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📷 A modern, cross-platform, 2D Graphics library for .NET
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ImageSharp/tests/ImageSharp.Tests/PixelFormats/L8Tests.cs

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// Copyright (c) Six Labors.
// Licensed under the Six Labors Split License.
using System.Numerics;
using System.Runtime.CompilerServices;
using SixLabors.ImageSharp.PixelFormats;
// ReSharper disable InconsistentNaming
namespace SixLabors.ImageSharp.Tests.PixelFormats;
[Trait("Category", "PixelFormats")]
public class L8Tests
{
public static readonly TheoryData<byte> LuminanceData
= new() { 0, 1, 2, 3, 5, 13, 31, 71, 73, 79, 83, 109, 127, 128, 131, 199, 250, 251, 254, 255 };
[Theory]
[InlineData(0)]
[InlineData(255)]
[InlineData(10)]
[InlineData(42)]
public void L8_PackedValue_EqualsInput(byte input)
=> Assert.Equal(input, new L8(input).PackedValue);
[Fact]
public void AreEqual()
{
L8 color1 = new(100);
L8 color2 = new(100);
Assert.Equal(color1, color2);
}
[Fact]
public void AreNotEqual()
{
L8 color1 = new(100);
L8 color2 = new(200);
Assert.NotEqual(color1, color2);
}
[Fact]
public void L8_FromScaledVector4()
{
// Arrange
const byte expected = 128;
Vector4 scaled = new L8(expected).ToScaledVector4();
// Act
L8 pixel = L8.FromScaledVector4(scaled);
byte actual = pixel.PackedValue;
// Assert
Assert.Equal(expected, actual);
}
[Theory]
[MemberData(nameof(LuminanceData))]
public void L8_ToScaledVector4(byte input)
{
// Arrange
L8 pixel = new(input);
// Act
Vector4 actual = pixel.ToScaledVector4();
// Assert
float scaledInput = input / 255F;
Assert.Equal(scaledInput, actual.X);
Assert.Equal(scaledInput, actual.Y);
Assert.Equal(scaledInput, actual.Z);
Assert.Equal(1, actual.W);
}
[Theory]
[MemberData(nameof(LuminanceData))]
public void L8_FromVector4(byte luminance)
{
// Arrange
Vector4 vector = new L8(luminance).ToVector4();
// Act
L8 pixel = L8.FromVector4(vector);
byte actual = pixel.PackedValue;
// Assert
Assert.Equal(luminance, actual);
}
[Theory]
[MemberData(nameof(LuminanceData))]
public void L8_ToVector4(byte input)
{
// Arrange
L8 pixel = new(input);
// Act
Vector4 actual = pixel.ToVector4();
// Assert
float scaledInput = input / 255F;
Assert.Equal(scaledInput, actual.X);
Assert.Equal(scaledInput, actual.Y);
Assert.Equal(scaledInput, actual.Z);
Assert.Equal(1, actual.W);
}
[Theory]
[MemberData(nameof(LuminanceData))]
public void L8_FromRgba32(byte rgb)
{
// Arrange
byte expected = ColorNumerics.Get8BitBT709Luminance(rgb, rgb, rgb);
// Act
L8 pixel = L8.FromRgba32(new Rgba32(rgb, rgb, rgb));
byte actual = pixel.PackedValue;
// Assert
Assert.Equal(expected, actual);
}
[Theory]
[MemberData(nameof(LuminanceData))]
public void L8_ToRgba32(byte luminance)
{
// Arrange
L8 pixel = new(luminance);
// Act
Rgba32 actual = pixel.ToRgba32();
// Assert
Assert.Equal(luminance, actual.R);
Assert.Equal(luminance, actual.G);
Assert.Equal(luminance, actual.B);
Assert.Equal(byte.MaxValue, actual.A);
}
[Fact]
public void L8_FromBgra5551()
{
// arrange
const byte expected = byte.MaxValue;
// act
L8 grey = L8.FromBgra5551(new Bgra5551(1f, 1f, 1f, 1f));
// assert
Assert.Equal(expected, grey.PackedValue);
}
public class Rgba32Compatibility
{
// ReSharper disable once MemberHidesStaticFromOuterClass
public static readonly TheoryData<byte> LuminanceData = L8Tests.LuminanceData;
[Theory]
[MemberData(nameof(LuminanceData))]
public void L8_FromRgba32_IsInverseOf_ToRgba32(byte luminance)
{
L8 original = new(luminance);
Rgba32 rgba = original.ToRgba32();
L8 mirror = L8.FromRgba32(rgba);
Assert.Equal(original, mirror);
}
[Theory]
[MemberData(nameof(LuminanceData))]
public void Rgba32_ToL8_IsInverseOf_L8_ToRgba32(byte luminance)
{
L8 original = new(luminance);
Rgba32 rgba = original.ToRgba32();
L8 mirror = L8.FromRgba32(rgba);
Assert.Equal(original, mirror);
}
[Theory]
[MemberData(nameof(LuminanceData))]
public void ToVector4_IsRgba32Compatible(byte luminance)
{
L8 original = new(luminance);
Rgba32 rgba = original.ToRgba32();
Vector4 l8Vector = original.ToVector4();
Vector4 rgbaVector = rgba.ToVector4();
Assert.Equal(l8Vector, rgbaVector, new ApproximateFloatComparer(1e-5f));
}
[Theory]
[MemberData(nameof(LuminanceData))]
public void FromVector4_IsRgba32Compatible(byte luminance)
{
L8 original = new(luminance);
Rgba32 rgba = original.ToRgba32();
Vector4 rgbaVector = rgba.ToVector4();
L8 mirror = L8.FromVector4(rgbaVector);
Assert.Equal(original, mirror);
}
[Theory]
[MemberData(nameof(LuminanceData))]
public void ToScaledVector4_IsRgba32Compatible(byte luminance)
{
L8 original = new(luminance);
Rgba32 rgba = original.ToRgba32();
Vector4 l8Vector = original.ToScaledVector4();
Vector4 rgbaVector = original.ToScaledVector4();
Assert.Equal(l8Vector, rgbaVector, new ApproximateFloatComparer(1e-5f));
}
[Theory]
[MemberData(nameof(LuminanceData))]
public void FromScaledVector4_IsRgba32Compatible(byte luminance)
{
L8 original = new(luminance);
Rgba32 rgba = original.ToRgba32();
Vector4 rgbaVector = rgba.ToScaledVector4();
L8 mirror = L8.FromScaledVector4(rgbaVector);
Assert.Equal(original, mirror);
}
[Fact]
public void L8_PixelInformation()
{
PixelTypeInfo info = L8.GetPixelTypeInfo();
Assert.Equal(Unsafe.SizeOf<L8>() * 8, info.BitsPerPixel);
Assert.Equal(PixelAlphaRepresentation.None, info.AlphaRepresentation);
Assert.Equal(PixelColorType.Luminance, info.ColorType);
PixelComponentInfo componentInfo = info.ComponentInfo.Value;
Assert.Equal(1, componentInfo.ComponentCount);
Assert.Equal(0, componentInfo.Padding);
Assert.Equal(8, componentInfo.GetComponentPrecision(0));
Assert.Equal(8, componentInfo.GetMaximumComponentPrecision());
}
}
}