This library is licensed under the Microsoft Public License (MS-PL). See License.txt for more information.
- Targets .NET Standard 2.0
- DICOM dictionary version 2022b
- High-performance, fully asynchronous
async
/await
API - JPEG (including lossless), JPEG-LS, JPEG2000, 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
Easiest is to obtain fo-dicom binaries from NuGet. This package reference the core fo-dicom assemblies for all Microsoft and Xamarin platforms.
Valid for version 5.0.0 and later
Package | Description |
---|---|
fo-dicom | Core package containing parser, services and tools. |
fo-dicom.Imaging.Desktop | Library with referencte to System.Drawing, required for rendering into Bitmaps |
fo-dicom.Imaging.ImageSharp | Library with reference to ImageSharp, can be used for platform independent rendering |
fo-dicom.NLog | .NET connector to enable fo-dicom logging with NLog |
fo-dicom.Codecs | Cross-platform Dicom codecs for fo-dicom, developed by Efferent Health (https://github.com/Efferent-Health/fo-dicom.Codecs) |
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 4 and fo-dicom 5
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 shartimage = image.RenderImage().AsSharpImage();
By default, logging defaults to the no-op NullLogerManager
. There are several logmanagers configurable within DicomSetupBuilder
like
s.AddLogManager<ConsoleLogManager>() // or ...
s.AddLogManager<NLogManager>() // or ...
LogManager.SetImplementation(ConsoleLogManager.Instance); // or ...
LogManager.SetImplementation(NLogManager.Instance); // or ...
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.
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
var image = new DicomImage(@"test.dcm");
image.RenderImage().AsBitmap().Save(@"test.jpg"); // Windows Forms
var client = DicomClientFactory.Create("127.0.0.1", 12345, false, "SCU", "ANY-SCP");
await client.AddRequestAsync(new DicomCStoreRequest(@"test.dcm"));
await client.SendAsync();
var server = new DicomServer<DicomCEchoProvider>(12345);
var client = DicomClientFactory.Create("127.0.0.1", 12345, false, "SCU", "ANY-SCP");
client.NegotiateAsyncOps();
for (int i = 0; i < 10; i++)
await client.AddRequestAsync(new DicomCEchoRequest());
await client.SendAsync();
var cfind = DicomCFindRequest.CreateStudyQuery(patientId: "12345");
cfind.OnResponseReceived = (DicomCFindRequest rq, DicomCFindResponse rp) => {
Console.WriteLine("Study UID: {0}", rp.Dataset.Get<string>(DicomTag.StudyInstanceUID));
};
var client = DicomClientFactory.Create("127.0.0.1", 11112, false, "SCU-AE", "SCP-AE");
await client.AddRequestAsync(cfind);
await client.SendAsync();
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();
// 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"
};
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);
}
If you are new to DICOM, then take a look at the DICOM tutorial of Saravanan Subramanian: https://saravanansubramanian.com/dicomtutorials/ The author is also using fo-dicom in some code samples.