/// <summary>
/// Core element creation.
/// </summary>
/// <param name="index"></param>
/// <param name="valuex"></param>
/// <param name="valuey"></param>
/// <param name="item"></param>
/// <param name="recycler"></param>
/// <param name="evs"></param>
/// <returns></returns>
ItemState <Path> ElementPipeline(int index, double valuex, double valuey, object item, Recycler <Path, ItemState <Path> > recycler, Evaluators evs)
{
var mappedy = ValueAxis.For(valuey);
var mappedx = CategoryAxis.For(valuex);
var markerx = mappedx + MarkerOffset;
_trace.Verbose($"[{index}] {valuey} ({markerx},{mappedy})");
var mk = MarkerTemplate.LoadContent() as Geometry;
// TODO allow MK to be other things like (Path or Image).
// TODO allow a MarkerTemplateSelector and a value Selector/Formatter
// no path yet
var el = recycler.Next(null);
if (el == null)
{
return(null);
}
var shim = new GeometryWithOffsetShim <Geometry>()
{
PathData = mk
};
el.Item2.DataContext = shim;
BindTo(shim, nameof(shim.Offset), el.Item2, Canvas.LeftProperty);
var cs = evs.LabelFor(item);
if (cs == null)
{
return(new ItemState_Matrix <Path>(index, mappedx, MarkerOffset, mappedy, el.Item2));
}
else
{
return(new ItemStateCustom_Matrix <Path>(index, mappedx, MarkerOffset, mappedy, cs, el.Item2));
}
}
/// <summary>
/// rule coordinates (x:[0..1], y:axis)
/// </summary>
/// <param name="icrc">The context.</param>
void IRequireTransforms.Transforms(IChartRenderContext icrc)
{
if (ValueAxis == null)
{
return;
}
var matx = MatrixSupport.TransformFor(icrc.SeriesArea, ValueAxis);
_trace.Verbose($"transforms sy:{matx.M22:F3} matx:{matx} sa:{icrc.SeriesArea}");
if (ClipToDataRegion)
{
Path.Clip = new RectangleGeometry()
{
Rect = icrc.SeriesArea
};
}
var vx = ValueAxis.For(Value);
var offset = matx.Transform(new Point(0, vx));
Rule.SetValue(Canvas.TopProperty, offset.Y);
matx.OffsetY = 0;
Rule.Transform = new MatrixTransform()
{
Matrix = matx
};
}
/// <summary>
/// Core element creation.
/// </summary>
/// <param name="index"></param>
/// <param name="valuex"></param>
/// <param name="valuey"></param>
/// <param name="item"></param>
/// <param name="recycler"></param>
/// <param name="evs"></param>
/// <returns></returns>
ItemState <Image> ElementPipeline(int index, double valuex, double valuey, object item, Recycler <Image, ItemState <Image> > recycler, Evaluators evs)
{
var mappedy = ValueAxis.For(valuey);
var mappedx = CategoryAxis.For(valuex);
var markerx = mappedx + MarkerOffset;
_trace.Verbose($"[{index}] {valuey} ({markerx},{mappedy})");
// TODO allow a MarkerTemplateSelector and a value Selector/Formatter
// no path yet
var el = recycler.Next(null);
if (el == null)
{
return(null);
}
var cs = evs.LabelFor(item);
if (cs == null)
{
return(new ItemState_Matrix <Image>(index, mappedx, MarkerOffset, mappedy, el.Item2));
}
else
{
return(new ItemStateCustom_Matrix <Image>(index, mappedx, MarkerOffset, mappedy, cs, el.Item2));
}
}
/// <summary>
/// Prepare the item state, but no <see cref="Geometry"/>.
/// </summary>
/// <param name="index"></param>
/// <param name="valuex"></param>
/// <param name="valuey"></param>
/// <param name="item"></param>
/// <param name="evs"></param>
/// <returns></returns>
ItemState <Path> ElementPipeline(int index, double valuex, double valuey, object item, Evaluators evs)
{
var mappedy = ValueAxis.For(valuey);
var mappedx = CategoryAxis.For(valuex);
var linex = mappedx + CategoryAxisOffset;
_trace.Verbose($"{Name}[{index}] v:({valuex},{valuey}) m:({linex},{mappedy})");
var cs = evs.LabelFor(item);
if (cs == null)
{
return(new ItemState <Path>(index, mappedx, CategoryAxisOffset, mappedy, Segments));
}
else
{
return(new ItemStateCustom <Path>(index, mappedx, CategoryAxisOffset, mappedy, cs, Segments));
}
}
/// <summary>
/// Create the next series state.
/// </summary>
/// <param name="index"></param>
/// <param name="valuex"></param>
/// <param name="item"></param>
/// <param name="recycler"></param>
/// <param name="evs"></param>
/// <returns>New instance or NULL.</returns>
SeriesItemState ElementPipeline(int index, double valuex, object item, Recycler <Path, SeriesItemState> recycler, Evaluators evs)
{
var leftx = CategoryAxis.For(valuex);
var barx = BarOffset;
var rightx = barx + BarWidth;
var sis = evs.byl == null ? new SeriesItemState(index, leftx, BarOffset) : new SeriesItemState_Custom(index, leftx, BarOffset, evs.byl.For(item));
for (int ix = 0; ix < evs.bys.Length; ix++)
{
var valuey = CoerceValue(item, evs.bys[ix]);
if (double.IsNaN(valuey))
{
continue;
}
var colbase = valuey >= 0 ? sis.Max : sis.Min;
var colend = colbase + valuey;
var y1 = ValueAxis.For(colend);
var y2 = ValueAxis.For(colbase);
var topy = Math.Max(y1, y2);
var bottomy = Math.Min(y1, y2);
sis.UpdateLimits(y1);
_trace.Verbose($"{Name}[{index},{ix}] {valuey} ({barx},{topy}) ({rightx},{bottomy}) sis ({sis.Min},{sis.Max})");
var path = recycler.Next(null);
if (path == null)
{
return(null);
}
var shim = new GeometryWithOffsetShim <RectangleGeometry>()
{
PathData = new RectangleGeometry()
{
Rect = new Rect(new Point(barx, topy), new Point(rightx, bottomy))
}
};
path.Item2.DataContext = shim;
BindTo(ColumnStack[ix], "PathStyle", path.Item2, FrameworkElement.StyleProperty);
// bind offset
BindTo(shim, nameof(shim.Offset), path.Item2, Canvas.LeftProperty);
UpdateLimits(valuex, sis.Min, sis.Max);
sis.Elements.Add(new Tuple <double, Path>(valuey, path.Item2));
}
return(sis);
}
/// <summary>
/// Core element processing.
/// The <see cref="RectangleGeometry"/> inside the <see cref="Path"/> is now location-invariant wrt x-axis.
/// This means that during incremental updates, no re-calculation is required, only adjusting the <see cref="Canvas.LeftProperty"/>.
/// </summary>
/// <param name="index"></param>
/// <param name="valuex"></param>
/// <param name="valuey"></param>
/// <param name="item"></param>
/// <param name="recycler"></param>
/// <param name="byl"></param>
/// <returns></returns>
ItemState <Path> ElementPipeline(int index, double valuex, double valuey, object item, Recycler <Path, ItemState <Path> > recycler, BindingEvaluator byl)
{
var y1 = ValueAxis.For(valuey);
var y2 = ValueAxis.For(0);
var topy = Math.Max(y1, y2);
var bottomy = Math.Min(y1, y2);
var leftx = CategoryAxis.For(valuex);
var barx = BarOffset;
var rightx = barx + BarWidth;
_trace.Verbose($"{Name}[{index}] {valuey} ({barx},{topy}) ({rightx},{bottomy})");
var path = recycler.Next(null);
if (path == null)
{
return(null);
}
var shim = new GeometryWithOffsetShim <RectangleGeometry>()
{
PathData = new RectangleGeometry()
{
Rect = new Rect(new Point(barx, topy), new Point(rightx, bottomy))
}
};
path.Item2.DataContext = shim;
// connect the shim to template root element's Visibility
BindTo(shim, nameof(shim.Visibility), path.Item2, UIElement.VisibilityProperty);
BindTo(shim, nameof(shim.Offset), path.Item2, Canvas.LeftProperty);
if (byl == null)
{
return(new SeriesItemState_Double(index, leftx, BarOffset, y1, path.Item2));
}
else
{
var cs = byl.For(item);
return(new SeriesItemState_Custom(index, leftx, BarOffset, y1, cs, path.Item2));
}
}
/// <summary>
/// Rule coordinates:
/// x: "normalized" [0..1] and scaled to the area-width
/// y: "axis" scale
/// </summary>
/// <param name="icrc">The context.</param>
void IRequireRender.Render(IChartRenderContext icrc)
{
if (ValueAxis == null)
{
return;
}
_trace.Verbose($"{Name} max:{Value1} min:{Value2}");
var vmin = ValueAxis.For(Value2);
var vmax = ValueAxis.For(Value1);
var mmin = DoMinMax ? Math.Min(vmin, vmax) : vmin;
var mmax = DoMinMax ? Math.Max(vmin, vmax) : vmax;
#if false
Value1Rule.StartPoint = new Point(0, mmin);
Value1Rule.EndPoint = new Point(1, mmin);
Value2Rule.StartPoint = new Point(0, mmax);
Value2Rule.EndPoint = new Point(1, mmax);
Band.Rect = new Rect(Value1Rule.StartPoint, Value2Rule.EndPoint);
#else
Band.Rect = new Rect(new Point(0, 0), new Point(1, mmax - mmin));
#endif
Dirty = false;
}
/// <summary>
/// rule coordinates (x:[0..1], y:axis)
/// </summary>
/// <param name="icrc">The context.</param>
void IRequireTransforms.Transforms(IChartRenderContext icrc)
{
if (ValueAxis == null)
{
return;
}
var matx = MatrixSupport.TransformFor(icrc.SeriesArea, ValueAxis);
_trace.Verbose($"transforms sy:{matx.M22:F3} matx:{matx} sa:{icrc.SeriesArea}");
if (ClipToDataRegion)
{
Value1Path.Clip = new RectangleGeometry()
{
Rect = icrc.SeriesArea
};
Value2Path.Clip = new RectangleGeometry()
{
Rect = icrc.SeriesArea
};
BandPath.Clip = new RectangleGeometry()
{
Rect = icrc.SeriesArea
};
}
#if true
var vmin = ValueAxis.For(Value2);
var vmax = ValueAxis.For(Value1);
var mmin = DoMinMax ? Math.Min(vmin, vmax) : vmin;
var mmax = DoMinMax ? Math.Max(vmin, vmax) : vmax;
var offset1 = matx.Transform(new Point(0, vmin));
Value1Path.SetValue(Canvas.TopProperty, offset1.Y);
var offset2 = matx.Transform(new Point(0, vmax));
Value2Path.SetValue(Canvas.TopProperty, offset2.Y);
var matx2 = matx;
matx2.OffsetY = 0;
Value1Rule.Transform = new MatrixTransform()
{
Matrix = matx2
};
Value2Rule.Transform = new MatrixTransform()
{
Matrix = matx2
};
BandPath.SetValue(Canvas.TopProperty, offset1.Y);
Band.Transform = new MatrixTransform()
{
Matrix = matx2
};
#else
Value1Rule.Transform = new MatrixTransform()
{
Matrix = matx
};
Value2Rule.Transform = new MatrixTransform()
{
Matrix = matx
};
Band.Transform = new MatrixTransform()
{
Matrix = matx
};
#endif
}
ItemState <Path> ElementPipeline(
int index, double valuex, double valueO, double valueH, double valueL, double valueC,
object item, Recycler <Path, ItemState <Path> > recycler, BindingEvaluator bvl
)
{
// map through axes
var y1 = ValueAxis.For(valueO);
var y2 = ValueAxis.For(valueC);
var y3 = ValueAxis.For(valueH);
var y4 = ValueAxis.For(valueL);
var leftx = CategoryAxis.For(valuex);
var offsetx = BarOffset;
var rightx = offsetx + BarWidth;
// force them to be a min/max
var topy = Math.Max(y1, y2);
var bottomy = Math.Min(y1, y2);
var highy = Math.Max(y3, y4);
var lowy = Math.Min(y3, y4);
_trace.Verbose($"{Name}[{index}] {valueO}/{valueH}/{valueL}/{valueC} ({offsetx},{topy}) ({rightx},{bottomy})");
// create geometry
var path = recycler.Next(null);
if (path == null)
{
return(null);
}
var pg = new PathGeometry();
// body (open/close)
var body = PathHelper.Rectangle(offsetx, topy, rightx, bottomy);
pg.Figures.Add(body);
// upper shadow (high)
var centerx = offsetx + (rightx - offsetx) / 2;
var upper = PathHelper.Line(centerx, topy, centerx, highy);
pg.Figures.Add(upper);
// lower shadow (low)
var lower = PathHelper.Line(centerx, bottomy, centerx, lowy);
pg.Figures.Add(lower);
var shim = new GeometryWithOffsetShim <PathGeometry>()
{
PathData = pg
};
path.Item2.DataContext = shim;
// establish the style for "forward" or "reverse" polarity
BindTo(this, valueO < valueC ? nameof(PathStyle) : nameof(ReversePathStyle), path.Item2, Path.StyleProperty);
// bind offset
BindTo(shim, nameof(shim.Offset), path.Item2, Canvas.LeftProperty);
var figs = new Tuple <double, PathFigure> [4];
figs[0] = new Tuple <double, PathFigure>(y1, body);
figs[1] = new Tuple <double, PathFigure>(y2, body);
figs[2] = new Tuple <double, PathFigure>(y3, upper);
figs[3] = new Tuple <double, PathFigure>(y4, lower);
if (bvl == null)
{
return(new SeriesItemState(index, leftx, BarOffset, y1, path.Item2, figs));
}
else
{
var cs = bvl.For(item);
return(new SeriesItemState_Custom(index, leftx, BarOffset, y1, cs, path.Item2, figs));
}
}
