Merge branch 'main' into sn/fix_rider-errors

.github/workflows/build-and-test.yml

@@ -69,12 +69,6 @@ jobs:
             sdk-preview: true
             runtime: -x64
             codecov: false
-          - os: macos-13 # macos-latest runs on arm64 runners where libgdiplus is unavailable
-            framework: net10.0
-            sdk: 10.0.x
-            sdk-preview: true
-            runtime: -x64
-            codecov: false
           - os: macos-26
             framework: net10.0
             sdk: 10.0.x
@@ -99,11 +93,6 @@ jobs:
             sdk: 8.0.x
             runtime: -x64
             codecov: false
-          - os: macos-13 # macos-latest runs on arm64 runners where libgdiplus is unavailable
-            framework: net8.0
-            sdk: 8.0.x
-            runtime: -x64
-            codecov: false
           - os: macos-26
             framework: net8.0
             sdk: 8.0.x

src/ImageSharp/ColorProfiles/ColorProfileConverterExtensionsIcc.cs

@@ -39,6 +39,24 @@ internal static class ColorProfileConverterExtensionsIcc
          0.0033717495F, 0.0034852044F, 0.0028800198F, 0F,
          0.0033717495F, 0.0034852044F, 0.0028800198F, 0F];
 
+    /// <summary>
+    /// Converts a color value from one ICC color profile to another using the specified color profile converter.
+    /// </summary>
+    /// <remarks>
+    /// This method performs color conversion using ICC profiles, ensuring accurate color mapping
+    /// between different color spaces. Both the source and target ICC profiles must be provided in the converter's
+    /// options. The method supports perceptual adjustments when required by the profiles.
+    /// </remarks>
+    /// <typeparam name="TFrom">The type representing the source color profile. Must implement <see cref="IColorProfile{TFrom}"/>.</typeparam>
+    /// <typeparam name="TTo">The type representing the destination color profile. Must implement <see cref="IColorProfile{TTo}"/>.</typeparam>
+    /// <param name="converter">The color profile converter configured with source and target ICC profiles.</param>
+    /// <param name="source">The color value to convert, defined in the source color profile.</param>
+    /// <returns>
+    /// A color value in the target color profile, resulting from the ICC profile-based conversion of the source value.
+    /// </returns>
+    /// <exception cref="InvalidOperationException">
+    /// Thrown if either the source or target ICC profile is missing from the converter options.
+    /// </exception>
     internal static TTo ConvertUsingIccProfile<TFrom, TTo>(this ColorProfileConverter converter, in TFrom source)
         where TFrom : struct, IColorProfile<TFrom>
         where TTo : struct, IColorProfile<TTo>
@@ -81,6 +99,29 @@ internal static class ColorProfileConverterExtensionsIcc
         return TTo.FromScaledVector4(targetParams.Converter.Calculate(targetPcs));
     }
 
+    /// <summary>
+    /// Converts a span of color values from a source color profile to a destination color profile using ICC profiles.
+    /// </summary>
+    /// <remarks>
+    /// This method performs color conversion by transforming the input values through the Profile
+    /// Connection Space (PCS) as defined by the provided ICC profiles. Perceptual adjustments are applied as required
+    /// by the profiles. The method does not support absolute colorimetric intent and will not perform such
+    /// conversions.
+    /// </remarks>
+    /// <typeparam name="TFrom">The type representing the source color profile. Must implement <see cref="IColorProfile{TFrom}"/>.</typeparam>
+    /// <typeparam name="TTo">The type representing the destination color profile. Must implement <see cref="IColorProfile{TTo}"/>.</typeparam>
+    /// <param name="converter">The color profile converter that provides conversion options and ICC profiles.</param>
+    /// <param name="source">
+    /// A read-only span containing the source color values to convert. The values must conform to the source color
+    /// profile.
+    /// </param>
+    /// <param name="destination">
+    /// A span to receive the converted color values in the destination color profile. Must be at least as large as the
+    /// source span.
+    /// </param>
+    /// <exception cref="InvalidOperationException">
+    /// Thrown if the source or target ICC profile is missing from the converter options.
+    /// </exception>
     internal static void ConvertUsingIccProfile<TFrom, TTo>(this ColorProfileConverter converter, ReadOnlySpan<TFrom> source, Span<TTo> destination)
         where TFrom : struct, IColorProfile<TFrom>
         where TTo : struct, IColorProfile<TTo>

src/ImageSharp/ColorProfiles/ColorProfileConverterExtensionsPixelCompatible.cs

@@ -0,0 +1,72 @@
+// Copyright (c) Six Labors.
+// Licensed under the Six Labors Split License.
+
+using System.Buffers;
+using System.Numerics;
+using System.Runtime.CompilerServices;
+using System.Runtime.InteropServices;
+using SixLabors.ImageSharp.PixelFormats;
+using SixLabors.ImageSharp.Processing;
+
+namespace SixLabors.ImageSharp.ColorProfiles;
+
+internal static class ColorProfileConverterExtensionsPixelCompatible
+{
+    /// <summary>
+    /// Converts the pixel data of the specified image from the source color profile to the target color profile using
+    /// the provided color profile converter.
+    /// </summary>
+    /// <remarks>
+    /// This method modifies the source image in place by converting its pixel data according to the
+    /// color profiles specified in the converter. The method does not verify whether the profiles are RGB compatible;
+    /// if they are not, the conversion may produce incorrect results. Ensure that both the source and target ICC
+    /// profiles are set on the converter before calling this method.
+    /// </remarks>
+    /// <typeparam name="TPixel">The pixel format.</typeparam>
+    /// <param name="converter">The color profile converter configured with source and target ICC profiles.</param>
+    /// <param name="source">
+    /// The image whose pixel data will be converted. The conversion is performed in place, modifying the original
+    /// image.
+    /// </param>
+    /// <exception cref="InvalidOperationException">
+    /// Thrown if the converter's source or target ICC profile is not specified.
+    /// </exception>
+    public static void Convert<TPixel>(this ColorProfileConverter converter, Image<TPixel> source)
+        where TPixel : unmanaged, IPixel<TPixel>
+    {
+        // These checks actually take place within the converter, but we want to fail fast here.
+        // Note. we do not check to see whether the profiles themselves are RGB compatible,
+        // if they are not, then the converter will simply produce incorrect results.
+        if (converter.Options.SourceIccProfile is null)
+        {
+            throw new InvalidOperationException("Source ICC profile is missing.");
+        }
+
+        if (converter.Options.TargetIccProfile is null)
+        {
+            throw new InvalidOperationException("Target ICC profile is missing.");
+        }
+
+        // Process the rows in parallel chunks, the converter itself is thread safe.
+        source.Mutate(o => o.ProcessPixelRowsAsVector4(
+            row =>
+            {
+                // Gather and convert the pixels in the row to Rgb.
+                using IMemoryOwner<Rgb> rgbBuffer = converter.Options.MemoryAllocator.Allocate<Rgb>(row.Length);
+                Span<Rgb> rgbSpan = rgbBuffer.Memory.Span;
+                Rgb.FromScaledVector4(row, rgbSpan);
+
+                // Perform the actual color conversion.
+                converter.ConvertUsingIccProfile<Rgb, Rgb>(rgbSpan, rgbSpan);
+
+                // Copy the converted Rgb pixels back to the row as TPixel.
+                ref Vector4 rowRef = ref MemoryMarshal.GetReference(row);
+                for (int i = 0; i < rgbSpan.Length; i++)
+                {
+                    Vector3 rgb = rgbSpan[i].AsVector3Unsafe();
+                    Unsafe.As<Vector4, Vector3>(ref Unsafe.Add(ref rowRef, (uint)i)) = rgb;
+                }
+            },
+            PixelConversionModifiers.Scale));
+    }
+}

src/ImageSharp/Formats/ImageDecoderCore.cs

@@ -1,8 +1,11 @@
 // Copyright (c) Six Labors.
 // Licensed under the Six Labors Split License.
 
+using SixLabors.ImageSharp.ColorProfiles;
+using SixLabors.ImageSharp.ColorProfiles.Icc;
 using SixLabors.ImageSharp.IO;
 using SixLabors.ImageSharp.Memory;
+using SixLabors.ImageSharp.Metadata.Profiles.Icc;
 using SixLabors.ImageSharp.PixelFormats;
 
 namespace SixLabors.ImageSharp.Formats;
@@ -124,4 +127,41 @@ internal abstract class ImageDecoderCore
     /// </remarks>
     protected abstract Image<TPixel> Decode<TPixel>(BufferedReadStream stream, CancellationToken cancellationToken)
         where TPixel : unmanaged, IPixel<TPixel>;
+
+    /// <summary>
+    /// Converts the ICC color profile of the specified image to the compact sRGB v4 profile if a source profile is
+    /// available.
+    /// </summary>
+    /// <remarks>
+    /// This method should only be used by decoders that gurantee that the encoded image data is in a color space
+    /// compatible with sRGB (e.g. standard RGB, Adobe RGB, ProPhoto RGB).
+    /// <br/>
+    /// If the image does not have a valid ICC profile for color conversion, no changes are made.
+    /// This operation may affect the color appearance of the image to ensure consistency with the sRGB color
+    /// space.
+    /// </remarks>
+    /// <typeparam name="TPixel">The pixel format.</typeparam>
+    /// <param name="image">The image whose ICC profile will be converted to the compact sRGB v4 profile.</param>
+    /// <returns>
+    /// <see langword="true"/> if the conversion was performed; otherwise, <see langword="false"/>.
+    /// </returns>
+    protected bool TryConvertIccProfile<TPixel>(Image<TPixel> image)
+        where TPixel : unmanaged, IPixel<TPixel>
+    {
+        if (!this.Options.TryGetIccProfileForColorConversion(image.Metadata.IccProfile, out IccProfile? profile))
+        {
+            return false;
+        }
+
+        ColorConversionOptions options = new()
+        {
+            SourceIccProfile = profile,
+            TargetIccProfile = CompactSrgbV4Profile.Profile,
+            MemoryAllocator = image.Configuration.MemoryAllocator,
+        };
+
+        ColorProfileConverter converter = new(options);
+        converter.Convert(image);
+        return true;
+    }
 }

src/ImageSharp/Formats/Png/PngDecoderCore.cs

@@ -212,6 +212,7 @@ internal sealed class PngDecoderCore : ImageDecoderCore
                             currentFrameControl = this.ReadFrameControlChunk(chunk.Data.GetSpan());
                             break;
                         case PngChunkType.FrameData:
+                        {
                             if (frameCount >= this.maxFrames)
                             {
                                 goto EOF;
@@ -246,7 +247,10 @@ internal sealed class PngDecoderCore : ImageDecoderCore
                             }
 
                             break;
+                        }
+
                         case PngChunkType.Data:
+                        {
                             pngMetadata.AnimateRootFrame = currentFrameControl != null;
                             currentFrameControl ??= new FrameControl((uint)this.header.Width, (uint)this.header.Height);
                             if (image is null)
@@ -276,6 +280,8 @@ internal sealed class PngDecoderCore : ImageDecoderCore
                             }
 
                             break;
+                        }
+
                         case PngChunkType.Palette:
                             this.palette = chunk.Data.GetSpan().ToArray();
                             break;
@@ -323,6 +329,7 @@ internal sealed class PngDecoderCore : ImageDecoderCore
                 PngThrowHelper.ThrowNoData();
             }
 
+            _ = this.TryConvertIccProfile(image);
             return image;
         }
         catch

src/ImageSharp/Formats/Png/PngMetadata.cs

@@ -111,7 +111,7 @@ public class PngMetadata : IFormatMetadata<PngMetadata>
                 color = PngColorType.Rgb;
                 break;
             default:
-                if (colorType.HasFlag(PixelColorType.Luminance))
+                if (colorType.HasFlag(PixelColorType.Luminance | PixelColorType.Alpha))
                 {
                     color = PngColorType.GrayscaleWithAlpha;
                     break;

src/ImageSharp/Formats/Tiff/PhotometricInterpretation/Rgba16161616TiffColor{TPixel}.cs

@@ -1,5 +1,6 @@
 // Copyright (c) Six Labors.
 // Licensed under the Six Labors Split License.
+
 #nullable disable
 
 using System.Buffers;
@@ -48,31 +49,53 @@ internal class Rgba16161616TiffColor<TPixel> : TiffBaseColorDecoder<TPixel>
 
         using IMemoryOwner<Vector4> vectors = hasAssociatedAlpha ? this.memoryAllocator.Allocate<Vector4>(width) : null;
         Span<Vector4> vectorsSpan = hasAssociatedAlpha ? vectors.GetSpan() : [];
-        for (int y = top; y < top + height; y++)
-        {
-            Span<TPixel> pixelRow = pixels.DangerousGetRowSpan(y).Slice(left, width);
 
-            if (this.isBigEndian)
+        if (this.isBigEndian)
+        {
+            if (hasAssociatedAlpha)
             {
-                for (int x = 0; x < pixelRow.Length; x++)
+                for (int y = top; y < top + height; y++)
                 {
-                    ushort r = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset, 2));
-                    offset += 2;
-                    ushort g = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset, 2));
-                    offset += 2;
-                    ushort b = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset, 2));
-                    offset += 2;
-                    ushort a = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset, 2));
-                    offset += 2;
-
-                    pixelRow[x] = hasAssociatedAlpha
-                        ? TiffUtilities.ColorFromRgba64Premultiplied<TPixel>(r, g, b, a)
-                        : TPixel.FromRgba64(new Rgba64(r, g, b, a));
+                    Span<TPixel> pixelRow = pixels.DangerousGetRowSpan(y).Slice(left, width);
+
+                    for (int x = 0; x < pixelRow.Length; x++)
+                    {
+                        ushort r = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset, 2));
+                        ushort g = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset + 2, 2));
+                        ushort b = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset + 4, 2));
+                        ushort a = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset + 6, 2));
+                        offset += 8;
+
+                        pixelRow[x] = TiffUtilities.ColorFromRgba64Premultiplied<TPixel>(r, g, b, a);
+                    }
                 }
             }
             else
             {
+                for (int y = top; y < top + height; y++)
+                {
+                    Span<TPixel> pixelRow = pixels.DangerousGetRowSpan(y).Slice(left, width);
+
+                    for (int x = 0; x < pixelRow.Length; x++)
+                    {
+                        ushort r = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset, 2));
+                        ushort g = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset + 2, 2));
+                        ushort b = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset + 4, 2));
+                        ushort a = TiffUtilities.ConvertToUShortBigEndian(data.Slice(offset + 6, 2));
+                        offset += 8;
+
+                        pixelRow[x] = TPixel.FromRgba64(new Rgba64(r, g, b, a));
+                    }
+                }
+            }
+        }
+        else
+        {
+            for (int y = top; y < top + height; y++)
+            {
+                Span<TPixel> pixelRow = pixels.DangerousGetRowSpan(y).Slice(left, width);
                 int byteCount = pixelRow.Length * 8;
+
                 PixelOperations<TPixel>.Instance.FromRgba64Bytes(
                     this.configuration,
                     data.Slice(offset, byteCount),

src/ImageSharp/Formats/Tiff/Utils/TiffUtilities.cs

@@ -45,7 +45,12 @@ internal static class TiffUtilities
             return TPixel.FromRgba64(default);
         }
 
-        return TPixel.FromRgba64(new Rgba64((ushort)(r / a), (ushort)(g / a), (ushort)(b / a), a));
+        float scale = 65535f / a;
+        ushort ur = (ushort)Math.Min(r * scale, 65535);
+        ushort ug = (ushort)Math.Min(g * scale, 65535);
+        ushort ub = (ushort)Math.Min(b * scale, 65535);
+
+        return TPixel.FromRgba64(new Rgba64(ur, ug, ub, a));
     }
 
     [MethodImpl(MethodImplOptions.AggressiveInlining)]

src/ImageSharp/Formats/Webp/Chunks/WebpVp8X.cs

@@ -123,7 +123,10 @@ internal readonly struct WebpVp8X : IEquatable<WebpVp8X>
         long pos = RiffHelper.BeginWriteChunk(stream, (uint)WebpChunkType.Vp8X);
 
         stream.WriteByte(flags);
-        stream.Position += 3; // Reserved bytes
+
+        Span<byte> reserved = stackalloc byte[3];
+        stream.Write(reserved);
+
         WebpChunkParsingUtils.WriteUInt24LittleEndian(stream, this.Width - 1);
         WebpChunkParsingUtils.WriteUInt24LittleEndian(stream, this.Height - 1);
 

src/ImageSharp/Memory/Allocators/Internals/UnmanagedMemoryHandle.cs

@@ -39,13 +39,13 @@ internal struct UnmanagedMemoryHandle : IEquatable<UnmanagedMemoryHandle>
         Interlocked.Increment(ref totalOutstandingHandles);
     }
 
-    public IntPtr Handle => this.handle;
+    public readonly IntPtr Handle => this.handle;
 
-    public bool IsInvalid => this.Handle == IntPtr.Zero;
+    public readonly bool IsInvalid => this.Handle == IntPtr.Zero;
 
-    public bool IsValid => this.Handle != IntPtr.Zero;
+    public readonly bool IsValid => this.Handle != IntPtr.Zero;
 
-    public unsafe void* Pointer => (void*)this.Handle;
+    public readonly unsafe void* Pointer => (void*)this.Handle;
 
     /// <summary>
     /// Gets the total outstanding handle allocations for testing purposes.
@@ -121,9 +121,9 @@ internal struct UnmanagedMemoryHandle : IEquatable<UnmanagedMemoryHandle>
         this.lengthInBytes = 0;
     }
 
-    public bool Equals(UnmanagedMemoryHandle other) => this.handle.Equals(other.handle);
+    public readonly bool Equals(UnmanagedMemoryHandle other) => this.handle.Equals(other.handle);
 
-    public override bool Equals(object? obj) => obj is UnmanagedMemoryHandle other && this.Equals(other);
+    public override readonly bool Equals(object? obj) => obj is UnmanagedMemoryHandle other && this.Equals(other);
 
-    public override int GetHashCode() => this.handle.GetHashCode();
+    public override readonly int GetHashCode() => this.handle.GetHashCode();
 }

tests/ImageSharp.Tests/Formats/Png/PngDecoderTests.cs

@@ -206,6 +206,22 @@ public partial class PngDecoderTests
         image.CompareToOriginal(provider, ImageComparer.Exact);
     }
 
+    [Theory]
+    [WithFile(TestImages.Png.Icc.Perceptual, PixelTypes.Rgba32)]
+    [WithFile(TestImages.Png.Icc.PerceptualcLUTOnly, PixelTypes.Rgba32)]
+    [WithFile(TestImages.Png.Icc.SRgbGray, PixelTypes.Rgba32)]
+    [WithFile(TestImages.Png.Icc.SRgbGrayInterlacedRgba32, PixelTypes.Rgba32)]
+    [WithFile(TestImages.Png.Icc.SRgbGrayInterlacedRgba64, PixelTypes.Rgba32)]
+    public void Decode_WhenColorProfileHandlingIsConvert_ApplyIccProfile<TPixel>(TestImageProvider<TPixel> provider)
+        where TPixel : unmanaged, IPixel<TPixel>
+    {
+        using Image<TPixel> image = provider.GetImage(PngDecoder.Instance, new DecoderOptions { ColorProfileHandling = ColorProfileHandling.Convert });
+
+        image.DebugSave(provider);
+        image.CompareToReferenceOutput(provider);
+        Assert.Null(image.Metadata.IccProfile);
+    }
+
     [Theory]
     [WithFile(TestImages.Png.SubFilter3BytesPerPixel, PixelTypes.Rgba32)]
     [WithFile(TestImages.Png.SubFilter4BytesPerPixel, PixelTypes.Rgba32)]

tests/ImageSharp.Tests/Formats/Png/PngMetadataTests.cs

@@ -336,4 +336,29 @@ public class PngMetadataTests
 
         Assert.Equal(42, (int)exif.GetValue(ExifTag.ImageNumber).Value);
     }
+
+
+    [Theory]
+    [InlineData(PixelColorType.Binary, PngColorType.Palette)]
+    [InlineData(PixelColorType.Indexed, PngColorType.Palette)]
+    [InlineData(PixelColorType.Luminance, PngColorType.Grayscale)]
+    [InlineData(PixelColorType.RGB, PngColorType.Rgb)]
+    [InlineData(PixelColorType.BGR, PngColorType.Rgb)]
+    [InlineData(PixelColorType.YCbCr, PngColorType.RgbWithAlpha)]
+    [InlineData(PixelColorType.CMYK, PngColorType.RgbWithAlpha)]
+    [InlineData(PixelColorType.YCCK, PngColorType.RgbWithAlpha)]
+    public void FromFormatConnectingMetadata_ConvertColorTypeAsExpected(PixelColorType pixelColorType, PngColorType expectedPngColorType)
+    {
+        FormatConnectingMetadata formatConnectingMetadata = new()
+        {
+            PixelTypeInfo = new PixelTypeInfo(24)
+            {
+                ColorType = pixelColorType,
+            },
+        };
+
+        PngMetadata actual = PngMetadata.FromFormatConnectingMetadata(formatConnectingMetadata);
+
+        Assert.Equal(expectedPngColorType, actual.ColorType);
+    }
 }

tests/ImageSharp.Tests/Formats/Tiff/TiffDecoderTests.cs

@@ -365,6 +365,19 @@ public class TiffDecoderTests : TiffDecoderBaseTester
         image.CompareToReferenceOutput(ImageComparer.TolerantPercentage(0.0001F), provider);
     }
 
+    [Theory]
+    [WithFile(Issues3031, PixelTypes.Rgba64)]
+    [WithFile(Rgba16BitAssociatedAlphaBigEndian, PixelTypes.Rgba64)]
+    [WithFile(Rgba16BitAssociatedAlphaLittleEndian, PixelTypes.Rgba64)]
+    public void TiffDecoder_CanDecode_64Bit_WithAssociatedAlpha<TPixel>(TestImageProvider<TPixel> provider)
+        where TPixel : unmanaged, IPixel<TPixel>
+    {
+        using Image<TPixel> image = provider.GetImage(TiffDecoder.Instance);
+        image.DebugSave(provider);
+
+        image.CompareToReferenceOutput(ImageComparer.Exact, provider);
+    }
+
     [Theory]
     [WithFile(Issues2454_A, PixelTypes.Rgba32)]
     [WithFile(Issues2454_B, PixelTypes.Rgba32)]

tests/ImageSharp.Tests/Formats/Tiff/Utils/TiffUtilitiesTest.cs

@@ -0,0 +1,51 @@
+// Copyright (c) Six Labors.
+// Licensed under the Six Labors Split License.
+
+using SixLabors.ImageSharp.Formats.Tiff.Utils;
+using SixLabors.ImageSharp.PixelFormats;
+
+namespace SixLabors.ImageSharp.Tests.Formats.Tiff.Utils;
+
+[Trait("Format", "Tiff")]
+public class TiffUtilitiesTest
+{
+    [Theory]
+    [InlineData(0, 0, 0, 0)]
+    [InlineData(42, 84, 128, 0)]
+    [InlineData(65535, 65535, 65535, 0)]
+    public void ColorFromRgba64Premultiplied_WithZeroAlpha_ReturnsDefaultPixel(ushort r, ushort g, ushort b, ushort a)
+    {
+        Rgba64 actual = TiffUtilities.ColorFromRgba64Premultiplied<Rgba64>(r, g, b, a);
+
+        Assert.Equal(default, actual);
+    }
+
+    [Theory]
+    [InlineData(65535, 65535, 65535, 65535, 65535, 65535, 65535, 65535)]
+    [InlineData(32767, 0, 0, 65535, 32767, 0, 0, 65535)]
+    [InlineData(0, 32767, 0, 65535, 0, 32767, 0, 65535)]
+    [InlineData(0, 0, 32767, 65535, 0, 0, 32767, 65535)]
+    public void ColorFromRgba64Premultiplied_WithNoAlpha_ReturnExpectedValues(ushort r, ushort g, ushort b, ushort a, ushort expectedR, ushort expectedG, ushort expectedB, ushort expectedA)
+    {
+        Rgba64 actual = TiffUtilities.ColorFromRgba64Premultiplied<Rgba64>(r, g, b, a);
+
+        Assert.Equal(new Rgba64(expectedR, expectedG, expectedB, expectedA), actual);
+    }
+
+    [Theory]
+    [InlineData(32766, 0, 0, 32766, 65535, 0, 0, 32766)] // Red, 50% Alpha
+    [InlineData(0, 32766, 0, 32766, 0, 65535, 0, 32766)] // Green, 50% Alpha
+    [InlineData(0, 0, 32766, 32766, 0, 0, 65535, 32766)] // Blue, 50% Alpha
+    [InlineData(8191, 0, 0, 16383, 32765, 0, 0, 16383)] // Red, 25% Alpha
+    [InlineData(0, 8191, 0, 16383, 0, 32765, 0, 16383)] // Green, 25% Alpha
+    [InlineData(0, 0, 8191, 16383, 0, 0, 32765, 16383)] // Blue, 25% Alpha
+    [InlineData(8191, 0, 0, 0, 0, 0, 0, 0)] // Red, 0% Alpha
+    [InlineData(0, 8191, 0, 0, 0, 0, 0, 0)] // Green, 0% Alpha
+    [InlineData(0, 0, 8191, 0, 0, 0, 0, 0)] // Blue, 0% Alpha
+    public void ColorFromRgba64Premultiplied_WithAlpha_ReturnExpectedValues(ushort r, ushort g, ushort b, ushort a, ushort expectedR, ushort expectedG, ushort expectedB, ushort expectedA)
+    {
+        Rgba64 actual = TiffUtilities.ColorFromRgba64Premultiplied<Rgba64>(r, g, b, a);
+
+        Assert.Equal(new Rgba64(expectedR, expectedG, expectedB, expectedA), actual);
+    }
+}

tests/ImageSharp.Tests/Formats/WebP/WebpVp8XTests.cs

@@ -0,0 +1,26 @@
+// Copyright (c) Six Labors.
+// Licensed under the Six Labors Split License.
+
+using SixLabors.ImageSharp.Formats.Webp.Chunks;
+
+namespace SixLabors.ImageSharp.Tests.Formats.WebP;
+
+[Trait("Format", "Webp")]
+public class WebpVp8XTests
+{
+    [Fact]
+    public void WebpVp8X_WriteTo_Writes_Reserved_Bytes()
+    {
+        // arrange
+        WebpVp8X header = new(false, false, false, false, false, 10, 40);
+        MemoryStream ms = new();
+        byte[] expected = [86, 80, 56, 88, 10, 0, 0, 0, 0, 0, 0, 0, 9, 0, 0, 39, 0, 0];
+
+        // act
+        header.WriteTo(ms);
+
+        // assert
+        byte[] actual = ms.ToArray();
+        Assert.Equal(expected, actual);
+    }
+}

tests/ImageSharp.Tests/Memory/Allocators/UniformUnmanagedPoolMemoryAllocatorTests.cs

@@ -2,6 +2,7 @@
 // Licensed under the Six Labors Split License.
 
 using System.Buffers;
+using System.Globalization;
 using System.Runtime.CompilerServices;
 using System.Runtime.InteropServices;
 using Microsoft.DotNet.RemoteExecutor;
@@ -273,67 +274,75 @@ public class UniformUnmanagedPoolMemoryAllocatorTests
     [InlineData(1200)] // Group of two UniformUnmanagedMemoryPool buffers
     public void AllocateMemoryGroup_Finalization_ReturnsToPool(int length)
     {
-        if (TestEnvironment.IsMacOS)
-        {
-            // Skip on macOS: https://github.com/SixLabors/ImageSharp/issues/1887
-            return;
-        }
-
-        if (TestEnvironment.OSArchitecture == Architecture.Arm64)
-        {
-            // Skip on ARM64: https://github.com/SixLabors/ImageSharp/issues/2342
-            return;
-        }
-
-        if (!TestEnvironment.RunsOnCI)
-        {
-            // This may fail in local runs resulting in high memory load.
-            // Remove the condition for local debugging!
-            return;
-        }
-
-        // RunTest(length.ToString());
-        RemoteExecutor.Invoke(RunTest, length.ToString()).Dispose();
+        RemoteExecutor.Invoke(RunTest, length.ToString(CultureInfo.InvariantCulture)).Dispose();
 
         static void RunTest(string lengthStr)
         {
             UniformUnmanagedMemoryPoolMemoryAllocator allocator = new(512, 1024, 16 * 1024, 1024);
-            int lengthInner = int.Parse(lengthStr);
-
+            int lengthInner = int.Parse(lengthStr, CultureInfo.InvariantCulture);
+
+            // We want to verify that a leaked (not disposed) `MemoryGroup<byte>` still returns its
+            // unmanaged handles into the pool when it is finalized.
+            //
+            // We intentionally do NOT validate this by checking the contents of the re-rented memory
+            // (contents are not guaranteed to be preserved) nor by comparing pointer values
+            // (the pool may return a different handle while still correctly pooling).
+            //
+            // Instead, we validate that after a forced GC+finalization cycle, a subsequent allocation
+            // of the same size does not cause the number of outstanding unmanaged handles to *increase*
+            // compared to a known baseline.
+
+            // Establish a baseline: create one allocation and dispose it so the pool is initialized.
+            // (This ensures subsequent observations are not biased by first-time pool growth.)
+            allocator.AllocateGroup<byte>(lengthInner, 100).Dispose();
+            int baselineHandles = UnmanagedMemoryHandle.TotalOutstandingHandles;
+
+            // Leak one allocation and force finalization.
             AllocateGroupAndForget(allocator, lengthInner);
             GC.Collect();
             GC.WaitForPendingFinalizers();
             GC.Collect();
             GC.WaitForPendingFinalizers();
 
-            AllocateGroupAndForget(allocator, lengthInner, true);
-            GC.Collect();
-            GC.WaitForPendingFinalizers();
-            GC.Collect();
-            GC.WaitForPendingFinalizers();
-
-            using MemoryGroup<byte> g = allocator.AllocateGroup<byte>(lengthInner, 100);
-            Assert.Equal(42, g.First().Span[0]);
+            // Allocate again. If the leaked group was finalized correctly and returned to the pool,
+            // this should not require additional unmanaged allocations (ie, the handle count must not grow).
+            allocator.AllocateGroup<byte>(lengthInner, 100).Dispose();
+
+            // Note: we use "<=" instead of "==" here.
+            //
+            // After we record the baseline, the pool is allowed to legitimately *decrease*
+            // `UnmanagedMemoryHandle.TotalOutstandingHandles` by trimming retained buffers
+            // (eg. via the pool's trim timer/GC callbacks/high-pressure logic).
+            //
+            // What must not happen is the opposite: the leaked (non-disposed) group should be finalized
+            // and its handles returned to the pool such that allocating again does NOT require creating
+            // additional unmanaged handles. Therefore the only invariant we can reliably assert here is
+            // "no growth" relative to the baseline.
+            Assert.True(UnmanagedMemoryHandle.TotalOutstandingHandles <= baselineHandles);
         }
     }
 
-    private static void AllocateGroupAndForget(UniformUnmanagedMemoryPoolMemoryAllocator allocator, int length, bool check = false)
+    [MethodImpl(MethodImplOptions.NoInlining)]
+    private static void AllocateGroupAndForget(UniformUnmanagedMemoryPoolMemoryAllocator allocator, int length)
     {
+        // Allocate a group and drop the reference without disposing.
+        // The test relies on the group's finalizer to return the rented memory to the pool.
         MemoryGroup<byte> g = allocator.AllocateGroup<byte>(length, 100);
-        if (check)
-        {
-            Assert.Equal(42, g.First().Span[0]);
-        }
 
-        g.First().Span[0] = 42;
+        // Touch the memory to ensure the buffer is actually materialized/usable.
+        g[0].Span[0] = 42;
 
         if (length < 512)
         {
-            // For ArrayPool.Shared, first array will be returned to the TLS storage of the finalizer thread,
-            // repeat rental to make sure per-core buckets are also utilized.
+            // For ArrayPool.Shared, the first rented array may be stored in TLS on the finalizer thread.
+            // Repeat rental to increase the chance that per-core buckets are involved when length
+            // is small and allocations go through ArrayPool.
             MemoryGroup<byte> g1 = allocator.AllocateGroup<byte>(length, 100);
-            g1.First().Span[0] = 42;
+            g1[0].Span[0] = 42;
+            g1 = null;
         }
+
+        g = null;
     }
 
     [Theory]
@@ -341,69 +350,63 @@ public class UniformUnmanagedPoolMemoryAllocatorTests
     [InlineData(600)] // Group of single UniformUnmanagedMemoryPool buffer
     public void AllocateSingleMemoryOwner_Finalization_ReturnsToPool(int length)
     {
-        if (TestEnvironment.IsMacOS)
-        {
-            // Skip on macOS: https://github.com/SixLabors/ImageSharp/issues/1887
-            return;
-        }
-
-        if (TestEnvironment.OSArchitecture == Architecture.Arm64)
-        {
-            // Skip on ARM64: https://github.com/SixLabors/ImageSharp/issues/2342
-            return;
-        }
-
-        if (!TestEnvironment.RunsOnCI)
-        {
-            // This may fail in local runs resulting in high memory load.
-            // Remove the condition for local debugging!
-            return;
-        }
-
-        // RunTest(length.ToString());
-        RemoteExecutor.Invoke(RunTest, length.ToString()).Dispose();
+        RemoteExecutor.Invoke(RunTest, length.ToString(CultureInfo.InvariantCulture)).Dispose();
 
         static void RunTest(string lengthStr)
         {
             UniformUnmanagedMemoryPoolMemoryAllocator allocator = new(512, 1024, 16 * 1024, 1024);
-            int lengthInner = int.Parse(lengthStr);
-
+            int lengthInner = int.Parse(lengthStr, CultureInfo.InvariantCulture);
+
+            // This test verifies pooling behavior when an `IMemoryOwner<byte>` is leaked (not disposed)
+            // and must be returned to the pool by finalization.
+            //
+            // We do NOT use a sentinel byte value to prove reuse because the contents of pooled buffers
+            // are not required to be preserved across rentals.
+            //
+            // Instead, we assert that after forcing GC+finalization, renting the same size again does not
+            // increase `UnmanagedMemoryHandle.TotalOutstandingHandles` above a baseline.
+
+            // Establish a baseline: allocate+dispose once so the pool has a chance to materialize/retain buffers.
+            allocator.Allocate<byte>(lengthInner).Dispose();
+            int baselineHandles = UnmanagedMemoryHandle.TotalOutstandingHandles;
+
+            // Leak one allocation and force finalization.
             AllocateSingleAndForget(allocator, lengthInner);
             GC.Collect();
             GC.WaitForPendingFinalizers();
             GC.Collect();
             GC.WaitForPendingFinalizers();
 
-            AllocateSingleAndForget(allocator, lengthInner, true);
-            GC.Collect();
-            GC.WaitForPendingFinalizers();
-            GC.Collect();
-            GC.WaitForPendingFinalizers();
+            // Allocate again. If the leaked owner was finalized correctly and returned to the pool,
+            // this should not require additional unmanaged allocations (ie, the handle count must not grow).
+            allocator.Allocate<byte>(lengthInner).Dispose();
 
-            using IMemoryOwner<byte> g = allocator.Allocate<byte>(lengthInner);
-            Assert.Equal(42, g.GetSpan()[0]);
-            GC.KeepAlive(allocator);
+            // Note: we use "<=" rather than "==". The pool may legitimately trim and free retained buffers,
+            // reducing the handle count between baseline and check. The invariant is "no growth".
+            Assert.True(UnmanagedMemoryHandle.TotalOutstandingHandles <= baselineHandles);
         }
     }
 
     [MethodImpl(MethodImplOptions.NoInlining)]
-    private static void AllocateSingleAndForget(UniformUnmanagedMemoryPoolMemoryAllocator allocator, int length, bool check = false)
+    private static void AllocateSingleAndForget(UniformUnmanagedMemoryPoolMemoryAllocator allocator, int length)
     {
+        // Allocate and intentionally do not dispose.
         IMemoryOwner<byte> g = allocator.Allocate<byte>(length);
-        if (check)
-        {
-            Assert.Equal(42, g.GetSpan()[0]);
-        }
 
+        // Touch the memory to ensure the buffer is actually materialized/usable.
         g.GetSpan()[0] = 42;
 
         if (length < 512)
         {
-            // For ArrayPool.Shared, first array will be returned to the TLS storage of the finalizer thread,
-            // repeat rental to make sure per-core buckets are also utilized.
+            // For ArrayPool.Shared, the first rented array may be stored in TLS on the finalizer thread.
+            // Repeat rental to increase the chance that per-core buckets are involved when length
+            // is small and allocations go through ArrayPool.
             IMemoryOwner<byte> g1 = allocator.Allocate<byte>(length);
             g1.GetSpan()[0] = 42;
+            g1 = null;
         }
+
+        g = null;
     }
 
     [Fact]

tests/ImageSharp.Tests/MemoryAllocatorValidator.cs

@@ -20,20 +20,13 @@ public static class MemoryAllocatorValidator
     private static void MemoryDiagnostics_MemoryReleased()
     {
         TestMemoryDiagnostics backing = LocalInstance.Value;
-        if (backing != null)
-        {
-            backing.TotalRemainingAllocated--;
-        }
+        backing?.OnReleased();
     }
 
     private static void MemoryDiagnostics_MemoryAllocated()
     {
         TestMemoryDiagnostics backing = LocalInstance.Value;
-        if (backing != null)
-        {
-            backing.TotalAllocated++;
-            backing.TotalRemainingAllocated++;
-        }
+        backing?.OnAllocated();
     }
 
     public static TestMemoryDiagnostics MonitorAllocations()
@@ -48,11 +41,23 @@ public static class MemoryAllocatorValidator
     public static void ValidateAllocations(int expectedAllocationCount = 0)
         => LocalInstance.Value?.Validate(expectedAllocationCount);
 
-    public class TestMemoryDiagnostics : IDisposable
+    public sealed class TestMemoryDiagnostics : IDisposable
     {
-        public int TotalAllocated { get; set; }
+        private int totalAllocated;
+        private int totalRemainingAllocated;
+
+        public int TotalAllocated => Volatile.Read(ref this.totalAllocated);
+
+        public int TotalRemainingAllocated => Volatile.Read(ref this.totalRemainingAllocated);
+
+        internal void OnAllocated()
+        {
+            Interlocked.Increment(ref this.totalAllocated);
+            Interlocked.Increment(ref this.totalRemainingAllocated);
+        }
 
-        public int TotalRemainingAllocated { get; set; }
+        internal void OnReleased()
+            => Interlocked.Decrement(ref this.totalRemainingAllocated);
 
         public void Validate(int expectedAllocationCount)
         {

tests/ImageSharp.Tests/TestImages.cs

@@ -166,6 +166,15 @@ public static class TestImages
         // Issue 3000: https://github.com/SixLabors/ImageSharp/issues/3000
         public const string Issue3000 = "Png/issues/issue_3000.png";
 
+        public static class Icc
+        {
+            public const string SRgbGray = "Png/icc-profiles/sRGB_Gray.png";
+            public const string SRgbGrayInterlacedRgba32 = "Png/icc-profiles/sRGB_Gray_Interlaced_Rgba32.png";
+            public const string SRgbGrayInterlacedRgba64 = "Png/icc-profiles/sRGB_Gray_Interlaced_Rgba64.png";
+            public const string Perceptual = "Png/icc-profiles/Perceptual.png";
+            public const string PerceptualcLUTOnly = "Png/icc-profiles/Perceptual-cLUT-only.png";
+        }
+
         public static class Bad
         {
             public const string MissingDataChunk = "Png/xdtn0g01.png";
@@ -1142,6 +1151,7 @@ public static class TestImages
         public const string Issues2435 = "Tiff/Issues/Issue2435.tiff";
         public const string Issues2454_A = "Tiff/Issues/Issue2454_A.tif";
         public const string Issues2454_B = "Tiff/Issues/Issue2454_B.tif";
+        public const string Issues3031 = "Tiff/Issues/Issue3031.tiff";
         public const string Issues2587 = "Tiff/Issues/Issue2587.tiff";
         public const string Issues2679 = "Tiff/Issues/Issue2679.tiff";
         public const string JpegCompressedGray0000539558 = "Tiff/Issues/JpegCompressedGray-0000539558.tiff";

tests/Images/External/ReferenceOutput/PngDecoderTests/Decode_WhenColorProfileHandlingIsConvert_ApplyIccProfile_Rgba32_Perceptual-cLUT-only.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:b72c885278a066e63c013885c42b772275f25a5f0b2290aa38c87f3dbeac984b
+size 81432

tests/Images/External/ReferenceOutput/PngDecoderTests/Decode_WhenColorProfileHandlingIsConvert_ApplyIccProfile_Rgba32_Perceptual.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:936261278b1a9f5bf9a2bb4f8da09f2a82e1b5c693790e137c5f98fa4d885735
+size 81785

tests/Images/External/ReferenceOutput/PngDecoderTests/Decode_WhenColorProfileHandlingIsConvert_ApplyIccProfile_Rgba32_sRGB_Gray.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:bf856e49e4ece7e59eea684f6fa533ba313a36955be4703894f16b100283cb4a
+size 2687

tests/Images/External/ReferenceOutput/PngDecoderTests/Decode_WhenColorProfileHandlingIsConvert_ApplyIccProfile_Rgba32_sRGB_Gray_Interlaced_Rgba32.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:337e84b78fb07359a42e7eee0eed32e6728497c64aa30c6bd5ea8a3a5ec67ebc
+size 5151

tests/Images/External/ReferenceOutput/PngDecoderTests/Decode_WhenColorProfileHandlingIsConvert_ApplyIccProfile_Rgba32_sRGB_Gray_Interlaced_Rgba64.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:456ae30184b13aa2dc3d922db433017e076ff969862fe506436ed96c2d9be0a1
+size 6143

tests/Images/External/ReferenceOutput/TiffDecoderTests/TiffDecoder_CanDecode_64Bit_WithAssociatedAlpha_Rgba64_Issue3031.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:c33a2f63836975bdc7631f26634b3fb0ae98bfaff730300877339cb568141cde
+size 124

tests/Images/External/ReferenceOutput/TiffDecoderTests/TiffDecoder_CanDecode_64Bit_WithAssociatedAlpha_Rgba64_RgbaAssociatedAlpha16bit_lsb.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:e50dfa103459d21642df5e1ca760081fbdfe3b7244624d9d87d8a20f45b51bbe
+size 117953

tests/Images/External/ReferenceOutput/TiffDecoderTests/TiffDecoder_CanDecode_64Bit_WithAssociatedAlpha_Rgba64_RgbaAssociatedAlpha16bit_msb.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:3333503012aa29e23f0d0e52993ad3499514251208fb3318e2bb1560d54650fa
+size 117956

tests/Images/External/ReferenceOutput/TiffDecoderTests/TiffDecoder_CanDecode_BigEndian_AssociatedAlpha_Rgba16161616_Rgba64_Issue3031.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:c33a2f63836975bdc7631f26634b3fb0ae98bfaff730300877339cb568141cde
+size 124

tests/Images/Input/Png/icc-profiles/Perceptual-cLUT-only.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:0c734cacc2c6e761bab088cac80ef09da7b56a545ce71c6cced4cac31e661795
+size 119811

tests/Images/Input/Png/icc-profiles/Perceptual.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:208a325dedea4453b7accce1ec540452af2e9be0f8c1f636f1d61a463eb3a9ae
+size 123151

tests/Images/Input/Png/icc-profiles/sRGB_Gray.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:c64e0f6cc38750c83e6ff0cf1911e210c342900bb2cd6c88d3daed30c854e863
+size 4531

tests/Images/Input/Png/icc-profiles/sRGB_Gray_Interlaced_Rgba32.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:4fc63cea5de188e76503bde2fce3ff84518af5064bb46d506420cd6d7e58285b
+size 7237

tests/Images/Input/Png/icc-profiles/sRGB_Gray_Interlaced_Rgba64.png

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:64343871be4ad61451ef968fa9f07c6a11dee65d0f8fd718ae8c4941586aa60c
+size 8227

tests/Images/Input/Tiff/Issues/Issue3031.tiff

@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:6e4d2db56a1b7fdea09ed65eab1d10a02952821f6662ca77caa44b8c51b30310
+size 416