom:
axisPosition = plotAreaBottom + totalShift;
titlePosition = axisPosition + tierSize;
break;
}
if (axis.PositionAtZeroCrossing)
{
var perpendicularAxis = axis.IsHorizontal() ? this.Plot.DefaultYAxis : this.Plot.DefaultXAxis;
axisPosition = perpendicularAxis.Transform(0);
}
if (pass == 0)
{
this.RenderMinorItems(axis, axisPosition);
}
if (pass == 1)
{
this.RenderMajorItems(axis, axisPosition, titlePosition);
}
}
/// <summary>
/// The get tick positions.
/// </summary>
/// <param name="axis">
/// The axis.
/// </param>
/// <param name="glt">
/// The glt.
/// </param>
/// <param name="ticksize">
/// The ticksize.
/// </param>
/// <param name="position">
/// The position.
/// </param>
/// <param name="x0">
/// The x 0.
/// </param>
/// <param name="x1">
/// The x 1.
/// </param>
protected void GetTickPositions(
Axis axis, TickStyle glt, double ticksize, AxisPosition position, out double x0, out double x1)
{
x0 = 0;
x1 = 0;
bool isTopOrLeft = position == AxisPosition.Top || position == AxisPosition.Left;
double sign = isTopOrLeft ? -1 : 1;
switch (glt)
{
case TickStyle.Crossing:
x0 = -ticksize * sign * 0.75;
x1 = ticksize * sign * 0.75;
break;
case TickStyle.Inside:
x0 = -ticksize * sign;
break;
case TickStyle.Outside:
x1 = ticksize * sign;
break;
}
}
/// <summary>
/// The render.
/// </summary>
/// <param name="axis">The axis.</param>
/// <param name="pass">The render pass.</param>
public virtual void Render(Axis axis, int pass)
{
if (axis == null)
{
return;
}
axis.GetTickValues(out this.MajorLabelValues, out this.MajorTickValues, out this.MinorTickValues);
this.CreatePens(axis);
}
/// <summary>
/// Checks if the specified value is valid.
/// </summary>
/// <param name="v">
/// The value.
/// </param>
/// <param name="yaxis">
/// The y axis.
/// </param>
/// <returns>
/// True if the value is valid.
/// </returns>
public virtual bool IsValidPoint(double v, Axis yaxis)
{
return !double.IsNaN(v) && !double.IsInfinity(v);
}
/// <summary>
/// Transforms the specified point to screen coordinates.
/// </summary>
/// <param name="p">
/// The point.
/// </param>
/// <param name="xaxis">
/// The x axis.
/// </param>
/// <param name="yaxis">
/// The y axis.
/// </param>
/// <returns>
/// The transformed point.
/// </returns>
public static ScreenPoint Transform(IDataPoint p, Axis xaxis, Axis yaxis)
{
return xaxis.Transform(p.X, p.Y, yaxis);
}
/// <summary>
/// Transforms the specified point to screen coordinates.
/// </summary>
/// <param name="x">
/// The x value (for the current axis).
/// </param>
/// <param name="y">
/// The y value.
/// </param>
/// <param name="yaxis">
/// The y axis.
/// </param>
/// <returns>
/// The transformed point.
/// </returns>
public virtual ScreenPoint Transform(double x, double y, Axis yaxis)
{
if (yaxis == null)
{
throw new NullReferenceException("Y axis should not be null when transforming.");
}
return new ScreenPoint(this.Transform(x), yaxis.Transform(y));
}
/// <summary>
/// Gets the axis for the specified key.
/// </summary>
/// <param name="key">The key.</param>
/// <param name="defaultAxis">The default axis.</param>
/// <returns>The axis, or the defaultAxis if the key is not found.</returns>
public Axis GetAxisOrDefault(string key, Axis defaultAxis)
{
if (key != null)
{
return this.Axes.FirstOrDefault(a => a.Key == key) ?? defaultAxis;
}
return defaultAxis;
}
/// <summary>
/// Renders the major items.
/// </summary>
/// <param name="axis">
/// The axis.
/// </param>
/// <param name="axisPosition">
/// The axis position.
/// </param>
/// <param name="titlePosition">
/// The title position.
/// </param>
private void RenderMajorItems(Axis axis, double axisPosition, double titlePosition)
{
double eps = axis.ActualMinorStep * 1e-3;
double actualMinimum = axis.ActualMinimum;
double actualMaximum = axis.ActualMaximum;
double plotAreaLeft = this.Plot.PlotArea.Left;
double plotAreaRight = this.Plot.PlotArea.Right;
double plotAreaTop = this.Plot.PlotArea.Top;
double plotAreaBottom = this.Plot.PlotArea.Bottom;
bool isHorizontal = axis.IsHorizontal();
double a0;
double a1;
var majorSegments = new List<ScreenPoint>();
var majorTickSegments = new List<ScreenPoint>();
this.GetTickPositions(axis, axis.TickStyle, axis.MajorTickSize, axis.Position, out a0, out a1);
foreach (double value in this.MajorTickValues)
{
if (value < actualMinimum - eps || value > actualMaximum + eps)
{
continue;
}
if (axis.PositionAtZeroCrossing && Math.Abs(value) < eps)
{
continue;
}
double transformedValue = axis.Transform(value);
if (isHorizontal)
{
SnapTo(plotAreaLeft, ref transformedValue);
SnapTo(plotAreaRight, ref transformedValue);
}
else
{
SnapTo(plotAreaTop, ref transformedValue);
SnapTo(plotAreaBottom, ref transformedValue);
}
if (this.MajorPen != null)
{
if (isHorizontal)
{
majorSegments.Add(new ScreenPoint(transformedValue, plotAreaTop));
majorSegments.Add(new ScreenPoint(transformedValue, plotAreaBottom));
}
else
{
majorSegments.Add(new ScreenPoint(plotAreaLeft, transformedValue));
majorSegments.Add(new ScreenPoint(plotAreaRight, transformedValue));
}
}
if (axis.TickStyle != TickStyle.None)
{
if (isHorizontal)
{
majorTickSegments.Add(new ScreenPoint(transformedValue, axisPosition + a0));
majorTickSegments.Add(new ScreenPoint(transformedValue, axisPosition + a1));
}
else
{
majorTickSegments.Add(new ScreenPoint(axisPosition + a0, transformedValue));
majorTickSegments.Add(new ScreenPoint(axisPosition + a1, transformedValue));
}
}
}
// Render the axis labels (numbers or category names)
foreach (double value in this.MajorLabelValues)
{
if (value < actualMinimum - eps || value > actualMaximum + eps)
{
continue;
}
if (axis.PositionAtZeroCrossing && Math.Abs(value) < eps)
{
continue;
}
double transformedValue = axis.Transform(value);
if (isHorizontal)
{
SnapTo(plotAreaLeft, ref transformedValue);
SnapTo(plotAreaRight, ref transformedValue);
}
else
{
SnapTo(plotAreaTop, ref transformedValue);
SnapTo(plotAreaBottom, ref transformedValue);
}
var pt = new ScreenPoint();
var ha = HorizontalTextAlign.Right;
var va = VerticalTextAlign.Middle;
switch (axis.Position)
{
case AxisPosition.Left:
pt = new ScreenPoint(axisPosition + a1 - axis.AxisTickToLabelDistance, transformedValue);
this.GetRotatedAlignments(
axis.Angle, HorizontalTextAlign.Right, VerticalTextAlign.Middle, out ha, out va);
break;
case AxisPosition.Right:
pt = new ScreenPoint(axisPosition + a1 + axis.AxisTickToLabelDistance, transformedValue);
this.GetRotatedAlignments(
axis.Angle, HorizontalTextAlign.Left, VerticalTextAlign.Middle, out ha, out va);
break;
case AxisPosition.Top:
pt = new ScreenPoint(transformedValue, axisPosition + a1 - axis.AxisTickToLabelDistance);
this.GetRotatedAlignments(
axis.Angle, HorizontalTextAlign.Center, VerticalTextAlign.Bottom, out ha, out va);
break;
case AxisPosition.Bottom:
pt = new ScreenPoint(transformedValue, axisPosition + a1 + axis.AxisTickToLabelDistance);
this.GetRotatedAlignments(
axis.Angle, HorizontalTextAlign.Center, VerticalTextAlign.Top, out ha, out va);
break;
}
string text = axis.FormatValue(value);
this.rc.DrawMathText(
pt,
text,
axis.ActualTextColor,
axis.ActualFont,
axis.ActualFontSize,
axis.ActualFontWeight,
axis.Angle,
ha,
va);
}
// Draw the zero crossing line
if (axis.PositionAtZeroCrossing && this.ZeroPen != null)
{
double t0 = axis.Transform(0);
if (isHorizontal)
{
this.rc.DrawLine(t0, plotAreaTop, t0, plotAreaBottom, this.ZeroPen);
}
else
{
this.rc.DrawLine(plotAreaLeft, t0, plotAreaRight, t0, this.ZeroPen);
}
}
// Draw extra grid lines
if (axis.ExtraGridlines != null && this.ExtraPen != null)
{
foreach (double value in axis.ExtraGridlines)
{
if (!this.IsWithin(value, actualMinimum, actualMaximum))
{
continue;
}
double transformedValue = axis.Transform(value);
if (isHorizontal)
{
this.rc.DrawLine(transformedValue, plotAreaTop, transformedValue, plotAreaBottom, this.ExtraPen);
}
else
{
this.rc.DrawLine(plotAreaLeft, transformedValue, plotAreaRight, transformedValue, this.ExtraPen);
}
}
}
// Draw the axis line (across the tick marks)
if (isHorizontal)
{
this.rc.DrawLine(
axis.Transform(actualMinimum),
axisPosition,
axis.Transform(actualMaximum),
axisPosition,
this.AxislinePen);
}
else
{
this.rc.DrawLine(
axisPosition,
axis.Transform(actualMinimum),
axisPosition,
axis.Transform(actualMaximum),
this.AxislinePen);
}
// Draw the axis title
if (!string.IsNullOrEmpty(axis.ActualTitle))
{
this.RenderAxisTitle(axis, titlePosition);
}
if (this.MajorPen != null)
{
this.rc.DrawLineSegments(majorSegments, this.MajorPen);
}
if (this.MajorTickPen != null)
{
this.rc.DrawLineSegments(majorTickSegments, this.MajorTickPen);
}
}
/// <summary>
/// Renders the axis title.
/// </summary>
/// <param name="axis">
/// The axis.
/// </param>
/// <param name="titlePosition">
/// The title position.
/// </param>
private void RenderAxisTitle(Axis axis, double titlePosition)
{
bool isHorizontal = axis.IsHorizontal();
OxySize? maxSize = null;
if (axis.ClipTitle)
{
// Calculate the title clipping dimensions
double screenLength = isHorizontal
? Math.Abs(axis.ScreenMax.X - axis.ScreenMin.X)
: Math.Abs(axis.ScreenMax.Y - axis.ScreenMin.Y);
maxSize = new OxySize(screenLength * axis.TitleClippingLength, double.MaxValue);
}
double angle = -90;
var halign = HorizontalTextAlign.Center;
var valign = VerticalTextAlign.Top;
var lpt = this.GetAxisTitlePositionAndAlignment(axis, titlePosition, ref angle, ref halign, ref valign);
this.rc.SetToolTip(axis.ToolTip);
this.rc.DrawText(
lpt,
axis.ActualTitle,
axis.ActualTitleColor,
axis.ActualTitleFont,
axis.ActualTitleFontSize,
axis.ActualTitleFontWeight,
angle,
halign,
valign,
maxSize);
this.rc.SetToolTip(null);
}
/// <summary>
/// Gets the axis title position, rotation and alignment.
/// </summary>
/// <param name="axis">
/// The axis.
/// </param>
/// <param name="titlePosition">
/// The title position.
/// </param>
/// <param name="angle">
/// The angle.
/// </param>
/// <param name="halign">
/// The horizontal alignment.
/// </param>
/// <param name="valign">
/// The vertical alignment.
/// </param>
/// <returns>
/// The <see cref="ScreenPoint"/>.
/// </returns>
protected virtual ScreenPoint GetAxisTitlePositionAndAlignment(
Axis axis,
double titlePosition,
ref double angle,
ref HorizontalTextAlign halign,
ref VerticalTextAlign valign)
{
double middle = axis.IsHorizontal()
? Lerp(axis.ScreenMin.X, axis.ScreenMax.X, axis.TitlePosition)
: Lerp(axis.ScreenMax.Y, axis.ScreenMin.Y, axis.TitlePosition);
if (axis.PositionAtZeroCrossing)
{
var perpendicularAxis = axis.IsHorizontal() ? this.Plot.DefaultYAxis : this.Plot.DefaultXAxis;
middle = perpendicularAxis.Transform(perpendicularAxis.ActualMaximum);
}
switch (axis.Position)
{
case AxisPosition.Left:
return new ScreenPoint(titlePosition, middle);
case AxisPosition.Right:
valign = VerticalTextAlign.Bottom;
return new ScreenPoint(titlePosition, middle);
case AxisPosition.Top:
halign = HorizontalTextAlign.Center;
valign = VerticalTextAlign.Top;
angle = 0;
return new ScreenPoint(middle, titlePosition);
case AxisPosition.Bottom:
halign = HorizontalTextAlign.Center;
valign = VerticalTextAlign.Bottom;
angle = 0;
return new ScreenPoint(middle, titlePosition);
default:
throw new ArgumentOutOfRangeException("axis");
}
}
/// <summary>
/// Determines whether the specified point is valid.
/// </summary>
/// <param name="pt">
/// The pointt.
/// </param>
/// <param name="xaxis">
/// The x axis.
/// </param>
/// <param name="yaxis">
/// The y axis.
/// </param>
/// <returns>
/// <c>true</c> if the point is valid; otherwise, <c>false</c> .
/// </returns>
protected virtual bool IsValidPoint(IDataPoint pt, Axis xaxis, Axis yaxis)
{
return !double.IsNaN(pt.X) && !double.IsInfinity(pt.X) && !double.IsNaN(pt.Y) && !double.IsInfinity(pt.Y)
&& (xaxis != null && xaxis.IsValidValue(pt.X)) && (yaxis != null && yaxis.IsValidValue(pt.Y));
}
/// <summary>
/// Check if the data series is using the specified axis.
/// </summary>
/// <param name="axis">
/// An axis.
/// </param>
/// <returns>
/// True if the axis is in use.
/// </returns>
protected internal override bool IsUsing(Axis axis)
{
return false;
}
public override void Render(Axis axis)
{
base.Render(axis);
var perpendicularAxis = Plot.DefaultXAxis;
bool isHorizontal = true;
// Axis position (x or y screen coordinate)
double apos = 0;
switch (axis.Position)
{
case AxisPosition.Left:
apos = Plot.PlotArea.Left;
isHorizontal = false;
break;
case AxisPosition.Right:
apos = Plot.PlotArea.Right;
isHorizontal = false;
break;
case AxisPosition.Top:
apos = Plot.PlotArea.Top;
perpendicularAxis = Plot.DefaultYAxis;
break;
case AxisPosition.Bottom:
apos = Plot.PlotArea.Bottom;
perpendicularAxis = Plot.DefaultYAxis;
break;
}
if (axis.PositionAtZeroCrossing)
{
apos = perpendicularAxis.Transform(0);
}
double a0, a1;
if (axis.ShowMinorTicks)
{
GetTickPositions(axis, axis.TickStyle, axis.MinorTickSize, axis.Position, out a0, out a1);
foreach (double value in MinorTickValues)
{
if (value < axis.ActualMinimum || value > axis.ActualMaximum)
{
continue;
}
if (MajorTickValues.Contains(value))
{
continue;
}
double transformedValue = axis.Transform(value);
if (MinorPen != null)
{
if (isHorizontal)
{
rc.DrawLine(transformedValue, Plot.PlotArea.Top, transformedValue, Plot.PlotArea.Bottom, MinorPen);
}
else
{
rc.DrawLine(Plot.PlotArea.Left, transformedValue, Plot.PlotArea.Right, transformedValue, MinorPen);
}
}
if (isHorizontal)
{
rc.DrawLine(transformedValue, apos + a0, transformedValue, apos + a1, MinorTickPen);
}
else
{
rc.DrawLine(apos + a0, transformedValue, apos + a1, transformedValue, MinorTickPen);
}
}
}
GetTickPositions(axis, axis.TickStyle, axis.MajorTickSize, axis.Position, out a0, out a1);
double maxWidth = 0;
double maxHeight = 0;
foreach (double value in MajorTickValues)
{
if (value < axis.ActualMinimum || value > axis.ActualMaximum)
continue;
double transformedValue = axis.Transform(value);
if (MajorPen != null)
{
if (isHorizontal)
{
rc.DrawLine(transformedValue, Plot.PlotArea.Top, transformedValue, Plot.PlotArea.Bottom, MajorPen);
}
else
{
rc.DrawLine(Plot.PlotArea.Left, transformedValue, Plot.PlotArea.Right, transformedValue, MajorPen);
}
}
if (isHorizontal)
{
rc.DrawLine(transformedValue, apos + a0, transformedValue, apos + a1, MajorTickPen);
}
else
{
rc.DrawLine(apos + a0, transformedValue, apos + a1, transformedValue, MajorTickPen);
}
if (value == 0 && axis.PositionAtZeroCrossing)
continue;
var pt = new ScreenPoint();
var ha = HorizontalTextAlign.Right;
var va = VerticalTextAlign.Middle;
switch (axis.Position)
{
case AxisPosition.Left:
pt = new ScreenPoint(apos + a1 - TICK_DIST, transformedValue);
GetRotatedAlignments(axis.Angle, HorizontalTextAlign.Right, VerticalTextAlign.Middle, out ha, out va);
break;
case AxisPosition.Right:
pt = new ScreenPoint(apos + a1 + TICK_DIST, transformedValue);
GetRotatedAlignments(axis.Angle, HorizontalTextAlign.Left, VerticalTextAlign.Middle, out ha, out va);
break;
case AxisPosition.Top:
pt = new ScreenPoint(transformedValue, apos + a1 - TICK_DIST);
GetRotatedAlignments(axis.Angle, HorizontalTextAlign.Center, VerticalTextAlign.Bottom, out ha, out va);
break;
case AxisPosition.Bottom:
pt = new ScreenPoint(transformedValue, apos + a1 + TICK_DIST);
GetRotatedAlignments(axis.Angle, HorizontalTextAlign.Center, VerticalTextAlign.Top, out ha, out va);
break;
}
string text = axis.FormatValue(value);
var size = rc.DrawMathText(pt, text, Plot.TextColor,
axis.FontFamily, axis.FontSize, axis.FontWeight,
axis.Angle, ha, va);
maxWidth = Math.Max(maxWidth, size.Width);
maxHeight = Math.Max(maxHeight, size.Height);
}
if (axis.PositionAtZeroCrossing)
{
double t0 = axis.Transform(0);
if (isHorizontal)
{
rc.DrawLine(t0, Plot.PlotArea.Top, t0, Plot.PlotArea.Bottom, ZeroPen);
}
else
{
rc.DrawLine(Plot.PlotArea.Left, t0, Plot.PlotArea.Right, t0, ZeroPen);
}
}
if (axis.ExtraGridlines != null)
{
foreach (double value in axis.ExtraGridlines)
{
if (!IsWithin(value, axis.ActualMinimum, axis.ActualMaximum))
continue;
double transformedValue = axis.Transform(value);
if (isHorizontal)
{
rc.DrawLine(transformedValue, Plot.PlotArea.Top, transformedValue, Plot.PlotArea.Bottom, ExtraPen);
}
else
{
rc.DrawLine(Plot.PlotArea.Left, transformedValue, Plot.PlotArea.Right, transformedValue, ExtraPen);
}
}
}
if (isHorizontal)
{
rc.DrawLine(Plot.PlotArea.Left, apos, Plot.PlotArea.Right, apos, MajorPen);
}
else
{
rc.DrawLine(apos, Plot.PlotArea.Top, apos, Plot.PlotArea.Bottom, MajorPen);
}
if (!String.IsNullOrWhiteSpace(axis.Title))
{
// Axis legend
double ymid = axis.Transform((axis.ActualMinimum + axis.ActualMaximum) / 2);
double angle = -90;
var lpt = new ScreenPoint();
var halign = HorizontalTextAlign.Center;
var valign = VerticalTextAlign.Top;
if (axis.PositionAtZeroCrossing)
{
ymid = perpendicularAxis.Transform(perpendicularAxis.ActualMaximum);
// valign = axis.IsReversed ? VerticalTextAlign.Top : VerticalTextAlign.Bottom;
}
switch (axis.Position)
{
case AxisPosition.Left:
lpt = new ScreenPoint(AXIS_LEGEND_DIST, ymid);
break;
case AxisPosition.Right:
lpt = new ScreenPoint(rc.Width - AXIS_LEGEND_DIST, ymid);
valign = VerticalTextAlign.Bottom;
break;
case AxisPosition.Top:
lpt = new ScreenPoint(ymid, AXIS_LEGEND_DIST);
halign = HorizontalTextAlign.Center;
valign = VerticalTextAlign.Top;
angle = 0;
break;
case AxisPosition.Bottom:
lpt = new ScreenPoint(ymid, rc.Height - AXIS_LEGEND_DIST);
halign = HorizontalTextAlign.Center;
valign = VerticalTextAlign.Bottom;
angle = 0;
break;
}
rc.DrawText(lpt, axis.Title, Plot.TextColor,
axis.FontFamily, axis.FontSize, axis.FontWeight,
angle, halign, valign);
}
}
public virtual Point InverseTransform(double x, double y, Axis yAxis)
{
Debug.Assert(yAxis != null);
if (IsPolar)
{
x -= MidPoint.X;
y -= MidPoint.Y;
double th = Math.Atan2(y, x);
double r = Math.Sqrt(x * x + y * y);
x = r / Scale + Offset;
y = yAxis != null ? th / yAxis.Scale + yAxis.Offset : double.NaN;
return new Point(x, y);
}
return new Point(InverseTransformX(x), yAxis.InverseTransformX(y));
}
private void RenderVerticalAxis(Axis axis, Axis perpendicularAxis)
{
double x = Plot.Bounds.Left;
switch (axis.Position)
{
case AxisPosition.Left:
x = Plot.Bounds.Left;
break;
case AxisPosition.Right:
x = Plot.Bounds.Right;
break;
}
if (axis.PositionAtZeroCrossing)
x = perpendicularAxis.TransformX(0);
double x0, x1;
if (axis.ShowMinorTicks)
{
GetHorizontalTickPositions(axis, axis.TickStyle, axis.MinorTickSize, out x0, out x1);
foreach (double yValue in minorTickValues)
{
if (yValue < axis.ActualMinimum || yValue > axis.ActualMaximum)
{
continue;
}
if (majorTickValues.Contains(yValue))
{
continue;
}
double y = axis.TransformX(yValue);
if (minorPen != null)
{
RenderLine(Plot.Bounds.Left, y, Plot.Bounds.Right, y, minorPen);
}
RenderLine(x + x0, y, x + x1, y, minorTickPen);
}
}
GetHorizontalTickPositions(axis, axis.TickStyle, axis.MajorTickSize, out x0, out x1);
double maxw = 0;
bool isleft = axis.Position == AxisPosition.Left;
foreach (double yValue in majorTickValues)
{
if (yValue < axis.ActualMinimum || yValue > axis.ActualMaximum)
continue;
double y = axis.TransformX(yValue);
if (majorPen != null)
{
RenderLine(Plot.Bounds.Left, y, Plot.Bounds.Right, y, majorPen);
}
RenderLine(x + x0, y, x + x1, y, majorTickPen);
if (yValue == 0 && axis.PositionAtZeroCrossing)
continue;
var pt = new ScreenPoint(isleft ? x + x1 - TICK_DIST : x + x1 + TICK_DIST, y);
string text = axis.FormatValue(yValue);
double w = rc.MeasureText(text, axis.FontFamily, axis.FontSize, axis.FontWeight).Height;
rc.DrawText(pt, text, Plot.TextColor,
axis.FontFamily, axis.FontSize, axis.FontWeight,
axis.Angle,
isleft ? HorizontalTextAlign.Right : HorizontalTextAlign.Left, VerticalTextAlign.Middle);
maxw = Math.Max(maxw, w);
}
if (axis.PositionAtZeroCrossing)
{
double y = axis.TransformX(0);
RenderLine(Plot.Bounds.Left, y, Plot.Bounds.Right, y, zeroPen);
}
if (axis.ExtraGridlines != null)
foreach (double y in axis.ExtraGridlines)
{
if (!IsWithin(y, axis.ActualMinimum, axis.ActualMaximum))
continue;
double sy = axis.TransformX(y);
RenderLine(Plot.Bounds.Left, sy, Plot.Bounds.Right, sy, extraPen);
}
RenderLine(x, Plot.Bounds.Top, x, Plot.Bounds.Bottom, majorPen);
double ymid = axis.TransformX((axis.ActualMinimum + axis.ActualMaximum)/2);
HorizontalTextAlign halign = HorizontalTextAlign.Center;
VerticalTextAlign valign = VerticalTextAlign.Top;
if (axis.PositionAtZeroCrossing)
{
ymid = perpendicularAxis.TransformX(perpendicularAxis.ActualMaximum);
// valign = axis.IsReversed ? VerticalTextAlign.Top : VerticalTextAlign.Bottom;
}
if (isleft)
{
x = AXIS_LEGEND_DIST;
}
else
{
x = rc.Width - AXIS_LEGEND_DIST;
valign = VerticalTextAlign.Bottom;
}
rc.DrawText(new ScreenPoint(x, ymid), axis.Title, Plot.TextColor,
axis.FontFamily, axis.FontSize, axis.FontWeight,
-90, halign, valign);
}
/// <summary>
/// Renders the minor items.
/// </summary>
/// <param name="axis">
/// The axis.
/// </param>
/// <param name="axisPosition">
/// The axis position.
/// </param>
private void RenderMinorItems(Axis axis, double axisPosition)
{
double eps = axis.ActualMinorStep * 1e-3;
double actualMinimum = axis.ActualMinimum;
double actualMaximum = axis.ActualMaximum;
double plotAreaLeft = this.Plot.PlotArea.Left;
double plotAreaRight = this.Plot.PlotArea.Right;
double plotAreaTop = this.Plot.PlotArea.Top;
double plotAreaBottom = this.Plot.PlotArea.Bottom;
bool isHorizontal = axis.IsHorizontal();
double a0;
double a1;
var minorSegments = new List<ScreenPoint>();
var minorTickSegments = new List<ScreenPoint>();
this.GetTickPositions(axis, axis.TickStyle, axis.MinorTickSize, axis.Position, out a0, out a1);
foreach (double value in this.MinorTickValues)
{
if (value < actualMinimum - eps || value > actualMaximum + eps)
{
continue;
}
if (this.MajorTickValues.Contains(value))
{
continue;
}
if (axis.PositionAtZeroCrossing && Math.Abs(value) < eps)
{
continue;
}
double transformedValue = axis.Transform(value);
if (isHorizontal)
{
SnapTo(plotAreaLeft, ref transformedValue);
SnapTo(plotAreaRight, ref transformedValue);
}
else
{
SnapTo(plotAreaTop, ref transformedValue);
SnapTo(plotAreaBottom, ref transformedValue);
}
// Draw the minor grid line
if (this.MinorPen != null)
{
if (isHorizontal)
{
minorSegments.Add(new ScreenPoint(transformedValue, plotAreaTop));
minorSegments.Add(new ScreenPoint(transformedValue, plotAreaBottom));
}
else
{
if (transformedValue < plotAreaTop || transformedValue > plotAreaBottom)
{
}
minorSegments.Add(new ScreenPoint(plotAreaLeft, transformedValue));
minorSegments.Add(new ScreenPoint(plotAreaRight, transformedValue));
}
}
// Draw the minor tick
if (axis.TickStyle != TickStyle.None)
{
if (isHorizontal)
{
minorTickSegments.Add(new ScreenPoint(transformedValue, axisPosition + a0));
minorTickSegments.Add(new ScreenPoint(transformedValue, axisPosition + a1));
}
else
{
minorTickSegments.Add(new ScreenPoint(axisPosition + a0, transformedValue));
minorTickSegments.Add(new ScreenPoint(axisPosition + a1, transformedValue));
}
}
}
// Draw all the line segments);
if (this.MinorPen != null)
{
this.rc.DrawLineSegments(minorSegments, this.MinorPen);
}
if (this.MinorTickPen != null)
{
this.rc.DrawLineSegments(minorTickSegments, this.MinorTickPen);
}
}
private void RenderMagnitudeAxis(Axis axis, Axis angleAxis)
{
if (axis.RelatedAxis != null)
angleAxis = axis.RelatedAxis;
if (axis.ShowMinorTicks)
{
// GetVerticalTickPositions(axis, axis.TickStyle, axis.MinorTickSize, out y0, out y1);
foreach (double xValue in minorTickValues)
{
if (xValue < axis.ActualMinimum || xValue > axis.ActualMaximum)
{
continue;
}
if (majorTickValues.Contains(xValue))
{
continue;
}
var pts = new List<ScreenPoint>();
for (double th = angleAxis.ActualMinimum;
th <= angleAxis.ActualMaximum;
th += angleAxis.MinorStep*0.1)
{
pts.Add(axis.Transform(xValue, th, angleAxis));
}
if (minorPen != null)
{
rc.DrawLine(pts, minorPen.Color, minorPen.Thickness, minorPen.DashArray);
}
// RenderGridline(x, y + y0, x, y + y1, minorTickPen);
}
}
// GetVerticalTickPositions(axis, axis.TickStyle, axis.MajorTickSize, out y0, out y1);
foreach (double xValue in majorTickValues)
{
if (xValue < axis.ActualMinimum || xValue > axis.ActualMaximum)
{
continue;
}
var pts = new List<ScreenPoint>();
for (double th = angleAxis.ActualMinimum; th <= angleAxis.ActualMaximum; th += angleAxis.MinorStep*0.1)
{
pts.Add(axis.Transform(xValue, th, angleAxis));
}
if (majorPen != null)
{
rc.DrawLine(pts, majorPen.Color, majorPen.Thickness, majorPen.DashArray);
}
// RenderGridline(x, y + y0, x, y + y1, majorTickPen);
//var pt = new ScreenPoint(x, istop ? y + y1 - TICK_DIST : y + y1 + TICK_DIST);
//string text = axis.FormatValue(xValue);
//double h = rc.MeasureText(text, axis.FontFamily, axis.FontSize, axis.FontWeight).Height;
//rc.DrawText(pt, text, plot.TextColor,
// axis.FontFamily, axis.FontSize, axis.FontWeight,
// axis.Angle,
// HorizontalTextAlign.Center, istop ? VerticalTextAlign.Bottom : VerticalTextAlign.Top);
//maxh = Math.Max(maxh, h);
}
}
/// <summary> /// Check if the data series is using the specified axis. /// </summary> /// <param name="axis"> /// An axis which should be checked if used /// </param> /// <returns> /// True if the axis is in use. /// </returns> protected internal abstract bool IsUsing(Axis axis);
/// <summary>
/// Gets the first axes that covers the area of the specified point.
/// </summary>
/// <param name="pt">
/// The point.
/// </param>
/// <param name="xaxis">
/// The xaxis.
/// </param>
/// <param name="yaxis">
/// The yaxis.
/// </param>
public void GetAxesFromPoint(ScreenPoint pt, out Axis xaxis, out Axis yaxis)
{
xaxis = yaxis = null;
// Get the axis position of the given point. Using null if the point is inside the plot area.
AxisPosition? position = null;
double plotAreaValue = 0;
if (pt.X < this.PlotArea.Left)
{
position = AxisPosition.Left;
plotAreaValue = this.PlotArea.Left;
}
if (pt.X > this.PlotArea.Right)
{
position = AxisPosition.Right;
plotAreaValue = this.PlotArea.Right;
}
if (pt.Y < this.PlotArea.Top)
{
position = AxisPosition.Top;
plotAreaValue = this.PlotArea.Top;
}
if (pt.Y > this.PlotArea.Bottom)
{
position = AxisPosition.Bottom;
plotAreaValue = this.PlotArea.Bottom;
}
foreach (var axis in this.Axes)
{
if (axis is ColorAxis)
{
continue;
}
if (axis is MagnitudeAxis)
{
xaxis = axis;
continue;
}
if (axis is AngleAxis)
{
yaxis = axis;
continue;
}
double x = double.NaN;
if (axis.IsHorizontal())
{
x = axis.InverseTransform(pt.X);
}
if (axis.IsVertical())
{
x = axis.InverseTransform(pt.Y);
}
if (x >= axis.ActualMinimum && x <= axis.ActualMaximum)
{
if (position == null)
{
if (axis.IsHorizontal())
{
if (xaxis == null)
{
xaxis = axis;
}
}
else if (axis.IsVertical())
{
if (yaxis == null)
{
yaxis = axis;
}
}
}
else if (position == axis.Position)
{
// Choose right tier
double positionTierMinShift = axis.PositionTierMinShift;
double positionTierMaxShift = axis.PositionTierMaxShift;
double posValue = axis.IsHorizontal() ? pt.Y : pt.X;
bool isLeftOrTop = position == AxisPosition.Top || position == AxisPosition.Left;
if ((posValue >= plotAreaValue + positionTierMinShift
&& posValue < plotAreaValue + positionTierMaxShift && !isLeftOrTop)
||
(posValue <= plotAreaValue - positionTierMinShift
&& posValue > plotAreaValue - positionTierMaxShift && isLeftOrTop))
{
if (axis.IsHorizontal())
{
if (xaxis == null)
{
xaxis = axis;
}
}
else if (axis.IsVertical())
{
if (yaxis == null)
{
yaxis = axis;
}
}
}
}
}
}
}
private void RenderAngleAxis(Axis axis, Axis magnitudeAxis)
{
if (axis.RelatedAxis != null)
magnitudeAxis = axis.RelatedAxis;
if (axis.ShowMinorTicks)
{
// GetVerticalTickPositions(axis, axis.TickStyle, axis.MinorTickSize, out y0, out y1);
foreach (double xValue in minorTickValues)
{
if (xValue < axis.ActualMinimum || xValue > axis.ActualMaximum)
{
continue;
}
if (majorTickValues.Contains(xValue))
{
continue;
}
var pt = magnitudeAxis.Transform(magnitudeAxis.ActualMaximum, xValue, axis);
if (minorPen != null)
{
RenderLine(axis.MidPoint.x, axis.MidPoint.y, pt.x, pt.y, minorPen, false);
}
// RenderGridline(x, y + y0, x, y + y1, minorTickPen);
}
}
// GetVerticalTickPositions(axis, axis.TickStyle, axis.MajorTickSize, out y0, out y1);
foreach (double xValue in majorTickValues)
{
if (xValue < axis.ActualMinimum || xValue > axis.ActualMaximum)
{
continue;
}
var pt = magnitudeAxis.Transform(magnitudeAxis.ActualMaximum, xValue, axis);
if (majorPen != null)
{
RenderLine(axis.MidPoint.x, axis.MidPoint.y, pt.x, pt.y, majorPen, false);
}
// RenderGridline(x, y + y0, x, y + y1, majorTickPen);
//var pt = new ScreenPoint(x, istop ? y + y1 - TICK_DIST : y + y1 + TICK_DIST);
//string text = axis.FormatValue(xValue);
//double h = rc.MeasureText(text, axis.FontFamily, axis.FontSize, axis.FontWeight).Height;
//rc.DrawText(pt, text, plot.TextColor,
// axis.FontFamily, axis.FontSize, axis.FontWeight,
// axis.Angle,
// HorizontalTextAlign.Center, istop ? VerticalTextAlign.Bottom : VerticalTextAlign.Top);
//maxh = Math.Max(maxh, h);
}
}
/// <summary>
/// Transform the specified screen point to data coordinates.
/// </summary>
/// <param name="p">The point.</param>
/// <param name="xaxis">The x axis.</param>
/// <param name="yaxis">The y axis.</param>
/// <returns>The data point.</returns>
public static DataPoint InverseTransform(ScreenPoint p, Axis xaxis, Axis yaxis)
{
return xaxis.InverseTransform(p.x, p.y, yaxis);
}
private void GetVerticalTickPositions(Axis axis, TickStyle glt, double ticksize,
out double y0, out double y1)
{
y0 = 0;
y1 = 0;
bool istop = axis.Position == AxisPosition.Top;
double topsign = istop ? -1 : 1;
switch (glt)
{
case TickStyle.Crossing:
y0 = -ticksize*topsign;
y1 = ticksize*topsign;
break;
case TickStyle.Inside:
y0 = -ticksize*topsign;
break;
case TickStyle.Outside:
y1 = ticksize*topsign;
break;
}
}
/// <summary>
/// Inverse transform the specified screen point.
/// </summary>
/// <param name="x">
/// The x coordinate.
/// </param>
/// <param name="y">
/// The y coordinate.
/// </param>
/// <param name="yaxis">
/// The y-axis.
/// </param>
/// <returns>
/// The data point.
/// </returns>
public virtual DataPoint InverseTransform(double x, double y, Axis yaxis)
{
return new DataPoint(this.InverseTransform(x), yaxis != null ? yaxis.InverseTransform(y) : 0);
}
private void GetHorizontalTickPositions(Axis axis, TickStyle glt, double ticksize, out double x0,
out double x1)
{
x0 = 0;
x1 = 0;
bool isLeft = axis.Position == AxisPosition.Left;
double leftSign = isLeft ? -1 : 1;
switch (glt)
{
case TickStyle.Crossing:
x0 = -ticksize*leftSign;
x1 = ticksize*leftSign;
break;
case TickStyle.Inside:
x0 = -ticksize*leftSign;
break;
case TickStyle.Outside:
x1 = ticksize*leftSign;
break;
}
}
/// <summary>
/// Check if the data series is using the specified axis.
/// </summary>
/// <param name="axis">
/// An axis which should be checked if used
/// </param>
/// <returns>
/// True if the axis is in use.
/// </returns>
protected internal override bool IsUsing(Axis axis)
{
return this.XAxis == axis || this.YAxis == axis;
}
public void CreatePens(Axis axis)
{
minorPen = CreatePen(axis.MinorGridlineColor, axis.MinorGridlineThickness, axis.MinorGridlineStyle);
majorPen = CreatePen(axis.MajorGridlineColor, axis.MajorGridlineThickness, axis.MajorGridlineStyle);
minorTickPen = CreatePen(axis.TicklineColor, axis.MinorGridlineThickness, LineStyle.Solid);
majorTickPen = CreatePen(axis.TicklineColor, axis.MajorGridlineThickness, LineStyle.Solid);
zeroPen = CreatePen(axis.MajorGridlineColor, axis.MajorGridlineThickness, axis.MajorGridlineStyle);
extraPen = CreatePen(axis.ExtraGridlineColor, axis.ExtraGridlineThickness, axis.ExtraGridlineStyle);
}
/// <summary>
/// The create pens.
/// </summary>
/// <param name="axis">
/// The axis.
/// </param>
protected void CreatePens(Axis axis)
{
this.MinorPen = OxyPen.Create(axis.MinorGridlineColor, axis.MinorGridlineThickness, axis.MinorGridlineStyle);
this.MajorPen = OxyPen.Create(axis.MajorGridlineColor, axis.MajorGridlineThickness, axis.MajorGridlineStyle);
this.MinorTickPen = OxyPen.Create(axis.TicklineColor, axis.MinorGridlineThickness);
this.MajorTickPen = OxyPen.Create(axis.TicklineColor, axis.MajorGridlineThickness);
this.ZeroPen = OxyPen.Create(axis.TicklineColor, axis.MajorGridlineThickness);
this.ExtraPen = OxyPen.Create(axis.ExtraGridlineColor, axis.ExtraGridlineThickness, axis.ExtraGridlineStyle);
this.AxislinePen = OxyPen.Create(axis.AxislineColor, axis.AxislineThickness, axis.AxislineStyle);
}
private void RenderHorizontalAxis(Axis axis, Axis perpendicularAxis)
{
double y = Plot.Bounds.Bottom;
switch (axis.Position)
{
case AxisPosition.Top:
y = Plot.Bounds.Top;
break;
case AxisPosition.Bottom:
y = Plot.Bounds.Bottom;
break;
}
if (axis.PositionAtZeroCrossing)
{
y = perpendicularAxis.TransformX(0);
}
double y0, y1;
if (axis.ShowMinorTicks)
{
GetVerticalTickPositions(axis, axis.TickStyle, axis.MinorTickSize, out y0, out y1);
foreach (double xValue in minorTickValues)
{
if (xValue < axis.ActualMinimum || xValue > axis.ActualMaximum)
{
continue;
}
if (majorTickValues.Contains(xValue))
{
continue;
}
double x = axis.TransformX(xValue);
if (minorPen != null)
{
RenderLine(x, Plot.Bounds.Top, x, Plot.Bounds.Bottom, minorPen);
}
RenderLine(x, y + y0, x, y + y1, minorTickPen);
}
}
GetVerticalTickPositions(axis, axis.TickStyle, axis.MajorTickSize, out y0, out y1);
double maxh = 0;
bool istop = axis.Position == AxisPosition.Top;
foreach (double xValue in majorTickValues)
{
if (xValue < axis.ActualMinimum || xValue > axis.ActualMaximum)
{
continue;
}
double x = axis.TransformX(xValue);
if (majorPen != null)
{
RenderLine(x, Plot.Bounds.Top, x, Plot.Bounds.Bottom, majorPen);
}
RenderLine(x, y + y0, x, y + y1, majorTickPen);
if (xValue == 0 && axis.PositionAtZeroCrossing)
continue;
var pt = new ScreenPoint(x, istop ? y + y1 - TICK_DIST : y + y1 + TICK_DIST);
string text = axis.FormatValue(xValue);
double h = rc.MeasureText(text, axis.FontFamily, axis.FontSize, axis.FontWeight).Height;
rc.DrawText(pt, text, Plot.TextColor,
axis.FontFamily, axis.FontSize, axis.FontWeight,
axis.Angle,
HorizontalTextAlign.Center, istop ? VerticalTextAlign.Bottom : VerticalTextAlign.Top);
maxh = Math.Max(maxh, h);
}
if (axis.PositionAtZeroCrossing)
{
double x = axis.TransformX(0);
RenderLine(x, Plot.Bounds.Top, x, Plot.Bounds.Bottom, zeroPen);
}
if (axis.ExtraGridlines != null)
{
foreach (double x in axis.ExtraGridlines)
{
if (!IsWithin(x, axis.ActualMinimum, axis.ActualMaximum))
continue;
double sx = axis.TransformX(x);
RenderLine(sx, Plot.Bounds.Top, sx, Plot.Bounds.Bottom, extraPen);
}
}
// The horizontal axis line
RenderLine(Plot.Bounds.Left, y, Plot.Bounds.Right, y, majorPen);
// The horizontal axis legend (centered horizontally)
double legendX = axis.TransformX((axis.ActualMinimum + axis.ActualMaximum)/2);
HorizontalTextAlign halign = HorizontalTextAlign.Center;
VerticalTextAlign valign = VerticalTextAlign.Bottom;
if (axis.PositionAtZeroCrossing)
{
legendX = perpendicularAxis.TransformX(perpendicularAxis.ActualMaximum);
}
double legendY = rc.Height - AXIS_LEGEND_DIST;
if (istop)
{
legendY = AXIS_LEGEND_DIST;
valign = VerticalTextAlign.Top;
}
rc.DrawText(new ScreenPoint(legendX, legendY),
axis.Title, Plot.TextColor,
axis.FontFamily, axis.FontSize, axis.FontWeight, 0, halign, valign);
}
/// <summary>
/// Determines whether the point is valid.
/// </summary>
/// <param name="pt">The point.</param>
/// <param name="xaxis">The x axis.</param>
/// <param name="yaxis">The y axis.</param>
/// <returns>
/// <c>true</c> if [is valid point] [the specified pt]; otherwise, <c>false</c>.
/// </returns>
public virtual bool IsValidItem(HighLowItem pt, Axis xaxis, Axis yaxis)
{
return !double.IsNaN(pt.X) && !double.IsInfinity(pt.X) && !double.IsNaN(pt.High)
&& !double.IsInfinity(pt.High) && !double.IsNaN(pt.Low) && !double.IsInfinity(pt.Low);
}
/// <summary>
/// Gets the first axes that covers the area of the specified point.
/// </summary>
/// <param name="pt">
/// The point.
/// </param>
/// <param name="xaxis">
/// The xaxis.
/// </param>
/// <param name="yaxis">
/// The yaxis.
/// </param>
public void GetAxesFromPoint(ScreenPoint pt, out Axis xaxis, out Axis yaxis)
{
xaxis = yaxis = null;
// Get the axis position of the given point. Using null if the point is inside the plot area.
AxisPosition?position = null;
double plotAreaValue = 0;
if (pt.X < this.PlotArea.Left)
{
position = AxisPosition.Left;
plotAreaValue = this.PlotArea.Left;
}
if (pt.X > this.PlotArea.Right)
{
position = AxisPosition.Right;
plotAreaValue = this.PlotArea.Right;
}
if (pt.Y < this.PlotArea.Top)
{
position = AxisPosition.Top;
plotAreaValue = this.PlotArea.Top;
}
if (pt.Y > this.PlotArea.Bottom)
{
position = AxisPosition.Bottom;
plotAreaValue = this.PlotArea.Bottom;
}
foreach (var axis in this.Axes)
{
if (axis is ColorAxis)
{
continue;
}
if (axis is MagnitudeAxis)
{
xaxis = axis;
continue;
}
if (axis is AngleAxis)
{
yaxis = axis;
continue;
}
double x = double.NaN;
if (axis.IsHorizontal())
{
x = axis.InverseTransform(pt.X);
}
if (axis.IsVertical())
{
x = axis.InverseTransform(pt.Y);
}
if (x >= axis.ActualMinimum && x <= axis.ActualMaximum)
{
if (position == null)
{
if (axis.IsHorizontal())
{
if (xaxis == null)
{
xaxis = axis;
}
}
else if (axis.IsVertical())
{
if (yaxis == null)
{
yaxis = axis;
}
}
}
else if (position == axis.Position)
{
// Choose right tier
double positionTierMinShift = axis.PositionTierMinShift;
double positionTierMaxShift = axis.PositionTierMaxShift;
double posValue = axis.IsHorizontal() ? pt.Y : pt.X;
bool isLeftOrTop = position == AxisPosition.Top || position == AxisPosition.Left;
if ((posValue >= plotAreaValue + positionTierMinShift &&
posValue < plotAreaValue + positionTierMaxShift && !isLeftOrTop)
||
(posValue <= plotAreaValue - positionTierMinShift &&
posValue > plotAreaValue - positionTierMaxShift && isLeftOrTop))
{
if (axis.IsHorizontal())
{
if (xaxis == null)
{
xaxis = axis;
}
}
else if (axis.IsVertical())
{
if (yaxis == null)
{
yaxis = axis;
}
}
}
}
}
}
}
