range_slider.dart 49.8 KB
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// Copyright 2019 The Chromium 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:async';
import 'dart:math' as math;
import 'dart:ui' as ui;

import 'package:flutter/foundation.dart';
import 'package:flutter/gestures.dart';
import 'package:flutter/rendering.dart';
import 'package:flutter/scheduler.dart' show timeDilation;
import 'package:flutter/widgets.dart';

import 'constants.dart';
import 'debug.dart';
import 'slider_theme.dart';
import 'theme.dart';

// Examples can assume:
// RangeValues _rangeValues = RangeValues(0.3, 0.7);
// RangeValues _dollarsRange = RangeValues(50, 100);
// void setState(VoidCallback fn) { }

/// A Material Design range slider.
///
/// Used to select a range from a range of values.
///
/// A range slider can be used to select from either a continuous or a discrete
/// set of values. The default is to use a continuous range of values from [min]
/// to [max]. To use discrete values, use a non-null value for [divisions], which
/// indicates the number of discrete intervals. For example, if [min] is 0.0 and
/// [max] is 50.0 and [divisions] is 5, then the slider can take on the
/// discrete values 0.0, 10.0, 20.0, 30.0, 40.0, and 50.0.
///
/// The terms for the parts of a slider are:
///
///  * The "thumbs", which are the shapes that slide horizontally when the user
///    drags them to change the selected range.
///  * The "track", which is the horizontal line that the thumbs can be dragged
///    along.
///  * The "tick marks", which mark the discrete values of a discrete slider.
///  * The "overlay", which is a highlight that's drawn over a thumb in response
///    to a user tap-down gesture.
///  * The "value indicators", which are the shapes that pop up when the user
///    is dragging a thumb to show the value being selected.
///  * The "active" segment of the slider is the segment between the two thumbs.
///  * The "inactive" slider segments are the two track intervals outside of the
///    slider's thumbs.
///
/// The range slider will be disabled if [onChanged] is null or if the range
/// given by [min]..[max] is empty (i.e. if [min] is equal to [max]).
///
/// The range slider widget itself does not maintain any state. Instead, when
/// the state of the slider changes, the widget calls the [onChanged] callback.
/// Most widgets that use a range slider will listen for the [onChanged] callback
/// and rebuild the slider with a new [value] to update the visual appearance of
/// the slider. To know when the value starts to change, or when it is done
/// changing, set the optional callbacks [onChangeStart] and/or [onChangeEnd].
///
/// By default, a slider will be as wide as possible, centered vertically. When
/// given unbounded constraints, it will attempt to make the track 144 pixels
/// wide (including margins on each side) and will shrink-wrap vertically.
///
/// Requires one of its ancestors to be a [Material] widget. This is typically
/// provided by a [Scaffold] widget.
///
/// Requires one of its ancestors to be a [MediaQuery] widget. Typically, a
/// [MediaQuery] widget is introduced by the [MaterialApp] or [WidgetsApp]
/// widget at the top of your application widget tree.
///
/// To determine how it should be displayed (e.g. colors, thumb shape, etc.),
/// a slider uses the [SliderThemeData] available from either a [SliderTheme]
/// widget, or the [ThemeData.sliderTheme] inside a [Theme] widget above it in
/// the widget tree. You can also override some of the colors with the
/// [activeColor] and [inactiveColor] properties, although more fine-grained
/// control of the colors, and other visual properties is achieved using a
/// [SliderThemeData].
///
/// See also:
///
///  * [SliderTheme] and [SliderThemeData] for information about controlling
///    the visual appearance of the slider.
///  * [Slider], for a single-valued slider.
///  * [Radio], for selecting among a set of explicit values.
///  * [Checkbox] and [Switch], for toggling a particular value on or off.
///  * <https://material.io/design/components/sliders.html>
///  * [MediaQuery], from which the text scale factor is obtained.
class RangeSlider extends StatefulWidget {
  /// Creates a Material Design range slider.
  ///
  /// The range slider widget itself does not maintain any state. Instead, when
  /// the state of the slider changes, the widget calls the [onChanged] callback.
  /// Most widgets that use a range slider will listen for the [onChanged] callback
  /// and rebuild the slider with a new [value] to update the visual appearance of
  /// the slider. To know when the value starts to change, or when it is done
  /// changing, set the optional callbacks [onChangeStart] and/or [onChangeEnd].
  ///
  /// * [values], which  determines currently selected values for this range
  ///   slider.
  /// * [onChanged], which is called while the user is selecting a new value for
  ///   the range slider.
  /// * [onChangeStart], which is called when the user starts to select a new
  ///   value for the range slider.
  /// * [onChangeEnd], which is called when the user is done selecting a new
  ///   value for the range slider.
  ///
  /// You can override some of the colors with the [activeColor] and
  /// [inactiveColor] properties, although more fine-grained control of the
  /// appearance is achieved using a [SliderThemeData].
  ///
  /// The [values], [min], [max] must not be null. The [min] must be less than
  /// or equal to the [max]. [values.start] must be less than or equal to
  /// [values.end]. [values.start] and [values.end] must be greater than or
  /// equal to the [min] and less than or equal to the [max]. The [divisions]
  /// must be null or greater than 0.
  RangeSlider({
    Key key,
    @required this.values,
    @required this.onChanged,
    this.onChangeStart,
    this.onChangeEnd,
    this.min = 0.0,
    this.max = 1.0,
    this.divisions,
    this.labels,
    this.activeColor,
    this.inactiveColor,
    this.semanticFormatterCallback
  }) : assert(values != null),
       assert(min != null),
       assert(max != null),
       assert(min <= max),
       assert(values.start <= values.end),
       assert(values.start >= min && values.start <= max),
       assert(values.end >= min && values.end <= max),
       assert(divisions == null || divisions > 0),
       super(key: key);

  /// The currently selected values for this range slider.
  ///
  /// The slider's thumbs are drawn at horizontal positions that corresponds to
  /// these values.
  final RangeValues values;

  /// Called when the user is selecting a new value for the slider by dragging.
  ///
  /// The slider passes the new values to the callback but does not actually
  /// change state until the parent widget rebuilds the slider with the new
  /// values.
  ///
  /// If null, the slider will be displayed as disabled.
  ///
  /// The callback provided to [onChanged] should update the state of the parent
  /// [StatefulWidget] using the [State.setState] method, so that the parent
  /// gets rebuilt; for example:
  ///
  /// {@tool sample}
  ///
  /// ```dart
  /// RangeSlider(
  ///   values: _rangeValues,
  ///   min: 1.0,
  ///   max: 10.0,
  ///   onChanged: (RangeValues newValues) {
  ///     setState(() {
  ///       _rangeValues = newValues;
  ///     });
  ///   },
  /// )
  /// ```
  /// {@end-tool}
  ///
  /// See also:
  ///
  ///  * [onChangeStart], which  is called when the user starts  changing the
  ///    values.
  ///  * [onChangeEnd], which is called when the user stops changing the values.
  final ValueChanged<RangeValues> onChanged;

  /// Called when the user starts selecting new values for the slider.
  ///
  /// This callback shouldn't be used to update the slider [values] (use
  /// [onChanged] for that). Rather, it should be used to be notified when the
  /// user has started selecting a new value by starting a drag or with a tap.
  ///
  /// The values passed will be the last [values] that the slider had before the
  /// change began.
  ///
  /// {@tool sample}
  ///
  /// ```dart
  /// RangeSlider(
  ///   values: _rangeValues,
  ///   min: 1.0,
  ///   max: 10.0,
  ///   onChanged: (RangeValues newValues) {
  ///     setState(() {
  ///       _rangeValues = newValues;
  ///     });
  ///   },
  ///   onChangeStart: (RangeValues startValues) {
  ///     print('Started change at $startValues');
  ///   },
  /// )
  /// ```
  /// {@end-tool}
  ///
  /// See also:
  ///
  ///  * [onChangeEnd] for a callback that is called when the value change is
  ///    complete.
  final ValueChanged<RangeValues> onChangeStart;

  /// Called when the user is done selecting new values for the slider.
  ///
  /// This differs from [onChanged] because it is only called once at the end
  /// of the interaction, while [onChanged] is called as the value is getting
  /// updated within the interaction.
  ///
  /// This callback shouldn't be used to update the slider [values] (use
  /// [onChanged] for that). Rather, it should be used to know when the user has
  /// completed selecting a new [values] by ending a drag or a click.
  ///
  /// {@tool sample}
  ///
  /// ```dart
  /// RangeSlider(
  ///   values: _rangeValues,
  ///   min: 1.0,
  ///   max: 10.0,
  ///   onChanged: (RangeValues newValues) {
  ///     setState(() {
  ///       _rangeValues = newValues;
  ///     });
  ///   },
  ///   onChangeEnd: (RangeValues endValues) {
  ///     print('Ended change at $endValues');
  ///   },
  /// )
  /// ```
  /// {@end-tool}
  ///
  /// See also:
  ///
  ///  * [onChangeStart] for a callback that is called when a value change
  ///    begins.
  final ValueChanged<RangeValues> onChangeEnd;

  /// The minimum value the user can select.
  ///
  /// Defaults to 0.0. Must be less than or equal to [max].
  ///
  /// If the [max] is equal to the [min], then the slider is disabled.
  final double min;

  /// The maximum value the user can select.
  ///
  /// Defaults to 1.0. Must be greater than or equal to [min].
  ///
  /// If the [max] is equal to the [min], then the slider is disabled.
  final double max;

  /// The number of discrete divisions.
  ///
  /// Typically used with [labels] to show the current discrete values.
  ///
  /// If null, the slider is continuous.
  final int divisions;

  /// Labels to show as text in the [SliderThemeData.rangeValueIndicatorShape].
  ///
  /// There are two labels: one for the start thumb and one for the end thumb.
  ///
  /// Each label is rendered using the active [ThemeData]'s
  /// [ThemeData.accentTextTheme.body2] text style, and can be overriden
  /// by changing the [SliderThemeData.valueIndicatorTextStyle].
  ///
  /// If null, then the value indicator will not be displayed.
  ///
  /// See also:
  ///
  ///  * [RangeSliderValueIndicatorShape] for how to create a custom value
  ///    indicator shape.
  final RangeLabels labels;

  /// The color of the track's active segment, i.e. the span of track between
  /// the thumbs.
  ///
  /// Defaults to [ColorScheme.primary].
  ///
  /// Using a [SliderTheme] gives more fine-grained control over the
  /// appearance of various components of the slider.
  final Color activeColor;

  /// The color of the track's inactive segments, i.e. the span of tracks
  /// between the min and the start thumb, and the end thumb and the max.
  ///
  /// Defaults to [ColorScheme.primary] with 24% opacity.
  ///
  /// Using a [SliderTheme] gives more fine-grained control over the
  /// appearance of various components of the slider.
  final Color inactiveColor;

  /// The callback used to create a semantic value from the slider's values.
  ///
  /// Defaults to formatting values as a percentage.
  ///
  /// This is used by accessibility frameworks like TalkBack on Android to
  /// inform users what the currently selected value is with more context.
  ///
  /// {@tool sample}
  ///
  /// In the example below, a slider for currency values is configured to
  /// announce a value with a currency label.
  ///
  /// ```dart
  /// RangeSlider(
  ///   values: _dollarsRange,
  ///   min: 20.0,
  ///   max: 330.0,
  ///   onChanged: (RangeValues newValues) {
  ///     setState(() {
  ///       _dollarsRange = newValues;
  ///     });
  ///   },
  ///   semanticFormatterCallback: (RangeValues rangeValues) {
  ///     return '${rangeValues.start.round()} - ${rangeValues.end.round()} dollars';
  ///   }
  ///  )
  /// ```
  /// {@end-tool}
  final RangeSemanticFormatterCallback semanticFormatterCallback;

  // Touch width for the tap boundary of the slider thumbs.
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  static const double _minTouchTargetWidth = kMinInteractiveDimension;
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  @override
  _RangeSliderState createState() => _RangeSliderState();
}

class _RangeSliderState extends State<RangeSlider> with TickerProviderStateMixin {
  static const Duration enableAnimationDuration = Duration(milliseconds: 75);
  static const Duration valueIndicatorAnimationDuration = Duration(milliseconds: 100);

  // Animation controller that is run when the overlay (a.k.a radial reaction)
  // changes visibility in response to user interaction.
  AnimationController overlayController;

  // Animation controller that is run when the value indicators change visibility.
  AnimationController valueIndicatorController;

  // Animation controller that is run when enabling/disabling the slider.
  AnimationController enableController;

  // Animation controllers that are run when transitioning between one value
  // and the next on a discrete slider.
  AnimationController startPositionController;
  AnimationController endPositionController;
  Timer interactionTimer;

  @override
  void initState() {
    super.initState();
    overlayController = AnimationController(
      duration: kRadialReactionDuration,
      vsync: this,
    );
    valueIndicatorController = AnimationController(
      duration: valueIndicatorAnimationDuration,
      vsync: this,
    );
    enableController = AnimationController(
      duration: enableAnimationDuration,
      vsync: this,
      value: widget.onChanged != null ? 1.0 : 0.0
    );
    startPositionController = AnimationController(
      duration: Duration.zero,
      vsync: this,
      value: _unlerp(widget.values.start)
    );
    endPositionController = AnimationController(
      duration: Duration.zero,
      vsync: this,
      value: _unlerp(widget.values.end)
    );
  }

  @override
  void didUpdateWidget(RangeSlider oldWidget) {
    super.didUpdateWidget(oldWidget);
    if (oldWidget.onChanged == widget.onChanged)
      return;
    final bool wasEnabled = oldWidget.onChanged != null;
    final bool isEnabled = widget.onChanged != null;
    if (wasEnabled != isEnabled) {
      if (isEnabled) {
        enableController.forward();
      } else {
        enableController.reverse();
      }
    }
  }

  @override
  void dispose() {
    interactionTimer?.cancel();
    overlayController.dispose();
    valueIndicatorController.dispose();
    enableController.dispose();
    startPositionController.dispose();
    endPositionController.dispose();
    super.dispose();
  }

  void _handleChanged(RangeValues values) {
    assert(widget.onChanged != null);
    final RangeValues lerpValues = _lerpRangeValues(values);
    if (lerpValues != widget.values) {
      widget.onChanged(lerpValues);
    }
  }

  void _handleDragStart(RangeValues values) {
    assert(widget.onChangeStart != null);
    widget.onChangeStart(_lerpRangeValues(values));
  }

  void _handleDragEnd(RangeValues values) {
    assert(widget.onChangeEnd != null);
    widget.onChangeEnd(_lerpRangeValues(values));
  }

  // Returns a number between min and max, proportional to value, which must
  // be between 0.0 and 1.0.
  double _lerp(double value) => ui.lerpDouble(widget.min, widget.max, value);

  // Returns a new range value with the start and end lerped.
  RangeValues _lerpRangeValues(RangeValues values) {
    return RangeValues(_lerp(values.start), _lerp(values.end));
  }

  // Returns a number between 0.0 and 1.0, given a value between min and max.
  double _unlerp(double value) {
    assert(value <= widget.max);
    assert(value >= widget.min);
    return widget.max > widget.min ? (value - widget.min) / (widget.max - widget.min) : 0.0;
  }

  // Returns a new range value with the start and end unlerped.
  RangeValues _unlerpRangeValues(RangeValues values) {
    return RangeValues(_unlerp(values.start), _unlerp(values.end));
  }

  // Finds closest thumb. If the thumbs are close to each other, no thumb is
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  // immediately selected while the drag displacement is zero. If the first
  // non-zero displacement is negative, then the left thumb is selected, and if its
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  // positive, then the right thumb is selected.
  static final RangeThumbSelector _defaultRangeThumbSelector = (
      TextDirection textDirection,
      RangeValues values,
      double tapValue,
      Size thumbSize,
      Size trackSize,
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      double dx, // The horizontal delta or displacement of the drag update.
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    ) {
    final double touchRadius = math.max(thumbSize.width, RangeSlider._minTouchTargetWidth) / 2;
    final bool inStartTouchTarget = (tapValue - values.start).abs() * trackSize.width < touchRadius;
    final bool inEndTouchTarget = (tapValue - values.end).abs() * trackSize.width < touchRadius;

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    // Use dx if the thumb touch targets overlap. If dx is 0 and the drag
    // position is in both touch targets, no thumb is selected because it is
    // ambiguous to which thumb should be selected. If the dx is non-zero, the
    // thumb selection is determined by the direction of the dx. The left thumb
    // is chosen for negative dx, and the right thumb is chosen for positive dx.
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    if (inStartTouchTarget && inEndTouchTarget) {
      bool towardsStart;
      bool towardsEnd;
      switch (textDirection) {
        case TextDirection.ltr:
          towardsStart = dx < 0;
          towardsEnd = dx > 0;
          break;
        case TextDirection.rtl:
          towardsStart = dx > 0;
          towardsEnd = dx < 0;
          break;
      }
      if (towardsStart)
        return Thumb.start;
      if (towardsEnd)
        return Thumb.end;
    } else {
      // Snap position on the track if its in the inactive range.
      if (tapValue < values.start || inStartTouchTarget)
        return Thumb.start;
      if (tapValue > values.end || inEndTouchTarget)
        return Thumb.end;
    }
    return null;
  };

  static const double _defaultTrackHeight = 2;
  static const RangeSliderTrackShape _defaultTrackShape = RoundedRectRangeSliderTrackShape();
  static const RangeSliderTickMarkShape _defaultTickMarkShape = RoundRangeSliderTickMarkShape();
  static const SliderComponentShape _defaultOverlayShape = RoundSliderOverlayShape();
  static const RangeSliderThumbShape _defaultThumbShape = RoundRangeSliderThumbShape();
  static const RangeSliderValueIndicatorShape _defaultValueIndicatorShape = PaddleRangeSliderValueIndicatorShape();
  static const ShowValueIndicator _defaultShowValueIndicator = ShowValueIndicator.onlyForDiscrete;
  static const double _defaultMinThumbSeparation = 8;

  @override
  Widget build(BuildContext context) {
    assert(debugCheckHasMaterial(context));
    assert(debugCheckHasMediaQuery(context));

    final ThemeData theme = Theme.of(context);
    SliderThemeData sliderTheme = SliderTheme.of(context);

    // If the widget has active or inactive colors specified, then we plug them
    // in to the slider theme as best we can. If the developer wants more
    // control than that, then they need to use a SliderTheme. The default
    // colors come from the ThemeData.colorScheme. These colors, along with
    // the default shapes and text styles are aligned to the Material
    // Guidelines.
    sliderTheme = sliderTheme.copyWith(
      trackHeight: sliderTheme.trackHeight ?? _defaultTrackHeight,
      activeTrackColor: widget.activeColor ?? sliderTheme.activeTrackColor ?? theme.colorScheme.primary,
      inactiveTrackColor: widget.inactiveColor ?? sliderTheme.inactiveTrackColor ?? theme.colorScheme.primary.withOpacity(0.24),
      disabledActiveTrackColor: sliderTheme.disabledActiveTrackColor ?? theme.colorScheme.onSurface.withOpacity(0.32),
      disabledInactiveTrackColor: sliderTheme.disabledInactiveTrackColor ?? theme.colorScheme.onSurface.withOpacity(0.12),
      activeTickMarkColor: widget.inactiveColor ?? sliderTheme.activeTickMarkColor ?? theme.colorScheme.onPrimary.withOpacity(0.54),
      inactiveTickMarkColor: widget.activeColor ?? sliderTheme.inactiveTickMarkColor ?? theme.colorScheme.primary.withOpacity(0.54),
      disabledActiveTickMarkColor: sliderTheme.disabledActiveTickMarkColor ?? theme.colorScheme.onPrimary.withOpacity(0.12),
      disabledInactiveTickMarkColor: sliderTheme.disabledInactiveTickMarkColor ?? theme.colorScheme.onSurface.withOpacity(0.12),
      thumbColor: widget.activeColor ?? sliderTheme.thumbColor ?? theme.colorScheme.primary,
      overlappingShapeStrokeColor: sliderTheme.overlappingShapeStrokeColor ?? theme.colorScheme.surface,
      disabledThumbColor: sliderTheme.disabledThumbColor ?? theme.colorScheme.onSurface.withOpacity(0.38),
      overlayColor: widget.activeColor?.withOpacity(0.12) ?? sliderTheme.overlayColor ?? theme.colorScheme.primary.withOpacity(0.12),
      valueIndicatorColor: widget.activeColor ?? sliderTheme.valueIndicatorColor ?? theme.colorScheme.primary,
      rangeTrackShape: sliderTheme.rangeTrackShape ?? _defaultTrackShape,
      rangeTickMarkShape: sliderTheme.rangeTickMarkShape ?? _defaultTickMarkShape,
      rangeThumbShape: sliderTheme.rangeThumbShape ?? _defaultThumbShape,
      overlayShape: sliderTheme.overlayShape ?? _defaultOverlayShape,
      rangeValueIndicatorShape: sliderTheme.rangeValueIndicatorShape ?? _defaultValueIndicatorShape,
      showValueIndicator: sliderTheme.showValueIndicator ?? _defaultShowValueIndicator,
      valueIndicatorTextStyle: sliderTheme.valueIndicatorTextStyle ?? theme.textTheme.body2.copyWith(
        color: theme.colorScheme.onPrimary,
      ),
      minThumbSeparation: sliderTheme.minThumbSeparation ?? _defaultMinThumbSeparation,
      thumbSelector: sliderTheme.thumbSelector ?? _defaultRangeThumbSelector,
    );

    return _RangeSliderRenderObjectWidget(
      values: _unlerpRangeValues(widget.values),
      divisions: widget.divisions,
      labels: widget.labels,
      sliderTheme: sliderTheme,
      textScaleFactor: MediaQuery.of(context).textScaleFactor,
      onChanged: (widget.onChanged != null) && (widget.max > widget.min) ? _handleChanged : null,
      onChangeStart: widget.onChangeStart != null ? _handleDragStart : null,
      onChangeEnd: widget.onChangeEnd != null ? _handleDragEnd : null,
      state: this,
      semanticFormatterCallback: widget.semanticFormatterCallback,
    );
  }
}

class _RangeSliderRenderObjectWidget extends LeafRenderObjectWidget {
  const _RangeSliderRenderObjectWidget({
    Key key,
    this.values,
    this.divisions,
    this.labels,
    this.sliderTheme,
    this.textScaleFactor,
    this.onChanged,
    this.onChangeStart,
    this.onChangeEnd,
    this.state,
    this.semanticFormatterCallback,
  }) : super(key: key);

  final RangeValues values;
  final int divisions;
  final RangeLabels labels;
  final SliderThemeData sliderTheme;
  final double textScaleFactor;
  final ValueChanged<RangeValues> onChanged;
  final ValueChanged<RangeValues> onChangeStart;
  final ValueChanged<RangeValues> onChangeEnd;
  final RangeSemanticFormatterCallback semanticFormatterCallback;
  final _RangeSliderState state;

  @override
  _RenderRangeSlider createRenderObject(BuildContext context) {
    return _RenderRangeSlider(
      values: values,
      divisions: divisions,
      labels: labels,
      sliderTheme: sliderTheme,
      theme: Theme.of(context),
      textScaleFactor: textScaleFactor,
      onChanged: onChanged,
      onChangeStart: onChangeStart,
      onChangeEnd: onChangeEnd,
      state: state,
      textDirection: Directionality.of(context),
      semanticFormatterCallback: semanticFormatterCallback,
      platform: Theme.of(context).platform,
    );
  }

  @override
  void updateRenderObject(BuildContext context, _RenderRangeSlider renderObject) {
    renderObject
      ..values = values
      ..divisions = divisions
      ..labels = labels
      ..sliderTheme = sliderTheme
      ..theme = Theme.of(context)
      ..textScaleFactor = textScaleFactor
      ..onChanged = onChanged
      ..onChangeStart = onChangeStart
      ..onChangeEnd = onChangeEnd
      ..textDirection = Directionality.of(context)
      ..semanticFormatterCallback = semanticFormatterCallback
      ..platform = Theme.of(context).platform;
  }
}

class _RenderRangeSlider extends RenderBox {
  _RenderRangeSlider({
    @required RangeValues values,
    int divisions,
    RangeLabels labels,
    SliderThemeData sliderTheme,
    ThemeData theme,
    double textScaleFactor,
    TargetPlatform platform,
    ValueChanged<RangeValues> onChanged,
    RangeSemanticFormatterCallback semanticFormatterCallback,
    this.onChangeStart,
    this.onChangeEnd,
    @required _RangeSliderState state,
    @required TextDirection textDirection,
  })  : assert(values != null),
        assert(values.start >= 0.0 && values.start <= 1.0),
        assert(values.end >= 0.0 && values.end <= 1.0),
        assert(state != null),
        assert(textDirection != null),
        _platform = platform,
        _semanticFormatterCallback = semanticFormatterCallback,
        _labels = labels,
        _values = values,
        _divisions = divisions,
        _sliderTheme = sliderTheme,
        _theme = theme,
        _textScaleFactor = textScaleFactor,
        _onChanged = onChanged,
        _state = state,
        _textDirection = textDirection {
    _updateLabelPainters();
    final GestureArenaTeam team = GestureArenaTeam();
    _drag = HorizontalDragGestureRecognizer()
      ..team = team
      ..onStart = _handleDragStart
      ..onUpdate = _handleDragUpdate
      ..onEnd = _handleDragEnd
      ..onCancel = _handleDragCancel;
    _tap = TapGestureRecognizer()
      ..team = team
      ..onTapDown = _handleTapDown
      ..onTapUp = _handleTapUp
      ..onTapCancel = _handleTapCancel;
    _overlayAnimation = CurvedAnimation(
      parent: _state.overlayController,
      curve: Curves.fastOutSlowIn,
    );
    _valueIndicatorAnimation = CurvedAnimation(
      parent: _state.valueIndicatorController,
      curve: Curves.fastOutSlowIn,
    );
    _enableAnimation = CurvedAnimation(
      parent: _state.enableController,
      curve: Curves.easeInOut,
    );
  }

  // Keep track of the last selected thumb so they can be drawn in the
  // right order.
  Thumb _lastThumbSelection;

  static const Duration _positionAnimationDuration = Duration(milliseconds: 75);

  // This value is the touch target, 48, multiplied by 3.
  static const double _minPreferredTrackWidth = 144.0;

  // Compute the largest width and height needed to paint the slider shapes,
  // other than the track shape. It is assumed that these shapes are vertically
  // centered on the track.
  double get _maxSliderPartWidth => _sliderPartSizes.map((Size size) => size.width).reduce(math.max);
  double get _maxSliderPartHeight => _sliderPartSizes.map((Size size) => size.height).reduce(math.max);
  List<Size> get _sliderPartSizes => <Size>[
    _sliderTheme.overlayShape.getPreferredSize(isEnabled, isDiscrete),
    _sliderTheme.rangeThumbShape.getPreferredSize(isEnabled, isDiscrete),
    _sliderTheme.rangeTickMarkShape.getPreferredSize(isEnabled: isEnabled, sliderTheme: sliderTheme),
  ];
  double get _minPreferredTrackHeight => _sliderTheme.trackHeight;

  // This rect is used in gesture calculations, where the gesture coordinates
  // are relative to the sliders origin. Therefore, the offset is passed as
  // (0,0).
  Rect get _trackRect => _sliderTheme.rangeTrackShape.getPreferredRect(
    parentBox: this,
    offset: Offset.zero,
    sliderTheme: _sliderTheme,
    isDiscrete: false,
  );

  static const Duration _minimumInteractionTime = Duration(milliseconds: 500);

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  final _RangeSliderState _state;
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  Animation<double> _overlayAnimation;
  Animation<double> _valueIndicatorAnimation;
  Animation<double> _enableAnimation;
  final TextPainter _startLabelPainter = TextPainter();
  final TextPainter _endLabelPainter = TextPainter();
  HorizontalDragGestureRecognizer _drag;
  TapGestureRecognizer _tap;
  bool _active = false;
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  RangeValues _newValues;
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  bool get isEnabled => onChanged != null;

  bool get isDiscrete => divisions != null && divisions > 0;

  RangeValues get values => _values;
  RangeValues _values;
  set values(RangeValues newValues) {
    assert(newValues != null);
    assert(newValues.start != null && newValues.start >= 0.0 && newValues.start <= 1.0);
    assert(newValues.end != null && newValues.end >= 0.0 && newValues.end <= 1.0);
    assert(newValues.start <= newValues.end);
    final RangeValues convertedValues = isDiscrete ? _discretizeRangeValues(newValues) : newValues;
    if (convertedValues == _values) {
      return;
    }
    _values = convertedValues;
    if (isDiscrete) {
      // Reset the duration to match the distance that we're traveling, so that
      // whatever the distance, we still do it in _positionAnimationDuration,
      // and if we get re-targeted in the middle, it still takes that long to
      // get to the new location.
      final double startDistance = (_values.start -  _state.startPositionController.value).abs();
      _state.startPositionController.duration = startDistance != 0.0 ? _positionAnimationDuration * (1.0 / startDistance) : Duration.zero;
      _state.startPositionController.animateTo(_values.start, curve: Curves.easeInOut);
      final double endDistance = (_values.end -  _state.endPositionController.value).abs();
      _state.endPositionController.duration = endDistance != 0.0 ? _positionAnimationDuration * (1.0 / endDistance) : Duration.zero;
      _state.endPositionController.animateTo(_values.end, curve: Curves.easeInOut);
    } else {
      _state.startPositionController.value = convertedValues.start;
      _state.endPositionController.value = convertedValues.end;
    }
    markNeedsSemanticsUpdate();
  }

  TargetPlatform _platform;
  TargetPlatform get platform => _platform;
  set platform(TargetPlatform value) {
    if (_platform == value)
      return;
    _platform = value;
    markNeedsSemanticsUpdate();
  }

  RangeSemanticFormatterCallback _semanticFormatterCallback;
  RangeSemanticFormatterCallback get semanticFormatterCallback => _semanticFormatterCallback;
  set semanticFormatterCallback(RangeSemanticFormatterCallback value) {
    if (_semanticFormatterCallback == value)
      return;
    _semanticFormatterCallback = value;
    markNeedsSemanticsUpdate();
  }

  int get divisions => _divisions;
  int _divisions;
  set divisions(int value) {
    if (value == _divisions) {
      return;
    }
    _divisions = value;
    markNeedsPaint();
  }

  RangeLabels get labels => _labels;
  RangeLabels _labels;
  set labels(RangeLabels labels) {
    if (labels == _labels)
      return;
    _labels = labels;
    _updateLabelPainters();
  }

  SliderThemeData get sliderTheme => _sliderTheme;
  SliderThemeData _sliderTheme;
  set sliderTheme(SliderThemeData value) {
    if (value == _sliderTheme)
      return;
    _sliderTheme = value;
    markNeedsPaint();
  }

  ThemeData get theme => _theme;
  ThemeData _theme;
  set theme(ThemeData value) {
    if (value == _theme)
      return;
    _theme = value;
    markNeedsPaint();
  }

  double get textScaleFactor => _textScaleFactor;
  double _textScaleFactor;
  set textScaleFactor(double value) {
    if (value == _textScaleFactor)
      return;
    _textScaleFactor = value;
    _updateLabelPainters();
  }

  ValueChanged<RangeValues> get onChanged => _onChanged;
  ValueChanged<RangeValues> _onChanged;
  set onChanged(ValueChanged<RangeValues> value) {
    if (value == _onChanged)
      return;
    final bool wasEnabled = isEnabled;
    _onChanged = value;
    if (wasEnabled != isEnabled) {
      markNeedsPaint();
      markNeedsSemanticsUpdate();
    }
  }

  ValueChanged<RangeValues> onChangeStart;
  ValueChanged<RangeValues> onChangeEnd;

  TextDirection get textDirection => _textDirection;
  TextDirection _textDirection;
  set textDirection(TextDirection value) {
    assert(value != null);
    if (value == _textDirection)
      return;
    _textDirection = value;
    _updateLabelPainters();
  }

  bool get showValueIndicator {
    bool showValueIndicator;
    switch (_sliderTheme.showValueIndicator) {
      case ShowValueIndicator.onlyForDiscrete:
        showValueIndicator = isDiscrete;
        break;
      case ShowValueIndicator.onlyForContinuous:
        showValueIndicator = !isDiscrete;
        break;
      case ShowValueIndicator.always:
        showValueIndicator = true;
        break;
      case ShowValueIndicator.never:
        showValueIndicator = false;
        break;
    }
    return showValueIndicator;
  }

  Size get _thumbSize => _sliderTheme.rangeThumbShape.getPreferredSize(isEnabled, isDiscrete);

  double get _adjustmentUnit {
    switch (_platform) {
      case TargetPlatform.iOS:
        // Matches iOS implementation of material slider.
        return 0.1;
      case TargetPlatform.android:
      case TargetPlatform.fuchsia:
      default:
        // Matches Android implementation of material slider.
        return 0.05;
    }
  }

  void _updateLabelPainters() {
    _updateLabelPainter(Thumb.start);
    _updateLabelPainter(Thumb.end);
  }

  void _updateLabelPainter(Thumb thumb) {
    if (labels == null)
      return;

    String text;
    TextPainter labelPainter;
    switch (thumb) {
      case Thumb.start:
        text = labels.start;
        labelPainter = _startLabelPainter;
        break;
      case Thumb.end:
        text = labels.end;
        labelPainter = _endLabelPainter;
        break;
    }

    if (labels != null) {
      labelPainter
        ..text = TextSpan(
          style: _sliderTheme.valueIndicatorTextStyle,
          text: text,
        )
        ..textDirection = textDirection
        ..textScaleFactor = textScaleFactor
        ..layout();
    } else {
      labelPainter.text = null;
    }
    // Changing the textDirection can result in the layout changing, because the
    // bidi algorithm might line up the glyphs differently which can result in
    // different ligatures, different shapes, etc. So we always markNeedsLayout.
    markNeedsLayout();
  }

  @override
  void attach(PipelineOwner owner) {
    super.attach(owner);
    _overlayAnimation.addListener(markNeedsPaint);
    _valueIndicatorAnimation.addListener(markNeedsPaint);
    _enableAnimation.addListener(markNeedsPaint);
    _state.startPositionController.addListener(markNeedsPaint);
    _state.endPositionController.addListener(markNeedsPaint);
  }

  @override
  void detach() {
    _overlayAnimation.removeListener(markNeedsPaint);
    _valueIndicatorAnimation.removeListener(markNeedsPaint);
    _enableAnimation.removeListener(markNeedsPaint);
    _state.startPositionController.removeListener(markNeedsPaint);
    _state.endPositionController.removeListener(markNeedsPaint);
    super.detach();
  }

  double _getValueFromVisualPosition(double visualPosition) {
    switch (textDirection) {
      case TextDirection.rtl:
        return 1.0 - visualPosition;
      case TextDirection.ltr:
        return visualPosition;
    }
    return null;
  }

  double _getValueFromGlobalPosition(Offset globalPosition) {
    final double visualPosition = (globalToLocal(globalPosition).dx - _trackRect.left) / _trackRect.width;
    return _getValueFromVisualPosition(visualPosition);
  }

  double _discretize(double value) {
    double result = value.clamp(0.0, 1.0);
    if (isDiscrete) {
      result = (result * divisions).round() / divisions;
    }
    return result;
  }

  RangeValues _discretizeRangeValues(RangeValues values) {
    return RangeValues(_discretize(values.start), _discretize(values.end));
  }

  void _startInteraction(Offset globalPosition) {
    final double tapValue = _getValueFromGlobalPosition(globalPosition).clamp(0.0, 1.0);
    _lastThumbSelection = sliderTheme.thumbSelector(textDirection, values, tapValue, _thumbSize, size, 0);

    if (_lastThumbSelection != null) {
      _active = true;
      // We supply the *current* values as the start locations, so that if we have
      // a tap, it consists of a call to onChangeStart with the previous value and
      // a call to onChangeEnd with the new value.
      final RangeValues currentValues = _discretizeRangeValues(values);
      if (_lastThumbSelection == Thumb.start) {
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        _newValues = RangeValues(tapValue, currentValues.end);
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      } else if (_lastThumbSelection == Thumb.end) {
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        _newValues = RangeValues(currentValues.start, tapValue);
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      }
      _updateLabelPainter(_lastThumbSelection);

      if (onChangeStart != null) {
        onChangeStart(currentValues);
      }

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      onChanged(_discretizeRangeValues(_newValues));
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      _state.overlayController.forward();
      if (showValueIndicator) {
        _state.valueIndicatorController.forward();
        _state.interactionTimer?.cancel();
        _state.interactionTimer =
          Timer(_minimumInteractionTime * timeDilation, () {
            _state.interactionTimer = null;
            if (!_active && _state.valueIndicatorController.status == AnimationStatus.completed) {
              _state.valueIndicatorController.reverse();
            }
          });
      }
    }
  }

  void _handleDragUpdate(DragUpdateDetails details) {
    final double dragValue = _getValueFromGlobalPosition(details.globalPosition);

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    // If no selection has been made yet, test for thumb selection again now
    // that the value of dx can be non-zero. If this is the first selection of
    // the interaction, then onChangeStart must be called.
    bool shouldCallOnChangeStart = false;
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    if (_lastThumbSelection == null) {
      _lastThumbSelection = sliderTheme.thumbSelector(textDirection, values, dragValue, _thumbSize, size, details.delta.dx);
      if (_lastThumbSelection != null) {
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        shouldCallOnChangeStart = true;
        _active = true;
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        _state.overlayController.forward();
        if (showValueIndicator) {
          _state.valueIndicatorController.forward();
        }
      }
    }

    if (isEnabled && _lastThumbSelection != null) {
      final RangeValues currentValues = _discretizeRangeValues(values);
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      if (onChangeStart != null && shouldCallOnChangeStart) {
        onChangeStart(currentValues);
      }
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      final double currentDragValue = _discretize(dragValue);

      final double minThumbSeparationValue = isDiscrete ? 0 : sliderTheme.minThumbSeparation / _trackRect.width;
      if (_lastThumbSelection == Thumb.start) {
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        _newValues = RangeValues(math.min(currentDragValue, currentValues.end - minThumbSeparationValue), currentValues.end);
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      } else if (_lastThumbSelection == Thumb.end) {
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        _newValues = RangeValues(currentValues.start, math.max(currentDragValue, currentValues.start + minThumbSeparationValue));
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      }
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      onChanged(_newValues);
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    }
  }

  void _endInteraction() {
    _state.overlayController.reverse();
    if (showValueIndicator && _state.interactionTimer == null) {
      _state.valueIndicatorController.reverse();
    }

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    if (_active && _state.mounted && _lastThumbSelection != null) {
      final RangeValues discreteValues = _discretizeRangeValues(_newValues);
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      if (onChangeEnd != null) {
        onChangeEnd(discreteValues);
      }
      _active = false;
    }
  }

  void _handleDragStart(DragStartDetails details) {
    _startInteraction(details.globalPosition);
  }

  void _handleDragEnd(DragEndDetails details) {
    _endInteraction();
  }

  void _handleDragCancel() {
    _endInteraction();
  }

  void _handleTapDown(TapDownDetails details) {
    _startInteraction(details.globalPosition);
  }

  void _handleTapUp(TapUpDetails details) {
    _endInteraction();
  }

  void _handleTapCancel() {
    _endInteraction();
  }

  @override
  bool hitTestSelf(Offset position) => true;

  @override
  void handleEvent(PointerEvent event, HitTestEntry entry) {
    assert(debugHandleEvent(event, entry));
    if (event is PointerDownEvent && isEnabled) {
      // We need to add the drag first so that it has priority.
      _drag.addPointer(event);
      _tap.addPointer(event);
    }
  }

  @override
  double computeMinIntrinsicWidth(double height) => _minPreferredTrackWidth + _maxSliderPartWidth;

  @override
  double computeMaxIntrinsicWidth(double height) => _minPreferredTrackWidth + _maxSliderPartWidth;

  @override
  double computeMinIntrinsicHeight(double width) => math.max(_minPreferredTrackHeight, _maxSliderPartHeight);

  @override
  double computeMaxIntrinsicHeight(double width) => math.max(_minPreferredTrackHeight, _maxSliderPartHeight);

  @override
  bool get sizedByParent => true;

  @override
  void performResize() {
    size = Size(
      constraints.hasBoundedWidth ? constraints.maxWidth : _minPreferredTrackWidth + _maxSliderPartWidth,
      constraints.hasBoundedHeight ? constraints.maxHeight : math.max(_minPreferredTrackHeight, _maxSliderPartHeight),
    );
  }

  @override
  void paint(PaintingContext context, Offset offset) {
    final double startValue = _state.startPositionController.value;
    final double endValue = _state.endPositionController.value;

    // The visual position is the position of the thumb from 0 to 1 from left
    // to right. In left to right, this is the same as the value, but it is
    // reversed for right to left text.
    double startVisualPosition;
    double endVisualPosition;
    switch (textDirection) {
      case TextDirection.rtl:
        startVisualPosition = 1.0 - startValue;
        endVisualPosition = 1.0 - endValue;
        break;
      case TextDirection.ltr:
        startVisualPosition = startValue;
        endVisualPosition = endValue;
        break;
    }

    final Rect trackRect = _sliderTheme.rangeTrackShape.getPreferredRect(
        parentBox: this,
        offset: offset,
        sliderTheme: _sliderTheme,
        isDiscrete: isDiscrete
    );
    final Offset startThumbCenter = Offset(trackRect.left + startVisualPosition * trackRect.width, trackRect.center.dy);
    final Offset endThumbCenter = Offset(trackRect.left + endVisualPosition * trackRect.width, trackRect.center.dy);

    _sliderTheme.rangeTrackShape.paint(
        context,
        offset,
        parentBox: this,
        sliderTheme: _sliderTheme,
        enableAnimation: _enableAnimation,
        textDirection: _textDirection,
        startThumbCenter: startThumbCenter,
        endThumbCenter: endThumbCenter,
        isDiscrete: isDiscrete,
        isEnabled: isEnabled
    );

    if (!_overlayAnimation.isDismissed) {
      if (_lastThumbSelection == Thumb.start) {
        _sliderTheme.overlayShape.paint(
          context,
          startThumbCenter,
          activationAnimation: _overlayAnimation,
          enableAnimation: _enableAnimation,
          isDiscrete: isDiscrete,
          labelPainter: _startLabelPainter,
          parentBox: this,
          sliderTheme: _sliderTheme,
          textDirection: _textDirection,
          value: startValue,
        );
      }
      if (_lastThumbSelection == Thumb.end) {
        _sliderTheme.overlayShape.paint(
          context,
          endThumbCenter,
          activationAnimation: _overlayAnimation,
          enableAnimation: _enableAnimation,
          isDiscrete: isDiscrete,
          labelPainter: _endLabelPainter,
          parentBox: this,
          sliderTheme: _sliderTheme,
          textDirection: _textDirection,
          value: endValue,
        );
      }
    }

    if (isDiscrete) {
      final double tickMarkWidth = _sliderTheme.rangeTickMarkShape.getPreferredSize(
        isEnabled: isEnabled,
        sliderTheme: _sliderTheme,
      ).width;
      final double adjustedTrackWidth = trackRect.width - tickMarkWidth;
      // If the tick marks would be too dense, don't bother painting them.
      if (adjustedTrackWidth / divisions >= 3.0 * tickMarkWidth) {
        final double dy = trackRect.center.dy;
        for (int i = 0; i <= divisions; i++) {
          final double value = i / divisions;
          // The ticks are mapped to be within the track, so the tick mark width
          // must be subtracted from the track width.
          final double dx = trackRect.left + value * adjustedTrackWidth + tickMarkWidth / 2;
          final Offset tickMarkOffset = Offset(dx, dy);
          _sliderTheme.rangeTickMarkShape.paint(
            context,
            tickMarkOffset,
            parentBox: this,
            sliderTheme: _sliderTheme,
            enableAnimation: _enableAnimation,
            textDirection: _textDirection,
            startThumbCenter: startThumbCenter,
            endThumbCenter: endThumbCenter,
            isEnabled: isEnabled,
          );
        }
      }
    }

    final double thumbDelta = (endThumbCenter.dx - startThumbCenter.dx).abs();

    final bool isLastThumbStart = _lastThumbSelection == Thumb.start;
    final Thumb bottomThumb = isLastThumbStart ? Thumb.end : Thumb.start;
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    final Thumb topThumb = isLastThumbStart ? Thumb.start : Thumb.end;
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    final Offset bottomThumbCenter = isLastThumbStart ? endThumbCenter : startThumbCenter;
    final Offset topThumbCenter = isLastThumbStart ? startThumbCenter : endThumbCenter;
    final TextPainter bottomLabelPainter = isLastThumbStart ? _endLabelPainter : _startLabelPainter;
    final TextPainter topLabelPainter = isLastThumbStart ? _startLabelPainter : _endLabelPainter;
    final double bottomValue = isLastThumbStart ? endValue : startValue;
    final double topValue = isLastThumbStart ? startValue : endValue;
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    final bool shouldPaintValueIndicators = isEnabled && labels != null && !_valueIndicatorAnimation.isDismissed && showValueIndicator;
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    if (shouldPaintValueIndicators) {
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      _sliderTheme.rangeValueIndicatorShape.paint(
        context,
        bottomThumbCenter,
        activationAnimation: _valueIndicatorAnimation,
        enableAnimation: _enableAnimation,
        isDiscrete: isDiscrete,
        isOnTop: false,
        labelPainter: bottomLabelPainter,
        parentBox: this,
        sliderTheme: _sliderTheme,
        textDirection: _textDirection,
        thumb: bottomThumb,
        value: bottomValue,
      );
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    }

    _sliderTheme.rangeThumbShape.paint(
      context,
      bottomThumbCenter,
      activationAnimation: _valueIndicatorAnimation,
      enableAnimation: _enableAnimation,
      isDiscrete: isDiscrete,
      isOnTop: false,
      textDirection: textDirection,
      sliderTheme: _sliderTheme,
      thumb: bottomThumb,
    );

    if (shouldPaintValueIndicators) {
      final double startOffset = sliderTheme.rangeValueIndicatorShape.getHorizontalShift(
        parentBox: this,
        center: startThumbCenter,
        labelPainter: _startLabelPainter,
        activationAnimation: _valueIndicatorAnimation,
      );
      final double endOffset = sliderTheme.rangeValueIndicatorShape.getHorizontalShift(
        parentBox: this,
        center: endThumbCenter,
        labelPainter: _endLabelPainter,
        activationAnimation: _valueIndicatorAnimation,
      );
      final double startHalfWidth = sliderTheme.rangeValueIndicatorShape.getPreferredSize(isEnabled, isDiscrete, labelPainter: _startLabelPainter).width / 2;
      final double endHalfWidth = sliderTheme.rangeValueIndicatorShape.getPreferredSize(isEnabled, isDiscrete, labelPainter: _endLabelPainter).width / 2;
      double innerOverflow = startHalfWidth + endHalfWidth;
      switch (textDirection) {
        case TextDirection.ltr:
          innerOverflow += startOffset;
          innerOverflow -= endOffset;
          break;
        case TextDirection.rtl:
          innerOverflow -= startOffset;
          innerOverflow += endOffset;
          break;
      }

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      _sliderTheme.rangeValueIndicatorShape.paint(
        context,
        topThumbCenter,
        activationAnimation: _valueIndicatorAnimation,
        enableAnimation: _enableAnimation,
        isDiscrete: isDiscrete,
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        isOnTop: thumbDelta < innerOverflow,
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        labelPainter: topLabelPainter,
        parentBox: this,
        sliderTheme: _sliderTheme,
        textDirection: _textDirection,
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        thumb: topThumb,
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        value: topValue,
      );
    }

    _sliderTheme.rangeThumbShape.paint(
      context,
      topThumbCenter,
      activationAnimation: _valueIndicatorAnimation,
      enableAnimation: _enableAnimation,
      isDiscrete: isDiscrete,
      isOnTop: thumbDelta < sliderTheme.rangeThumbShape.getPreferredSize(isEnabled, isDiscrete).width,
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      textDirection: textDirection,
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      sliderTheme: _sliderTheme,
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      thumb: topThumb,
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    );
  }

  @override
  void describeSemanticsConfiguration(SemanticsConfiguration config) {
    super.describeSemanticsConfiguration(config);

    config.isSemanticBoundary = isEnabled;
    if (isEnabled) {
      config.textDirection = textDirection;
      config.customSemanticsActions = <CustomSemanticsAction, VoidCallback>{
        _decreaseStart: _decreaseStartAction,
        _increaseStart: _increaseStartAction,
        _decreaseEnd: _decreaseEndAction,
        _increaseEnd: _increaseEndAction,
      };
      if (semanticFormatterCallback != null) {
        config.value = semanticFormatterCallback(_state._lerpRangeValues(values));
      } else {
        config.value = values.toString();
      }
    }
  }

  final CustomSemanticsAction _decreaseStart = const CustomSemanticsAction(label: 'Decrease Min');
  final CustomSemanticsAction _increaseStart = const CustomSemanticsAction(label: 'Increase Min');
  final CustomSemanticsAction _decreaseEnd = const CustomSemanticsAction(label: 'Decrease Max');
  final CustomSemanticsAction _increaseEnd = const CustomSemanticsAction(label: 'Increase Max');

  double get _semanticActionUnit => divisions != null ? 1.0 / divisions : _adjustmentUnit;

  void _increaseStartAction() {
    if (isEnabled) {
      onChanged(RangeValues(_increaseValue(values.start), values.end));
    }
  }

  void _decreaseStartAction() {
    if (isEnabled) {
      onChanged(RangeValues(_decreaseValue(values.start), values.end));
    }
  }

  void _increaseEndAction() {
    if (isEnabled) {
      onChanged(RangeValues(values.start, _increaseValue(values.end)));
    }
  }

  void _decreaseEndAction() {
    if (isEnabled) {
      onChanged(RangeValues(values.start, _decreaseValue(values.end)));
    }
  }

  double _increaseValue(double value) {
    return (value + _semanticActionUnit).clamp(0.0, 1.0);
  }

  double _decreaseValue(double value) {
    return (value - _semanticActionUnit).clamp(0.0, 1.0);
  }
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}