blob: 8b2647fd1750eafd7158279982ee8bbb1194b55e [file] [log] [blame]
// Copyright 2013 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:typed_data' show Float64List;
import 'dart:ui';
import 'package:litetest/litetest.dart';
void main() {
test('path getBounds', () {
const Rect r = Rect.fromLTRB(1.0, 3.0, 5.0, 7.0);
final Path p = Path()..addRect(r);
expect(p.getBounds(), equals(r));
p.lineTo(20.0, 15.0);
expect(p.getBounds(), equals(const Rect.fromLTRB(1.0, 3.0, 20.0, 15.0)));
});
test('path combine rect', () {
final Rect c1 = Rect.fromCircle(center: const Offset(10.0, 10.0), radius: 10.0);
final Rect c2 = Rect.fromCircle(center: const Offset(5.0, 5.0), radius: 10.0);
final Rect c1UnionC2 = c1.expandToInclude(c2);
final Rect c1IntersectC2 = c1.intersect(c2);
final Path pathCircle1 = Path()..addRect(c1);
final Path pathCircle2 = Path()..addRect(c2);
final Path difference = Path.combine(PathOperation.difference, pathCircle1, pathCircle2);
expect(difference.getBounds(), equals(c1));
final Path reverseDifference = Path.combine(PathOperation.reverseDifference, pathCircle1, pathCircle2);
expect(reverseDifference.getBounds(), equals(c2));
final Path union = Path.combine(PathOperation.union, pathCircle1, pathCircle2);
expect(union.getBounds(), equals(c1UnionC2));
final Path intersect = Path.combine(PathOperation.intersect, pathCircle1, pathCircle2);
expect(intersect.getBounds(), equals(c1IntersectC2));
// the bounds on this will be the same as union - but would draw a missing inside piece.
final Path xor = Path.combine(PathOperation.xor, pathCircle1, pathCircle2);
expect(xor.getBounds(), equals(c1UnionC2));
});
test('path combine oval', () {
final Rect c1 = Rect.fromCircle(center: const Offset(10.0, 10.0), radius: 10.0);
final Rect c2 = Rect.fromCircle(center: const Offset(5.0, 5.0), radius: 10.0);
final Rect c1UnionC2 = c1.expandToInclude(c2);
final Rect c1IntersectC2 = c1.intersect(c2);
final Path pathCircle1 = Path()..addOval(c1);
final Path pathCircle2 = Path()..addOval(c2);
final Path difference = Path.combine(PathOperation.difference, pathCircle1, pathCircle2);
expect(difference.getBounds().top, closeTo(0.88, 0.01));
final Path reverseDifference = Path.combine(PathOperation.reverseDifference, pathCircle1, pathCircle2);
expect(reverseDifference.getBounds().right, closeTo(14.11, 0.01));
final Path union = Path.combine(PathOperation.union, pathCircle1, pathCircle2);
expect(union.getBounds(), equals(c1UnionC2));
final Path intersect = Path.combine(PathOperation.intersect, pathCircle1, pathCircle2);
expect(intersect.getBounds(), equals(c1IntersectC2));
// the bounds on this will be the same as union - but would draw a missing inside piece.
final Path xor = Path.combine(PathOperation.xor, pathCircle1, pathCircle2);
expect(xor.getBounds(), equals(c1UnionC2));
});
test('path clone', () {
final Path p1 = Path()..lineTo(20.0, 20.0);
final Path p2 = Path.from(p1);
expect(p1.getBounds(), equals(p2.getBounds()));
p1.lineTo(10.0, 30.0);
expect(p1.getBounds().bottom, equals(p2.getBounds().bottom + 10));
});
test('shift tests', () {
const Rect bounds = Rect.fromLTRB(0.0, 0.0, 10.0, 10.0);
final Path p = Path()..addRect(bounds);
expect(p.getBounds(), equals(bounds));
final Path shifted = p.shift(const Offset(10, 10));
expect(shifted.getBounds(), equals(const Rect.fromLTRB(10, 10, 20, 20)));
});
test('transformation tests', () {
const Rect bounds = Rect.fromLTRB(0.0, 0.0, 10.0, 10.0);
final Path p = Path()..addRect(bounds);
final Float64List scaleMatrix = Float64List.fromList(<double>[
2.5, 0.0, 0.0, 0.0, // first col
0.0, 0.5, 0.0, 0.0, // second col
0.0, 0.0, 1.0, 0.0, // third col
0.0, 0.0, 0.0, 1.0, // fourth col
]);
expect(p.getBounds(), equals(bounds));
final Path pTransformed = p.transform(scaleMatrix);
expect(pTransformed.getBounds(),
equals(const Rect.fromLTRB(0.0, 0.0, 10 * 2.5, 10 * 0.5)));
final Path p2 = Path()..lineTo(10.0, 10.0);
p.addPath(p2, const Offset(10.0, 10.0));
expect(p.getBounds(), equals(const Rect.fromLTRB(0.0, 0.0, 20.0, 20.0)));
p.addPath(p2, const Offset(20.0, 20.0), matrix4: scaleMatrix);
expect(p.getBounds(),
equals(const Rect.fromLTRB(0.0, 0.0, 20 + (10 * 2.5), 20 + (10 * .5))));
p.extendWithPath(p2, Offset.zero);
expect(p.getBounds(), equals(const Rect.fromLTRB(0.0, 0.0, 45.0, 25.0)));
p.extendWithPath(p2, const Offset(45.0, 25.0), matrix4: scaleMatrix);
expect(p.getBounds(), equals(const Rect.fromLTRB(0.0, 0.0, 70.0, 30.0)));
});
test('path metrics tests', () {
final Path simpleHorizontalLine = Path()..lineTo(10.0, 0.0);
// basic tests on horizontal line
final PathMetrics simpleHorizontalMetrics = simpleHorizontalLine.computeMetrics();
expect(() => simpleHorizontalMetrics.iterator.current, throwsRangeError);
expect(simpleHorizontalMetrics.iterator.moveNext(), isTrue);
expect(simpleHorizontalMetrics.iterator.current, isNotNull);
expect(simpleHorizontalMetrics.iterator.current.length, equals(10.0));
expect(simpleHorizontalMetrics.iterator.current.isClosed, isFalse);
final Path simpleExtract = simpleHorizontalMetrics.iterator.current.extractPath(1.0, 9.0);
expect(simpleExtract.getBounds(), equals(const Rect.fromLTRB(1.0, 0.0, 9.0, 0.0)));
final Tangent posTan = simpleHorizontalMetrics.iterator.current.getTangentForOffset(1.0)!;
expect(posTan.position, equals(const Offset(1.0, 0.0)));
expect(posTan.angle, equals(0.0));
expect(simpleHorizontalMetrics.iterator.moveNext(), isFalse);
expect(() => simpleHorizontalMetrics.iterator.current, throwsRangeError);
// test with forceClosed
final PathMetrics simpleMetricsClosed = simpleHorizontalLine.computeMetrics(forceClosed: true);
expect(() => simpleHorizontalMetrics.iterator.current, throwsRangeError);
expect(simpleMetricsClosed.iterator.moveNext(), isTrue);
expect(simpleMetricsClosed.iterator.current, isNotNull);
expect(simpleMetricsClosed.iterator.current.length, equals(20.0)); // because we forced close
expect(simpleMetricsClosed.iterator.current.isClosed, isTrue);
final Path simpleExtract2 = simpleMetricsClosed.iterator.current.extractPath(1.0, 9.0);
expect(simpleExtract2.getBounds(), equals(const Rect.fromLTRB(1.0, 0.0, 9.0, 0.0)));
expect(simpleMetricsClosed.iterator.moveNext(), isFalse);
// test getTangentForOffset with vertical line
final Path simpleVerticalLine = Path()..lineTo(0.0, 10.0);
final PathMetrics simpleMetricsVertical = simpleVerticalLine.computeMetrics()..iterator.moveNext();
final Tangent posTanVertical = simpleMetricsVertical.iterator.current.getTangentForOffset(5.0)!;
expect(posTanVertical.position, equals(const Offset(0.0, 5.0)));
expect(posTanVertical.angle, closeTo(-1.5708, .0001)); // 90 degrees
// test getTangentForOffset with diagonal line
final Path simpleDiagonalLine = Path()..lineTo(10.0, 10.0);
final PathMetrics simpleMetricsDiagonal = simpleDiagonalLine.computeMetrics()..iterator.moveNext();
final double midPoint = simpleMetricsDiagonal.iterator.current.length / 2;
final Tangent posTanDiagonal = simpleMetricsDiagonal.iterator.current.getTangentForOffset(midPoint)!;
expect(posTanDiagonal.position, equals(const Offset(5.0, 5.0)));
expect(posTanDiagonal.angle, closeTo(-0.7853981633974483, .00001)); // ~45 degrees
// test a multi-contour path
final Path multiContour = Path()
..lineTo(0.0, 10.0)
..moveTo(10.0, 10.0)
..lineTo(10.0, 15.0);
final PathMetrics multiContourMetric = multiContour.computeMetrics();
expect(() => multiContourMetric.iterator.current, throwsRangeError);
expect(multiContourMetric.iterator.moveNext(), isTrue);
expect(multiContourMetric.iterator.current, isNotNull);
expect(multiContourMetric.iterator.current.length, equals(10.0));
expect(multiContourMetric.iterator.moveNext(), isTrue);
expect(multiContourMetric.iterator.current, isNotNull);
expect(multiContourMetric.iterator.current.length, equals(5.0));
expect(multiContourMetric.iterator.moveNext(), isFalse);
expect(() => multiContourMetric.iterator.current, throwsRangeError);
});
test('PathMetrics can remember lengths and isClosed', () {
final Path path = Path()..lineTo(0, 10)
..close()
..moveTo(0, 15)
..lineTo(10, 15);
final List<PathMetric> metrics = path.computeMetrics().toList();
expect(metrics.length, 2);
expect(metrics[0].length, 20);
expect(metrics[0].isClosed, true);
expect(metrics[0].getTangentForOffset(4.0)!.vector, const Offset(0.0, 1.0));
expect(metrics[0].extractPath(4.0, 10.0).computeMetrics().first.length, 6.0);
expect(metrics[1].length, 10);
expect(metrics[1].isClosed, false);
expect(metrics[1].getTangentForOffset(4.0)!.vector, const Offset(1.0, 0.0));
expect(metrics[1].extractPath(4.0, 6.0).computeMetrics().first.length, 2.0);
});
test('PathMetrics on a mutated path', () {
final Path path = Path()..lineTo(0, 10);
final PathMetrics metrics = path.computeMetrics();
final PathMetric firstMetric = metrics.first;
// We've consumed the iterator.
expect(metrics, isEmpty);
expect(firstMetric.length, 10);
expect(firstMetric.isClosed, false);
expect(firstMetric.getTangentForOffset(4.0)!.vector, const Offset(0.0, 1.0));
expect(firstMetric.extractPath(4.0, 10.0).computeMetrics().first.length, 6.0);
path..lineTo(10, 10)..lineTo(10, 0)..close();
// mutating the path shouldn't have added anything to the iterator.
expect(metrics, isEmpty);
expect(firstMetric.length, 10);
expect(firstMetric.isClosed, false);
expect(firstMetric.getTangentForOffset(4.0)!.vector, const Offset(0.0, 1.0));
expect(firstMetric.extractPath(4.0, 10.0).computeMetrics().first.length, 6.0);
// getting a new iterator should update us.
final PathMetrics newMetrics = path.computeMetrics();
final PathMetric newFirstMetric = newMetrics.first;
expect(newMetrics, isEmpty);
expect(newFirstMetric.length, 40);
expect(newFirstMetric.isClosed, true);
expect(newFirstMetric.getTangentForOffset(4.0)!.vector, const Offset(0.0, 1.0));
expect(newFirstMetric.extractPath(4.0, 10.0).computeMetrics().first.length, 6.0);
});
}