fo-dicom.Imaging.ImageSharp 5.2.2

Fellow Oak DICOM

Fellow Oak DICOM is a DICOM toolkit in C# for all .NET Standard 2.0 compatible frameworks.

License

This library is licensed under the Microsoft Public License (MS-PL). See License.txt for more information.

Features

• Targets .NET Standard 2.0
• DICOM dictionary version 2025b
• High-performance, fully asynchronous async/await API
• JPEG (including lossless), JPEG-LS, JPEG2000, HTJPEG2000, and RLE image compression (via additional package)
• Supports very large datasets with content loading on demand
• Image rendering to System.Drawing.Bitmap or SixLabors.ImageSharp
• JSON and XML export/import
• Anonymization
• DICOM services
• Customize components via DI container

Supported Runtimes

Fellow Oak DICOM officially supports the following runtimes:

• .NET Core 8.0
• .NET Core 6.0
• .NET Framework 4.6.2

Other runtimes that implement .NET Standard 2.0 may work, but be aware that our CI pipeline only tests these platforms (and only on Windows)

Installation

Easiest is to obtain fo-dicom binaries from NuGet. This package reference the core fo-dicom assemblies for all Microsoft and Xamarin platforms.

NuGet Packages

Valid for version 5.0.0 and later

Documentation

Documentation, including API documentation, is available via GitHub pages:

• documentation for the latest release for fo-dicom 4 and fo-dicom 5
• documentation for the development version for fo-dicom 5

Usage Notes

Getting started in modern .NET

If you are using the web application builder:

var builder = WebApplication.CreateBuilder(args);
builder.Services.AddFellowOakDicom();
var app = builder.Build();
// This is still necessary for now until fo-dicom has first-class AspNetCore integration
DicomSetupBuilder.UseServiceProvider(app.Services);

If you are using the host builder:

var host = Host.CreateDefaultBuilder(args)
    .ConfigureServices(services =>
    {
        services.AddFellowOakDicom();
    })
    .Build();

// This is still necessary for now until fo-dicom has first-class AspNetCore integration
DicomSetupBuilder.UseServiceProvider(host.Services);

If you are not using the host builder, you'll need to make your own service collection:

var services = new ServiceCollection();
services.AddFellowOakDicom();
var serviceProvider = services.BuildServiceProvider();
DicomSetupBuilder.UseServiceProvider(serviceProvider);

Getting started in .NET Framework

Use DicomSetupBuilder to configure the internals of Fellow Oak DICOM:

new DicomSetupBuilder()
    .RegisterServices(s => s.AddFellowOakDicom())
.Build();

Dependency injection support

Whenever you use APIs of Fellow Oak DICOM such as DicomFile.Open, DicomServerFactory.Create, the global statically registered service provider (DicomSetupBuilder.UseServiceProvider) will be used to resolve dependencies.
Please note that using dependency injection is generally preferred over the static APIs, if it is available.

Injecting custom dependencies into DICOM services

It is possible to inject custom dependencies into your DICOM services, but with one important requirement: you must have these exact three constructor parameters: INetworkStream stream, Encoding fallbackEncoding, ILogger logger. The names and their order don't matter, but the types do. Yes, ILogger is a non-generic typed logger. If you want a Logger<T>, you can add an extra constructor parameter and use it however you see fit.

Here is a full standalone example:

using System.Text;
using FellowOakDicom;
using FellowOakDicom.Network;
using FellowOakDicom.Network.Client;

var host = Host.CreateDefaultBuilder(args)
    .ConfigureLogging(logging =>
    {
        logging.ClearProviders();
        logging.AddConsole();
        logging.SetMinimumLevel(LogLevel.Information);
    })
    .ConfigureServices(services =>
    {
        services.AddFellowOakDicom();
        services.AddHostedService<Worker>();
        // This will be injected into the DICOM service
        services.AddSingleton<CustomDependency>();
    })
    .Build();

DicomSetupBuilder.UseServiceProvider(host.Services);

host.Run();

public class CustomDependency
{
    
}

public class Worker : IHostedService
{
    private readonly ILogger<Worker> _logger;
    private readonly IDicomServerFactory _dicomServerFactory;
    private readonly IDicomClientFactory _dicomClientFactory;
    private IDicomServer? _server;

    public Worker(ILogger<Worker> logger, IDicomServerFactory dicomServerFactory, IDicomClientFactory dicomClientFactory)
    {
        _logger = logger ?? throw new ArgumentNullException(nameof(logger));
        _dicomServerFactory = dicomServerFactory ?? throw new ArgumentNullException(nameof(dicomServerFactory));
        _dicomClientFactory = dicomClientFactory ?? throw new ArgumentNullException(nameof(dicomClientFactory));
    }

    public async Task StartAsync(CancellationToken cancellationToken)
    {
        _logger.LogInformation("Starting DICOM server");
        _server = _dicomServerFactory.Create<EchoService>(104);
        _logger.LogInformation("DICOM server is running");

        var client = _dicomClientFactory.Create("127.0.0.1", 104, false, "AnySCU", "AnySCP");

        _logger.LogInformation("Sending C-ECHO request");
        DicomCEchoResponse? response = null;
        await client.AddRequestAsync(new DicomCEchoRequest { OnResponseReceived = (_, r) => response = r});
        await client.SendAsync(cancellationToken);
        if (response != null)
        {
            _logger.LogInformation("C-ECHO response received");
        }
        else
        {
            _logger.LogError("No C-ECHO response received");
        }
    }

    public Task StopAsync(CancellationToken cancellationToken)
    {
        if (_server != null)
        {
            _server.Stop();
            _server.Dispose();
            _server = null;
        }
        return Task.CompletedTask;
    }
}

public class EchoService : DicomService, IDicomServiceProvider, IDicomCEchoProvider
{
    private readonly ILogger _logger;
    private readonly CustomDependency _customDependency;

    public EchoService(INetworkStream stream,
        Encoding fallbackEncoding, 
        ILogger logger,
        DicomServiceDependencies dependencies,
        CustomDependency customDependency) : base(stream, fallbackEncoding, logger, dependencies)
    {
        _logger = logger ?? throw new ArgumentNullException(nameof(logger));
        _customDependency = customDependency ?? throw new ArgumentNullException(nameof(customDependency));
    }

    public void OnReceiveAbort(DicomAbortSource source, DicomAbortReason reason) => _logger.LogInformation("Received abort");
    public void OnConnectionClosed(Exception exception) => _logger.LogInformation("Connection closed");

    public Task OnReceiveAssociationRequestAsync(DicomAssociation association)
    {
        foreach (DicomPresentationContext presentationContext in association.PresentationContexts)
            presentationContext.SetResult(DicomPresentationContextResult.Accept);
        return SendAssociationAcceptAsync(association);
    }

    public Task OnReceiveAssociationReleaseRequestAsync()
    {
        _logger.LogInformation("Received association release");
        return Task.CompletedTask;
    }

    public Task<DicomCEchoResponse> OnCEchoRequestAsync(DicomCEchoRequest request) => Task.FromResult(new DicomCEchoResponse(request, DicomStatus.Success));
}

Image rendering configuration

Out-of-the-box, fo-dicom defaults to an internal class FellowOakDicom.Imaging.IImage-style image rendering. To switch to Desktop-style or ImageSharp-style image rendering, you first have to add the nuget package you desire and then call:

new DicomSetupBuilder()
    .RegisterServices(s => s.AddFellowOakDicom().AddImageManager<WinFormsImageManager>())
.Build();

or

new DicomSetupBuilder()
    .RegisterServices(s => s.AddFellowOakDicom().AddImageManager<ImageSharpImageManager>())
.Build();

Then when rendering you can cast the IImage to the type by

var image = new DicomImage("filename.dcm");
var bitmap = image.RenderImage().As<Bitmap>();

or

var image = new DicomImage("filename.dcm");
var sharpimage = image.RenderImage().AsSharpImage();

Logging configuration

Fellow Oak DICOM uses Microsoft.Extensions.Logging, so if you are already using that, Fellow Oak DICOM logging will show up automatically.

In the past, Fellow Oak DICOM had a custom abstraction for logging: ILogger and ILogManager. For backwards compatibility purposes, this is still supported but not recommended for new applications.

services.AddLogManager<MyLogManager>();

where MyLogManager looks like this:

using FellowOakDicom.Log;

public class MyLogManager: ILogManager {
    public ILogger GetLogger(string name) {
        ...
    }
}

Sample applications

There are a number of simple sample applications that use fo-dicom available in separate repository here. These also include the samples that were previously included in the Examples sub-folder of the VS solutions.

Examples

File Operations

var file = DicomFile.Open(@"test.dcm");             // Alt 1
var file = await DicomFile.OpenAsync(@"test.dcm");  // Alt 2

var patientid = file.Dataset.GetString(DicomTag.PatientID);

file.Dataset.AddOrUpdate(DicomTag.PatientName, "DOE^JOHN");

// creates a new instance of DicomFile
var newFile = file.Clone(DicomTransferSyntax.JPEGProcess14SV1);

file.Save(@"output.dcm");             // Alt 1
await file.SaveAsync(@"output.dcm");  // Alt 2

Render Image to JPEG

var image = new DicomImage(@"test.dcm");
image.RenderImage().AsBitmap().Save(@"test.jpg");                     // Windows Forms

C-Store SCU

var client = DicomClientFactory.Create("127.0.0.1", 12345, false, "SCU", "ANY-SCP");
await client.AddRequestAsync(new DicomCStoreRequest(@"test.dcm"));
await client.SendAsync();

C-Echo SCU/SCP

var server = DicomServerFactory.Create<DicomCEchoProvider>(12345);

var client = DicomClientFactory.Create("127.0.0.1", 12345, false, "SCU", "ANY-SCP");
client.NegotiateAsyncOps();
// Optionally negotiate user identity
client.NegotiateUserIdentity(new DicomUserIdentityNegotiation
{
    UserIdentityType = DicomUserIdentityType.Jwt,
    PositiveResponseRequested = true,
    PrimaryField = "JWT_TOKEN"
});
for (int i = 0; i < 10; i++)
    await client.AddRequestAsync(new DicomCEchoRequest());
await client.SendAsync();

C-Find SCU

var cfind = DicomCFindRequest.CreateStudyQuery(patientId: "12345");
cfind.OnResponseReceived = (DicomCFindRequest rq, DicomCFindResponse rp) => {
	Console.WriteLine("Study UID: {0}", rp.Dataset.GetString(DicomTag.StudyInstanceUID));
};

var client = DicomClientFactory.Create("127.0.0.1", 11112, false, "SCU-AE", "SCP-AE");
await client.AddRequestAsync(cfind);
await client.SendAsync();

C-Move SCU

var cmove = new DicomCMoveRequest("DEST-AE", studyInstanceUid);

var client = DicomClientFactory.Create("127.0.0.1", 11112, false, "SCU-AE", "SCP-AE");
await client.AddRequestAsync(cmove);
await client.SendAsync(); 

N-Action SCU

// It is better to increase 'associationLingerTimeoutInMs' default is 50 ms, which may not be
// be sufficient
var dicomClient = DicomClientFactory.Create("127.0.0.1", 12345, false, "SCU-AE", "SCP-AE",
DicomClientDefaults.DefaultAssociationRequestTimeoutInMs, DicomClientDefaults.DefaultAssociationReleaseTimeoutInMs,5000);
var txnUid = DicomUIDGenerator.GenerateDerivedFromUUID().UID;
var nActionDicomDataSet = new DicomDataset
{
    { DicomTag.TransactionUID,  txnUid }
};
var dicomRefSopSequence = new DicomSequence(DicomTag.ReferencedSOPSequence);
var seqItem = new DicomDataset()
{
    { DicomTag.ReferencedSOPClassUID, "1.2.840.10008.5.1.4.1.1.1" },
    { DicomTag.ReferencedSOPInstanceUID, "1.3.46.670589.30.2273540226.4.54" }
};
dicomRefSopSequence.Items.Add(seqItem);
nActionDicomDataSet.Add(dicomRefSopSequence);
var nActionRequest = new DicomNActionRequest(DicomUID.StorageCommitmentPushModelSOPClass,
                DicomUID.StorageCommitmentPushModelSOPInstance, 1)
{
    Dataset = nActionDicomDataSet,
    OnResponseReceived = (DicomNActionRequest request, DicomNActionResponse response) => 
    {
        Console.WriteLine("NActionResponseHandler, response status:{0}", response.Status);
    },
};
await dicomClient.AddRequestAsync(nActionRequest);
dicomClient.OnNEventReportRequest = OnNEventReportRequest;
await dicomClient.SendAsync();

private static Task<DicomNEventReportResponse> OnNEventReportRequest(DicomNEventReportRequest request)
{
    var refSopSequence = request.Dataset.GetSequence(DicomTag.ReferencedSOPSequence);
    foreach(var item in refSopSequence.Items)
    {
        Console.WriteLine("SOP Class UID: {0}", item.GetString(DicomTag.ReferencedSOPClassUID));
        Console.WriteLine("SOP Instance UID: {0}", item.GetString(DicomTag.ReferencedSOPInstanceUID));
    }
    return Task.FromResult(new DicomNEventReportResponse(request, DicomStatus.Success));
}

C-ECHO with advanced DICOM client connection: manual control over TCP connection and DICOM association

var cancellationToken = CancellationToken.None;
// Alternatively, inject IDicomServerFactory via dependency injection instead of using this static method
using var server = DicomServerFactory.Create<DicomCEchoProvider>(12345); 

var connectionRequest = new AdvancedDicomClientConnectionRequest
{
    NetworkStreamCreationOptions = new NetworkStreamCreationOptions
    {
        Host = "127.0.0.1",
        Port = server.Port,
    }
};

// Alternatively, inject IAdvancedDicomClientConnectionFactory via dependency injection instead of using this static method
using var connection = await AdvancedDicomClientConnectionFactory.OpenConnectionAsync(connectionRequest, cancellationToken);

var associationRequest = new AdvancedDicomClientAssociationRequest
{
    CallingAE = "EchoSCU",
    CalledAE = "EchoSCP",
    // Optionally negotiate user identity
    UserIdentityNegotiation = new DicomUserIdentityNegotiation
    {
        UserIdentityType = DicomUserIdentityType.UsernameAndPasscode,
        PositiveResponseRequested = true,
        PrimaryField = "USERNAME",
        SecondaryField = "PASSCODE",
    }
};

var cEchoRequest = new DicomCEchoRequest();

using var association = await connection.OpenAssociationAsync(associationRequest, cancellationToken);
try
{
    DicomCEchoResponse cEchoResponse = await association.SendCEchoRequestAsync(cEchoRequest, cancellationToken).ConfigureAwait(false);
    
    Console.WriteLine(cEchoResponse.Status);
}
finally
{
    await association.ReleaseAsync(cancellationToken);
}