packages/flutter/lib/src/painting/inline_span.dart - external/github.com/flutter/flutter - Git at Google

 // Copyright 2014 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.


 import 'dart:ui' as ui show ParagraphBuilder, StringAttribute;

 import 'package:flutter/foundation.dart';
 import 'package:flutter/gestures.dart';

 import 'basic_types.dart';
 import 'text_painter.dart';
 import 'text_span.dart';
 import 'text_style.dart';

 /// Mutable wrapper of an integer that can be passed by reference to track a
 /// value across a recursive stack.
 class Accumulator {
   /// [Accumulator] may be initialized with a specified value, otherwise, it will
   /// initialize to zero.
   Accumulator([this._value = 0]);

   /// The integer stored in this [Accumulator].
   int get value => _value;
   int _value;

   /// Increases the [value] by the `addend`.
   void increment(int addend) {
     assert(addend >= 0);
     _value += addend;
   }
 }
 /// Called on each span as [InlineSpan.visitChildren] walks the [InlineSpan] tree.
 ///
 /// Returns true when the walk should continue, and false to stop visiting further
 /// [InlineSpan]s.
 typedef InlineSpanVisitor = bool Function(InlineSpan span);

 /// The textual and semantic label information for an [InlineSpan].
 ///
 /// For [PlaceholderSpan]s, [InlineSpanSemanticsInformation.placeholder] is used by default.
 ///
 /// See also:
 ///
 ///  * [InlineSpan.getSemanticsInformation]
 @immutable
 class InlineSpanSemanticsInformation {
   /// Constructs an object that holds the text and semantics label values of an
   /// [InlineSpan].
   ///
   /// The text parameter must not be null.
   ///
   /// Use [InlineSpanSemanticsInformation.placeholder] instead of directly setting
   /// [isPlaceholder].
   const InlineSpanSemanticsInformation(
     this.text, {
     this.isPlaceholder = false,
     this.semanticsLabel,
     this.stringAttributes = const <ui.StringAttribute>[],
     this.recognizer,
   }) : assert(text != null),
        assert(isPlaceholder != null),
        assert(isPlaceholder == false || (text == '\uFFFC' && semanticsLabel == null && recognizer == null)),
        requiresOwnNode = isPlaceholder || recognizer != null;

   /// The text info for a [PlaceholderSpan].
   static const InlineSpanSemanticsInformation placeholder = InlineSpanSemanticsInformation('\uFFFC', isPlaceholder: true);

   /// The text value, if any.  For [PlaceholderSpan]s, this will be the unicode
   /// placeholder value.
   final String text;

   /// The semanticsLabel, if any.
   final String? semanticsLabel;

   /// The gesture recognizer, if any, for this span.
   final GestureRecognizer? recognizer;

   /// Whether this is for a placeholder span.
   final bool isPlaceholder;

   /// True if this configuration should get its own semantics node.
   ///
   /// This will be the case of the [recognizer] is not null, of if
   /// [isPlaceholder] is true.
   final bool requiresOwnNode;

   /// The string attributes attached to this semantics information
   final List<ui.StringAttribute> stringAttributes;

   @override
   bool operator ==(Object other) {
     return other is InlineSpanSemanticsInformation
         && other.text == text
         && other.semanticsLabel == semanticsLabel
         && other.recognizer == recognizer
         && other.isPlaceholder == isPlaceholder
         && listEquals<ui.StringAttribute>(other.stringAttributes, stringAttributes);
   }

   @override
   int get hashCode => hashValues(text, semanticsLabel, recognizer, isPlaceholder);

   @override
   String toString() => '${objectRuntimeType(this, 'InlineSpanSemanticsInformation')}{text: $text, semanticsLabel: $semanticsLabel, recognizer: $recognizer}';
 }

 /// Combines _semanticsInfo entries where permissible.
 ///
 /// Consecutive inline spans can be combined if their
 /// [InlineSpanSemanticsInformation.requiresOwnNode] return false.
 List<InlineSpanSemanticsInformation> combineSemanticsInfo(List<InlineSpanSemanticsInformation> infoList) {
   final List<InlineSpanSemanticsInformation> combined = <InlineSpanSemanticsInformation>[];
   String workingText = '';
   String workingLabel = '';
   List<ui.StringAttribute> workingAttributes = <ui.StringAttribute>[];
   for (final InlineSpanSemanticsInformation info in infoList) {
     if (info.requiresOwnNode) {
       combined.add(InlineSpanSemanticsInformation(
         workingText,
         semanticsLabel: workingLabel,
         stringAttributes: workingAttributes,
       ));
       workingText = '';
       workingLabel = '';
       workingAttributes = <ui.StringAttribute>[];
       combined.add(info);
     } else {
       workingText += info.text;
       final String effectiveLabel = info.semanticsLabel ?? info.text;
       for (final ui.StringAttribute infoAttribute in info.stringAttributes) {
         workingAttributes.add(
           infoAttribute.copy(
             range: TextRange(
               start: infoAttribute.range.start + workingLabel.length,
               end: infoAttribute.range.end + workingLabel.length,
             ),
           ),
         );
       }
       workingLabel += effectiveLabel;

     }
   }
   combined.add(InlineSpanSemanticsInformation(
     workingText,
     semanticsLabel: workingLabel,
     stringAttributes: workingAttributes,
   ));
   return combined;
 }

 /// An immutable span of inline content which forms part of a paragraph.
 ///
 ///  * The subclass [TextSpan] specifies text and may contain child [InlineSpan]s.
 ///  * The subclass [PlaceholderSpan] represents a placeholder that may be
 ///    filled with non-text content. [PlaceholderSpan] itself defines a
 ///    [ui.PlaceholderAlignment] and a [TextBaseline]. To be useful,
 ///    [PlaceholderSpan] must be extended to define content. An instance of
 ///    this is the [WidgetSpan] class in the widgets library.
 ///  * The subclass [WidgetSpan] specifies embedded inline widgets.
 ///
 /// {@tool snippet}
 ///
 /// This example shows a tree of [InlineSpan]s that make a query asking for a
 /// name with a [TextField] embedded inline.
 ///
 /// ```dart
 /// Text.rich(
 ///   TextSpan(
 ///     text: 'My name is ',
 ///     style: const TextStyle(color: Colors.black),
 ///     children: <InlineSpan>[
 ///       WidgetSpan(
 ///         alignment: PlaceholderAlignment.baseline,
 ///         baseline: TextBaseline.alphabetic,
 ///         child: ConstrainedBox(
 ///           constraints: const BoxConstraints(maxWidth: 100),
 ///           child: const TextField(),
 ///         )
 ///       ),
 ///       const TextSpan(
 ///         text: '.',
 ///       ),
 ///     ],
 ///   ),
 /// )
 /// ```
 /// {@end-tool}
 ///
 /// See also:
 ///
 ///  * [Text], a widget for showing uniformly-styled text.
 ///  * [RichText], a widget for finer control of text rendering.
 ///  * [TextPainter], a class for painting [InlineSpan] objects on a [Canvas].
 @immutable
 abstract class InlineSpan extends DiagnosticableTree {
   /// Creates an [InlineSpan] with the given values.
   const InlineSpan({
     this.style,
   });

   /// The [TextStyle] to apply to this span.
   ///
   /// The [style] is also applied to any child spans when this is an instance
   /// of [TextSpan].
   final TextStyle? style;

   /// Apply the properties of this object to the given [ParagraphBuilder], from
   /// which a [Paragraph] can be obtained.
   ///
   /// The `textScaleFactor` parameter specifies a scale that the text and
   /// placeholders will be scaled by. The scaling is performed before layout,
   /// so the text will be laid out with the scaled glyphs and placeholders.
   ///
   /// The `dimensions` parameter specifies the sizes of the placeholders.
   /// Each [PlaceholderSpan] must be paired with a [PlaceholderDimensions]
   /// in the same order as defined in the [InlineSpan] tree.
   ///
   /// [Paragraph] objects can be drawn on [Canvas] objects.
   void build(ui.ParagraphBuilder builder, { double textScaleFactor = 1.0, List<PlaceholderDimensions>? dimensions });

   /// Walks this [InlineSpan] and any descendants in pre-order and calls `visitor`
   /// for each span that has content.
   ///
   /// When `visitor` returns true, the walk will continue. When `visitor` returns
   /// false, then the walk will end.
   bool visitChildren(InlineSpanVisitor visitor);

   /// Returns the [InlineSpan] that contains the given position in the text.
   InlineSpan? getSpanForPosition(TextPosition position) {
     assert(debugAssertIsValid());
     final Accumulator offset = Accumulator();
     InlineSpan? result;
     visitChildren((InlineSpan span) {
       result = span.getSpanForPositionVisitor(position, offset);
       return result == null;
     });
     return result;
   }

   /// Performs the check at each [InlineSpan] for if the `position` falls within the range
   /// of the span and returns the span if it does.
   ///
   /// The `offset` parameter tracks the current index offset in the text buffer formed
   /// if the contents of the [InlineSpan] tree were concatenated together starting
   /// from the root [InlineSpan].
   ///
   /// This method should not be directly called. Use [getSpanForPosition] instead.
   @protected
   InlineSpan? getSpanForPositionVisitor(TextPosition position, Accumulator offset);

   /// Flattens the [InlineSpan] tree into a single string.
   ///
   /// Styles are not honored in this process. If `includeSemanticsLabels` is
   /// true, then the text returned will include the [TextSpan.semanticsLabel]s
   /// instead of the text contents for [TextSpan]s.
   ///
   /// When `includePlaceholders` is true, [PlaceholderSpan]s in the tree will be
   /// represented as a 0xFFFC 'object replacement character'.
   String toPlainText({bool includeSemanticsLabels = true, bool includePlaceholders = true}) {
     final StringBuffer buffer = StringBuffer();
     computeToPlainText(buffer, includeSemanticsLabels: includeSemanticsLabels, includePlaceholders: includePlaceholders);
     return buffer.toString();
   }

   /// Flattens the [InlineSpan] tree to a list of
   /// [InlineSpanSemanticsInformation] objects.
   ///
   /// [PlaceholderSpan]s in the tree will be represented with a
   /// [InlineSpanSemanticsInformation.placeholder] value.
   List<InlineSpanSemanticsInformation> getSemanticsInformation() {
     final List<InlineSpanSemanticsInformation> collector = <InlineSpanSemanticsInformation>[];
     computeSemanticsInformation(collector);
     return collector;
   }

   /// Walks the [InlineSpan] tree and accumulates a list of
   /// [InlineSpanSemanticsInformation] objects.
   ///
   /// This method should not be directly called.  Use
   /// [getSemanticsInformation] instead.
   ///
   /// [PlaceholderSpan]s in the tree will be represented with a
   /// [InlineSpanSemanticsInformation.placeholder] value.
   @protected
   void computeSemanticsInformation(List<InlineSpanSemanticsInformation> collector);

   /// Walks the [InlineSpan] tree and writes the plain text representation to `buffer`.
   ///
   /// This method should not be directly called. Use [toPlainText] instead.
   ///
   /// Styles are not honored in this process. If `includeSemanticsLabels` is
   /// true, then the text returned will include the [TextSpan.semanticsLabel]s
   /// instead of the text contents for [TextSpan]s.
   ///
   /// When `includePlaceholders` is true, [PlaceholderSpan]s in the tree will be
   /// represented as a 0xFFFC 'object replacement character'.
   ///
   /// The plain-text representation of this [InlineSpan] is written into the `buffer`.
   /// This method will then recursively call [computeToPlainText] on its children
   /// [InlineSpan]s if available.
   @protected
   void computeToPlainText(StringBuffer buffer, {bool includeSemanticsLabels = true, bool includePlaceholders = true});

   /// Returns the UTF-16 code unit at the given `index` in the flattened string.
   ///
   /// This only accounts for the [TextSpan.text] values and ignores [PlaceholderSpan]s.
   ///
   /// Returns null if the `index` is out of bounds.
   int? codeUnitAt(int index) {
     if (index < 0)
       return null;
     final Accumulator offset = Accumulator();
     int? result;
     visitChildren((InlineSpan span) {
       result = span.codeUnitAtVisitor(index, offset);
       return result == null;
     });
     return result;
   }

   /// Performs the check at each [InlineSpan] for if the `index` falls within the range
   /// of the span and returns the corresponding code unit. Returns null otherwise.
   ///
   /// The `offset` parameter tracks the current index offset in the text buffer formed
   /// if the contents of the [InlineSpan] tree were concatenated together starting
   /// from the root [InlineSpan].
   ///
   /// This method should not be directly called. Use [codeUnitAt] instead.
   @protected
   int? codeUnitAtVisitor(int index, Accumulator offset);

   /// In debug mode, throws an exception if the object is not in a
   /// valid configuration. Otherwise, returns true.
   ///
   /// This is intended to be used as follows:
   ///
   /// ```dart
   /// assert(myInlineSpan.debugAssertIsValid());
   /// ```
   bool debugAssertIsValid() => true;

   /// Describe the difference between this span and another, in terms of
   /// how much damage it will make to the rendering. The comparison is deep.
   ///
   /// Comparing [InlineSpan] objects of different types, for example, comparing
   /// a [TextSpan] to a [WidgetSpan], always results in [RenderComparison.layout].
   ///
   /// See also:
   ///
   ///  * [TextStyle.compareTo], which does the same thing for [TextStyle]s.
   RenderComparison compareTo(InlineSpan other);

   @override
   bool operator ==(Object other) {
     if (identical(this, other))
       return true;
     if (other.runtimeType != runtimeType)
       return false;
     return other is InlineSpan
         && other.style == style;
   }

   @override
   int get hashCode => style.hashCode;

   @override
   void debugFillProperties(DiagnosticPropertiesBuilder properties) {
     super.debugFillProperties(properties);
     properties.defaultDiagnosticsTreeStyle = DiagnosticsTreeStyle.whitespace;

     if (style != null) {
       style!.debugFillProperties(properties);
     }
   }
 }
	// Copyright 2014 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.


	import 'dart:ui' as ui show ParagraphBuilder, StringAttribute;

	import 'package:flutter/foundation.dart';
	import 'package:flutter/gestures.dart';

	import 'basic_types.dart';
	import 'text_painter.dart';
	import 'text_span.dart';
	import 'text_style.dart';

	/// Mutable wrapper of an integer that can be passed by reference to track a
	/// value across a recursive stack.
	class Accumulator {
	/// [Accumulator] may be initialized with a specified value, otherwise, it will
	/// initialize to zero.
	Accumulator([this._value = 0]);

	/// The integer stored in this [Accumulator].
	int get value => _value;
	int _value;

	/// Increases the [value] by the `addend`.
	void increment(int addend) {
	assert(addend >= 0);
	_value += addend;
	}
	}
	/// Called on each span as [InlineSpan.visitChildren] walks the [InlineSpan] tree.
	///
	/// Returns true when the walk should continue, and false to stop visiting further
	/// [InlineSpan]s.
	typedef InlineSpanVisitor = bool Function(InlineSpan span);

	/// The textual and semantic label information for an [InlineSpan].
	///
	/// For [PlaceholderSpan]s, [InlineSpanSemanticsInformation.placeholder] is used by default.
	///
	/// See also:
	///
	/// * [InlineSpan.getSemanticsInformation]
	@immutable
	class InlineSpanSemanticsInformation {
	/// Constructs an object that holds the text and semantics label values of an
	/// [InlineSpan].
	///
	/// The text parameter must not be null.
	///
	/// Use [InlineSpanSemanticsInformation.placeholder] instead of directly setting
	/// [isPlaceholder].
	const InlineSpanSemanticsInformation(
	this.text, {
	this.isPlaceholder = false,
	this.semanticsLabel,
	this.stringAttributes = const <ui.StringAttribute>[],
	this.recognizer,
	}) : assert(text != null),
	assert(isPlaceholder != null),
	assert(isPlaceholder == false \|\| (text == '\uFFFC' && semanticsLabel == null && recognizer == null)),
	requiresOwnNode = isPlaceholder \|\| recognizer != null;

	/// The text info for a [PlaceholderSpan].
	static const InlineSpanSemanticsInformation placeholder = InlineSpanSemanticsInformation('\uFFFC', isPlaceholder: true);

	/// The text value, if any. For [PlaceholderSpan]s, this will be the unicode
	/// placeholder value.
	final String text;

	/// The semanticsLabel, if any.
	final String? semanticsLabel;

	/// The gesture recognizer, if any, for this span.
	final GestureRecognizer? recognizer;

	/// Whether this is for a placeholder span.
	final bool isPlaceholder;

	/// True if this configuration should get its own semantics node.
	///
	/// This will be the case of the [recognizer] is not null, of if
	/// [isPlaceholder] is true.
	final bool requiresOwnNode;

	/// The string attributes attached to this semantics information
	final List<ui.StringAttribute> stringAttributes;

	@override
	bool operator ==(Object other) {
	return other is InlineSpanSemanticsInformation
	&& other.text == text
	&& other.semanticsLabel == semanticsLabel
	&& other.recognizer == recognizer
	&& other.isPlaceholder == isPlaceholder
	&& listEquals<ui.StringAttribute>(other.stringAttributes, stringAttributes);
	}

	@override
	int get hashCode => hashValues(text, semanticsLabel, recognizer, isPlaceholder);

	@override
	String toString() => '${objectRuntimeType(this, 'InlineSpanSemanticsInformation')}{text: $text, semanticsLabel: $semanticsLabel, recognizer: $recognizer}';
	}

	/// Combines _semanticsInfo entries where permissible.
	///
	/// Consecutive inline spans can be combined if their
	/// [InlineSpanSemanticsInformation.requiresOwnNode] return false.
	List<InlineSpanSemanticsInformation> combineSemanticsInfo(List<InlineSpanSemanticsInformation> infoList) {
	final List<InlineSpanSemanticsInformation> combined = <InlineSpanSemanticsInformation>[];
	String workingText = '';
	String workingLabel = '';
	List<ui.StringAttribute> workingAttributes = <ui.StringAttribute>[];
	for (final InlineSpanSemanticsInformation info in infoList) {
	if (info.requiresOwnNode) {
	combined.add(InlineSpanSemanticsInformation(
	workingText,
	semanticsLabel: workingLabel,
	stringAttributes: workingAttributes,
	));
	workingText = '';
	workingLabel = '';
	workingAttributes = <ui.StringAttribute>[];
	combined.add(info);
	} else {
	workingText += info.text;
	final String effectiveLabel = info.semanticsLabel ?? info.text;
	for (final ui.StringAttribute infoAttribute in info.stringAttributes) {
	workingAttributes.add(
	infoAttribute.copy(
	range: TextRange(
	start: infoAttribute.range.start + workingLabel.length,
	end: infoAttribute.range.end + workingLabel.length,
	),
	),
	);
	}
	workingLabel += effectiveLabel;

	}
	}
	combined.add(InlineSpanSemanticsInformation(
	workingText,
	semanticsLabel: workingLabel,
	stringAttributes: workingAttributes,
	));
	return combined;
	}

	/// An immutable span of inline content which forms part of a paragraph.
	///
	/// * The subclass [TextSpan] specifies text and may contain child [InlineSpan]s.
	/// * The subclass [PlaceholderSpan] represents a placeholder that may be
	/// filled with non-text content. [PlaceholderSpan] itself defines a
	/// [ui.PlaceholderAlignment] and a [TextBaseline]. To be useful,
	/// [PlaceholderSpan] must be extended to define content. An instance of
	/// this is the [WidgetSpan] class in the widgets library.
	/// * The subclass [WidgetSpan] specifies embedded inline widgets.
	///
	/// {@tool snippet}
	///
	/// This example shows a tree of [InlineSpan]s that make a query asking for a
	/// name with a [TextField] embedded inline.
	///
	/// ```dart
	/// Text.rich(
	/// TextSpan(
	/// text: 'My name is ',
	/// style: const TextStyle(color: Colors.black),
	/// children: <InlineSpan>[
	/// WidgetSpan(
	/// alignment: PlaceholderAlignment.baseline,
	/// baseline: TextBaseline.alphabetic,
	/// child: ConstrainedBox(
	/// constraints: const BoxConstraints(maxWidth: 100),
	/// child: const TextField(),
	/// )
	/// ),
	/// const TextSpan(
	/// text: '.',
	/// ),
	/// ],
	/// ),
	/// )
	/// ```
	/// {@end-tool}
	///
	/// See also:
	///
	/// * [Text], a widget for showing uniformly-styled text.
	/// * [RichText], a widget for finer control of text rendering.
	/// * [TextPainter], a class for painting [InlineSpan] objects on a [Canvas].
	@immutable
	abstract class InlineSpan extends DiagnosticableTree {
	/// Creates an [InlineSpan] with the given values.
	const InlineSpan({
	this.style,
	});

	/// The [TextStyle] to apply to this span.
	///
	/// The [style] is also applied to any child spans when this is an instance
	/// of [TextSpan].
	final TextStyle? style;

	/// Apply the properties of this object to the given [ParagraphBuilder], from
	/// which a [Paragraph] can be obtained.
	///
	/// The `textScaleFactor` parameter specifies a scale that the text and
	/// placeholders will be scaled by. The scaling is performed before layout,
	/// so the text will be laid out with the scaled glyphs and placeholders.
	///
	/// The `dimensions` parameter specifies the sizes of the placeholders.
	/// Each [PlaceholderSpan] must be paired with a [PlaceholderDimensions]
	/// in the same order as defined in the [InlineSpan] tree.
	///
	/// [Paragraph] objects can be drawn on [Canvas] objects.
	void build(ui.ParagraphBuilder builder, { double textScaleFactor = 1.0, List<PlaceholderDimensions>? dimensions });

	/// Walks this [InlineSpan] and any descendants in pre-order and calls `visitor`
	/// for each span that has content.
	///
	/// When `visitor` returns true, the walk will continue. When `visitor` returns
	/// false, then the walk will end.
	bool visitChildren(InlineSpanVisitor visitor);

	/// Returns the [InlineSpan] that contains the given position in the text.
	InlineSpan? getSpanForPosition(TextPosition position) {
	assert(debugAssertIsValid());
	final Accumulator offset = Accumulator();
	InlineSpan? result;
	visitChildren((InlineSpan span) {
	result = span.getSpanForPositionVisitor(position, offset);
	return result == null;
	});
	return result;
	}

	/// Performs the check at each [InlineSpan] for if the `position` falls within the range
	/// of the span and returns the span if it does.
	///
	/// The `offset` parameter tracks the current index offset in the text buffer formed
	/// if the contents of the [InlineSpan] tree were concatenated together starting
	/// from the root [InlineSpan].
	///
	/// This method should not be directly called. Use [getSpanForPosition] instead.
	@protected
	InlineSpan? getSpanForPositionVisitor(TextPosition position, Accumulator offset);

	/// Flattens the [InlineSpan] tree into a single string.
	///
	/// Styles are not honored in this process. If `includeSemanticsLabels` is
	/// true, then the text returned will include the [TextSpan.semanticsLabel]s
	/// instead of the text contents for [TextSpan]s.
	///
	/// When `includePlaceholders` is true, [PlaceholderSpan]s in the tree will be
	/// represented as a 0xFFFC 'object replacement character'.
	String toPlainText({bool includeSemanticsLabels = true, bool includePlaceholders = true}) {
	final StringBuffer buffer = StringBuffer();
	computeToPlainText(buffer, includeSemanticsLabels: includeSemanticsLabels, includePlaceholders: includePlaceholders);
	return buffer.toString();
	}

	/// Flattens the [InlineSpan] tree to a list of
	/// [InlineSpanSemanticsInformation] objects.
	///
	/// [PlaceholderSpan]s in the tree will be represented with a
	/// [InlineSpanSemanticsInformation.placeholder] value.
	List<InlineSpanSemanticsInformation> getSemanticsInformation() {
	final List<InlineSpanSemanticsInformation> collector = <InlineSpanSemanticsInformation>[];
	computeSemanticsInformation(collector);
	return collector;
	}

	/// Walks the [InlineSpan] tree and accumulates a list of
	/// [InlineSpanSemanticsInformation] objects.
	///
	/// This method should not be directly called. Use
	/// [getSemanticsInformation] instead.
	///
	/// [PlaceholderSpan]s in the tree will be represented with a
	/// [InlineSpanSemanticsInformation.placeholder] value.
	@protected
	void computeSemanticsInformation(List<InlineSpanSemanticsInformation> collector);

	/// Walks the [InlineSpan] tree and writes the plain text representation to `buffer`.
	///
	/// This method should not be directly called. Use [toPlainText] instead.
	///
	/// Styles are not honored in this process. If `includeSemanticsLabels` is
	/// true, then the text returned will include the [TextSpan.semanticsLabel]s
	/// instead of the text contents for [TextSpan]s.
	///
	/// When `includePlaceholders` is true, [PlaceholderSpan]s in the tree will be
	/// represented as a 0xFFFC 'object replacement character'.
	///
	/// The plain-text representation of this [InlineSpan] is written into the `buffer`.
	/// This method will then recursively call [computeToPlainText] on its children
	/// [InlineSpan]s if available.
	@protected
	void computeToPlainText(StringBuffer buffer, {bool includeSemanticsLabels = true, bool includePlaceholders = true});

	/// Returns the UTF-16 code unit at the given `index` in the flattened string.
	///
	/// This only accounts for the [TextSpan.text] values and ignores [PlaceholderSpan]s.
	///
	/// Returns null if the `index` is out of bounds.
	int? codeUnitAt(int index) {
	if (index < 0)
	return null;
	final Accumulator offset = Accumulator();
	int? result;
	visitChildren((InlineSpan span) {
	result = span.codeUnitAtVisitor(index, offset);
	return result == null;
	});
	return result;
	}

	/// Performs the check at each [InlineSpan] for if the `index` falls within the range
	/// of the span and returns the corresponding code unit. Returns null otherwise.
	///
	/// The `offset` parameter tracks the current index offset in the text buffer formed
	/// if the contents of the [InlineSpan] tree were concatenated together starting
	/// from the root [InlineSpan].
	///
	/// This method should not be directly called. Use [codeUnitAt] instead.
	@protected
	int? codeUnitAtVisitor(int index, Accumulator offset);

	/// In debug mode, throws an exception if the object is not in a
	/// valid configuration. Otherwise, returns true.
	///
	/// This is intended to be used as follows:
	///
	/// ```dart
	/// assert(myInlineSpan.debugAssertIsValid());
	/// ```
	bool debugAssertIsValid() => true;

	/// Describe the difference between this span and another, in terms of
	/// how much damage it will make to the rendering. The comparison is deep.
	///
	/// Comparing [InlineSpan] objects of different types, for example, comparing
	/// a [TextSpan] to a [WidgetSpan], always results in [RenderComparison.layout].
	///
	/// See also:
	///
	/// * [TextStyle.compareTo], which does the same thing for [TextStyle]s.
	RenderComparison compareTo(InlineSpan other);

	@override
	bool operator ==(Object other) {
	if (identical(this, other))
	return true;
	if (other.runtimeType != runtimeType)
	return false;
	return other is InlineSpan
	&& other.style == style;
	}

	@override
	int get hashCode => style.hashCode;

	@override
	void debugFillProperties(DiagnosticPropertiesBuilder properties) {
	super.debugFillProperties(properties);
	properties.defaultDiagnosticsTreeStyle = DiagnosticsTreeStyle.whitespace;

	if (style != null) {
	style!.debugFillProperties(properties);
	}
	}
	}