using System; using System.Collections; using System.Collections.Generic; using System.Linq; using Unity.UIWidgets.foundation; using UnityEngine; namespace Unity.UIWidgets.ui { public struct Vector2d { public float x; public float y; public Vector2d(float x = 0.0f, float y = 0.0f) { this.x = x; this.y = y; } public static Vector2d operator +(Vector2d a, Vector2d b) { return new Vector2d(a.x + b.x, a.y + b.y); } public static Vector2d operator -(Vector2d a, Vector2d b) { return new Vector2d(a.x - b.x, a.y - b.y); } } class CodeUnitRun { public readonly int lineNumber; public readonly TextDirection direction; public readonly Range codeUnits; public readonly FontMetrics fontMetrics; public Range xPos; public readonly List positions; public CodeUnitRun(List positions, Range cu, int line, Range xPos, FontMetrics fontMetrics, TextDirection direction) { this.lineNumber = line; this.codeUnits = cu; this.xPos = xPos; this.fontMetrics = fontMetrics; this.positions = positions; this.direction = direction; } public void Shift(float shift) { this.xPos = RangeUtils.shift(this.xPos, shift); for (int i = 0; i < this.positions.Count; ++i) { this.positions[i] = this.positions[i].shift(shift); } } } class FontMetrics { public readonly float ascent; public readonly float leading = 0.0f; public readonly float descent; public readonly float? underlineThickness; public readonly float? underlinePosition; public readonly float? strikeoutPosition; public readonly float? fxHeight; public FontMetrics(float ascent, float descent, float? underlineThickness = null, float? underlinePosition = null, float? strikeoutPosition = null, float? fxHeight = null) { this.ascent = ascent; this.descent = descent; this.underlineThickness = underlineThickness; this.underlinePosition = underlinePosition; this.strikeoutPosition = strikeoutPosition; this.fxHeight = fxHeight; } public static FontMetrics fromFont(Font font, int fontSize) { var ascent = -font.ascent * fontSize / font.fontSize; var descent = (font.lineHeight - font.ascent) * fontSize / font.fontSize; font.RequestCharactersInTextureSafe("x", fontSize, UnityEngine.FontStyle.Normal); font.getGlyphInfo('x', out var glyphInfo, fontSize, UnityEngine.FontStyle.Normal); float fxHeight = glyphInfo.glyphHeight; return new FontMetrics(ascent, descent, fxHeight: fxHeight); } } class LineStyleRun { public readonly int start; public readonly int end; public readonly TextStyle style; public LineStyleRun(int start, int end, TextStyle style) { this.start = start; this.end = end; this.style = style; } } class PositionWithAffinity { public readonly int position; public readonly TextAffinity affinity; public PositionWithAffinity(int p, TextAffinity a) { this.position = p; this.affinity = a; } } class GlyphPosition { public readonly Range xPos; public readonly Range codeUnits; public GlyphPosition(float start, float advance, Range codeUnits) { this.xPos = new Range(start, start + advance); this.codeUnits = codeUnits; } public GlyphPosition shift(float shift) { return new GlyphPosition(this.xPos.start + shift, this.xPos.end - this.xPos.start, this.codeUnits); } } class Range : IEquatable> { public Range(T start, T end) { this.start = start; this.end = end; } public bool Equals(Range other) { return EqualityComparer.Default.Equals(this.start, other.start) && EqualityComparer.Default.Equals(this.end, other.end); } public override bool Equals(object obj) { if (ReferenceEquals(null, obj)) { return false; } return obj is Range && this.Equals((Range) obj); } public override int GetHashCode() { unchecked { return (EqualityComparer.Default.GetHashCode(this.start) * 397) ^ EqualityComparer.Default.GetHashCode(this.end); } } public static bool operator ==(Range left, Range right) { return left.Equals(right); } public static bool operator !=(Range left, Range right) { return !left.Equals(right); } public readonly T start, end; } static class RangeUtils { public static Range shift(Range value, float shift) { return new Range(value.start + shift, value.end + shift); } } class GlyphLine { public readonly List positions; public readonly int totalCountUnits; public GlyphLine(List positions, int totalCountUnits) { this.positions = positions; this.totalCountUnits = totalCountUnits; } } public class Paragraph { public class LineRange { public LineRange(int start, int end, int endExcludingWhitespace, int endIncludingNewLine, bool hardBreak) { this.start = start; this.end = end; this.endExcludingWhitespace = endExcludingWhitespace; this.endIncludingNewLine = endIncludingNewLine; this.hardBreak = hardBreak; } public readonly int start; public readonly int end; public readonly int endExcludingWhitespace; public readonly int endIncludingNewLine; public readonly bool hardBreak; } bool _needsLayout = true; string _text; StyledRuns _runs; ParagraphStyle _paragraphStyle; List _lineRanges = new List(); List _lineWidths = new List(); List _lineBaseLines = new List(); List _glyphLines = new List(); float _maxIntrinsicWidth; float _minIntrinsicWidth; float _alphabeticBaseline; float _ideographicBaseline; float[] _characterWidths; List _lineHeights = new List(); List _paintRecords = new List(); List _codeUnitRuns = new List(); bool _didExceedMaxLines; TabStops _tabStops = new TabStops(); // private float _characterWidth; float _width; const float kFloatDecorationSpacing = 3.0f; public float height { get { return this._lineHeights.Count == 0 ? 0 : this._lineHeights[this._lineHeights.Count - 1]; } } public float minIntrinsicWidth { get { return this._minIntrinsicWidth; } } public float maxIntrinsicWidth { get { return this._maxIntrinsicWidth; } } public float width { get { return this._width; } } public float alphabeticBaseline { get { return this._alphabeticBaseline; } } public float ideographicBaseline { get { return this._ideographicBaseline; } } public bool didExceedMaxLines { get { return this._didExceedMaxLines; } } public void paint(Canvas canvas, Offset offset) { foreach (var paintRecord in this._paintRecords) { this.paintBackground(canvas, paintRecord, offset); } foreach (var paintRecord in this._paintRecords) { var paint = new Paint { filterMode = FilterMode.Bilinear, color = paintRecord.style.color }; canvas.drawTextBlob(paintRecord.text, paintRecord.offset + offset, paint); this.paintDecorations(canvas, paintRecord, offset); } } public void layout(ParagraphConstraints constraints) { if (!this._needsLayout && this._width == constraints.width) { return; } var textStyle = this._paragraphStyle.getTextStyle(); this._tabStops.setFont(FontManager.instance.getOrCreate(textStyle.fontFamily, textStyle.fontWeight, textStyle.fontStyle).font, textStyle.UnityFontSize); this._needsLayout = false; this._width = Mathf.Floor(constraints.width); this.computeLineBreak(); this._paintRecords.Clear(); this._lineHeights.Clear(); this._lineBaseLines.Clear(); this._codeUnitRuns.Clear(); this._glyphLines.Clear(); int styleMaxLines = this._paragraphStyle.maxLines ?? int.MaxValue; var lineLimit = Mathf.Min(styleMaxLines, this._lineRanges.Count); this._didExceedMaxLines = this._lineRanges.Count > styleMaxLines; float maxWordWidth = 0; Layout layout = new Layout(); layout.setTabStops(this._tabStops); TextBlobBuilder builder = new TextBlobBuilder(); int styleRunIndex = 0; float yOffset = 0; float preMaxDescent = 0; List lineCodeUnitRuns = new List(); List glyphPositions = new List(); for (int lineNumber = 0; lineNumber < lineLimit; ++lineNumber) { var lineRange = this._lineRanges[lineNumber]; float wordGapWidth = 0; // Break the line into words if justification should be applied. int wordIndex = 0; bool justifyLine = this._paragraphStyle.textAlign == TextAlign.justify && lineNumber != lineLimit - 1 && !lineRange.hardBreak; var words = this.findWords(lineRange.start, lineRange.end); if (justifyLine) { if (words.Count > 1) { wordGapWidth = (this._width - this._lineWidths[lineNumber]) / (words.Count - 1); } } // Exclude trailing whitespace from right-justified lines so the last // visible character in the line will be flush with the right margin. int lineEndIndex = (this._paragraphStyle.textAlign == TextAlign.right || this._paragraphStyle.textAlign == TextAlign.center) ? lineRange.endExcludingWhitespace : lineRange.end; List lineRuns = new List(); while (styleRunIndex < this._runs.size) { var styleRun = this._runs.getRun(styleRunIndex); if (styleRun.start < lineEndIndex && styleRun.end > lineRange.start) { lineRuns.Add(new LineStyleRun(Mathf.Max(styleRun.start, lineRange.start), Mathf.Min(styleRun.end, lineEndIndex), styleRun.style)); } if (styleRun.end >= lineEndIndex) { break; } styleRunIndex++; } float runXOffset = 0; float justifyXOffset = 0; lineCodeUnitRuns.Clear(); List lineGlyphPositions = new List(); List paintRecords = new List(); for (int i = 0; i < lineRuns.Count; ++i) { var run = lineRuns[i]; string text = this._text; int textStart = Mathf.Max(run.start, lineRange.start); int textEnd = Mathf.Min(run.end, lineEndIndex); int textCount = textEnd - textStart; string ellipsis = this._paragraphStyle.ellipsis; if (!string.IsNullOrEmpty(ellipsis) && !this._width.isInfinite() && !lineRange.hardBreak && i == lineRuns.Count - 1 && (lineNumber == lineLimit - 1 || this._paragraphStyle.maxLines == null)) { float ellipsisWidth = Layout.measureText(runXOffset, new TextBuff(ellipsis), 0, ellipsis.Length, run.style, null, 0, this._tabStops); List textAdvances = new List(textCount); for (int index = 0; index < textCount;++index) { textAdvances.Add(0); } float textWidth = Layout.measureText(runXOffset, new TextBuff(text), textStart, textCount, run.style, textAdvances, 0, this._tabStops); int truncateCount = 0; while (truncateCount < textCount && runXOffset + textWidth + ellipsisWidth > this._width) { textWidth -= textAdvances[textCount - truncateCount - 1]; truncateCount++; } var ellipsizedText = this._text.Substring(textStart, textCount - truncateCount) + ellipsis; textStart = 0; textCount = ellipsizedText.Length; text = ellipsizedText; if (this._paragraphStyle.maxLines == null) { lineLimit = lineNumber + 1; this._didExceedMaxLines = true; } } layout.doLayout(runXOffset, new TextBuff(text), textStart, textCount, run.style); if (layout.nGlyphs() == 0) { continue; } float wordStartPosition = float.NaN; builder.allocRunPos(run.style, text, textStart, textCount); builder.setBounds(layout.getBounds().translate(-layout.getX(0), 0)); // bounds relative to first character glyphPositions.Clear(); for (int glyphIndex = 0; glyphIndex < textCount; ++glyphIndex) { float glyphXOffset = layout.getX(glyphIndex) + justifyXOffset; builder.positions[glyphIndex] = new Vector2d( glyphXOffset, layout.getY(glyphIndex) ); float glyphAdvance = layout.getCharAdvance(glyphIndex); glyphPositions.Add(new GlyphPosition(runXOffset + glyphXOffset, glyphAdvance, new Range(textStart + glyphIndex, textStart + glyphIndex + 1))); if (wordIndex < words.Count && words[wordIndex].start == run.start + glyphIndex) { wordStartPosition = runXOffset + glyphXOffset; } if (wordIndex < words.Count && words[wordIndex].end == run.start + glyphIndex + 1) { if (justifyLine) { justifyXOffset += wordGapWidth; } wordIndex++; if (!float.IsNaN(wordStartPosition)) { float wordWidth = glyphPositions[glyphPositions.Count - 1].xPos.end - wordStartPosition; maxWordWidth = Mathf.Max(wordWidth, maxWordWidth); wordStartPosition = float.NaN; } } } if (glyphPositions.Count == 0) { continue; } var font = FontManager.instance.getOrCreate(run.style.fontFamily, run.style.fontWeight, run.style.fontStyle).font; var metrics = FontMetrics.fromFont(font, run.style.UnityFontSize); paintRecords.Add(new PaintRecord(run.style, new Offset(runXOffset, 0), builder.make(), metrics, lineNumber, layout.getAdvance() )); lineGlyphPositions.AddRange(glyphPositions); var codeUnitPositions = new List(glyphPositions); lineCodeUnitRuns.Add(new CodeUnitRun(codeUnitPositions, new Range(run.start, run.end), lineNumber, new Range(glyphPositions[0].xPos.start, glyphPositions[glyphPositions.Count - 1].xPos.end), metrics, TextDirection.ltr)); runXOffset += layout.getAdvance(); } float lineXOffset = this.getLineXOffset(runXOffset); if (lineXOffset != 0) { foreach (var codeUnitRun in lineCodeUnitRuns) { codeUnitRun.Shift(lineXOffset); } for (int i = 0; i < lineGlyphPositions.Count; ++i) { lineGlyphPositions[i] = lineGlyphPositions[i].shift(lineXOffset); } } int nextLineStart = (lineNumber < this._lineRanges.Count - 1) ? this._lineRanges[lineNumber + 1].start : this._text.Length; this._glyphLines.Add(new GlyphLine(lineGlyphPositions, nextLineStart - lineRange.start)); this._codeUnitRuns.AddRange(lineCodeUnitRuns); float maxLineSpacing = 0; float maxDescent = 0; var updateLineMetrics = new Action((metrics, style) => { float lineSpacing = ((lineNumber == 0) ? -metrics.ascent * style.height : (-metrics.ascent + metrics.leading) * (style.height)); if (lineSpacing > maxLineSpacing) { maxLineSpacing = lineSpacing; if (lineNumber == 0) { this._alphabeticBaseline = lineSpacing; this._ideographicBaseline = (metrics.underlinePosition ?? 0.0f - metrics.ascent) * style.height; } } float descent = metrics.descent * style.height; maxDescent = Mathf.Max(descent, maxDescent); }); foreach (var paintRecord in paintRecords) { updateLineMetrics(paintRecord.metrics, paintRecord.style); } if (paintRecords.Count == 0) { var defaultStyle = this._paragraphStyle.getTextStyle(); var defaultFont = FontManager.instance.getOrCreate(defaultStyle.fontFamily, defaultStyle.fontWeight, defaultStyle.fontStyle).font; var metrics = FontMetrics.fromFont(defaultFont, defaultStyle.UnityFontSize); updateLineMetrics(metrics, defaultStyle); } this._lineHeights.Add( (this._lineHeights.Count == 0 ? 0 : this._lineHeights[this._lineHeights.Count - 1]) + Mathf.Round(maxLineSpacing + maxDescent)); this._lineBaseLines.Add(this._lineHeights[this._lineHeights.Count - 1] - maxDescent); yOffset += Mathf.Round(maxLineSpacing + preMaxDescent); preMaxDescent = maxDescent; foreach (var paintRecord in paintRecords) { paintRecord.offset = new Offset(paintRecord.offset.dx + lineXOffset, yOffset); this._paintRecords.Add(paintRecord); } } this._maxIntrinsicWidth = 0; float lineBlockWidth = 0; for (int i = 0; i < this._lineWidths.Count; ++i) { lineBlockWidth += this._lineWidths[i]; if (this._lineRanges[i].hardBreak) { this._maxIntrinsicWidth = Mathf.Max(lineBlockWidth, this._maxIntrinsicWidth); lineBlockWidth = 0; } } this._maxIntrinsicWidth = Mathf.Max(lineBlockWidth, this._maxIntrinsicWidth); if (this._paragraphStyle.maxLines == 1 || (this._paragraphStyle.maxLines == null && this._paragraphStyle.ellipsized())) { this._minIntrinsicWidth = this.maxIntrinsicWidth; } else { this._minIntrinsicWidth = Mathf.Min(maxWordWidth, this.maxIntrinsicWidth); } } internal void setText(string text, StyledRuns runs) { this._text = text; this._runs = runs; this._needsLayout = true; } public void setParagraphStyle(ParagraphStyle style) { this._needsLayout = true; this._paragraphStyle = style; } public List getRectsForRange(int start, int end) { var lineBoxes = new SplayTree>(); foreach (var run in this._codeUnitRuns) { if (run.codeUnits.start >= end) { break; } if (run.codeUnits.end <= start) { continue; } float top = (run.lineNumber == 0) ? 0 : this._lineHeights[run.lineNumber - 1]; float bottom = this._lineHeights[run.lineNumber]; float left, right; if (run.codeUnits.start >= start && run.codeUnits.end <= end) { left = run.xPos.start; right = run.xPos.end; } else { left = float.MaxValue; right = float.MinValue; foreach (var gp in run.positions) { if (gp.codeUnits.start >= start && gp.codeUnits.end <= end) { left = Mathf.Min(left, gp.xPos.start); right = Mathf.Max(right, gp.xPos.end); } } if (left == float.MaxValue || right == float.MinValue) { continue; } } List boxs; if (!lineBoxes.TryGetValue(run.lineNumber, out boxs)) { boxs = new List(); lineBoxes.Add(run.lineNumber, boxs); } boxs.Add(TextBox.fromLTBD(left, top, right, bottom, run.direction)); } for (int lineNumber = 0; lineNumber < this._lineRanges.Count; ++lineNumber) { var line = this._lineRanges[lineNumber]; if (line.start >= end) { break; } if (line.endIncludingNewLine <= start) { continue; } if (!lineBoxes.ContainsKey(lineNumber)) { if (line.end != line.endIncludingNewLine && line.end >= start && line.endIncludingNewLine <= end) { var x = this._lineWidths[lineNumber]; var top = (lineNumber > 0) ? this._lineHeights[lineNumber - 1] : 0; var bottom = this._lineHeights[lineNumber]; lineBoxes.Add(lineNumber, new List() { TextBox.fromLTBD( x, top, x, bottom, TextDirection.ltr) }); } } } var result = new List(); foreach (var keyValuePair in lineBoxes) { result.AddRange(keyValuePair.Value); } return result; } public TextBox getNextLineStartRect() { if (this._text.Length == 0 || this._text[this._text.Length - 1] != '\n') { return null; } var lineNumber = this.getLineCount() - 1; var top = (lineNumber > 0) ? this._lineHeights[lineNumber - 1] : 0; var bottom = this._lineHeights[lineNumber]; return TextBox.fromLTBD(0, top, 0, bottom, TextDirection.ltr); } internal PositionWithAffinity getGlyphPositionAtCoordinate(float dx, float dy) { if (this._lineHeights.Count == 0) { return new PositionWithAffinity(0, TextAffinity.downstream); } int yIndex; for (yIndex = 0; yIndex < this._lineHeights.Count - 1; ++yIndex) { if (dy < this._lineHeights[yIndex]) { break; } } var lineGlyphPosition = this._glyphLines[yIndex].positions; if (lineGlyphPosition.Count == 0) { int lineStartIndex = this._glyphLines.Where((g, i) => i < yIndex).Sum((gl) => gl.totalCountUnits); return new PositionWithAffinity(lineStartIndex, TextAffinity.downstream); } GlyphPosition gp = null; for (int xIndex = 0; xIndex < lineGlyphPosition.Count; ++xIndex) { float glyphEnd = xIndex < lineGlyphPosition.Count - 1 ? lineGlyphPosition[xIndex + 1].xPos.start : lineGlyphPosition[xIndex].xPos.end; if (dx < glyphEnd) { gp = lineGlyphPosition[xIndex]; break; } } if (gp == null) { GlyphPosition lastGlyph = lineGlyphPosition[lineGlyphPosition.Count - 1]; return new PositionWithAffinity(lastGlyph.codeUnits.end, TextAffinity.upstream); } TextDirection direction = TextDirection.ltr; foreach (var run in this._codeUnitRuns) { if (gp.codeUnits.start >= run.codeUnits.start && gp.codeUnits.end <= run.codeUnits.end) { direction = run.direction; break; } } float glyphCenter = (gp.xPos.start + gp.xPos.end) / 2; if ((direction == TextDirection.ltr && dx < glyphCenter) || (direction == TextDirection.rtl && dx >= glyphCenter)) { return new PositionWithAffinity(gp.codeUnits.start, TextAffinity.downstream); } else { return new PositionWithAffinity(gp.codeUnits.end, TextAffinity.upstream); } } public int getLine(TextPosition position) { D.assert(!this._needsLayout); if (position.offset < 0) { return 0; } var offset = position.offset; if (position.affinity == TextAffinity.upstream && offset > 0) { offset = _isUtf16Surrogate(this._text[offset - 1]) ? offset - 2 : offset - 1; } var lineCount = this.getLineCount(); for (int lineIndex = 0; lineIndex < this.getLineCount(); ++lineIndex) { var line = this._lineRanges[lineIndex]; if ((offset >= line.start && offset < line.endIncludingNewLine)) { return lineIndex; } } return Mathf.Max(lineCount - 1, 0); } internal LineRange getLineRange(int lineIndex) { return this._lineRanges[lineIndex]; } internal Range getWordBoundary(int offset) { WordSeparate s = new WordSeparate(this._text); return s.findWordRange(offset); } public int getLineCount() { return this._lineHeights.Count; } void computeLineBreak() { this._lineRanges.Clear(); this._lineWidths.Clear(); this._maxIntrinsicWidth = 0; var newLinePositions = new List(); for (var i = 0; i < this._text.Length; i++) { if (this._text[i] == '\n') { newLinePositions.Add(i); } } newLinePositions.Add(this._text.Length); var lineBreaker = new LineBreaker(); int runIndex = 0; for (var newlineIndex = 0; newlineIndex < newLinePositions.Count; ++newlineIndex) { var blockStart = newlineIndex > 0 ? newLinePositions[newlineIndex - 1] + 1 : 0; var blockEnd = newLinePositions[newlineIndex]; var blockSize = blockEnd - blockStart; if (blockSize == 0) { this._lineRanges.Add(new LineRange(blockStart, blockEnd, blockEnd, blockEnd < this._text.Length ? blockEnd + 1 : blockEnd, true)); this._lineWidths.Add(0); continue; } lineBreaker.setLineWidth(this._width); lineBreaker.resize(blockSize); lineBreaker.setTabStops(this._tabStops); lineBreaker.setText(this._text, blockStart, blockSize); while (runIndex < this._runs.size) { var run = this._runs.getRun(runIndex); if (run.start >= blockEnd) { break; } if (run.end < blockStart) { runIndex++; continue; } int runStart = Mathf.Max(run.start, blockStart) - blockStart; int runEnd = Mathf.Min(run.end, blockEnd) - blockStart; lineBreaker.addStyleRun(run.style, runStart, runEnd); if (run.end > blockEnd) { break; } runIndex++; } int breaksCount = lineBreaker.computeBreaks(); List breaks = lineBreaker.getBreaks(); List widths = lineBreaker.getWidths(); for (int i = 0; i < breaksCount; ++i) { var breakStart = (i > 0) ? breaks[i - 1] : 0; var lineStart = breakStart + blockStart; var lineEnd = breaks[i] + blockStart; bool hardBreak = (i == breaksCount - 1); var lineEndIncludingNewline = (hardBreak && lineEnd < this._text.Length) ? lineEnd + 1 : lineEnd; var lineEndExcludingWhitespace = lineEnd; while (lineEndExcludingWhitespace > lineStart && LayoutUtils.isLineEndSpace(this._text[lineEndExcludingWhitespace - 1])) { lineEndExcludingWhitespace--; } this._lineRanges.Add(new LineRange(lineStart, lineEnd, lineEndExcludingWhitespace, lineEndIncludingNewline, hardBreak)); this._lineWidths.Add(widths[i]); } lineBreaker.finish(); } } List> findWords(int start, int end) { var inWord = false; int wordStart = 0; List> words = new List>(); for (int i = start; i < end; ++i) { bool isSpace = LayoutUtils.isWordSpace(this._text[i]); if (!inWord && !isSpace) { wordStart = i; inWord = true; } else if (inWord && isSpace) { words.Add(new Range(wordStart, i)); inWord = false; } } if (inWord) { words.Add(new Range(wordStart, end)); } return words; } void paintDecorations(Canvas canvas, PaintRecord record, Offset baseOffset) { if (record.style.decoration == null || record.style.decoration == TextDecoration.none) { return; } var paint = new Paint(); if (record.style.decorationColor == null) { paint.color = record.style.color; } else { paint.color = record.style.decorationColor; } var width = record.runWidth; var metrics = record.metrics; float underLineThickness = metrics.underlineThickness ?? (record.style.fontSize / 14.0f); paint.style = PaintingStyle.stroke; paint.strokeWidth = underLineThickness; var recordOffset = baseOffset + record.offset; var x = recordOffset.dx; var y = recordOffset.dy; int decorationCount = 1; switch (record.style.decorationStyle) { case TextDecorationStyle.doubleLine: decorationCount = 2; break; } var decoration = record.style.decoration; for (int i = 0; i < decorationCount; i++) { float yOffset = i * underLineThickness * kFloatDecorationSpacing; float yOffsetOriginal = yOffset; if (decoration != null && decoration.contains(TextDecoration.underline)) { // underline yOffset += metrics.underlinePosition ?? underLineThickness; canvas.drawLine(new Offset(x, y + yOffset), new Offset(x + width, y + yOffset), paint); yOffset = yOffsetOriginal; } if (decoration != null && decoration.contains(TextDecoration.overline)) { yOffset += metrics.ascent; canvas.drawLine(new Offset(x, y + yOffset), new Offset(x + width, y + yOffset), paint); yOffset = yOffsetOriginal; } if (decoration != null && decoration.contains(TextDecoration.lineThrough)) { yOffset += (decorationCount - 1.0f) * underLineThickness * kFloatDecorationSpacing / -2.0f; yOffset += metrics.strikeoutPosition ?? (metrics.fxHeight ?? 0) / -2.0f; canvas.drawLine(new Offset(x, y + yOffset), new Offset(x + width, y + yOffset), paint); yOffset = yOffsetOriginal; } } } void paintBackground(Canvas canvas, PaintRecord record, Offset baseOffset) { if (record.style.background == null) { return; } var metrics = record.metrics; Rect rect = Rect.fromLTRB(0, metrics.ascent, record.runWidth, metrics.descent); rect = rect.shift(baseOffset + record.offset); canvas.drawRect(rect, record.style.background); } float getLineXOffset(float lineTotalAdvance) { if (this._width.isInfinite()) { return 0; } if (this._paragraphStyle.textAlign == TextAlign.right) { return this._width - lineTotalAdvance; } else if (this._paragraphStyle.textAlign == TextAlign.center) { return (this._width - lineTotalAdvance) / 2; } else { return 0; } } static bool _isUtf16Surrogate(int value) { return (value & 0xF800) == 0xD800; } } class SplayTree : IDictionary where TKey : IComparable { SplayTreeNode root; int count; int version = 0; public void Add(TKey key, TValue value) { this.Set(key, value, throwOnExisting: true); } public void Add(KeyValuePair item) { this.Set(item.Key, item.Value, throwOnExisting: true); } void Set(TKey key, TValue value, bool throwOnExisting) { if (this.count == 0) { this.version++; this.root = new SplayTreeNode(key, value); this.count = 1; return; } this.Splay(key); var c = key.CompareTo(this.root.Key); if (c == 0) { if (throwOnExisting) { throw new ArgumentException("An item with the same key already exists in the tree."); } this.version++; this.root.Value = value; return; } var n = new SplayTreeNode(key, value); if (c < 0) { n.LeftChild = this.root.LeftChild; n.RightChild = this.root; this.root.LeftChild = null; } else { n.RightChild = this.root.RightChild; n.LeftChild = this.root; this.root.RightChild = null; } this.root = n; this.count++; this.Splay(key); this.version++; } public void Clear() { this.root = null; this.count = 0; this.version++; } public bool ContainsKey(TKey key) { if (this.count == 0) { return false; } this.Splay(key); return key.CompareTo(this.root.Key) == 0; } public bool Contains(KeyValuePair item) { if (this.count == 0) { return false; } this.Splay(item.Key); return item.Key.CompareTo(this.root.Key) == 0 && (ReferenceEquals(this.root.Value, item.Value) || (!ReferenceEquals(item.Value, null) && item.Value.Equals(this.root.Value))); } public KeyValuePair First() { SplayTreeNode t = this.root; if (t == null) { throw new NullReferenceException("The root of this tree is null!"); } while (t.LeftChild != null) { t = t.LeftChild; } return new KeyValuePair(t.Key, t.Value); } public KeyValuePair FirstOrDefault() { SplayTreeNode t = this.root; if (t == null) { return new KeyValuePair(default(TKey), default(TValue)); } while (t.LeftChild != null) { t = t.LeftChild; } return new KeyValuePair(t.Key, t.Value); } public KeyValuePair Last() { SplayTreeNode t = this.root; if (t == null) { throw new NullReferenceException("The root of this tree is null!"); } while (t.RightChild != null) { t = t.RightChild; } return new KeyValuePair(t.Key, t.Value); } public KeyValuePair LastOrDefault() { SplayTreeNode t = this.root; if (t == null) { return new KeyValuePair(default(TKey), default(TValue)); } while (t.RightChild != null) { t = t.RightChild; } return new KeyValuePair(t.Key, t.Value); } void Splay(TKey key) { SplayTreeNode l, r, t, y, header; l = r = header = new SplayTreeNode(default(TKey), default(TValue)); t = this.root; while (true) { var c = key.CompareTo(t.Key); if (c < 0) { if (t.LeftChild == null) { break; } if (key.CompareTo(t.LeftChild.Key) < 0) { y = t.LeftChild; t.LeftChild = y.RightChild; y.RightChild = t; t = y; if (t.LeftChild == null) { break; } } r.LeftChild = t; r = t; t = t.LeftChild; } else if (c > 0) { if (t.RightChild == null) { break; } if (key.CompareTo(t.RightChild.Key) > 0) { y = t.RightChild; t.RightChild = y.LeftChild; y.LeftChild = t; t = y; if (t.RightChild == null) { break; } } l.RightChild = t; l = t; t = t.RightChild; } else { break; } } l.RightChild = t.LeftChild; r.LeftChild = t.RightChild; t.LeftChild = header.RightChild; t.RightChild = header.LeftChild; this.root = t; } public bool Remove(TKey key) { if (this.count == 0) { return false; } this.Splay(key); if (key.CompareTo(this.root.Key) != 0) { return false; } if (this.root.LeftChild == null) { this.root = this.root.RightChild; } else { var swap = this.root.RightChild; this.root = this.root.LeftChild; this.Splay(key); this.root.RightChild = swap; } this.version++; this.count--; return true; } public bool TryGetValue(TKey key, out TValue value) { if (this.count == 0) { value = default(TValue); return false; } this.Splay(key); if (key.CompareTo(this.root.Key) != 0) { value = default(TValue); return false; } value = this.root.Value; return true; } public TValue this[TKey key] { get { if (this.count == 0) { throw new KeyNotFoundException("The key was not found in the tree."); } this.Splay(key); if (key.CompareTo(this.root.Key) != 0) { throw new KeyNotFoundException("The key was not found in the tree."); } return this.root.Value; } set { this.Set(key, value, throwOnExisting: false); } } public int Count { get { return this.count; } } public bool IsReadOnly { get { return false; } } public bool Remove(KeyValuePair item) { if (this.count == 0) { return false; } this.Splay(item.Key); if (item.Key.CompareTo(this.root.Key) == 0 && (ReferenceEquals(this.root.Value, item.Value) || (!ReferenceEquals(item.Value, null) && item.Value.Equals(this.root.Value)))) { return false; } if (this.root.LeftChild == null) { this.root = this.root.RightChild; } else { var swap = this.root.RightChild; this.root = this.root.LeftChild; this.Splay(item.Key); this.root.RightChild = swap; } this.version++; this.count--; return true; } public void Trim(int depth) { if (depth < 0) { throw new ArgumentOutOfRangeException("depth", "The trim depth must not be negative."); } if (this.count == 0) { return; } if (depth == 0) { this.Clear(); } else { var prevCount = this.count; this.count = this.Trim(this.root, depth - 1); if (prevCount != this.count) { this.version++; } } } int Trim(SplayTreeNode node, int depth) { if (depth == 0) { node.LeftChild = null; node.RightChild = null; return 1; } else { int count = 1; if (node.LeftChild != null) { count += this.Trim(node.LeftChild, depth - 1); } if (node.RightChild != null) { count += this.Trim(node.RightChild, depth - 1); } return count; } } public ICollection Keys { get { return new TiedList(this, this.version, this.AsList(node => node.Key)); } } public ICollection Values { get { return new TiedList(this, this.version, this.AsList(node => node.Value)); } } public void CopyTo(KeyValuePair[] array, int arrayIndex) { this.AsList(node => new KeyValuePair(node.Key, node.Value)).CopyTo(array, arrayIndex); } public IEnumerator> GetEnumerator() { return new TiedList>(this, this.version, this.AsList(node => new KeyValuePair(node.Key, node.Value))).GetEnumerator(); } IList AsList(Func selector) { if (this.root == null) { return new TEnumerator[0]; } var result = new List(this.count); this.PopulateList(this.root, result, selector); return result; } void PopulateList(SplayTreeNode node, List list, Func selector) { if (node.LeftChild != null) { this.PopulateList(node.LeftChild, list, selector); } list.Add(selector(node)); if (node.RightChild != null) { this.PopulateList(node.RightChild, list, selector); } } IEnumerator IEnumerable.GetEnumerator() { return this.GetEnumerator(); } sealed class SplayTreeNode { public readonly TKey Key; public TValue Value; public SplayTreeNode LeftChild; public SplayTreeNode RightChild; public SplayTreeNode(TKey key, TValue value) { this.Key = key; this.Value = value; } } sealed class TiedList : IList { readonly SplayTree tree; readonly int version; readonly IList backingList; public TiedList(SplayTree tree, int version, IList backingList) { if (tree == null) { throw new ArgumentNullException("tree"); } if (backingList == null) { throw new ArgumentNullException("backingList"); } this.tree = tree; this.version = version; this.backingList = backingList; } public int IndexOf(T item) { if (this.tree.version != this.version) { throw new InvalidOperationException("The collection has been modified."); } return this.backingList.IndexOf(item); } public void Insert(int index, T item) { throw new NotSupportedException(); } public void RemoveAt(int index) { throw new NotSupportedException(); } public T this[int index] { get { if (this.tree.version != this.version) { throw new InvalidOperationException("The collection has been modified."); } return this.backingList[index]; } set { throw new NotSupportedException(); } } public void Add(T item) { throw new NotSupportedException(); } public void Clear() { throw new NotSupportedException(); } public bool Contains(T item) { if (this.tree.version != this.version) { throw new InvalidOperationException("The collection has been modified."); } return this.backingList.Contains(item); } public void CopyTo(T[] array, int arrayIndex) { if (this.tree.version != this.version) { throw new InvalidOperationException("The collection has been modified."); } this.backingList.CopyTo(array, arrayIndex); } public int Count { get { return this.tree.count; } } public bool IsReadOnly { get { return true; } } public bool Remove(T item) { throw new NotSupportedException(); } public IEnumerator GetEnumerator() { if (this.tree.version != this.version) { throw new InvalidOperationException("The collection has been modified."); } foreach (var item in this.backingList) { yield return item; if (this.tree.version != this.version) { throw new InvalidOperationException("The collection has been modified."); } } } IEnumerator IEnumerable.GetEnumerator() { return this.GetEnumerator(); } } } }