blob: 4707cbcc0d70fc4b697b52362df9e26146f30455 [file] [log] [blame]
// 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:math' as math;
import 'package:flutter/foundation.dart';
import 'basic_types.dart';
import 'border_radius.dart';
import 'borders.dart';
import 'edge_insets.dart';
/// A rectangular border with flattened or "beveled" corners.
///
/// The line segments that connect the rectangle's four sides will
/// begin and at locations offset by the corresponding border radius,
/// but not farther than the side's center. If all the border radii
/// exceed the sides' half widths/heights the resulting shape is
/// diamond made by connecting the centers of the sides.
class BeveledRectangleBorder extends OutlinedBorder {
/// Creates a border like a [RoundedRectangleBorder] except that the corners
/// are joined by straight lines instead of arcs.
///
/// The arguments must not be null.
const BeveledRectangleBorder({
BorderSide side = BorderSide.none,
this.borderRadius = BorderRadius.zero,
}) : assert(side != null),
assert(borderRadius != null),
super(side: side);
/// The radii for each corner.
///
/// Each corner [Radius] defines the endpoints of a line segment that
/// spans the corner. The endpoints are located in the same place as
/// they would be for [RoundedRectangleBorder], but they're connected
/// by a straight line instead of an arc.
///
/// Negative radius values are clamped to 0.0 by [getInnerPath] and
/// [getOuterPath].
final BorderRadiusGeometry borderRadius;
@override
EdgeInsetsGeometry get dimensions {
return EdgeInsets.all(side.width);
}
@override
ShapeBorder scale(double t) {
return BeveledRectangleBorder(
side: side.scale(t),
borderRadius: borderRadius * t,
);
}
@override
ShapeBorder? lerpFrom(ShapeBorder? a, double t) {
assert(t != null);
if (a is BeveledRectangleBorder) {
return BeveledRectangleBorder(
side: BorderSide.lerp(a.side, side, t),
borderRadius: BorderRadiusGeometry.lerp(a.borderRadius, borderRadius, t)!,
);
}
return super.lerpFrom(a, t);
}
@override
ShapeBorder? lerpTo(ShapeBorder? b, double t) {
assert(t != null);
if (b is BeveledRectangleBorder) {
return BeveledRectangleBorder(
side: BorderSide.lerp(side, b.side, t),
borderRadius: BorderRadiusGeometry.lerp(borderRadius, b.borderRadius, t)!,
);
}
return super.lerpTo(b, t);
}
/// Returns a copy of this RoundedRectangleBorder with the given fields
/// replaced with the new values.
@override
BeveledRectangleBorder copyWith({ BorderSide? side, BorderRadiusGeometry? borderRadius }) {
return BeveledRectangleBorder(
side: side ?? this.side,
borderRadius: borderRadius ?? this.borderRadius,
);
}
Path _getPath(RRect rrect) {
final Offset centerLeft = Offset(rrect.left, rrect.center.dy);
final Offset centerRight = Offset(rrect.right, rrect.center.dy);
final Offset centerTop = Offset(rrect.center.dx, rrect.top);
final Offset centerBottom = Offset(rrect.center.dx, rrect.bottom);
final double tlRadiusX = math.max(0.0, rrect.tlRadiusX);
final double tlRadiusY = math.max(0.0, rrect.tlRadiusY);
final double trRadiusX = math.max(0.0, rrect.trRadiusX);
final double trRadiusY = math.max(0.0, rrect.trRadiusY);
final double blRadiusX = math.max(0.0, rrect.blRadiusX);
final double blRadiusY = math.max(0.0, rrect.blRadiusY);
final double brRadiusX = math.max(0.0, rrect.brRadiusX);
final double brRadiusY = math.max(0.0, rrect.brRadiusY);
final List<Offset> vertices = <Offset>[
Offset(rrect.left, math.min(centerLeft.dy, rrect.top + tlRadiusY)),
Offset(math.min(centerTop.dx, rrect.left + tlRadiusX), rrect.top),
Offset(math.max(centerTop.dx, rrect.right -trRadiusX), rrect.top),
Offset(rrect.right, math.min(centerRight.dy, rrect.top + trRadiusY)),
Offset(rrect.right, math.max(centerRight.dy, rrect.bottom - brRadiusY)),
Offset(math.max(centerBottom.dx, rrect.right - brRadiusX), rrect.bottom),
Offset(math.min(centerBottom.dx, rrect.left + blRadiusX), rrect.bottom),
Offset(rrect.left, math.max(centerLeft.dy, rrect.bottom - blRadiusY)),
];
return Path()..addPolygon(vertices, true);
}
@override
Path getInnerPath(Rect rect, { TextDirection? textDirection }) {
return _getPath(borderRadius.resolve(textDirection).toRRect(rect).deflate(side.width));
}
@override
Path getOuterPath(Rect rect, { TextDirection? textDirection }) {
return _getPath(borderRadius.resolve(textDirection).toRRect(rect));
}
@override
void paint(Canvas canvas, Rect rect, { TextDirection? textDirection }) {
if (rect.isEmpty)
return;
switch (side.style) {
case BorderStyle.none:
break;
case BorderStyle.solid:
final Path path = getOuterPath(rect, textDirection: textDirection)
..addPath(getInnerPath(rect, textDirection: textDirection), Offset.zero);
canvas.drawPath(path, side.toPaint());
break;
}
}
@override
bool operator ==(Object other) {
if (other.runtimeType != runtimeType)
return false;
return other is BeveledRectangleBorder
&& other.side == side
&& other.borderRadius == borderRadius;
}
@override
int get hashCode => hashValues(side, borderRadius);
@override
String toString() {
return '${objectRuntimeType(this, 'BeveledRectangleBorder')}($side, $borderRadius)';
}
}