tsacdop-podcast-app-android/lib/util/duraiton_picker.dart

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//Forked from https://github.com/cdharris/flutter_duration_picker
//Copyright https://github.com/cdharris
//License MIT https://github.com/cdharris/flutter_duration_picker/blob/master/LICENSE
import 'dart:async';
import 'dart:math' as math;
import 'package:flutter/material.dart';
import 'package:flutter/rendering.dart';
import 'package:flutter/services.dart';
import 'package:flutter/widgets.dart';
const Duration _kDialAnimateDuration = const Duration(milliseconds: 200);
const double _kDurationPickerWidthPortrait = 328.0;
const double _kDurationPickerWidthLandscape = 512.0;
const double _kDurationPickerHeightPortrait = 380.0;
const double _kDurationPickerHeightLandscape = 304.0;
const double _kTwoPi = 2 * math.pi;
const double _kPiByTwo = math.pi / 2;
const double _kCircleTop = _kPiByTwo;
class _DialPainter extends CustomPainter {
const _DialPainter({
@required this.context,
@required this.labels,
@required this.backgroundColor,
@required this.accentColor,
@required this.theta,
@required this.textDirection,
@required this.selectedValue,
@required this.pct,
@required this.multiplier,
@required this.secondHand,
});
final List<TextPainter> labels;
final Color backgroundColor;
final Color accentColor;
final double theta;
final TextDirection textDirection;
final int selectedValue;
final BuildContext context;
final double pct;
final int multiplier;
final int secondHand;
@override
void paint(Canvas canvas, Size size) {
const double _epsilon = .001;
const double _sweep = _kTwoPi - _epsilon;
const double _startAngle = -math.pi / 2.0;
final double radius = size.shortestSide / 2.0;
final Offset center = new Offset(size.width / 2.0, size.height / 2.0);
final Offset centerPoint = center;
double pctTheta = (0.25 - (theta % _kTwoPi) / _kTwoPi) % 1.0;
// Draw the background outer ring
canvas.drawCircle(
centerPoint, radius, new Paint()..color = backgroundColor);
// Draw a translucent circle for every hour
for (int i = 0; i < multiplier; i = i + 1) {
canvas.drawCircle(centerPoint, radius,
new Paint()..color = accentColor.withOpacity((i == 0) ? 0.3 : 0.1));
}
// Draw the inner background circle
canvas.drawCircle(centerPoint, radius * 0.88,
new Paint()..color = Theme.of(context).canvasColor);
// Get the offset point for an angle value of theta, and a distance of _radius
Offset getOffsetForTheta(double theta, double _radius) {
return center +
new Offset(_radius * math.cos(theta), -_radius * math.sin(theta));
}
// Draw the handle that is used to drag and to indicate the position around the circle
final Paint handlePaint = new Paint()..color = accentColor;
final Offset handlePoint = getOffsetForTheta(theta, radius - 10.0);
canvas.drawCircle(handlePoint, 20.0, handlePaint);
// Draw the Text in the center of the circle which displays hours and mins
String minutes = (multiplier == 0) ? '' : "${multiplier}min ";
// int minutes = (pctTheta * 60).round();
// minutes = minutes == 60 ? 0 : minutes;
String seconds = "$secondHand";
TextPainter textDurationValuePainter = new TextPainter(
textAlign: TextAlign.center,
text: new TextSpan(
text: '$minutes$seconds',
style: Theme.of(context)
.textTheme
.headline4
.copyWith(fontSize: size.shortestSide * 0.15)),
textDirection: TextDirection.ltr)
..layout();
Offset middleForValueText = new Offset(
centerPoint.dx - (textDurationValuePainter.width / 2),
centerPoint.dy - textDurationValuePainter.height / 2);
textDurationValuePainter.paint(canvas, middleForValueText);
TextPainter textMinPainter = new TextPainter(
textAlign: TextAlign.center,
text: new TextSpan(
text: 'sec', //th: ${theta}',
style: Theme.of(context).textTheme.bodyText1),
textDirection: TextDirection.ltr)
..layout();
textMinPainter.paint(
canvas,
new Offset(
centerPoint.dx - (textMinPainter.width / 2),
centerPoint.dy +
(textDurationValuePainter.height / 2) -
textMinPainter.height / 2));
// Draw an arc around the circle for the amount of the circle that has elapsed.
var elapsedPainter = new Paint()
..style = PaintingStyle.stroke
..strokeCap = StrokeCap.round
..color = accentColor.withOpacity(0.3)
..isAntiAlias = true
..strokeWidth = radius * 0.12;
canvas.drawArc(
new Rect.fromCircle(
center: centerPoint,
radius: radius - radius * 0.12 / 2,
),
_startAngle,
_sweep * pctTheta,
false,
elapsedPainter,
);
// Paint the labels (the minute strings)
void paintLabels(List<TextPainter> labels) {
if (labels == null) return;
final double labelThetaIncrement = -_kTwoPi / labels.length;
double labelTheta = _kPiByTwo;
for (TextPainter label in labels) {
final Offset labelOffset =
new Offset(-label.width / 2.0, -label.height / 2.0);
label.paint(
canvas, getOffsetForTheta(labelTheta, radius - 40.0) + labelOffset);
labelTheta += labelThetaIncrement;
}
}
paintLabels(labels);
}
@override
bool shouldRepaint(_DialPainter oldPainter) {
return oldPainter.labels != labels ||
oldPainter.backgroundColor != backgroundColor ||
oldPainter.accentColor != accentColor ||
oldPainter.theta != theta;
}
}
class _Dial extends StatefulWidget {
const _Dial(
{@required this.duration,
@required this.onChanged,
this.snapToMins = 1.0})
: assert(duration != null);
final Duration duration;
final ValueChanged<Duration> onChanged;
/// The resolution of mins of the dial, i.e. if snapToMins = 5.0, only durations of 5min intervals will be selectable.
final double snapToMins;
@override
_DialState createState() => new _DialState();
}
class _DialState extends State<_Dial> with SingleTickerProviderStateMixin {
@override
void initState() {
super.initState();
_thetaController = new AnimationController(
duration: _kDialAnimateDuration,
vsync: this,
);
_thetaTween =
new Tween<double>(begin: _getThetaForDuration(widget.duration));
_theta = _thetaTween.animate(new CurvedAnimation(
parent: _thetaController, curve: Curves.fastOutSlowIn))
..addListener(() => setState(() {}));
_thetaController.addStatusListener((status) {
// if (status == AnimationStatus.completed && _hours != _snappedHours) {
// _hours = _snappedHours;
if (status == AnimationStatus.completed) {
_minutes = _minuteHand(_turningAngle);
_seconds = _secondHand(_turningAngle);
setState(() {});
}
});
// _hours = widget.duration.inHours;
_turningAngle = _kPiByTwo - widget.duration.inSeconds / 60.0 * _kTwoPi;
_minutes = _minuteHand(_turningAngle);
_seconds = _secondHand(_turningAngle);
}
ThemeData themeData;
MaterialLocalizations localizations;
MediaQueryData media;
@override
void didChangeDependencies() {
super.didChangeDependencies();
assert(debugCheckHasMediaQuery(context));
themeData = Theme.of(context);
localizations = MaterialLocalizations.of(context);
media = MediaQuery.of(context);
}
@override
void dispose() {
_thetaController.dispose();
super.dispose();
}
Tween<double> _thetaTween;
Animation<double> _theta;
AnimationController _thetaController;
double _pct = 0.0;
int _seconds = 0;
bool _dragging = false;
int _minutes = 0;
double _turningAngle = 0.0;
static double _nearest(double target, double a, double b) {
return ((target - a).abs() < (target - b).abs()) ? a : b;
}
void _animateTo(double targetTheta) {
final double currentTheta = _theta.value;
double beginTheta =
_nearest(targetTheta, currentTheta, currentTheta + _kTwoPi);
beginTheta = _nearest(targetTheta, beginTheta, currentTheta - _kTwoPi);
_thetaTween
..begin = beginTheta
..end = targetTheta;
_thetaController
..value = 0.0
..forward();
}
double _getThetaForDuration(Duration duration) {
return (_kPiByTwo - (duration.inSeconds % 60) / 60.0 * _kTwoPi) % _kTwoPi;
}
Duration _getTimeForTheta(double theta) {
return _angleToDuration(_turningAngle);
}
Duration _notifyOnChangedIfNeeded() {
// final Duration current = _getTimeForTheta(_theta.value);
// var d = Duration(hours: _hours, minutes: current.inMinutes % 60);
_minutes = _minuteHand(_turningAngle);
_seconds = _secondHand(_turningAngle);
var d = _angleToDuration(_turningAngle);
widget.onChanged(d);
return d;
}
void _updateThetaForPan() {
setState(() {
final Offset offset = _position - _center;
final double angle =
(math.atan2(offset.dx, offset.dy) - _kPiByTwo) % _kTwoPi;
// Stop accidental abrupt pans from making the dial seem like it starts from 1h.
// (happens when wanting to pan from 0 clockwise, but when doing so quickly, one actually pans from before 0 (e.g. setting the duration to 59mins, and then crossing 0, which would then mean 1h 1min).
if (angle >= _kCircleTop &&
_theta.value <= _kCircleTop &&
_theta.value >= 0.1 && // to allow the radians sign change at 15mins.
_minutes == 0) return;
_thetaTween
..begin = angle
..end = angle;
});
}
Offset _position;
Offset _center;
void _handlePanStart(DragStartDetails details) {
assert(!_dragging);
_dragging = true;
final RenderBox box = context.findRenderObject();
_position = box.globalToLocal(details.globalPosition);
_center = box.size.center(Offset.zero);
//_updateThetaForPan();
_notifyOnChangedIfNeeded();
}
void _handlePanUpdate(DragUpdateDetails details) {
double oldTheta = _theta.value;
_position += details.delta;
_updateThetaForPan();
double newTheta = _theta.value;
// _updateRotations(oldTheta, newTheta);
_updateTurningAngle(oldTheta, newTheta);
_notifyOnChangedIfNeeded();
}
int _minuteHand(double angle) {
return _angleToDuration(angle).inMinutes.toInt();
}
int _secondHand(double angle) {
// Result is in [0; 59], even if overall time is >= 1 hour
return (_angleToSeconds(angle) % 60.0).toInt();
}
Duration _angleToDuration(double angle) {
return _secondToDuration(_angleToSeconds(angle));
}
Duration _secondToDuration(seconds) {
return Duration(
minutes: (seconds ~/ 60).toInt(), seconds: (seconds % 60.0).toInt());
}
double _angleToSeconds(double angle) {
// Coordinate transformation from mathematical COS to dial COS
double dialAngle = _kPiByTwo - angle;
// Turn dial angle into minutes, may go beyond 60 minutes (multiple turns)
return dialAngle / _kTwoPi * 60.0;
}
void _updateTurningAngle(double oldTheta, double newTheta) {
// Register any angle by which the user has turned the dial.
//
// The resulting turning angle fully captures the state of the dial,
// including multiple turns (= full hours). The [_turningAngle] is in
// mathematical coordinate system, i.e. 3-o-clock position being zero, and
// increasing counter clock wise.
// From positive to negative (in mathematical COS)
if (newTheta > 1.5 * math.pi && oldTheta < 0.5 * math.pi) {
_turningAngle = _turningAngle - ((_kTwoPi - newTheta) + oldTheta);
}
// From negative to positive (in mathematical COS)
else if (newTheta < 0.5 * math.pi && oldTheta > 1.5 * math.pi) {
_turningAngle = _turningAngle + ((_kTwoPi - oldTheta) + newTheta);
} else {
_turningAngle = _turningAngle + (newTheta - oldTheta);
}
}
void _handlePanEnd(DragEndDetails details) {
assert(_dragging);
_dragging = false;
_position = null;
_center = null;
//_notifyOnChangedIfNeeded();
//_animateTo(_getThetaForDuration(widget.duration));
}
void _handleTapUp(TapUpDetails details) {
final RenderBox box = context.findRenderObject();
_position = box.globalToLocal(details.globalPosition);
_center = box.size.center(Offset.zero);
_updateThetaForPan();
_notifyOnChangedIfNeeded();
_animateTo(_getThetaForDuration(_getTimeForTheta(_theta.value)));
_dragging = false;
_position = null;
_center = null;
}
List<TextPainter> _buildSeconds(TextTheme textTheme) {
final TextStyle style = textTheme.subtitle1;
const List<Duration> _secondsMarkerValues = const <Duration>[
const Duration(seconds: 0),
const Duration(seconds: 5),
const Duration(seconds: 10),
const Duration(seconds: 15),
const Duration(seconds: 20),
const Duration(seconds: 25),
const Duration(seconds: 30),
const Duration(seconds: 35),
const Duration(seconds: 40),
const Duration(seconds: 45),
const Duration(seconds: 50),
const Duration(seconds: 55),
];
final List<TextPainter> labels = <TextPainter>[];
for (Duration duration in _secondsMarkerValues) {
var painter = new TextPainter(
text: new TextSpan(style: style, text: duration.inSeconds.toString()),
textDirection: TextDirection.ltr,
)..layout();
labels.add(painter);
}
return labels;
}
@override
Widget build(BuildContext context) {
Color backgroundColor;
switch (themeData.brightness) {
case Brightness.light:
backgroundColor = Colors.grey[200];
break;
case Brightness.dark:
backgroundColor = themeData.backgroundColor;
break;
}
final ThemeData theme = Theme.of(context);
int selectedDialValue;
_minutes = _minuteHand(_turningAngle);
_seconds = _secondHand(_turningAngle);
return new GestureDetector(
excludeFromSemantics: true,
onPanStart: _handlePanStart,
onPanUpdate: _handlePanUpdate,
onPanEnd: _handlePanEnd,
onTapUp: _handleTapUp,
child: new CustomPaint(
painter: new _DialPainter(
pct: _pct,
multiplier: _minutes,
secondHand: _seconds,
context: context,
selectedValue: selectedDialValue,
labels: _buildSeconds(theme.textTheme),
backgroundColor: backgroundColor,
accentColor: themeData.accentColor,
theta: _theta.value,
textDirection: Directionality.of(context),
),
));
}
}
/// A duration picker designed to appear inside a popup dialog.
///
/// Pass this widget to [showDialog]. The value returned by [showDialog] is the
/// selected [Duration] if the user taps the "OK" button, or null if the user
/// taps the "CANCEL" button. The selected time is reported by calling
/// [Navigator.pop].
class _DurationPickerDialog extends StatefulWidget {
/// Creates a duration picker.
///
/// [initialTime] must not be null.
const _DurationPickerDialog(
{Key key, @required this.initialTime, this.snapToMins})
: assert(initialTime != null),
super(key: key);
/// The duration initially selected when the dialog is shown.
final Duration initialTime;
final double snapToMins;
@override
_DurationPickerDialogState createState() => new _DurationPickerDialogState();
}
class _DurationPickerDialogState extends State<_DurationPickerDialog> {
@override
void initState() {
super.initState();
_selectedDuration = widget.initialTime;
}
@override
void didChangeDependencies() {
super.didChangeDependencies();
localizations = MaterialLocalizations.of(context);
}
Duration get selectedDuration => _selectedDuration;
Duration _selectedDuration;
MaterialLocalizations localizations;
void _handleTimeChanged(Duration value) {
setState(() {
_selectedDuration = value;
});
}
void _handleCancel() {
Navigator.pop(context);
}
void _handleOk() {
Navigator.pop(context, _selectedDuration);
}
@override
Widget build(BuildContext context) {
assert(debugCheckHasMediaQuery(context));
final ThemeData theme = Theme.of(context);
final Widget picker = new Padding(
padding: const EdgeInsets.all(16.0),
child: new AspectRatio(
aspectRatio: 1.0,
child: new _Dial(
duration: _selectedDuration,
onChanged: _handleTimeChanged,
snapToMins: widget.snapToMins,
)));
final Widget actions = ButtonBar(children: <Widget>[
new FlatButton(
child: new Text(localizations.cancelButtonLabel),
onPressed: _handleCancel),
new FlatButton(
child: new Text(localizations.okButtonLabel), onPressed: _handleOk),
]);
final Dialog dialog = new Dialog(child: new OrientationBuilder(
builder: (BuildContext context, Orientation orientation) {
final Widget pickerAndActions = new Container(
color: theme.dialogBackgroundColor,
child: new Column(
mainAxisSize: MainAxisSize.min,
children: <Widget>[
new Expanded(
child:
picker), // picker grows and shrinks with the available space
actions,
],
),
);
assert(orientation != null);
switch (orientation) {
case Orientation.portrait:
return new SizedBox(
width: _kDurationPickerWidthPortrait,
height: _kDurationPickerHeightPortrait,
child: new Column(
mainAxisSize: MainAxisSize.min,
crossAxisAlignment: CrossAxisAlignment.stretch,
children: <Widget>[
new Expanded(
child: pickerAndActions,
),
]));
case Orientation.landscape:
return new SizedBox(
width: _kDurationPickerWidthLandscape,
height: _kDurationPickerHeightLandscape,
child: new Row(
mainAxisSize: MainAxisSize.min,
crossAxisAlignment: CrossAxisAlignment.stretch,
children: <Widget>[
new Flexible(
child: pickerAndActions,
),
]));
}
return null;
}));
return new Theme(
data: theme.copyWith(
dialogBackgroundColor: Colors.transparent,
),
child: dialog,
);
}
@override
void dispose() {
super.dispose();
}
}
/// Shows a dialog containing the duration picker.
///
/// The returned Future resolves to the duration selected by the user when the user
/// closes the dialog. If the user cancels the dialog, null is returned.
///
/// To show a dialog with [initialTime] equal to the current time:
///
/// ```dart
/// showDurationPicker(
/// initialTime: new Duration.now(),
/// context: context,
/// );
/// ```
Future<Duration> showDurationPicker(
{@required BuildContext context,
@required Duration initialTime,
double snapToMins}) async {
assert(context != null);
assert(initialTime != null);
return await showDialog<Duration>(
context: context,
builder: (BuildContext context) => new _DurationPickerDialog(
initialTime: initialTime, snapToMins: snapToMins),
);
}
class DurationPicker extends StatelessWidget {
final Duration duration;
final ValueChanged<Duration> onChange;
final double snapToMins;
final double width;
final double height;
DurationPicker(
{this.duration = const Duration(minutes: 0),
@required this.onChange,
this.snapToMins,
this.width,
this.height});
@override
Widget build(BuildContext context) {
return SizedBox(
width: width ?? _kDurationPickerWidthPortrait / 1.5,
height: height ?? _kDurationPickerHeightPortrait / 1.5,
child: Column(
mainAxisSize: MainAxisSize.min,
crossAxisAlignment: CrossAxisAlignment.stretch,
children: <Widget>[
Expanded(
child: _Dial(
duration: duration,
onChanged: onChange,
snapToMins: snapToMins,
),
),
]));
}
}