Example #1
0
        public static DicomFile Open(string fileName)
        {
            DicomFile      df     = new DicomFile();
            FileReference  file   = new FileReference(fileName);
            FileByteSource source = new FileByteSource(file);

            DicomFileReader reader = new DicomFileReader();

            reader.Read(source,
                        new DicomDatasetReaderObserver(df.FileMetaInfo),
                        new DicomDatasetReaderObserver(df.Dataset));

            df.Dataset.InternalTransferSyntax = df.FileMetaInfo.TransferSyntax;
            df.File = file;

            return(df);
        }
Example #2
0
        /// <summary>
        /// Reads the specified filename and returns a DicomFile object.  Note that the values for large
        /// DICOM elements (e.g. PixelData) are read in "on demand" to conserve memory.  Large DICOM elements
        /// are determined by their size in bytes - see the default value for this in the FileByteSource._largeObjectSize
        /// </summary>
        /// <param name="fileName">The filename of the DICOM file</param>
        /// <param name="fallbackEncoding">Encoding to apply when attribute Specific Character Set is not available.</param>
        /// <param name="stop">Stop criterion in dataset.</param>
        /// <returns>DicomFile instance</returns>
        public static DicomFile Open(string fileName, Encoding fallbackEncoding, Func <ParseState, bool> stop = null, FileReadOption readOption = FileReadOption.Default)
        {
            if (fallbackEncoding == null)
            {
                throw new ArgumentNullException(nameof(fallbackEncoding));
            }
            DicomFile df = new DicomFile();

            try
            {
                df.File = IOManager.CreateFileReference(fileName);

                using (var unvalidatedDataset = new UnvalidatedScope(df.Dataset))
                    using (var source = new FileByteSource(df.File, readOption))
                    {
                        var reader = new DicomFileReader();
                        var result = reader.Read(
                            source,
                            new DicomDatasetReaderObserver(df.FileMetaInfo),
                            new DicomDatasetReaderObserver(df.Dataset, fallbackEncoding),
                            stop);

                        if (result == DicomReaderResult.Processing)
                        {
                            throw new DicomFileException(df, $"Invalid read return state: {result}");
                        }
                        if (result == DicomReaderResult.Error)
                        {
                            return(null);
                        }
                        df.IsPartial = result == DicomReaderResult.Stopped || result == DicomReaderResult.Suspended;

                        df.Format = reader.FileFormat;

                        df.Dataset.InternalTransferSyntax = reader.Syntax;

                        return(df);
                    }
            }
            catch (Exception e)
            {
                throw new DicomFileException(df, e.Message, e);
            }
        }
Example #3
0
        public void Read_CompressedImage_RecognizeTransferSyntax()
        {
            using var stream = File.OpenRead(TestData.Resolve("CT1_J2KI"));
            var source = new StreamByteSource(stream);
            var reader = new DicomFileReader();

            var fileMetaInfo = new DicomFileMetaInformation();
            var dataset      = new DicomDataset();

            reader.Read(
                source,
                new DicomDatasetReaderObserver(fileMetaInfo),
                new DicomDatasetReaderObserver(dataset));

            var expected = DicomTransferSyntax.JPEG2000Lossy;
            var actual   = reader.Syntax;

            Assert.Equal(expected, actual);
        }
Example #4
0
        /// <summary>
        /// Reads the specified file and returns a DicomFile object.  Note that the values for large
        /// DICOM elements (e.g. PixelData) are read in "on demand" to conserve memory.  Large DICOM elements
        /// are determined by their size in bytes - see the default value for this in the FileByteSource._largeObjectSize
        /// </summary>
        /// <param name="file">The file reference of the DICOM file</param>
        /// <param name="fallbackEncoding">Encoding to apply when attribute Specific Character Set is not available.</param>
        /// <returns>DicomFile instance</returns>
        internal static DicomFile Open(IFileReference file, Encoding fallbackEncoding)
        {
            if (fallbackEncoding == null)
            {
                throw new ArgumentNullException("fallbackEncoding");
            }
            DicomFile df = new DicomFile();

            try
            {
                df.File = file;

                using (var source = new FileByteSource(file))
                {
                    DicomFileReader reader = new DicomFileReader();
                    var             result = reader.Read(
                        source,
                        new DicomDatasetReaderObserver(df.FileMetaInfo),
                        new DicomDatasetReaderObserver(df.Dataset, fallbackEncoding));

                    if (result == DicomReaderResult.Processing)
                    {
                        throw new DicomFileException(df, "Invalid read return state: {state}", result);
                    }
                    if (result == DicomReaderResult.Error)
                    {
                        return(null);
                    }
                    df.IsPartial = result == DicomReaderResult.Stopped || result == DicomReaderResult.Suspended;

                    df.Format = reader.FileFormat;

                    df.Dataset.InternalTransferSyntax = reader.Syntax;

                    return(df);
                }
            }
            catch (Exception e)
            {
                throw new DicomFileException(df, e.Message, e);
            }
        }
Example #5
0
        public void Read_ValidSource_ReturnsSuccess()
        {
            using var stream = File.OpenRead(TestData.Resolve("CT1_J2KI"));
            var source = new StreamByteSource(stream);
            var reader = new DicomFileReader();

            var fileMetaInfo = new DicomFileMetaInformation();
            var dataset      = new DicomDataset();

            const DicomReaderResult expected = DicomReaderResult.Success;
            var actual = reader.Read(
                source,
                new DicomDatasetReaderObserver(fileMetaInfo),
                new DicomDatasetReaderObserver(dataset));

            Assert.Equal(expected, actual);

            var modality = dataset.GetString(DicomTag.Modality);

            Assert.Equal("CT", modality);
        }
Example #6
0
        public static DicomFile Open(Stream stream)
        {
            var df = new DicomFile();

            try {
                var source = new StreamByteSource(stream);

                var reader = new DicomFileReader();
                reader.Read(source,
                            new DicomDatasetReaderObserver(df.FileMetaInfo),
                            new DicomDatasetReaderObserver(df.Dataset));

                df.Format = reader.FileFormat;

                df.Dataset.InternalTransferSyntax = reader.Syntax;

                return(df);
            } catch (Exception e) {
                throw new DicomFileException(df, e.Message, e);
            }
        }
Example #7
0
        /// <summary>
        /// Read a DICOM file from stream.
        /// </summary>
        /// <param name="stream">Stream to read.</param>
        /// <param name="fallbackEncoding">Encoding to use if encoding cannot be obtained from DICOM file.</param>
        /// <param name="stop">Stop criterion in dataset.</param>
        /// <returns>Read <see cref="DicomFile"/>.</returns>
        public static DicomFile Open(Stream stream, Encoding fallbackEncoding, Func <ParseState, bool> stop = null)
        {
            if (fallbackEncoding == null)
            {
                throw new ArgumentNullException("fallbackEncoding");
            }
            var df = new DicomFile();

            try
            {
                var source = new StreamByteSource(stream);

                var reader = new DicomFileReader();
                var result = reader.Read(
                    source,
                    new DicomDatasetReaderObserver(df.FileMetaInfo),
                    new DicomDatasetReaderObserver(df.Dataset, fallbackEncoding),
                    stop);

                if (result == DicomReaderResult.Processing)
                {
                    throw new DicomFileException(df, "Invalid read return state: {state}", result);
                }
                if (result == DicomReaderResult.Error)
                {
                    return(null);
                }
                df.IsPartial = result == DicomReaderResult.Stopped || result == DicomReaderResult.Suspended;

                df.Format = reader.FileFormat;

                df.Dataset.InternalTransferSyntax = reader.Syntax;

                return(df);
            }
            catch (Exception e)
            {
                throw new DicomFileException(df, e.Message, e);
            }
        }
Example #8
0
        public new static DicomDirectory Open(string fileName, Encoding fallbackEncoding)
        {
            if (fallbackEncoding == null)
            {
                throw new ArgumentNullException("fallbackEncoding");
            }
            var df = new DicomDirectory();

            // reset datasets
            df.FileMetaInfo.Clear();
            df.Dataset.Clear();

            try {
                df.File = new FileReference(fileName);

                using (var source = new FileByteSource(df.File)) {
                    DicomFileReader reader = new DicomFileReader();

                    var datasetObserver = new DicomDatasetReaderObserver(df.Dataset, fallbackEncoding);
                    var dirObserver     = new DicomDirectoryReaderObserver(df.Dataset);

                    reader.Read(source,
                                new DicomDatasetReaderObserver(df.FileMetaInfo),
                                new DicomReaderMultiObserver(datasetObserver, dirObserver));

                    df.Format = reader.FileFormat;

                    df.Dataset.InternalTransferSyntax = reader.Syntax;

                    df._directoryRecordSequence = df.Dataset.Get <DicomSequence>(DicomTag.DirectoryRecordSequence);
                    df.RootDirectoryRecord      = dirObserver.BuildDirectoryRecords();

                    return(df);
                }
            } catch (Exception e) {
                throw new DicomFileException(df, e.Message, e);
            }
        }
Example #9
0
        /// <summary>
        /// Reads the specified filename and returns a DicomFile object.  Note that the values for large
        /// DICOM elements (e.g. PixelData) are read in "on demand" to conserve memory.  Large DICOM elements
        /// are determined by their size in bytes - see the default value for this in the FileByteSource._largeObjectSize
        /// </summary>
        /// <param name="fileName">The filename of the DICOM file</param>
        /// <returns>DicomFile instance</returns>
        public static DicomFile Open(string fileName)
        {
            DicomFile df = new DicomFile();

            try {
                df.File = new FileReference(fileName);

                using (var source = new FileByteSource(df.File)) {
                    DicomFileReader reader = new DicomFileReader();
                    reader.Read(source,
                                new DicomDatasetReaderObserver(df.FileMetaInfo),
                                new DicomDatasetReaderObserver(df.Dataset));

                    df.Format = reader.FileFormat;

                    df.Dataset.InternalTransferSyntax = reader.Syntax;

                    return(df);
                }
            } catch (Exception e) {
                throw new DicomFileException(df, e.Message, e);
            }
        }