import 'dart:ui'; import 'package:flutter/material.dart'; import 'package:notes/canvas/my_painter.dart'; import 'package:notes/canvas/screen_document_mapping.dart'; import 'document_types.dart'; class DrawingPage extends StatefulWidget { const DrawingPage({Key? key}) : super(key: key); @override State createState() => _DrawingPageState(); } class _DrawingPageState extends State { List _strokes = []; bool allowDrawWithFinger = false; double zoom = .75; double basezoom = 1.0; Offset offset = const Offset(.0, .0); // todo better pen system bool eraseractive = false; @override void initState() { super.initState(); // todo might be weird behaviour if used with short side final screenWidth = (window.physicalSize.longestSide / window.devicePixelRatio); _calcNewPageOffset(const Offset(.0, .0), screenWidth); } @override Widget build(BuildContext context) { return Scaffold( appBar: AppBar(backgroundColor: Colors.blueGrey, actions: [ // todo temp icon only IconButton( icon: const Icon(Icons.edit), onPressed: () { setState(() { eraseractive = !eraseractive; }); }, ) ]), body: _buildCanvas(), ); } double _calcTiltedWidth(double baseWidth, double tilt) { return baseWidth * tilt; } double _calcAngleDependentWidth(List pts, double basetickness) { return basetickness; // todo do correct linear interpolation and extimate angle // final lininterpol = PolynomialInterpolation( // nodes: pts // .map((e) => InterpolationNode(x: e.point.dx, y: e.point.dy)) // .toList(growable: false)); // lininterpol.compute(1.0); // print(lininterpol.buildPolynomial().toString()); // // // double angle = atan((pt2.dy - pt1.dy)/(pt2.dx - pt1.dx)); // // final angle = 5 / (2 * pi); // // print("pt1: ${pt1}, pt2: ${pt2}, angle: ${angle}"); // // return basetickness * (angle / .5 + .5); } // calculate new page offset from mousepointer delta void _calcNewPageOffset(Offset delta, double canvasWidth) { if (zoom > 1.0) { Offset newOffset = offset + delta; // don't allow navigating out of page if zoomed in if (newOffset.dx > .0) { setState(() { offset = Offset(.0, newOffset.dy); }); } else if (newOffset.dx < (-canvasWidth * zoom) + canvasWidth) { setState(() { offset = Offset((-canvasWidth * zoom) + canvasWidth, newOffset.dy); }); print(offset); } else { setState(() { offset = offset + delta; }); } } else { setState(() { // keep page x centered if zoomed out offset = Offset( (canvasWidth - (canvasWidth * zoom)) / 2, offset.dy + delta.dy); }); } } void _onPointerMove(PointerMoveEvent event, Size size) { Offset pos = event.localPosition; final scale = calcPageDependentScale(zoom, a4Page, size); pos = translateScreenToDocumentPoint(pos, scale, offset); if (!a4Page.contains(pos)) { return; } if (allowDrawWithFinger || event.kind != PointerDeviceKind.touch) { final pts = _strokes.last.points; if (pts.last.point == pos) return; double newWidth = _calcTiltedWidth(3.0, event.tilt); if (_strokes.last.points.length > 1) { // todo current point not in list newWidth = _calcAngleDependentWidth( pts .getRange( pts.length - 10 >= 0 ? pts.length - 10 : 0, pts.length) .toList(growable: false), event.tilt); } setState(() { _strokes = List.from(_strokes, growable: false) ..last.addPoint(Point(pos, newWidth)); }); } else { _calcNewPageOffset(event.delta, size.width); } } Widget _buildCanvas() { final size = MediaQuery.of(context).size; return Scaffold( body: Listener( behavior: HitTestBehavior.opaque, onPointerMove: (e) => _onPointerMove(e, size), onPointerSignal: (event) { print('Button: ${event.buttons}'); }, onPointerDown: (event) { print('Button: ${event.buttons}'); if (allowDrawWithFinger || event.kind != PointerDeviceKind.touch) { Offset pos = event.localPosition; final scale = calcPageDependentScale(zoom, a4Page, size); pos = translateScreenToDocumentPoint(pos, scale, offset); // todo line drawn on edge where line left page if (!a4Page.contains(pos)) return; if (eraseractive) return; setState(() { _strokes = List.from(_strokes) ..add(Stroke.fromPoints( [Point(pos, _calcTiltedWidth(3.0, event.tilt))])); }); } }, onPointerUp: (event) { if (allowDrawWithFinger || event.kind != PointerDeviceKind.touch) { if (_strokes.last.points.length <= 1) { // if the line consists only of one point (point) add endpoint as the same to allow drawing a line // todo maybe solve this in custompainter in future setState(() { _strokes = List.from(_strokes, growable: false) ..last.points.add(_strokes.last.points.last); }); } else { setState(() {}); } print(_strokes.length); print(_strokes.last.points.length); } }, child: GestureDetector( onScaleUpdate: (details) { if (details.scale == 1.0) return; setState(() { zoom = (basezoom * details.scale).clamp(0.25, 5.0); }); }, onScaleEnd: (details) { basezoom = zoom; }, onSecondaryTap: () { print('secctab'); }, onTertiaryTapDown: (details) { print('tertiary button'); }, child: CustomPaint( painter: MyPainter(strokes: _strokes, offset: offset, zoom: zoom), size: Size.infinite, ), ), ), ); } }