How to determine if an Image is Grayscale in C# or VB.NET?

问题

FIRST OF ALL

---

First of all, please note that the answer given in this question will not work for all the grayscale images, and also note that the accepted answer in this other question does not explain at all how to determine if an image is grayscale, but anyways it does not fit my needs because it seems to only cover JPEG and TIFF images and assuming they will have EXIF metadata and the required fields inside it. (I can't understand why people determined that the first question I linked is a "duplicated" of that second question I linked too...)

And finally, this last accepted answer lacks of a working and demonstrative code example, but anyways that would not help because the author refers to the slow and deprecated methodology using Bitmap.GetPixel() function, but we should use Bitmap.LockBits() function instead for the higher performance benefit.

SCENARIO

---

I have some GIF, JPG, BMP and PNG images for which I require to determine whether they are Grayscale images or they are not. For the GIF files I only care about analyzing the first frame.

I'm not much experienced/aware about image's data structures, pixel color bits and those things, I only know the very basics. So, if I'm missing important info and I should give any kind of info of the images I will test, then just ask me, but anyways take into account that I would like to create a generic soluton for "all" kind of images, well, not all, but at least these formats: BMP, JPG, GIF and PNG.

Of those image formats mentioned, my highest priority are the GIF images, with this I will mean that if the methodology to be able determine whether a GIF image is Grayscale can't be the same methodology to analyze other kind of images, then I will accept an answer that covers only GIF image pixel treatment.

QUESTION

---

I think my needs are clear: how can I determine whether an image is Grayscale?.

In case of it was not clear at all, to avoid that I could make that you could waste your time:

• The solution must work at least for GIF images. (remember, I only care about the first frame in the GIF), but if the provided solution can work too for BMP, JPG and PNG then of course its always better.

• The solution must care about PixelFormat.Format32bppRgb grayscale images.

• The solution must not use Bitmap.GetPixel() function, it must use Bitmap.LockBits() instead.

• I'm not asking for explanations, pseudo-codes neither external links to documentation about image structures/formats/pixels etc, I'm asking for a working code example (of course always better if the author covers the image structures/pixels technicisms to provide essential explanations in addition to the code).

• In C# or VB.NET, the choice does not matter.

RESEARCH

---

This is what I tried to do so far. I'm stuck trying to understand the point to determine whether a image is Grayscale or not, also I'm not sure whether my conditions with the bytesPerPixel variable are proper and also whether my RGB value assignations are correct since as I said from the start I'm not a image-processing expert so I could have missed important things...

VB.NET

Public Shared Function IsImageGrayScale(ByVal img As Image) As Boolean

    Select Case img.PixelFormat

        Case PixelFormat.Format16bppGrayScale
            Return True

        Case Else
            Dim pixelCount As Integer = (img.Width * img.Height)
            Dim bytesPerPixel As Integer = (Image.GetPixelFormatSize(img.PixelFormat) \ 8)

            If (bytesPerPixel <> 3) AndAlso (bytesPerPixel <> 4) Then
                Throw New NotImplementedException(message:="Only pixel formats that has 3 or 4 bytes-per-pixel are supported.")

            Else
                Dim result As Boolean

                ' Lock the bitmap's bits.
                Dim bmp As Bitmap = DirectCast(img, Bitmap)
                Dim rect As New Rectangle(Point.Empty, bmp.Size)
                Dim data As BitmapData = bmp.LockBits(rect, ImageLockMode.ReadOnly, bmp.PixelFormat)

                ' Get the address of the first line.
                Dim ptr As IntPtr = data.Scan0

                ' Declare an array to hold the bytes of the bitmap. 
                Dim numBytes As Integer = (data.Stride * bmp.Height)
                Dim rgbValues As Byte() = New Byte(numBytes - 1) {}

                ' Copy the RGB values into the array.
                Marshal.Copy(ptr, rgbValues, 0, numBytes)

                ' Unlock the bitmap's bits.
                bmp.UnlockBits(data)

                ' Iterate the pixels.
                For i As Integer = 0 To (rgbValues.Length - bytesPerPixel) Step bytesPerPixel

                    Dim c As Color =
                        Color.FromArgb(red:=rgbValues(i + 2),
                                       green:=rgbValues(i + 1),
                                       blue:=rgbValues(i))

                    ' I don't know what kind of comparison I need to do with the pixels, 
                    ' so I don't know how to proceed here to determine whether the image is or is not grayscale.
                    ' ...

                Next i

                Return result
            End If

    End Select

End Function

C# (code conversion, untested)

public static bool IsImageGrayScale(Image img) {

    switch (img.PixelFormat) {

        case PixelFormat.Format16bppGrayScale:
            return true;

        default:
            int pixelCount = (img.Width * img.Height);
            int bytesPerPixel = (Image.GetPixelFormatSize(img.PixelFormat) / 8);

            if ((bytesPerPixel != 3) && (bytesPerPixel != 4)) {
                throw new NotImplementedException(message: "Only pixel formats that has 3 or 4 bytes-per-pixel are supported.");

            } else {
                bool result = false;

                // Lock the bitmap's bits.
                Bitmap bmp = (Bitmap)img;
                Rectangle rect = new Rectangle(Point.Empty, bmp.Size);
                BitmapData data = bmp.LockBits(rect, ImageLockMode.ReadOnly, bmp.PixelFormat);

                // Get the address of the first line.
                IntPtr ptr = data.Scan0;

                // Declare an array to hold the bytes of the bitmap. 
                int numBytes = (data.Stride * bmp.Height);
                byte[] rgbValues = new byte[numBytes];

                // Copy the RGB values into the array.
                Marshal.Copy(ptr, rgbValues, 0, numBytes);

                // Unlock the bitmap's bits.
                bmp.UnlockBits(data);

                // Iterate the pixels.
                for (int i = 0; i <= rgbValues.Length - bytesPerPixel; i += bytesPerPixel) {

                    Color c = Color.FromArgb(red: rgbValues[i + 2], 
                                             green: rgbValues[i + 1], 
                                             blue: rgbValues[i]);

                    // I don't know what kind of comparison I need to do with the pixels, 
                    // so I don't know how to proceed here to determine whether the image is or is not grayscale.
                    // ...

                }

                return result;
            }
    }
}

回答1:

What I propose is using Presentation Core's System.Windows.Media.Imaging, which exposes a the abstract BitmapDecoder class, base of all decoders that Windows Imaging directly supports:

System.Windows.Media.Imaging.BmpBitmapDecoder
System.Windows.Media.Imaging.GifBitmapDecoder
System.Windows.Media.Imaging.IconBitmapDecoder
System.Windows.Media.Imaging.JpegBitmapDecoder
System.Windows.Media.Imaging.LateBoundBitmapDecoder
System.Windows.Media.Imaging.PngBitmapDecoder
System.Windows.Media.Imaging.TiffBitmapDecoder
System.Windows.Media.Imaging.WmpBitmapDecoder

When decoding an Image file stream, the correct decoder is cast from the abstract class to the specific class.

The decoded Image frames are cast to a BitmapFrame Class, whose members translate to a BitmapSource class, which references all the decoded informations about the Image Stream.

Of interest, in this case, is the BitmapSource.Format property, which exposes a System.Windows.Media.PixelFormat Structure and its enumeration of recognized formats.

See also PixelFormats Properties

These formats include:

PixelFormats.Gray32Float
PixelFormats.Gray16
PixelFormats.Gray8
PixelFormats.Gray4
PixelFormats.Gray2

These flags can be tested as usual.

---

This class can be used to collect informations about a Bitmap format.
I've included a Property, IsGrayscale, which returns the result of the test of the Image PixelFormat, using the PixelFormats previously listed.

The Image Format is referenced by the BitmapInfo.Format BitmapInfo.Metadata.Format properties (different sources, for comparison.
The other properties are quite self-explanatory.

A Project that implements this class must reference:

PresentationCore
System.Xaml
WindowsBase

Properties:

ImageSize            (Size)          => Size of the Image
Dpi                  (Size)          => DpiX and DpiY of the Image
PixelSize            (Size)          => Size in Pixels ot the Image
Masks                (List)          => List of Byte Masks
BitsPerPixel         (int)           => Bits per Pixel
PixelFormat          (PixelFormat)   => Pixel format as reported by the Decoder
ImageType            (string)        => Textual expression of the image format (GIF, JPG etc.)
HasPalette           (bool)          => The Image has a Palette
Palette              (BitmapPalette) => Palette representation of the Image Colors
HasThumbnail         (bool)          => The Image includes a Thumbnail image
Thumbnail            (BitmapImage)   => The Image Thumbnail, in BitmapImage format
Frames               (int)           => Number of frames. Animated Images are represented by a sequence of frames
FramesContent        (FramesInfo)    => Informations about all frame included in this Image
IsMetadataSuppported (bool)          => The Image has Metadata informations
Metadata             (MetadataInfo)  => Class referencing all the Metadata informations a Image contains
AnimationSupported   (bool)          => This Format supports frame Animations
Animated             (bool)          => The Image is a timed sequence of frames

Methods:

public enum DeepScanOptions : int  {
    Default = 0,
    Skip,
    Force
}

public bool IsGrayScale(DeepScanOptions DeepScan)

Checks whether the Image PixelFormat is to be considered GrayScale, given the image internal Palette. The DeepScanOptions enumerator is used to determine how the scan is performed.
More details in the Sample Usage part.

---

public enum GrayScaleInfo : int {
    None = 0,
    Partial, 
    GrayScale,
    Undefined
}

public ImagingBitmapInfo.GrayScaleInfo IsGrayScaleFrames()

Reports the status of the Frames Palettes. It might return:

None: The Image has no Grayscale Frames
Partial: Some Frames are GrayScale
GrayScale: All Frames have a GrayScale Palette
Undefined: The Image probably has no Palette Information. The Image pixel format is reported by the PixelFormat property

---

public ImagingBitmapInfo.GrayScaleStats GrayScaleSimilarity();

This method performs a statistical evaluation (Average, (Sum(Min) <=> Sum(Max)), considering the Colors of all the internal Palettes of an Image, to verify how much the internal colorific representation can be assimilated to a Grayscale pattern.
It returns a ImagingBitmapInfo.GrayScaleStats, which exposes these Properties:

int Palettes: Number of Palette evaluated
float AverageMaxDistance: Average distance (Max) between RGB components
float AverageMinDistance: Average distance (Min) between RGB components
float AverageLogDistance: Average logical distance between RGB components
float GrayScalePercent: Percentage of similatity
float GrayScaleAveragePercent: Percentage of logical similarity

List<FrameStat> PerFrameValues: Class that reports the calculated results for each Palette entry. It exposes these Properties:

int ColorEntries: Number of Colors in the current Palette
float DistanceMax: Distance (Max) between RGB components
float DistanceMin: Distance (Min) between RGB components
float DistanceAverage: Average distance between RGB components

---

public void FrameSourceAddRange(BitmapFrame[] bitmapFrames)

Inserts all Image Frames information in a FramesInfo Class.
It's used internally, but can be filled manually when an instance of the main class, ImagingBitmapInfo, is created. Exposes these properties:

FramesTotalNumber: Total number od Frames included in the Image
FramesColorNumber: Number of frames that have a Color Palette
FramesGrayscaleNumber: Number of GrayScale Frames
FramesBlackWhiteNumber: Number of B&W Frames

List<Frames>: Class List of all frames. The FramesInfo Class object Exposes these properties:

FrameSize: Size of the Frame
FrameDpi: DpiX and DpiY of the Frame PixelFormat: PixelFormat of the Frame
IsColorFrame: The frame has a Color Palette
IsGrayScaleFrame: The frame has a GrayScale Palette
IsBlackWhiteFrame: The frame has a B&W Palette

---

public System.Drawing.Bitmap ThumbnailToBitmap()

Converts a System.Windows.Media.Imaging BitmapImage in a System.Drawing Bitmap format that can be used in WinForms Controls/Classes. (Not properly tested at this time).

---

Sample usage:
The main class, ImagingBitmapInfo, is initialized passing to the BitmapFormatInfo() method a File Path or a File Stream.

ImagingBitmapInfo BitmapInfo = BitmapFormatInfo(@"[ImagePath]");
//or 
ImagingBitmapInfo BitmapInfo = BitmapFormatInfo([FileStream]);

To verify whether the Image has a GrayScale PixelFormat, call the IsGrayScale(ImagingBitmapInfo.DeepScanOptions) method, specifying thow this information must be retrieved.

ImagingBitmapInfo.DeepScanOptions.Default
The class decides, based on the Image Pixel Format, whether to perform a Deep Scan of the image Color Palette (if a Palette is present). If the Pixel Format already reports a GrayScale Image (e.g. PixelFormats.Gray32Float, PixelFormats.Gray16 etc.), a Deep scan is not performed. If the Pixel Format is an Indexed one, the scan is performed; if the PixelFormat is Color format, the scan is not performed.

Note that some Images (Gifs, mostly) may report a Color PixelFormat, while the inner format (Palette) might be GrayScale.

ImagingBitmapInfo.DeepScanOptions.Force
Instructs to execute a Deep Scan of the Palettes of all Frames, no matter what PixelFormat is reported by the Image decoder.
Used to discover if a reported Color Image has one or more Grayscale Frames.

ImagingBitmapInfo.DeepScanOptions.Skip
Instructs to not perform a Deep scan of the Palettes, even if it would be normally performed, given the smelly Pixel Format.

System.Windows.Media.PixelFormat pixelFormat = BitmapInfo.PixelFormat;
bool BitmapIsGrayscale = BitmapInfo.IsGrayScale(ImagingBitmapInfo.DeepScanOptions.Force);

If the results are different from what is expected, a complete check of the Image Frames PixelFormat can be performed calling:

ImagingBitmapInfo.GrayScaleInfo GrayScaleFrames = BitmapInfo.IsGrayScaleFrames();

This method performs a complete check of all Frames and reports if any of the internal Frames have a GrayScale PixelFormat. The result can be one of the GrayScaleInfo enumerator values:
None, Partial, GrayScale, Undefined.
If the result is GrayScale, all internal Frames have a GrayScale PixelFormat.
Undefined means that the Image has no Palette informations.

To create a statistical representation of Grayscale similarity of an Image Palettes' Color entries, call the GrayScaleSimilarity() method:

ImagingBitmapInfo.GrayScaleStats Stats = BitmapInfo.GrayScaleSimilarity();

float GrayScalePercent = Stats.GrayScalePercent
float RGBAverageDistancePercent = Stats.GrayScaleAveragePercent
float RGBPatternMaxDistance = Stats.AverageMaxDistance

using System.IO;
using System.Windows;
using System.Windows.Media;
using System.Windows.Media.Imaging;

public class ImagingBitmapInfo
{
    FramesInfo framesInfo;

    public ImagingBitmapInfo()
    {
        this.framesInfo = new FramesInfo();
        this.Metadata = new MetadataInfo();
        this.Metadata.ApplicationName = string.Empty;
        this.Metadata.Author = new List<string>() {  };
        this.Metadata.CameraManufacturer = string.Empty;
        this.Metadata.CameraModel = string.Empty;
        this.Metadata.Comment = string.Empty;
        this.Metadata.Copyright = string.Empty;
        this.Metadata.DateTaken = string.Empty;
        this.Metadata.Subject = string.Empty;
        this.Metadata.Title = string.Empty;
    }

    public Size ImageSize { get; set; }
    public Size Dpi { get; set; }
    public Size PixelSize { get; set; }
    public List<PixelFormatChannelMask> Masks { get; set; }
    public int BitsPerPixel { get; set; }
    public PixelFormat PixelFormat { get; set; }
    public string ImageType { get; set; }
    public bool HasPalette { get; set; }
    public BitmapPalette Palette { get; set; }
    public bool HasThumbnail { get; set; }
    public BitmapImage Thumbnail { get; set; }
    public int Frames { get; set; }
    public FramesInfo FramesContent
    { get { return this.framesInfo; } }
    public bool IsMetadataSuppported { get; set; }
    public MetadataInfo Metadata { get; set; }
    public bool AnimationSupported { get; set; }
    public bool Animated { get; set; }

    public enum DeepScanOptions : int
    {
        Default = 0,
        Skip,
        Force
    }

    public enum GrayScaleInfo : int
    {
        None = 0,
        Partial, 
        GrayScale,
        Undefined
    }

    public System.Drawing.Bitmap ThumbnailToBitmap()
    {
        if (this.Thumbnail == null)
            return null;
        using (System.Drawing.Bitmap bitmap = new System.Drawing.Bitmap(
                         this.Thumbnail.DecodePixelWidth, 
                         this.Thumbnail.DecodePixelHeight))
        using (MemoryStream outStream = new MemoryStream())
        {
            BitmapEncoder encoder = new BmpBitmapEncoder();
            encoder.Frames.Add(BitmapFrame.Create(this.Thumbnail));
            encoder.Save(outStream);
            return (System.Drawing.Bitmap)System.Drawing.Bitmap.FromStream(outStream);
        }
    }

    public void FrameSourceAddRange(BitmapFrame[] bitmapFrames)
    {
        if (bitmapFrames == null) return;

        this.framesInfo.Frames.AddRange(bitmapFrames.Select(bf => new FramesInfo.Frame() 
        { 
            Palette = bf.Palette,
            FrameSize = new Size(bf.PixelWidth, bf.PixelHeight),
            FrameDpi = new Size(bf.DpiX, bf.DpiY),
            PixelFormat = bf.Format,
            IsGrayScaleFrame = CheckIfGrayScale(bf.Format, bf.Palette, DeepScanOptions.Force),
            IsBlackWhiteFrame = (bf.Format == PixelFormats.BlackWhite)
        }));

        this.framesInfo.Frames.Where(f => (!f.IsGrayScaleFrame & !f.IsBlackWhiteFrame))
                              .All(f => f.IsColorFrame = true);
    }

    public GrayScaleInfo IsGrayScaleFrames()
    {
        if (this.framesInfo.Frames.Count == 0)
            return GrayScaleInfo.Undefined;
        if (this.framesInfo.FramesGrayscaleNumber > 0)
            return (this.framesInfo.FramesGrayscaleNumber == this.framesInfo.FramesTotalNumber)
                ? GrayScaleInfo.GrayScale : GrayScaleInfo.Partial;
        return GrayScaleInfo.None;
    }

    public bool IsGrayScale(DeepScanOptions DeepScan)
    {
        return CheckIfGrayScale(this.PixelFormat, this.Palette, DeepScan);
    }

    private bool CheckIfGrayScale(PixelFormat pixelFormat, BitmapPalette palette, DeepScanOptions DeepScan)
    {
        if (pixelFormat == PixelFormats.Gray32Float ||
            pixelFormat == PixelFormats.Gray16 ||
            pixelFormat == PixelFormats.Gray8 ||
            pixelFormat == PixelFormats.Gray4 ||
            pixelFormat == PixelFormats.Gray2)
        {
            if (palette == null || (DeepScan != DeepScanOptions.Force)) { return true; }
        }

        if (pixelFormat == PixelFormats.Indexed8 ||
            pixelFormat == PixelFormats.Indexed4 ||
            pixelFormat == PixelFormats.Indexed2)
        {
            DeepScan = (DeepScan != DeepScanOptions.Skip) ? DeepScanOptions.Force : DeepScan;
        }

        if ((DeepScan != DeepScanOptions.Skip) & palette != null)
        {
            List<Color> IndexedColors = palette.Colors.ToList();
            return IndexedColors.All(rgb => (rgb.R == rgb.G && rgb.G == rgb.B && rgb.B == rgb.R));
        }
        return false;
    }

    public GrayScaleStats GrayScaleSimilarity()
    {
        if (!this.HasPalette) return null;

        GrayScaleStats stats = new GrayScaleStats();
        float AccumulatorMax = 0F;
        float AccumulatorMin = 0F;
        float AccumulatorAvg = 0F;
        float[] Distance = new float[3];

        stats.Palettes = this.Frames;

        foreach (FramesInfo.Frame frame in this.framesInfo.Frames)
        {
            GrayScaleStats.FrameStat framestat = new GrayScaleStats.FrameStat() 
            { ColorEntries = frame.Palette.Colors.Count };

            foreach (Color pEntry in frame.Palette.Colors)
            {
                if (!(pEntry.R == pEntry.G && pEntry.G == pEntry.B && pEntry.B == pEntry.R))
                {
                    Distance[0] = Math.Abs(pEntry.R - pEntry.G);
                    Distance[1] = Math.Abs(pEntry.G - pEntry.B);
                    Distance[2] = Math.Abs(pEntry.B - pEntry.R);
                    AccumulatorMax += (float)(Distance.Max());
                    AccumulatorMin += (float)(Distance.Min());
                    AccumulatorAvg += (float)(Distance.Average());
                }
            }
            framestat.DistanceMax = (float)((AccumulatorMax / 2.56) / framestat.ColorEntries);
            framestat.DistanceMin = (float)((AccumulatorMin / 2.56) / framestat.ColorEntries);
            framestat.DistanceAverage = (float)((AccumulatorAvg / 2.56) / framestat.ColorEntries);
            stats.PerFrameValues.Add(framestat);
            AccumulatorMax = 0F;
            AccumulatorMin = 0F;
            AccumulatorAvg = 0F;
        }
        stats.AverageMaxDistance = stats.PerFrameValues.Max(mx => mx.DistanceMax);
        stats.AverageMinDistance = stats.PerFrameValues.Min(mn => mn.DistanceMin);
        stats.AverageLogDistance = stats.PerFrameValues.Average(avg => avg.DistanceAverage);
        stats.GrayScaleAveragePercent = 100F - stats.AverageLogDistance;
        stats.GrayScalePercent = 100F - ((stats.AverageMaxDistance - stats.AverageMinDistance) / 2);
        return stats;
    }

    public class GrayScaleStats
    {
        public GrayScaleStats()
        {
            this.PerFrameValues = new List<FrameStat>();
        }

        public List<FrameStat> PerFrameValues { get; set; }
        public int Palettes { get; set; }
        public float AverageMaxDistance { get; set; }
        public float AverageMinDistance { get; set; }
        public float AverageLogDistance { get; set; }
        public float GrayScalePercent { get; set; }
        public float GrayScaleAveragePercent { get; set; }

        public class FrameStat
        {
            public int ColorEntries { get; set; }
            public float DistanceMax { get; set; }
            public float DistanceMin { get; set; }
            public float DistanceAverage { get; set; }
        }
    }

    public class FramesInfo
    {
        public FramesInfo()
        {
            this.Frames = new List<Frame>();
        }

        public int FramesTotalNumber
        {
            get { return (this.Frames != null) ? this.Frames.Count() : 0; }
            private set { }
        }

        public int FramesColorNumber
        {
            get { return (this.Frames != null) ? this.Frames 
                              .Where(f => f.IsColorFrame == true)
                              .Count() : 0; }
            private set { }
        }
        public int FramesGrayscaleNumber
        {
            get {return (this.Frames != null) ? this.Frames
                             .Where(f => f.IsGrayScaleFrame == true)
                             .Count() : 0; }
            private set { }
        }

        public int FramesBlackWhiteNumber
        {
            get { return (this.Frames != null) ? this.Frames
                              .Where(f => f.IsBlackWhiteFrame == true)
                              .Count() : 0; }
            private set { }
        }

        public List<Frame> Frames { get; private set; }

        internal class Frame
        {
            public BitmapPalette Palette { get; set; }
            public Size FrameSize { get; set; }
            public Size FrameDpi { get; set; }
            public PixelFormat PixelFormat { get; set; }
            public bool IsColorFrame { get; set; }
            public bool IsGrayScaleFrame { get; set; }
            public bool IsBlackWhiteFrame { get; set; }
        }
    }

    public class MetadataInfo
    {
        public string ApplicationName { get; set; }
        public List<string> Author { get; set; }
        public string Copyright { get; set; }
        public string CameraManufacturer { get; set; }
        public string CameraModel { get; set; }
        public string Comment { get; set; }
        public string Format { get; set; }
        public string Subject { get; set; }
        public string Title { get; set; }
        public string DateTaken { get; set; }
        public int Rating { get; set; }
    }
}


public static ImagingBitmapInfo BitmapPixelFormat(string FileName)
{
    using (FileStream stream = File.Open(FileName, FileMode.Open, FileAccess.Read, FileShare.None))
    {
        return BitmapPixelFormat(stream);
    }
}

public static ImagingBitmapInfo BitmapPixelFormat(FileStream stream)
{
    ImagingBitmapInfo imageInfo = new ImagingBitmapInfo();
    var bitmapDecoder = BitmapDecoder.Create(stream, 
                                                BitmapCreateOptions.PreservePixelFormat, 
                                                BitmapCacheOption.Default);

    BitmapSource bitmapSource = bitmapDecoder.Frames[0];
    ImageMetadata imageMetadata = bitmapSource.Metadata;
    BitmapMetadata bitmapMetadata = (BitmapMetadata)bitmapSource.Metadata;

    try
    {
        imageInfo.Frames = bitmapDecoder.Frames.Count();
        if (imageInfo.Frames > 0)
            imageInfo.FrameSourceAddRange(bitmapDecoder.Frames.ToArray());

        imageInfo.ImageType = bitmapMetadata.Format.ToUpperInvariant();
        imageInfo.PixelFormat = bitmapSource.Format;
        imageInfo.HasPalette = ((bitmapSource.Palette != null) && (bitmapSource.Palette.Colors.Count > 0)) ? true : false;
        imageInfo.Palette = bitmapSource.Palette;
        imageInfo.ImageSize = new Size((float)bitmapSource.Height, (float)bitmapSource.Width);
        imageInfo.Dpi = new Size((float)bitmapSource.DpiX, (float)bitmapSource.DpiY);
        imageInfo.PixelSize = new Size(bitmapSource.PixelHeight, bitmapSource.PixelWidth);
        imageInfo.Masks = bitmapSource.Format.Masks.ToList();
        imageInfo.BitsPerPixel = bitmapSource.Format.BitsPerPixel;
        imageInfo.AnimationSupported = bitmapDecoder.CodecInfo.SupportsAnimation;
        imageInfo.Animated = (imageInfo.AnimationSupported && (imageInfo.Frames > 1)) ? true : false;
        imageInfo.HasThumbnail = bitmapDecoder.Thumbnail != null;
        if (imageInfo.HasThumbnail)
            imageInfo.Thumbnail = (BitmapImage)bitmapDecoder.Thumbnail.CloneCurrentValue();


        imageInfo.Metadata.Format = bitmapMetadata.Format;
        //If not supported, Catch and set imageInfo.SetMetadataNonSupported()
        imageInfo.Metadata.ApplicationName = bitmapMetadata.ApplicationName;
        imageInfo.Metadata.Author = (bitmapMetadata.Author != null) 
                                  ? bitmapMetadata.Author.ToList<string>() 
                                  : null;
        imageInfo.Metadata.CameraModel = bitmapMetadata.CameraModel;
        imageInfo.Metadata.CameraManufacturer = bitmapMetadata.CameraManufacturer;
        imageInfo.Metadata.CameraModel = bitmapMetadata.Comment;
        imageInfo.Metadata.Copyright = bitmapMetadata.Copyright;
        imageInfo.Metadata.Subject = bitmapMetadata.Subject;
        imageInfo.Metadata.Title = bitmapMetadata.Title;
        imageInfo.Metadata.Rating = bitmapMetadata.Rating;
        imageInfo.Metadata.Format = bitmapMetadata.Format;
        imageInfo.Metadata.DateTaken = bitmapMetadata.DateTaken;

    }
    catch (System.NotSupportedException)
    { imageInfo.IsMetadataSuppported = false; }

    catch (System.Exception ex) { /* Log ex */ throw ex; }

    return imageInfo;
}

Update:

This is, more or less, the same setup, but WinForms oriented.
Meaning that only the System.Drawing assembly is used.

System.Drawing.Imaging has less option (there's also a nasty bug in GDI+, related to Bitmap Encoders, never corrected) and some informations are not directly available.
The relevant parts are there, anyway.

Grayscale Images are detected correctly, as far as I could test.

To note that, if an Image has an indexed Palette (e.g. Gif format), the reported ImageFlags Flag ColorSpaceGRAY is never correct. Nor is the PixelFormat.Format16bppGrayScale.
The only possible way (that I found) to verify whether the image is a Grayscale one in this case, is to parse the color Palette. It takes only a few Ticks to complete, annoying nonetheless.
It's working correctly for other formats.

Same procedure, as listed before.
Can be used this way:

ImagingBitmapInfo BitmapInfo = BitmapPixelFormat(@"[ImagePath]");
bool BitmapIsGrayscale = BitmapInfo.IsGrayScale();

or

ImagingBitmapInfo BitmapInfo = BitmapPixelFormat([ImageStream]);
bool BitmapIsGrayscale = BitmapInfo.IsGrayScale();

Code moved to PasteBin for lack of space in this Post body.

来源：https://stackoverflow.com/questions/49474158/how-to-determine-if-an-image-is-grayscale-in-c-sharp-or-vb-net