ImageSharp/tests/ImageSharp.Tests/Formats/Jpg/ParseStreamTests.cs

// Copyright (c) Six Labors.
// Licensed under the Six Labors Split License.

using System.Text;
using SixLabors.ImageSharp.Formats.Jpeg;
using SixLabors.ImageSharp.Formats.Jpeg.Components;
using SixLabors.ImageSharp.Formats.Jpeg.Components.Decoder;
using SixLabors.ImageSharp.Tests.Formats.Jpg.Utils;
using Xunit.Abstractions;

namespace SixLabors.ImageSharp.Tests.Formats.Jpg;

[Trait("Format", "Jpg")]
public class ParseStreamTests
{
    private ITestOutputHelper Output { get; }

    public ParseStreamTests(ITestOutputHelper output)
    {
        this.Output = output;
    }

    [Theory]
    [InlineData(TestImages.Jpeg.Baseline.Testorig420, JpegColorSpace.YCbCr)]
    [InlineData(TestImages.Jpeg.Baseline.Jpeg400, JpegColorSpace.Grayscale)]
    [InlineData(TestImages.Jpeg.Baseline.Ycck, JpegColorSpace.Ycck)]
    [InlineData(TestImages.Jpeg.Baseline.Cmyk, JpegColorSpace.Cmyk)]
    public void ColorSpace_IsDeducedCorrectly(string imageFile, object expectedColorSpaceValue)
    {
        JpegColorSpace expectedColorSpace = (JpegColorSpace)expectedColorSpaceValue;

        using (JpegDecoderCore decoder = JpegFixture.ParseJpegStream(imageFile, metaDataOnly: true))
        {
            Assert.Equal(expectedColorSpace, decoder.ColorSpace);
        }
    }

    [Fact]
    public void ComponentScalingIsCorrect_1ChannelJpeg()
    {
        using (JpegDecoderCore decoder = JpegFixture.ParseJpegStream(TestImages.Jpeg.Baseline.Jpeg400))
        {
            Assert.Equal(1, decoder.Frame.ComponentCount);
            Assert.Equal(1, decoder.Components.Length);

            Size expectedSizeInBlocks = decoder.Frame.PixelSize.DivideRoundUp(8);

            Assert.Equal(expectedSizeInBlocks, decoder.Frame.McuSize);

            Size uniform1 = new(1, 1);
            IJpegComponent c0 = decoder.Components[0];
            VerifyJpeg.VerifyComponent(c0, expectedSizeInBlocks, uniform1, uniform1);
        }
    }

    [Theory]
    [InlineData(TestImages.Jpeg.Baseline.Jpeg444)]
    [InlineData(TestImages.Jpeg.Baseline.Jpeg420Exif)]
    [InlineData(TestImages.Jpeg.Baseline.Jpeg420Small)]
    [InlineData(TestImages.Jpeg.Baseline.Testorig420)]
    [InlineData(TestImages.Jpeg.Baseline.Ycck)]
    [InlineData(TestImages.Jpeg.Baseline.Cmyk)]
    public void PrintComponentData(string imageFile)
    {
        StringBuilder sb = new();

        using (JpegDecoderCore decoder = JpegFixture.ParseJpegStream(imageFile))
        {
            sb.AppendLine(imageFile);
            sb.AppendLine($"Size:{decoder.Frame.PixelSize} MCU:{decoder.Frame.McuSize}");
            IJpegComponent c0 = decoder.Components[0];
            IJpegComponent c1 = decoder.Components[1];

            sb.AppendLine($"Luma: SAMP: {c0.SamplingFactors} BLOCKS: {c0.SizeInBlocks}");
            sb.AppendLine($"Chroma: {c1.SamplingFactors} BLOCKS: {c1.SizeInBlocks}");
        }

        this.Output.WriteLine(sb.ToString());
    }

    public static readonly TheoryData<string, int, object, object> ComponentVerificationData = new()
    {
        { TestImages.Jpeg.Baseline.Jpeg444, 3, new Size(1, 1), new Size(1, 1) },
        { TestImages.Jpeg.Baseline.Jpeg420Exif, 3, new Size(2, 2), new Size(1, 1) },
        { TestImages.Jpeg.Baseline.Jpeg420Small, 3, new Size(2, 2), new Size(1, 1) },
        { TestImages.Jpeg.Baseline.Testorig420, 3, new Size(2, 2), new Size(1, 1) },

        // TODO: Find Ycck or Cmyk images with different subsampling
        { TestImages.Jpeg.Baseline.Ycck, 4, new Size(1, 1), new Size(1, 1) },
        { TestImages.Jpeg.Baseline.Cmyk, 4, new Size(1, 1), new Size(1, 1) },
    };

    [Theory]
    [MemberData(nameof(ComponentVerificationData))]
    public void ComponentScalingIsCorrect_MultiChannelJpeg(
        string imageFile,
        int componentCount,
        object expectedLumaFactors,
        object expectedChromaFactors)
    {
        Size fLuma = (Size)expectedLumaFactors;
        Size fChroma = (Size)expectedChromaFactors;

        using (JpegDecoderCore decoder = JpegFixture.ParseJpegStream(imageFile))
        {
            Assert.Equal(componentCount, decoder.Frame.ComponentCount);
            Assert.Equal(componentCount, decoder.Components.Length);

            IJpegComponent c0 = decoder.Components[0];
            IJpegComponent c1 = decoder.Components[1];
            IJpegComponent c2 = decoder.Components[2];

            Size uniform1 = new(1, 1);

            Size expectedLumaSizeInBlocks = decoder.Frame.McuSize.MultiplyBy(fLuma);

            Size divisor = fLuma.DivideBy(fChroma);

            Size expectedChromaSizeInBlocks = expectedLumaSizeInBlocks.DivideRoundUp(divisor);

            VerifyJpeg.VerifyComponent(c0, expectedLumaSizeInBlocks, fLuma, uniform1);
            VerifyJpeg.VerifyComponent(c1, expectedChromaSizeInBlocks, fChroma, divisor);
            VerifyJpeg.VerifyComponent(c2, expectedChromaSizeInBlocks, fChroma, divisor);

            if (componentCount == 4)
            {
                IJpegComponent c3 = decoder.Components[2];
                VerifyJpeg.VerifyComponent(c3, expectedLumaSizeInBlocks, fLuma, uniform1);
            }
        }
    }
}