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// 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 'package:flutter/foundation.dart';
import 'package:flutter/material.dart';
import 'package:flutter_test/flutter_test.dart';
const double _doubleColorPrecision = 0.01;
void main() {
test('HSVColor control test', () {
const HSVColor color = HSVColor.fromAHSV(0.7, 28.0, 0.3, 0.6);
expect(color, hasOneLineDescription);
expect(color.hashCode, equals(const HSVColor.fromAHSV(0.7, 28.0, 0.3, 0.6).hashCode));
expect(color.withAlpha(0.8), const HSVColor.fromAHSV(0.8, 28.0, 0.3, 0.6));
expect(color.withHue(123.0), const HSVColor.fromAHSV(0.7, 123.0, 0.3, 0.6));
expect(color.withSaturation(0.9), const HSVColor.fromAHSV(0.7, 28.0, 0.9, 0.6));
expect(color.withValue(0.1), const HSVColor.fromAHSV(0.7, 28.0, 0.3, 0.1));
expect(color.toColor(), const Color(0xb399816b));
final HSVColor result = HSVColor.lerp(color, const HSVColor.fromAHSV(0.3, 128.0, 0.7, 0.2), 0.25)!;
expect(result.alpha, moreOrLessEquals(0.6));
expect(result.hue, moreOrLessEquals(53.0));
expect(result.saturation, greaterThan(0.3999));
expect(result.saturation, lessThan(0.4001));
expect(result.value, moreOrLessEquals(0.5));
});
test('HSVColor hue sweep test', () {
final List<Color> output = <Color>[];
for (double hue = 0.0; hue <= 360.0; hue += 36.0) {
final HSVColor hsvColor = HSVColor.fromAHSV(1.0, hue, 1.0, 1.0);
final Color color = hsvColor.toColor();
output.add(color);
if (hue != 360.0) {
// Check that it's reversible.
expect(
HSVColor.fromColor(color),
within<HSVColor>(distance: _doubleColorPrecision, from: hsvColor),
);
}
}
final List<Color> expectedColors = <Color>[
const Color(0xffff0000),
const Color(0xffff9900),
const Color(0xffccff00),
const Color(0xff33ff00),
const Color(0xff00ff66),
const Color(0xff00ffff),
const Color(0xff0066ff),
const Color(0xff3300ff),
const Color(0xffcc00ff),
const Color(0xffff0099),
const Color(0xffff0000),
];
expect(output, equals(expectedColors));
});
test('HSVColor saturation sweep test', () {
final List<Color> output = <Color>[];
for (double saturation = 0.0; saturation < 1.0; saturation += 0.1) {
final HSVColor hslColor = HSVColor.fromAHSV(1.0, 0.0, saturation, 1.0);
final Color color = hslColor.toColor();
output.add(color);
// Check that it's reversible.
expect(
HSVColor.fromColor(color),
within<HSVColor>(distance: _doubleColorPrecision, from: hslColor),
);
}
final List<Color> expectedColors = <Color>[
const Color(0xffffffff),
const Color(0xffffe6e6),
const Color(0xffffcccc),
const Color(0xffffb3b3),
const Color(0xffff9999),
const Color(0xffff8080),
const Color(0xffff6666),
const Color(0xffff4d4d),
const Color(0xffff3333),
const Color(0xffff1a1a),
const Color(0xffff0000),
];
expect(output, equals(expectedColors));
});
test('HSVColor value sweep test', () {
final List<Color> output = <Color>[];
for (double value = 0.0; value < 1.0; value += 0.1) {
final HSVColor hsvColor = HSVColor.fromAHSV(1.0, 0.0, 1.0, value);
final Color color = hsvColor.toColor();
output.add(color);
// Check that it's reversible. Discontinuities at the ends for saturation,
// so we skip those.
if (value >= _doubleColorPrecision && value <= (1.0 - _doubleColorPrecision)) {
expect(
HSVColor.fromColor(color),
within<HSVColor>(distance: _doubleColorPrecision, from: hsvColor),
);
}
// output.add(HSVColor.fromAHSV(1.0, 0.0, 1.0, value).toColor());
}
final List<Color> expectedColors = <Color>[
const Color(0xff000000),
const Color(0xff1a0000),
const Color(0xff330000),
const Color(0xff4d0000),
const Color(0xff660000),
const Color(0xff800000),
const Color(0xff990000),
const Color(0xffb30000),
const Color(0xffcc0000),
const Color(0xffe50000),
const Color(0xffff0000),
];
expect(output, equals(expectedColors));
});
test('HSVColor lerps hue correctly.', () {
final List<Color> output = <Color>[];
const HSVColor startColor = HSVColor.fromAHSV(1.0, 0.0, 1.0, 1.0);
const HSVColor endColor = HSVColor.fromAHSV(1.0, 360.0, 1.0, 1.0);
for (double t = -0.5; t < 1.5; t += 0.1) {
output.add(HSVColor.lerp(startColor, endColor, t)!.toColor());
}
final List<Color> expectedColors = <Color>[
const Color(0xff00ffff),
const Color(0xff0066ff),
const Color(0xff3300ff),
const Color(0xffcc00ff),
const Color(0xffff0099),
const Color(0xffff0000),
const Color(0xffff9900),
const Color(0xffccff00),
const Color(0xff33ff00),
const Color(0xff00ff66),
const Color(0xff00ffff),
const Color(0xff0066ff),
const Color(0xff3300ff),
const Color(0xffcc00ff),
const Color(0xffff0099),
const Color(0xffff0000),
const Color(0xffff9900),
const Color(0xffccff00),
const Color(0xff33ff00),
const Color(0xff00ff66),
];
expect(output, equals(expectedColors));
});
test('HSVColor lerps saturation correctly.', () {
final List<Color> output = <Color>[];
const HSVColor startColor = HSVColor.fromAHSV(1.0, 0.0, 0.0, 1.0);
const HSVColor endColor = HSVColor.fromAHSV(1.0, 0.0, 1.0, 1.0);
for (double t = -0.1; t < 1.1; t += 0.1) {
output.add(HSVColor.lerp(startColor, endColor, t)!.toColor());
}
final List<Color> expectedColors = <Color>[
const Color(0xffffffff),
const Color(0xffffffff),
const Color(0xffffe6e6),
const Color(0xffffcccc),
const Color(0xffffb3b3),
const Color(0xffff9999),
const Color(0xffff8080),
const Color(0xffff6666),
const Color(0xffff4d4d),
const Color(0xffff3333),
const Color(0xffff1a1a),
const Color(0xffff0000),
const Color(0xffff0000),
];
expect(output, equals(expectedColors));
});
test('HSVColor lerps value correctly.', () {
final List<Color> output = <Color>[];
const HSVColor startColor = HSVColor.fromAHSV(1.0, 0.0, 1.0, 0.0);
const HSVColor endColor = HSVColor.fromAHSV(1.0, 0.0, 1.0, 1.0);
for (double t = -0.1; t < 1.1; t += 0.1) {
output.add(HSVColor.lerp(startColor, endColor, t)!.toColor());
}
final List<Color> expectedColors = <Color>[
const Color(0xff000000),
const Color(0xff000000),
const Color(0xff1a0000),
const Color(0xff330000),
const Color(0xff4d0000),
const Color(0xff660000),
const Color(0xff800000),
const Color(0xff990000),
const Color(0xffb30000),
const Color(0xffcc0000),
const Color(0xffe50000),
const Color(0xffff0000),
const Color(0xffff0000),
];
expect(output, equals(expectedColors));
});
test('HSLColor control test', () {
const HSLColor color = HSLColor.fromAHSL(0.7, 28.0, 0.3, 0.6);
expect(color, hasOneLineDescription);
expect(color.hashCode, equals(const HSLColor.fromAHSL(0.7, 28.0, 0.3, 0.6).hashCode));
expect(color.withAlpha(0.8), const HSLColor.fromAHSL(0.8, 28.0, 0.3, 0.6));
expect(color.withHue(123.0), const HSLColor.fromAHSL(0.7, 123.0, 0.3, 0.6));
expect(color.withSaturation(0.9), const HSLColor.fromAHSL(0.7, 28.0, 0.9, 0.6));
expect(color.withLightness(0.1), const HSLColor.fromAHSL(0.7, 28.0, 0.3, 0.1));
expect(color.toColor(), const Color(0xb3b8977a));
final HSLColor result = HSLColor.lerp(color, const HSLColor.fromAHSL(0.3, 128.0, 0.7, 0.2), 0.25)!;
expect(result.alpha, moreOrLessEquals(0.6));
expect(result.hue, moreOrLessEquals(53.0));
expect(result.saturation, greaterThan(0.3999));
expect(result.saturation, lessThan(0.4001));
expect(result.lightness, moreOrLessEquals(0.5));
});
test('HSLColor hue sweep test', () {
final List<Color> output = <Color>[];
for (double hue = 0.0; hue <= 360.0; hue += 36.0) {
final HSLColor hslColor = HSLColor.fromAHSL(1.0, hue, 0.5, 0.5);
final Color color = hslColor.toColor();
output.add(color);
if (hue != 360.0) {
// Check that it's reversible.
expect(
HSLColor.fromColor(color),
within<HSLColor>(distance: _doubleColorPrecision, from: hslColor),
);
}
}
final List<Color> expectedColors = <Color>[
const Color(0xffbf4040),
const Color(0xffbf8c40),
const Color(0xffa6bf40),
const Color(0xff59bf40),
const Color(0xff40bf73),
const Color(0xff40bfbf),
const Color(0xff4073bf),
const Color(0xff5940bf),
const Color(0xffa640bf),
const Color(0xffbf408c),
const Color(0xffbf4040),
];
expect(output, equals(expectedColors));
});
test('HSLColor saturation sweep test', () {
final List<Color> output = <Color>[];
for (double saturation = 0.0; saturation < 1.0; saturation += 0.1) {
final HSLColor hslColor = HSLColor.fromAHSL(1.0, 0.0, saturation, 0.5);
final Color color = hslColor.toColor();
output.add(color);
// Check that it's reversible.
expect(
HSLColor.fromColor(color),
within<HSLColor>(distance: _doubleColorPrecision, from: hslColor),
);
}
final List<Color> expectedColors = <Color>[
const Color(0xff808080),
const Color(0xff8c7373),
const Color(0xff996666),
const Color(0xffa65959),
const Color(0xffb34d4d),
const Color(0xffbf4040),
const Color(0xffcc3333),
const Color(0xffd92626),
const Color(0xffe51a1a),
const Color(0xfff20d0d),
const Color(0xffff0000),
];
expect(output, equals(expectedColors));
});
test('HSLColor lightness sweep test', () {
final List<Color> output = <Color>[];
for (double lightness = 0.0; lightness < 1.0; lightness += 0.1) {
final HSLColor hslColor = HSLColor.fromAHSL(1.0, 0.0, 0.5, lightness);
final Color color = hslColor.toColor();
output.add(color);
// Check that it's reversible. Discontinuities at the ends for saturation,
// so we skip those.
if (lightness >= _doubleColorPrecision && lightness <= (1.0 - _doubleColorPrecision)) {
expect(
HSLColor.fromColor(color),
within<HSLColor>(distance: _doubleColorPrecision, from: hslColor),
);
}
}
final List<Color> expectedColors = <Color>[
const Color(0xff000000),
const Color(0xff260d0d),
const Color(0xff4d1a1a),
const Color(0xff732626),
const Color(0xff993333),
const Color(0xffbf4040),
const Color(0xffcc6666),
const Color(0xffd98c8c),
const Color(0xffe6b3b3),
const Color(0xfff2d9d9),
const Color(0xffffffff),
];
expect(output, equals(expectedColors));
});
test('HSLColor lerps hue correctly.', () {
final List<Color> output = <Color>[];
const HSLColor startColor = HSLColor.fromAHSL(1.0, 0.0, 0.5, 0.5);
const HSLColor endColor = HSLColor.fromAHSL(1.0, 360.0, 0.5, 0.5);
for (double t = -0.5; t < 1.5; t += 0.1) {
output.add(HSLColor.lerp(startColor, endColor, t)!.toColor());
}
final List<Color> expectedColors = <Color>[
const Color(0xff40bfbf),
const Color(0xff4073bf),
const Color(0xff5940bf),
const Color(0xffa640bf),
const Color(0xffbf408c),
const Color(0xffbf4040),
const Color(0xffbf8c40),
const Color(0xffa6bf40),
const Color(0xff59bf40),
const Color(0xff40bf73),
const Color(0xff40bfbf),
const Color(0xff4073bf),
const Color(0xff5940bf),
const Color(0xffa640bf),
const Color(0xffbf408c),
const Color(0xffbf4040),
const Color(0xffbf8c40),
const Color(0xffa6bf40),
const Color(0xff59bf40),
const Color(0xff40bf73),
];
expect(output, equals(expectedColors));
});
test('HSLColor lerps saturation correctly.', () {
final List<Color> output = <Color>[];
const HSLColor startColor = HSLColor.fromAHSL(1.0, 0.0, 0.0, 0.5);
const HSLColor endColor = HSLColor.fromAHSL(1.0, 0.0, 1.0, 0.5);
for (double t = -0.1; t < 1.1; t += 0.1) {
output.add(HSLColor.lerp(startColor, endColor, t)!.toColor());
}
final List<Color> expectedColors = <Color>[
const Color(0xff808080),
const Color(0xff808080),
const Color(0xff8c7373),
const Color(0xff996666),
const Color(0xffa65959),
const Color(0xffb34d4d),
const Color(0xffbf4040),
const Color(0xffcc3333),
const Color(0xffd92626),
const Color(0xffe51a1a),
const Color(0xfff20d0d),
const Color(0xffff0000),
const Color(0xffff0000),
];
expect(output, equals(expectedColors));
});
test('HSLColor lerps lightness correctly.', () {
final List<Color> output = <Color>[];
const HSLColor startColor = HSLColor.fromAHSL(1.0, 0.0, 0.5, 0.0);
const HSLColor endColor = HSLColor.fromAHSL(1.0, 0.0, 0.5, 1.0);
for (double t = -0.1; t < 1.1; t += 0.1) {
output.add(HSLColor.lerp(startColor, endColor, t)!.toColor());
}
final List<Color> expectedColors = <Color>[
const Color(0xff000000),
const Color(0xff000000),
const Color(0xff260d0d),
const Color(0xff4d1a1a),
const Color(0xff732626),
const Color(0xff993333),
const Color(0xffbf4040),
const Color(0xffcc6666),
const Color(0xffd98c8c),
const Color(0xffe6b3b3),
const Color(0xfff2d9d9),
const Color(0xffffffff),
const Color(0xffffffff),
];
expect(output, equals(expectedColors));
});
test('ColorSwatch test', () {
final int color = nonconst(0xFF027223);
final ColorSwatch<String> greens1 = ColorSwatch<String>(
color,
const <String, Color>{
'2259 C': Color(0xFF027223),
'2273 C': Color(0xFF257226),
'2426 XGC': Color(0xFF00932F),
'7732 XGC': Color(0xFF007940),
},
);
final ColorSwatch<String> greens2 = ColorSwatch<String>(
color,
const <String, Color>{
'2259 C': Color(0xFF027223),
'2273 C': Color(0xFF257226),
'2426 XGC': Color(0xFF00932F),
'7732 XGC': Color(0xFF007940),
},
);
expect(greens1, greens2);
expect(greens1.hashCode, greens2.hashCode);
expect(greens1['2259 C'], const Color(0xFF027223));
expect(greens1.value, 0xFF027223);
});
test('ColorSwatch.lerp', () {
const ColorSwatch<int> swatchA = ColorSwatch<int>(0x00000000, <int, Color>{1: Color(0x00000000)});
const ColorSwatch<int> swatchB = ColorSwatch<int>(0xFFFFFFFF, <int, Color>{1: Color(0xFFFFFFFF)});
expect(
ColorSwatch.lerp(swatchA, swatchB, 0.0),
const ColorSwatch<int>(0x00000000, <int, Color>{1: Color(0x00000000)}),
);
expect(
ColorSwatch.lerp(swatchA, swatchB, 0.5),
const ColorSwatch<int>(0x7F7F7F7F, <int, Color>{1: Color(0x7F7F7F7F)}),
);
expect(
ColorSwatch.lerp(swatchA, swatchB, 1.0),
const ColorSwatch<int>(0xFFFFFFFF, <int, Color>{1: Color(0xFFFFFFFF)}),
);
expect(
ColorSwatch.lerp(swatchA, swatchB, -0.1),
const ColorSwatch<int>(0x00000000, <int, Color>{1: Color(0x00000000)}),
);
expect(
ColorSwatch.lerp(swatchA, swatchB, 1.1),
const ColorSwatch<int>(0xFFFFFFFF, <int, Color>{1: Color(0xFFFFFFFF)}),
);
});
test('ColorDiagnosticsProperty includes valueProperties in JSON', () {
ColorProperty property = ColorProperty('foo', const Color.fromARGB(10, 20, 30, 40));
final Map<String, Object> valueProperties = property.toJsonMap(const DiagnosticsSerializationDelegate())['valueProperties']! as Map<String, Object>;
expect(valueProperties['alpha'], 10);
expect(valueProperties['red'], 20);
expect(valueProperties['green'], 30);
expect(valueProperties['blue'], 40);
property = ColorProperty('foo', null);
final Map<String, Object?> json = property.toJsonMap(const DiagnosticsSerializationDelegate());
expect(json.containsKey('valueProperties'), isFalse);
});
test('MaterialColor swatch comparison', () {
const Map<int, MaterialColor> sampleMap = <int, MaterialColor>{
0: Colors.lightBlue,
1: Colors.deepOrange,
2: Colors.blueGrey,
};
const MaterialColor first = MaterialColor(0, sampleMap);
const MaterialColor second = MaterialColor(0, sampleMap);
const MaterialColor third = MaterialColor(0, <int, MaterialColor>{
0: Colors.lightBlue,
1: Colors.deepOrange,
2: Colors.blueGrey,
});
expect(first == second, true);
expect(first == third, true);
});
}