public static void Render(
this DrawingContext cx,
double drawingWidth,
double drawingHeight,
DrawingRenderInfo drawing)
{
// expand drawings to desired size using transparent rectangle
var canvas = new RectangleGeometry(new Rect(0, 0, drawingWidth, drawingHeight));
canvas.Freeze();
cx.DrawGeometry(Brushes.Transparent, null, canvas);
cx.Render(drawing);
}
IPixelCanvas RandomSquares__DrawGeometry(int count, int square_size, int canvas_size)
{
var rd = new Random();
var pc = new PixelArrayCanvas(canvas_size, canvas_size);
var geom = new RectangleGeometry(new System.Windows.Rect(0, 0, square_size, square_size));
geom.Freeze();
for (int i = 0; i < count; i++)
{
pc.DrawGeometry(rd.Next(0, canvas_size - square_size), rd.Next(0, canvas_size - square_size), geom, Brushes.Red, new Pen(Brushes.Red, 1));
}
return pc;
}
public static void Render(
this DrawingContext cx,
ParallelOptions parallelOptions,
double drawingWidth,
double drawingHeight,
IEnumerable<DrawingRenderInfo> drawings)
{
// expand drawings to desired size using transparent rectangle
var canvas = new RectangleGeometry(new Rect(0, 0, drawingWidth, drawingHeight));
canvas.Freeze();
cx.DrawGeometry(Brushes.Transparent, null, canvas);
if (parallelOptions.CancellationToken.IsCancellationRequested)
return;
cx.Render(parallelOptions, drawings);
}
protected override void OnRender(DrawingContext drawingContext) {
base.OnRender(drawingContext);
if (hexBox.Selection == null || hexBox.VisibleBytesPerLine < 1)
return;
ulong selStart = hexBox.Selection.Value.StartOffset;
ulong selEnd = hexBox.Selection.Value.EndOffset;
int lines = hexBox.VisibleLinesPerPage;
ulong bpl = (ulong)hexBox.VisibleBytesPerLine;
ulong visibleStart = hexBox.TopOffset;
ulong visibleEnd = NumberUtils.AddUInt64(NumberUtils.AddUInt64(visibleStart, NumberUtils.MulUInt64(bpl, NumberUtils.SubUInt64((ulong)lines, 1))), NumberUtils.SubUInt64(bpl, 1));
if (selStart > visibleEnd || selEnd < visibleStart)
return;
ulong offset = Math.Max(selStart, visibleStart);
ulong endOffset = Math.Min(selEnd, visibleEnd);
double x = -hexBox.CharacterWidth * hexBox.LeftColumn;
double y = (offset - hexBox.TopOffset) / bpl * hexBox.CharacterHeight;
var path = new PathGeometry();
double hexByteX = hexBox.GetHexByteColumnIndex() * hexBox.CharacterWidth;
double asciiX = hexBox.GetAsciiColumnIndex() * hexBox.CharacterWidth;
while (offset <= endOffset) {
ulong byteIndex = hexBox.GetLineByteIndex(offset);
ulong count = Math.Min(bpl - byteIndex, endOffset - offset + 1);
double dx = byteIndex * hexBox.CharacterWidth;
var rectGeo = new RectangleGeometry(new Rect(x + dx * 3 + hexByteX + hexBox.CharacterWidth, y, count * hexBox.CharacterWidth * 3 - hexBox.CharacterWidth, hexBox.CharacterHeight));
rectGeo.Freeze();
path.AddGeometry(rectGeo);
if (hexBox.ShowAscii) {
rectGeo = new RectangleGeometry(new Rect(x + dx + asciiX, y, count * hexBox.CharacterWidth, hexBox.CharacterHeight));
rectGeo.Freeze();
path.AddGeometry(rectGeo);
}
if (offset + bpl - byteIndex < offset)
break;
offset += bpl - byteIndex;
y += hexBox.CharacterHeight;
}
path.Freeze();
drawingContext.DrawGeometry(Background, null, path);
}
public object Convert(object[] values, Type targetType, object parameter, CultureInfo culture)
{
if (values.Length == 3 && values[0] is double && values[1] is double && values[2] is CornerRadius)
{
var width = (double)values[0];
var height = (double)values[1];
if (width < double.Epsilon || height < double.Epsilon)
return Geometry.Empty;
var radius = (CornerRadius)values[2];
// Actually we need more complex geometry, when CornerRadius has different values.
// But let me not to take this into account, and simplify example for a common value.
var clip = new RectangleGeometry(new Rect(0, 0, width, height), radius.TopLeft, radius.TopLeft);
clip.Freeze();
return clip;
}
return DependencyProperty.UnsetValue;
}
/// <summary>
/// Override of UIElement.GetLayoutClip(). This is a tricky way to ensure we always clip regardless of the value of ClipToBounds.
/// </summary>
protected override Geometry GetLayoutClip(Size layoutSlotSize)
{
RectangleGeometry clip = new RectangleGeometry(new Rect(RenderSize));
clip.Freeze();
return clip;
}
/// <summary>Draws the text glyph in the specified target area.</summary>
/// <param name="dc">The drawing context to draw on.</param>
/// <param name="foreground">The text foreground brush.</param>
/// <param name="targetArea">The target area where the text is to be drawn (according to the specified alignment).</param>
/// <param name="alignment">Indicates how to align the text with respect to the target area.</param>
public void Draw(DrawingContext dc, Brush foreground, Rect targetArea, TextAlign alignment) {
if (IsEmpty || targetArea.IsEmpty || foreground == null) return;
// compute bounds
var bounds = _computeBounds(targetArea, alignment);
dc.PushTranslate(bounds.X + SharpnessVector.X, bounds.Y + SharpnessVector.Y);
if (TextOverflow == TextOverflow.Ignore || Width <= bounds.Width) {
// ignore overflow - use original glyph run and draw it without clipping
_drawGlyphRun(dc, _fullRun, foreground);
} else if (TextOverflow == TextOverflow.Clip) {
// clip overflow - use original glyph run but clip it to fit bounds
var clipRect = new RectangleGeometry(new Rect(new Point(), bounds.Size));
clipRect.Freeze();
dc.PushClip(clipRect);
_drawGlyphRun(dc, _fullRun, foreground);
dc.Pop();
} else {
// trim overflow - create a trimmed glyph run that fits the bounds and cache it for next invocation
// (the caching of the trimmed glyph is effective only if the width does not change - e.g., when drawing the same glyph in a different color)
if (_trimmedWidth.CertainlyDifferent(bounds.Width)) {
var result = _buildGlyph(false, bounds.Width);
_trimmedRun = (result != null ? result.GlyphRun : null);
_trimmedWidth = bounds.Width;
}
_drawGlyphRun(dc, _trimmedRun, foreground);
}
dc.Pop();
}
/// <summary>
/// Draw the hatches and the transparent area where isn't covering the elements.
/// </summary>
/// <param name="drawingContext"></param>
private void DrawBackgound(DrawingContext drawingContext)
{
PathGeometry hatchGeometry = null;
Geometry rectGeometry = null;
int count = _elementsBounds.Count;
if ( count != 0 )
{
// Create a union collection of the element regions.
for ( int i = 0; i < count; i++ )
{
Rect hatchRect = _elementsBounds[i];
if ( hatchRect.IsEmpty )
{
continue;
}
hatchRect.Inflate(HatchBorderMargin / 2, HatchBorderMargin / 2);
if ( hatchGeometry == null )
{
PathFigure path = new PathFigure();
path.StartPoint = new Point(hatchRect.Left, hatchRect.Top);
PathSegmentCollection segments = new PathSegmentCollection();
PathSegment line = new LineSegment(new Point(hatchRect.Right, hatchRect.Top), true);
line.Freeze();
segments.Add(line);
line = new LineSegment(new Point(hatchRect.Right, hatchRect.Bottom), true);
line.Freeze();
segments.Add(line);
line = new LineSegment(new Point(hatchRect.Left, hatchRect.Bottom), true);
line.Freeze();
segments.Add(line);
line = new LineSegment(new Point(hatchRect.Left, hatchRect.Top), true);
line.Freeze();
segments.Add(line);
segments.Freeze();
path.Segments = segments;
path.IsClosed = true;
path.Freeze();
hatchGeometry = new PathGeometry();
hatchGeometry.Figures.Add(path);
}
else
{
rectGeometry = new RectangleGeometry(hatchRect);
rectGeometry.Freeze();
hatchGeometry = Geometry.Combine(hatchGeometry, rectGeometry, GeometryCombineMode.Union, null);
}
}
}
// Then, create a region which equals to "SelectionFrame - element1 bounds - element2 bounds - ..."
GeometryGroup backgroundGeometry = new GeometryGroup( );
GeometryCollection geometryCollection = new GeometryCollection();
// Add the entile rectanlge to the group.
rectGeometry = new RectangleGeometry(new Rect(0, 0, RenderSize.Width, RenderSize.Height));
rectGeometry.Freeze();
geometryCollection.Add(rectGeometry);
// Add the union of the element rectangles. Then the group will do oddeven operation.
Geometry outlineGeometry = null;
if ( hatchGeometry != null )
{
hatchGeometry.Freeze();
outlineGeometry = hatchGeometry.GetOutlinedPathGeometry();
outlineGeometry.Freeze();
if ( count == 1 && ((InkCanvasInnerCanvas)AdornedElement).InkCanvas.GetSelectedStrokes().Count == 0 )
{
geometryCollection.Add(outlineGeometry);
}
}
geometryCollection.Freeze();
backgroundGeometry.Children = geometryCollection;
backgroundGeometry.Freeze();
// Then, draw the region which may contain holes so that the elements cannot be covered.
// After that, the underneath elements can receive the messages.
#if DEBUG_OUTPUT
// Draw the debug feedback
drawingContext.DrawGeometry(new SolidColorBrush(Color.FromArgb(128, 255, 255, 0)), null, backgroundGeometry);
#else
drawingContext.DrawGeometry(Brushes.Transparent, null, backgroundGeometry);
#endif
// At last, draw the hatch borders
if ( outlineGeometry != null )
{
drawingContext.DrawGeometry(null, _hatchPen, outlineGeometry);
}
}
/// <summary>
/// </summary>
/// <exception cref="ArgumentNullException">
/// <para><paramref name="span"/> is <see langword="null"/>.</para>
/// </exception>
/// <exception cref="ArgumentOutOfRangeException">
/// <para><paramref name="span"/> is less than zero or greater than the buffer length for the associated <see cref="ISourceEditorView"/>.</para>
/// </exception>
public Geometry GetMarkerGeometry(Span span)
{
if (span == null)
{
throw new ArgumentNullException("span");
}
if ((span.Start < 0) || (span.End > _editorView.TextBuffer.Length))
{
throw new ArgumentOutOfRangeException("span");
}
if (span.IsEmpty)
{
return null;
}
PathGeometry geometry = new PathGeometry();
geometry.FillRule = FillRule.Nonzero;
IList<ITextLine> textLines = _editorView.TextLines;
if (textLines.Count == 0)
{
return null;
}
if ((span.Start > base.LastRenderedCharacter) || (span.End < base.FirstRenderedCharacter))
{
return null;
}
ITextLine item = null;
ITextLine textLineClosestTo = null;
if (span.Start < base.FirstRenderedCharacter)
{
item = textLines[0];
}
if (span.End > base.LastRenderedCharacter)
{
textLineClosestTo = textLines[textLines.Count - 1];
}
if (item == null)
{
item = base.GetTextLineClosestTo(span.Start);
}
if (textLineClosestTo == null)
{
textLineClosestTo = base.GetTextLineClosestTo(span.End);
}
if (item == textLineClosestTo)
{
foreach (TextBounds bounds in item.GetTextBounds(span))
{
RectangleGeometry geometry2 = new RectangleGeometry(new Rect(bounds.Left - 0.2, bounds.Top - 1, bounds.Width + 0.4, bounds.Height + 1), 0.6, 0.6);
geometry2.Freeze();
geometry.AddGeometry(geometry2);
}
}
else
{
foreach (TextBounds bounds2 in item.GetTextBounds(span))
{
RectangleGeometry geometry3 = new RectangleGeometry(new Rect(bounds2.Left - 0.2, bounds2.Top - 1, bounds2.Width + 0.4, bounds2.Height + 1), 0.6, 0.6);
geometry3.Freeze();
geometry.AddGeometry(geometry3);
}
Int32 num = textLines.IndexOf(item) + 1;
Int32 index = textLines.IndexOf(textLineClosestTo);
for (Int32 i = num; i < index; i++)
{
ITextLine line3 = textLines[i];
RectangleGeometry geometry4 = new RectangleGeometry(new Rect(-0.2, line3.VerticalOffset - 0.2, line3.Width, line3.Height + 0.4), 0.6, 0.6);
geometry4.Freeze();
geometry.AddGeometry(geometry4);
}
foreach (TextBounds bounds3 in textLineClosestTo.GetTextBounds(span))
{
RectangleGeometry geometry5 = new RectangleGeometry(new Rect(bounds3.Left - 0.2, bounds3.Top - 1, bounds3.Width + 0.4, bounds3.Height + 1), 0.6, 0.6);
geometry5.Freeze();
geometry.AddGeometry(geometry5);
}
}
geometry.Freeze();
return geometry.GetOutlinedPathGeometry();
}
/////////////////////////////////////////////////////////////////////
/// <summary>
/// [TBS] - On UIContext
/// </summary>
public DynamicRenderer() : base()
{
_zeroSizedFrozenRect = new RectangleGeometry(new Rect(0,0,0,0));
_zeroSizedFrozenRect.Freeze();
}
IEnumerable<DrawingRenderInfo> produceSquares(int count, int square_size, int canvas_size)
{
Random rd = new Random();
for(int i = 0; i < count; i++)
{
var di = new DrawingRenderInfo();
di.Transform = new TranslateTransform(rd.Next(0, canvas_size - square_size), rd.Next(0, canvas_size - square_size));
di.Transform.Freeze();
var geom = new RectangleGeometry(new Rect(0, 0, square_size, square_size));
geom.Freeze();
di.Drawing = new GeometryDrawing(Brushes.Red, null, geom);
di.Drawing.Freeze();
yield return di;
}
}
IPixelCanvas RandomSquares__DrawVisual2(int count, int square_size, int canvas_size)
{
var rd = new Random();
var pc = new PixelArrayCanvas(canvas_size, canvas_size);
var dv = new DrawingVisual();
var geom = new RectangleGeometry(new System.Windows.Rect(0, 0, square_size, square_size));
geom.Freeze();
using (var cx = dv.RenderOpen())
{
var canvas = new RectangleGeometry(new Rect(0, 0, canvas_size, canvas_size));
canvas.Freeze();
cx.DrawGeometry(Brushes.Transparent, null, canvas);
var lols = new ConcurrentBag<DrawingWithExtras>();
Parallel.For(0, count, i =>
{
var drawing = new GeometryDrawing(Brushes.Red, new Pen(Brushes.Red, 1), geom);
drawing.Freeze();
var trans = new TranslateTransform(rd.Next(0, canvas_size - square_size), rd.Next(0, canvas_size - square_size));
trans.Freeze();
lols.Add(new DrawingWithExtras { drawing = drawing, transform = trans });
});
foreach(var lol in lols)
{
cx.PushTransform(lol.transform);
cx.DrawDrawing(lol.drawing);
cx.Pop();
}
}
pc.DrawVisual(0, 0, dv, BlendMode.Copy);
return pc;
}
IPixelCanvas RandomSquares__DrawVisual(int count, int square_size, int canvas_size)
{
var rd = new Random();
var pc = new PixelArrayCanvas(canvas_size, canvas_size);
var dv = new DrawingVisual();
var geom = new RectangleGeometry(new System.Windows.Rect(0, 0, square_size, square_size));
geom.Freeze();
using (var cx = dv.RenderOpen())
{
var canvas = new RectangleGeometry(new Rect(0, 0, canvas_size, canvas_size));
canvas.Freeze();
cx.DrawGeometry(Brushes.Transparent, null, canvas);
for(int i = 0; i < count; i++)
{
cx.PushTransform(new TranslateTransform(rd.Next(0, canvas_size - square_size), rd.Next(0, canvas_size - square_size)));
cx.DrawGeometry(Brushes.Red, new Pen(Brushes.Red, 1), geom);
cx.Pop();
}
}
pc.DrawVisual(0, 0, dv, BlendMode.Copy);
return pc;
}
/// <summary>
/// This method supplies an additional (to the <seealso cref="Clip"/> property) clip geometry
/// that is used to intersect Clip in case if <seealso cref="ClipToBounds"/> property is set to "true".
/// Typcally, this is a size of layout space given to the UIElement.
/// </summary>
/// <returns>Geometry to use as additional clip if ClipToBounds=true</returns>
protected virtual Geometry GetLayoutClip(Size layoutSlotSize)
{
if(ClipToBounds)
{
RectangleGeometry rect = new RectangleGeometry(new Rect(RenderSize));
rect.Freeze();
return rect;
}
else
return null;
}
