コード例 #1
0
def empty_dicom():
    file_meta = FileMetaDataset()
    file_meta.FileMetaInformationGroupLength = 206
    file_meta.FileMetaInformationVersion = b'\x00\x01'
    file_meta.MediaStorageSOPClassUID = '1.2.840.10008.5.1.4.1.1.2'
    file_meta.MediaStorageSOPInstanceUID = '1.2.826.0.1.3680043.8.498.51645380419494159785729751472725175471'
    file_meta.TransferSyntaxUID = '1.2.840.10008.1.2.1'
    file_meta.ImplementationClassUID = '1.2.826.0.1.3680043.8.498.1'
    file_meta.ImplementationVersionName = 'PYDICOM 2.0.0'

    ds = Dataset()
    ds.ImageType = ['ORIGINAL', 'PRIMARY', 'AXIAL']
    ds.SOPClassUID = '1.2.840.10008.5.1.4.1.1.2'
    ds.SOPInstanceUID = '1.2.826.0.1.3680043.8.498.51645380419494159785729751472725175471'
    ds.Modality = 'CT'
    ds.StudyInstanceUID = '1.2.826.0.1.3680043.8.498.75112040858074996916346159754932379994'
    ds.SeriesInstanceUID = '1.2.826.0.1.3680043.8.498.64119849432490865623274415908957426618'
    ds.InstanceNumber = "1"
    ds.FrameOfReferenceUID = '1.2.826.0.1.3680043.8.498.10194591012322579188814682575529857631'
    ds.ImagesInAcquisition = "1"
    ds.SamplesPerPixel = 1
    ds.PhotometricInterpretation = 'MONOCHROME2'
    ds.BitsAllocated = 8
    ds.BitsStored = 8
    ds.HighBit = 7
    ds.PixelRepresentation = 0

    return ds, file_meta
コード例 #2
0
ファイル: util.py プロジェクト: dicompyler/dicompyler-core
def _basic_file_meta(class_UID):
    """Create basic file meta for DICOM dataset."""
    # File meta info data elements
    file_meta = FileMetaDataset()
    file_meta.FileMetaInformationVersion = b'\x00\x01'
    file_meta.MediaStorageSOPClassUID = class_UID
    file_meta.MediaStorageSOPInstanceUID = generate_uid()
    file_meta.TransferSyntaxUID = '1.2.840.10008.1.2'
    return file_meta
コード例 #3
0
def get_file_meta() -> FileMetaDataset:
    file_meta = FileMetaDataset()
    file_meta.FileMetaInformationGroupLength = 202
    file_meta.FileMetaInformationVersion = b'\x00\x01'
    file_meta.TransferSyntaxUID = ImplicitVRLittleEndian
    file_meta.MediaStorageSOPClassUID = SOPClassUID.RTSTRUCT
    file_meta.MediaStorageSOPInstanceUID = generate_uid() # TODO find out random generation is fine
    file_meta.ImplementationClassUID = SOPClassUID.RTSTRUCT_IMPLEMENTATION_CLASS
    return file_meta
コード例 #4
0
def get_file_meta(dcms):
    dcm = dcms[0]
    file_meta = FileMetaDataset()
    file_meta.FileMetaInformationVersion = dcm.file_meta.FileMetaInformationVersion
    file_meta.MediaStorageSOPClassUID = "RT Structure Set Storage"
    file_meta.MediaStorageSOPInstanceUID = "Anonymous"  # TODO
    file_meta.TransferSyntaxUID = dcm.file_meta.TransferSyntaxUID
    file_meta.ImplementationClassUID = dcm.file_meta.ImplementationClassUID
    file_meta.ImplementationVersionName = dcm.file_meta.ImplementationVersionName
    return file_meta
コード例 #5
0
ファイル: dsutils.py プロジェクト: Jesse-Back/pynetdicom
def create_file_meta(
    *,
    sop_class_uid: UID,
    sop_instance_uid: UID,
    transfer_syntax: UID,
    implementation_uid: UID = PYNETDICOM_IMPLEMENTATION_UID,
    implementation_version: str = PYNETDICOM_IMPLEMENTATION_VERSION,
) -> FileMetaDataset:
    """Return a new file meta dataset

    .. versionadded:: 2.0

    Parameters
    ----------
    sop_class_uid : pydicom.uid.UID
        The value for the *Media Storage SOP Class UID*.
    sop_instance_uid : pydicom.uid.UID
        The value for the *Media Storage SOP Instance UID*.
    transfer_syntax : pydicom.uid.UID
        The value for the *Transfer Syntax UID*.
    implementation_uid : pydicom.uid.UID, optional
        The value for the *Implementation Class UID*.
    implementation_version : str, optional
        The value for the *Implementation Version Name*.

    Returns
    -------
    pydicom.dataset.FileMetaDataset
        The File Meta dataset
    """
    file_meta = FileMetaDataset()

    file_meta.FileMetaInformationGroupLength = 0
    file_meta.FileMetaInformationVersion = b'\x00\x01'
    file_meta.MediaStorageSOPClassUID = sop_class_uid
    file_meta.MediaStorageSOPInstanceUID = sop_instance_uid
    file_meta.TransferSyntaxUID = transfer_syntax
    file_meta.ImplementationClassUID = implementation_uid
    file_meta.ImplementationVersionName = implementation_version

    # File Meta Information is always encoded as Explicit VR Little Endian
    file_meta.is_little_endian = True
    file_meta.is_implicit_VR = False

    return file_meta
コード例 #6
0
ファイル: create_rs.py プロジェクト: angle-up/pymedphys
def get_file_meta(dcm, root_uid):
    file_meta = FileMetaDataset()

    # From pydicom
    file_meta.MediaStorageSOPClassUID = (
        pydicom._storage_sopclass_uids.RTStructureSetStorage)
    file_meta.MediaStorageSOPInstanceUID = pydicom.uid.generate_uid(
        root_uid)  # TODO Generate this properly
    file_meta.TransferSyntaxUID = pydicom.uid.ImplicitVRLittleEndian

    # From dicom imaging file
    file_meta.FileMetaInformationVersion = dcm.file_meta.FileMetaInformationVersion
    file_meta.ImplementationClassUID = (
        dcm.file_meta.ImplementationClassUID
    )  # TODO Check this is true on non-anon data
    file_meta.ImplementationVersionName = dcm.file_meta.ImplementationVersionName

    return file_meta
コード例 #7
0
def generate_dicom_sr(file_path, img_ds, data, series_description):
    """
    Generates DICOM Structured Report files for the given file path.
    :param file_path: the file name and directory to save the DICOM
                      SR file in.
    :param img_ds: A CT or MR image from the dataset used to pull
                   general information for the DICOM SR.
    :param data: Text data to be written to the DICOM SR file.
    :param series_description: Description of text data written to SR.
    :return: dicom_sr, a dataset for the new DICOM SR file.
    """
    if img_ds is None:
        raise ValueError("No CT data to initialize RT SS")

    # Create file meta
    file_meta = FileMetaDataset()
    file_meta.FileMetaInformationGroupLength = 238
    file_meta.FileMetaInformationVersion = b'\x00\x01'
    file_meta.MediaStorageSOPClassUID = '1.2.840.10008.5.1.4.1.1.88.33'
    file_meta.MediaStorageSOPInstanceUID = pydicom.uid.generate_uid()
    file_meta.TransferSyntaxUID = ImplicitVRLittleEndian
    validate_file_meta(file_meta)

    # Create dataset
    dicom_sr = pydicom.dataset.FileDataset(file_path, {},
                                           preamble=b"\0" * 128,
                                           file_meta=file_meta)
    dicom_sr.fix_meta_info()

    # Get current date and time
    now = datetime.datetime.now()
    dicom_date = now.strftime("%Y%m%d")
    dicom_time = now.strftime("%H%M")

    # List of tags to copy from CT/MR image
    top_level_tags_to_copy: list = [
        Tag("PatientName"),
        Tag("PatientID"),
        Tag("PatientBirthDate"),
        Tag("PatientSex"),
        Tag("StudyDate"),
        Tag("StudyTime"),
        Tag("ReferringPhysicianName"),
        Tag("StudyDescription"),
        Tag("StudyInstanceUID"),
        Tag("StudyID"),
        Tag("RequestingService"),
        Tag("PatientAge"),
        Tag("PatientSize"),
        Tag("PatientWeight"),
        Tag("MedicalAlerts"),
        Tag("Allergies"),
        Tag("PregnancyStatus"),
        Tag("InstitutionName"),
        Tag("InstitutionAddress")
    ]

    # Copy tags from CT/MR image
    for tag in top_level_tags_to_copy:
        if tag in img_ds:
            dicom_sr[tag] = deepcopy(img_ds[tag])

    dicom_sr.AccessionNumber = ""

    # == SR Document Series Module
    dicom_sr.SeriesDate = dicom_date
    dicom_sr.SeriesTime = dicom_time
    dicom_sr.Modality = "SR"
    dicom_sr.SeriesDescription = series_description
    # Can be empty
    referenced_performed_procedure_step_sequence = Sequence()
    dicom_sr.ReferencedPerformedProcedureStepSequence = \
        referenced_performed_procedure_step_sequence
    dicom_sr.SeriesInstanceUID = pydicom.uid.generate_uid()
    dicom_sr.SeriesNumber = 1

    # == General Equipment Module
    dicom_sr.Manufacturer = "OnkoDICOM"
    dicom_sr.ManufacturersModelName = "OnkoDICOM"
    # TODO: Pull this off build information in some way
    dicom_sr.SoftwareVersions = "2021"

    # == SR Document General Module
    dicom_sr.ContentDate = dicom_date
    dicom_sr.ContentTime = dicom_time

    dicom_sr.InstanceNumber = 1

    # Empty if unknown
    performed_procedure_code_sequence = Sequence()

    dicom_sr.PerformedProcedureCodeSequence = performed_procedure_code_sequence

    # Do not want to mark as complete in case it isn't!
    dicom_sr.CompletionFlag = "PARTIAL"
    dicom_sr.VerificationFlag = "UNVERIFIED"

    # == SR Document Content Module
    referenced_sop_sequence = Sequence([Dataset()])
    referenced_sop_sequence[0].ReferencedSOPClassUID = ''
    referenced_sop_sequence[0].ReferencedSOPInstanceUID = ''

    dicom_sr.ReferencedSOPSequence = referenced_sop_sequence
    dicom_sr.ValueType = "CONTAINER"

    dicom_sr.ContinuityOfContent = "CONTINUOUS"
    dicom_sr.TemporalRangeTime = ""
    dicom_sr.ReferencedTimeOffsets = ""
    dicom_sr.ReferencedDateTime = ""

    dicom_sr.MeasuredValueSequence = Sequence()
    og_frame_of_reference_UID = \
        deepcopy(img_ds[Tag("FrameOfReferenceUID")].value)
    dicom_sr.ReferencedFrameOfReferenceUID = og_frame_of_reference_UID

    # == Content Sequence
    content_sequence = Sequence([Dataset()])
    content_sequence[0].RelationshipType = 'CONTAINS'
    content_sequence[0].ValueType = 'TEXT'

    concept_name_code_sequence = Sequence([Dataset()])
    concept_name_code_sequence[0].CodeValue = ''
    concept_name_code_sequence[0].CodingSchemeDesignator = ''
    concept_name_code_sequence[0].CodeMeaning = ''
    content_sequence[0].ConceptNameCodeSequence = concept_name_code_sequence

    content_sequence[0].TextValue = data

    dicom_sr.ContentSequence = content_sequence

    # == SOP Common Module
    dicom_sr.SOPClassUID = '1.2.840.10008.5.1.4.1.1.88.33'
    dicom_sr.SOPInstanceUID = file_meta.MediaStorageSOPInstanceUID

    dicom_sr.is_little_endian = True
    dicom_sr.is_implicit_VR = True

    return dicom_sr
コード例 #8
0
def OnRest(output, uri, **request):
    config = orthancConfig
    try:
        worklistdir = config["Worklists"]["Database"]
        asnofile = os.sep.join([worklistdir, 'accessionid.conf'])
    except KeyError:
        output.AnswerBuffer('internal configuration error\n', 'text/plain')
        return

    try:
        today = datetime.today()

        try:
            with open(asnofile, 'r') as f:
                try:
                    asno = int(f.read())
                except ValueError:
                    asno = 1
        except OSError:
            asno = 1

        with open(asnofile, 'w') as f:
            f.write(str(asno + 1))

        # File meta info data elements
        file_meta = FileMetaDataset()
        file_meta.FileMetaInformationGroupLength = 202
        file_meta.FileMetaInformationVersion = b'\x00\x01'
        file_meta.MediaStorageSOPClassUID = '1.2.276.0.7230010.3.1.0.1'
        file_meta.MediaStorageSOPInstanceUID = pydicom.uid.generate_uid(
            prefix=None)
        file_meta.TransferSyntaxUID = '1.2.840.10008.1.2.1'
        file_meta.ImplementationClassUID = '1.2.276.0.7230010.3.0.1.0.0'
        file_meta.ImplementationVersionName = 'ORTHANC_RESTWORKLIST_1'

        # Main data elements
        ds = Dataset()
        ds.SpecificCharacterSet = 'ISO_IR 192'

        dcm_store_path = os.sep.join([
            worklistdir,
            'R{:010d}-{}.{}'.format(asno, today.strftime('%Y%m%d%H%M%S'), 'wl')
        ])
        ds.AccessionNumber = 'R{:010d}'.format(asno)
        try:
            ds.PatientName = '{}^{}'.format(request["get"]["lastname"],
                                            request["get"]["firstname"])
        except KeyError:
            ds.PatientName = '{}^{}'.format(
                request["get"]["name"], request["get"]["surname"]
            )  # old, buggy parameter naming -> for backwards compatibility
        ds.PatientID = request["get"]["id"]
        bdparts = request["get"]["birthdate"].split('.')
        ds.PatientBirthDate = '{2}{1}{0}'.format(*bdparts)
        ds.PatientSex = sexReplacement[request["get"][
            "sex"]]  # LUT for the sex identifier numbers used by Medical Office (0 = Other / Unknown, 1 = Male, 2 = Female, 3 = Other / Unknown)
        ds.StudyInstanceUID = pydicom.uid.generate_uid(prefix=None)
        try:
            ds.RequestedProcedureDescription = request["get"]["procedure"]
        except KeyError:
            pass  # optional argument, otherwise this tag remains empty

        # Scheduled Procedure Step Sequence
        scheduled_procedure_step_sequence = Sequence()
        ds.ScheduledProcedureStepSequence = scheduled_procedure_step_sequence

        # Scheduled Procedure Step Sequence: Scheduled Procedure Step 1
        scheduled_procedure_step1 = Dataset()
        try:
            scheduled_procedure_step1.Modality = request["get"]["modality"]
        except KeyError:
            scheduled_procedure_step1.Modality = 'US'  # fallback to default (backwards compatibility)

        try:
            scheduled_procedure_step1.ScheduledStationAETitle = request["get"][
                "scheduledStation"]
        except KeyError:
            scheduled_procedure_step1.ScheduledStationAETitle = 'US01'  # fallback to default (backwards compatibility)

        scheduled_procedure_step1.ScheduledProcedureStepStartDate = today.strftime(
            '%Y%m%d')
        scheduled_procedure_step1.ScheduledProcedureStepStartTime = today.strftime(
            '%H%M%S')

        try:
            scheduled_procedure_step1.ScheduledPerformingPhysicianName = request[
                "get"]["physician"]
        except KeyError:
            pass  # optional, leave empty if not specified

        scheduled_procedure_step_sequence.append(scheduled_procedure_step1)

        ds.file_meta = file_meta
        ds.is_implicit_VR = False
        ds.is_little_endian = True
        ds.save_as(dcm_store_path, write_like_original=False)
        output.AnswerBuffer(
            gdtResponse(request["get"]["id"], today, ds.AccessionNumber,
                        request["get"]["procedure"]), 'text/plain')

        if "UrlOnWorklistEntryAdded" in config["Worklists"]:
            with urllib.request.urlopen(
                    config["Worklists"]["UrlOnWorklistEntryAdded"]):
                orthanc.LogWarning("Called {} as configured.".format(
                    config["Worklists"]["UrlOnWorklistEntryAdded"]))
    except KeyError as e:
        output.AnswerBuffer('error: {}\n'.format(e), 'text/plain')
        raise
コード例 #9
0
ファイル: ROI.py プロジェクト: celeron533/OnkoDICOM
def create_initial_rtss_from_ct(img_ds: pydicom.dataset.Dataset,
                                filepath: Path,
                                uid_list: list) -> pydicom.dataset.FileDataset:
    """
    Pre-populate an RT Structure Set based on a single CT (or MR) and a
    list of image UIDs The caller should update the Structure Set Label,
    Name, and Description, which are set to "OnkoDICOM" plus the StudyID
    from the CT, and must add Structure Set ROI Sequence, ROI Contour
    Sequence, and RT ROI Observations Sequence
    Parameters
    ----------
    img_ds : pydicom.dataset.Dataset
        A CT or MR image that the RT Structure Set will be "drawn" on
    uid_list : list
        list of UIDs (as strings) of the entire image volume that the
        RT SS references
    filepath: str
        A path where the RTStruct will be saved
    Returns
    -------
    pydicom.dataset.FileDataset
        the half-baked RT SS, ready for Structure Set ROI Sequence,
        ROI Contour Sequence, and RT ROI Observations Sequence
    Raises
    ------
    ValueError
        [description]
    """

    if img_ds is None:
        raise ValueError("No CT data to initialize RT SS")

    now = datetime.datetime.now()
    dicom_date = now.strftime("%Y%m%d")
    dicom_time = now.strftime("%H%M")

    # File Meta module
    file_meta = FileMetaDataset()
    file_meta.FileMetaInformationGroupLength = 238
    file_meta.FileMetaInformationVersion = b'\x00\x01'
    file_meta.MediaStorageSOPClassUID = '1.2.840.10008.5.1.4.1.1.481.3'
    file_meta.MediaStorageSOPInstanceUID = generate_uid()
    file_meta.TransferSyntaxUID = ImplicitVRLittleEndian
    validate_file_meta(file_meta)

    rt_ss = pydicom.dataset.FileDataset(filepath, {},
                                        preamble=b"\0" * 128,
                                        file_meta=file_meta)
    rt_ss.fix_meta_info()

    top_level_tags_to_copy: list = [
        Tag("PatientName"),
        Tag("PatientID"),
        Tag("PatientBirthDate"),
        Tag("PatientSex"),
        Tag("StudyDate"),
        Tag("StudyTime"),
        Tag("AccessionNumber"),
        Tag("ReferringPhysicianName"),
        Tag("StudyDescription"),
        Tag("StudyInstanceUID"),
        Tag("StudyID"),
        Tag("RequestingService"),
        Tag("PatientAge"),
        Tag("PatientSize"),
        Tag("PatientWeight"),
        Tag("MedicalAlerts"),
        Tag("Allergies"),
        Tag("PregnancyStatus"),
        Tag("FrameOfReferenceUID"),
        Tag("PositionReferenceIndicator"),
        Tag("InstitutionName"),
        Tag("InstitutionAddress"),
        Tag("OperatorsName")
    ]

    for tag in top_level_tags_to_copy:
        if tag in img_ds:
            rt_ss[tag] = deepcopy(img_ds[tag])

    if rt_ss.StudyInstanceUID == "":
        raise ValueError(
            "The given dataset is missing a required tag 'StudyInstanceUID'")

    # RT Series Module
    rt_ss.SeriesDate = dicom_date
    rt_ss.SeriesTime = dicom_time
    rt_ss.Modality = "RTSTRUCT"
    rt_ss.OperatorsName = ""
    rt_ss.SeriesInstanceUID = pydicom.uid.generate_uid()
    rt_ss.SeriesNumber = "1"

    # General Equipment Module
    rt_ss.Manufacturer = "OnkoDICOM"
    rt_ss.ManufacturerModelName = "OnkoDICOM"
    # TODO: Pull this off build information in some way
    rt_ss.SoftwareVersions = "2021"

    # Frame of Reference module
    rt_ss.FrameOfReferenceUID = img_ds.FrameOfReferenceUID
    rt_ss.PositionReferenceIndicator = ""

    # Structure Set module
    # Best to modify the Structure Set Label with something more
    # interesting in the application. and populate the Name and
    # Description from the application also.
    rt_ss.StructureSetLabel = "OnkoDICOM rtss"
    rt_ss.StructureSetName = rt_ss.StructureSetLabel
    rt_ss.StructureSetDescription = "OnkoDICOM rtss of " + rt_ss.StudyID
    rt_ss.StructureSetDate = dicom_date
    rt_ss.StructureSetTime = dicom_time

    # Contour Image Sequence
    contour_image_sequence = []
    for uid in uid_list:
        contour_image_sequence_item = pydicom.dataset.Dataset()
        contour_image_sequence_item.ReferencedSOPClassUID = img_ds.SOPClassUID
        contour_image_sequence_item.ReferencedSOPInstanceUID = uid
        contour_image_sequence.append(contour_image_sequence_item)

    # RT Referenced Series Sequence
    rt_referenced_series = pydicom.dataset.Dataset()
    rt_referenced_series.SeriesInstanceUID = img_ds.SeriesInstanceUID
    rt_referenced_series.ContourImageSequence = contour_image_sequence
    rt_referenced_series_sequence = [rt_referenced_series]

    # RT Referenced Study Sequence
    rt_referenced_study = pydicom.dataset.Dataset()
    rt_referenced_study.ReferencedSOPClassUID = "1.2.840.10008.3.1.2.3.1"
    rt_referenced_study.ReferencedSOPInstanceUID = img_ds.StudyInstanceUID
    rt_referenced_study.RTReferencedSeriesSequence = \
        rt_referenced_series_sequence
    rt_referenced_study_sequence = [rt_referenced_study]

    # RT Referenced Frame Of Reference Sequence, Structure Set Module
    referenced_frame_of_reference = pydicom.dataset.Dataset()
    referenced_frame_of_reference.FrameOfReferenceUID = \
        img_ds.FrameOfReferenceUID
    referenced_frame_of_reference.RTReferencedStudySequence = \
        rt_referenced_study_sequence
    rt_ss.ReferencedFrameOfReferenceSequence = [referenced_frame_of_reference]

    # Sequence modules
    rt_ss.StructureSetROISequence = []
    rt_ss.ROIContourSequence = []
    rt_ss.RTROIObservationsSequence = []

    # SOP Common module
    rt_ss.SOPClassUID = rt_ss.file_meta.MediaStorageSOPClassUID
    rt_ss.SOPInstanceUID = rt_ss.file_meta.MediaStorageSOPInstanceUID

    # Add required elements
    rt_ss.InstanceCreationDate = dicom_date
    rt_ss.InstanceCreationTime = dicom_time

    rt_ss.is_little_endian = True
    rt_ss.is_implicit_VR = True
    return rt_ss
コード例 #10
0
def DicomRT(path, file_name, region_number):
    file_path = path + 'Dicom/' + file_name
    dsorg = pydicom.read_file(file_path, force=True)

    dcmfiles = os.listdir(path + 'Dicom/')

    IOP = dsorg.ImageOrientationPatient
    plane = file_plane(IOP)
    planVal = dsorg.ImagePositionPatient[plane]
    planVal = float(planVal)

    xp_rt = dsorg.ImagePositionPatient[0]
    yp_rt = dsorg.ImagePositionPatient[1]

    x_rt = dsorg.Columns
    y_rt = dsorg.Rows

    uid1 = generate_uid()
    uid2 = generate_uid()
    # File meta info data elements
    file_meta = FileMetaDataset()
    file_meta.FileMetaInformationGroupLength = 182
    file_meta.FileMetaInformationVersion = b'\x00\x01'
    file_meta.MediaStorageSOPClassUID = '1.2.840.10008.5.1.4.1.1.481.3'
    file_meta.MediaStorageSOPInstanceUID = uid1  #'1.2.826.0.1.534147.578.2719282597.2020101685637449'
    file_meta.TransferSyntaxUID = '1.2.840.10008.1.2.1'
    file_meta.ImplementationClassUID = '1.2.40.0.13.1.1'
    file_meta.ImplementationVersionName = 'dcm4che-2.0'

    ds = Dataset()

    # Main data elements
    ds = Dataset()
    ds.SOPClassUID = '1.2.840.10008.5.1.4.1.1.481.3'
    ds.SOPInstanceUID = uid1  #'1.2.826.0.1.534147.578.2719282597.2020101685637449'
    ds.StudyDate = dsorg.StudyDate  #'20450916'
    ds.StudyTime = dsorg.StudyTime  # '000000'
    ds.AccessionNumber = ''
    ds.Modality = 'RTSTRUCT'
    ds.Manufacturer = dsorg.Manufacturer  # 'SIEMENS'
    ds.ReferringPhysicianName = ''
    ds.OperatorsName = ''
    ds.ManufacturerModelName = dsorg.ManufacturerModelName  # SOMATOM Definition Edge'
    ds.PatientName = dsorg.PatientName  # 'Covid7175'
    ds.PatientID = dsorg.PatientID  # 'Covid7175'
    ds.PatientBirthDate = dsorg.PatientBirthDate  # '19300101'
    ds.PatientSex = dsorg.PatientSex  # 'F'
    ds.SoftwareVersions = dsorg.SoftwareVersions  # 'syngo CT VA48A'
    ds.StudyInstanceUID = dsorg.StudyInstanceUID  #'1.2.826.0.1.3680043.9.3218.1.1.302475.1985.1592890895061.53221.0' # dsOrg.StudyInstanceUID
    ds.SeriesInstanceUID = uid2  #'1.2.826.0.1.534147.578.2719282597.2020101685637450'
    ds.StudyID = ''
    ds.SeriesNumber = None
    ds.FrameOfReferenceUID = dsorg.FrameOfReferenceUID  #'1.2.826.0.1.3680043.9.3218.1.1.302475.1985.1592890895061.53224.0' # dsOrg.FrameOfReferenceUID
    ds.PositionReferenceIndicator = ''
    ds.StructureSetLabel = 'AIM_Multi3_' + str(
        dsorg.InstanceNumber) + '_' + str(region_number)  #Scaling04
    ds.StructureSetDate = '20201116'
    ds.StructureSetTime = '085637'

    # Referenced Frame of Reference Sequence
    refd_frame_of_ref_sequence = Sequence()
    ds.ReferencedFrameOfReferenceSequence = refd_frame_of_ref_sequence

    # Referenced Frame of Reference Sequence: Referenced Frame of Reference 1
    refd_frame_of_ref1 = Dataset()
    refd_frame_of_ref1.FrameOfReferenceUID = dsorg.FrameOfReferenceUID  # '1.2.826.0.1.3680043.9.3218.1.1.302475.1985.1592890895061.53224.0'

    # RT Referenced Study Sequence
    rt_refd_study_sequence = Sequence()
    refd_frame_of_ref1.RTReferencedStudySequence = rt_refd_study_sequence

    # RT Referenced Study Sequence: RT Referenced Study 1
    rt_refd_study1 = Dataset()
    rt_refd_study1.ReferencedSOPClassUID = '1.2.840.10008.3.1.2.3.1'
    rt_refd_study1.ReferencedSOPInstanceUID = dsorg.StudyInstanceUID  #'1.2.826.0.1.3680043.9.3218.1.1.302475.1985.1592890895061.53221.0' #

    # RT Referenced Series Sequence
    rt_refd_series_sequence = Sequence()
    rt_refd_study1.RTReferencedSeriesSequence = rt_refd_series_sequence

    # RT Referenced Series Sequence: RT Referenced Series 1
    rt_refd_series1 = Dataset()
    rt_refd_series1.SeriesInstanceUID = dsorg.SeriesInstanceUID  #'1.2.826.0.1.3680043.9.3218.1.1.302475.1985.1592890895061.53222.0'

    # Contour Image Sequence
    contour_image_sequence = Sequence()
    rt_refd_series1.ContourImageSequence = contour_image_sequence

    # Contour Image Sequence: Contour Image 1 ********************************
    i = 0
    contour_image = []
    for dcmname in dcmfiles:
        if '.dcm' in dcmname:
            dsorg = pydicom.read_file(path + 'Dicom/' + dcmname, force=True)
            contour_image.append(Dataset())
            contour_image[i] = Dataset()
            contour_image[
                i].ReferencedSOPClassUID = '1.2.840.10008.5.1.4.1.1.2'
            contour_image[
                i].ReferencedSOPInstanceUID = dsorg.SOPInstanceUID  #'1.2.826.0.1.3680043.9.3218.1.1.302475.1985.1592890895061.53223.0'
            contour_image[i].ReferencedFrameNumber = "1"
            contour_image_sequence.append(contour_image[i])

            i = i + 1

    # contour_image1 = Dataset()
    # contour_image1.ReferencedSOPClassUID = '1.2.840.10008.5.1.4.1.1.2'
    # contour_image1.ReferencedSOPInstanceUID = dsorg.SOPInstanceUID #'1.2.826.0.1.3680043.9.3218.1.1.302475.1985.1592890895061.53223.0'
    # contour_image1.ReferencedFrameNumber = "1"
    # contour_image_sequence.append(contour_image1)

    rt_refd_series_sequence.append(rt_refd_series1)
    rt_refd_study_sequence.append(rt_refd_study1)
    refd_frame_of_ref_sequence.append(refd_frame_of_ref1)

    # Structure Set ROI Sequence
    structure_set_roi_sequence = Sequence()
    ds.StructureSetROISequence = structure_set_roi_sequence

    # Structure Set ROI Sequence: Structure Set ROI 1
    structure_set_roi1 = Dataset()
    structure_set_roi1.ROINumber = "1"
    structure_set_roi1.ReferencedFrameOfReferenceUID = dsorg.FrameOfReferenceUID  #'1.2.826.0.1.3680043.9.3218.1.1.302475.1985.1592890895061.53224.0' #
    structure_set_roi1.ROIName = 'TestScale'
    structure_set_roi1.ROIGenerationAlgorithm = ''
    structure_set_roi_sequence.append(structure_set_roi1)

    # ROI Contour Sequence
    roi_contour_sequence = Sequence()
    ds.ROIContourSequence = roi_contour_sequence

    # ROI Contour Sequence: ROI Contour 1
    roi_contour1 = Dataset()

    # Contour Sequence
    contour_sequence = Sequence()
    roi_contour1.ContourSequence = contour_sequence

    # Contour Sequence: Contour 1
    contour = []
    #dcmfiles = os.listdir(path+'Dicom/') came to beginig of the function
    i = 0
    for dcmname in dcmfiles:
        #print(dcmname)
        if '.dcm' in dcmname:
            pnyfiles = os.listdir(path + 'borders/')
            for pnyname in pnyfiles:
                if dcmname in pnyname:
                    #print(pnyname)
                    dsorg = pydicom.read_file(path + 'Dicom/' + dcmname,
                                              force=True)

                    IOP = dsorg.ImageOrientationPatient
                    plane = file_plane(IOP)
                    planVal = dsorg.ImagePositionPatient[plane]
                    planVal = float(planVal)

                    xp_rt = dsorg.ImagePositionPatient[0]
                    yp_rt = dsorg.ImagePositionPatient[1]

                    x_rt = dsorg.Columns
                    y_rt = dsorg.Rows
                    # Put Contoure pixel cordination Inside file
                    with open(path + 'Borders/' + pnyname, 'rb') as f:
                        num = np.load(f)
                    print(pnyname)
                    print(planVal)
                    borders = []
                    for t in range(len(num)):
                        #print(t,num[t])
                        if plane == 0:  #"Sagittal"
                            x = planVal
                            y = newPosition(num[t][1], 0, xp_rt, yp_rt, x_rt,
                                            y_rt)
                            z = newPosition(num[t][0], 1, xp_rt, yp_rt, x_rt,
                                            y_rt)
                        elif plane == 1:  #"Coronal"
                            x = newPosition(num[t][1], 0, xp_rt, yp_rt, x_rt,
                                            y_rt)
                            y = planVal
                            z = newPosition(num[t][0], 1, xp_rt, yp_rt, x_rt,
                                            y_rt)
                        elif plane == 2:  #  "Transverse"
                            x = newPosition(num[t][1], 0, xp_rt, yp_rt, x_rt,
                                            y_rt)
                            y = newPosition(num[t][0], 1, xp_rt, yp_rt, x_rt,
                                            y_rt)
                            z = planVal
                        borders.extend([x, y, z])

                    print(i)
                    contour.append(Dataset())
                    contour[i] = Dataset()

                    # Contour Image Sequence
                    contour_image_sequence = Sequence()
                    contour[i].ContourImageSequence = contour_image_sequence

                    # Contour Image Sequence: Contour Image 1
                    contour_image1 = Dataset()
                    contour_image1.ReferencedSOPClassUID = '1.2.840.10008.5.1.4.1.1.2'
                    contour_image1.ReferencedSOPInstanceUID = dsorg.SOPInstanceUID  #'1.2.826.0.1.3680043.9.3218.1.1.302475.1985.1592890895061.53223.0'
                    contour_image1.ReferencedFrameNumber = "1"
                    contour_image_sequence.append(contour_image1)

                    contour[i].ContourGeometricType = 'CLOSED_PLANAR'
                    contour[i].NumberOfContourPoints = len(borders) / 3  #"4"
                    contour[i].ContourNumber = "1"
                    contour[
                        i].ContourData = borders  # [-276.91503267973, -162.50000000000, 516.398692810457, 270.222222222222, -162.50000000000, 514.725490196078, 271.895424836601, -162.50000000000, -177.98039215686, -271.89542483660, -162.50000000000, -176.30718954248]
                    contour_sequence.append(contour[i])
                    i = i + 1

    roi_contour1.ReferencedROINumber = "1"
    roi_contour_sequence.append(roi_contour1)

    # RT ROI Observations Sequence
    rtroi_observations_sequence = Sequence()
    ds.RTROIObservationsSequence = rtroi_observations_sequence

    # RT ROI Observations Sequence: RT ROI Observations 1
    rtroi_observations1 = Dataset()
    rtroi_observations1.ObservationNumber = "1"
    rtroi_observations1.ReferencedROINumber = "1"
    rtroi_observations1.RTROIInterpretedType = ''
    rtroi_observations1.ROIInterpreter = ''
    rtroi_observations_sequence.append(rtroi_observations1)

    ds.file_meta = file_meta
    ds.is_implicit_VR = False
    ds.is_little_endian = True

    ds.save_as(path + 'RTSTRUCT/rt' + str(region_number) + '-' + file_name,
               write_like_original=False)
コード例 #11
0
    def generate_dicom(self, file_out_name: str, gantry_angle: float = 0.0, coll_angle: float = 0.0,
                       table_angle: float = 0.0):
        file_meta = FileMetaDataset()
        file_meta.FileMetaInformationGroupLength = 196
        file_meta.FileMetaInformationVersion = b'\x00\x01'
        file_meta.MediaStorageSOPClassUID = '1.2.840.10008.5.1.4.1.1.481.1'
        file_meta.MediaStorageSOPInstanceUID = '1.2.246.352.64.1.5468686515961995030.4457606667843517571'
        file_meta.TransferSyntaxUID = '1.2.840.10008.1.2'
        file_meta.ImplementationClassUID = '1.2.246.352.70.2.1.120.1'
        file_meta.ImplementationVersionName = 'MergeCOM3_410'

        # Main data elements
        ds = Dataset()
        ds.SpecificCharacterSet = 'ISO_IR 100'
        ds.ImageType = ['ORIGINAL', 'PRIMARY', 'PORTAL']
        ds.InstanceCreationDate = '20161230'
        ds.InstanceCreationTime = '215510'
        ds.SOPClassUID = '1.2.840.10008.5.1.4.1.1.481.1'
        ds.SOPInstanceUID = '1.2.246.352.64.1.5468686515961995030.4457606667843517571'
        ds.StudyDate = '20161230'
        ds.ContentDate = '20161230'
        ds.StudyTime = '215441.936'
        ds.ContentTime = '215441.936'
        ds.AccessionNumber = ''
        ds.Modality = 'RTIMAGE'
        ds.ConversionType = ''
        ds.Manufacturer = 'Varian Medical Systems'
        ds.ReferringPhysicianName = ''
        ds.StationName = 'NDS-WKS-SN9999'
        ds.OperatorsName = 'King Kong'
        ds.ManufacturerModelName = 'VMS.XI.Service'
        ds.PatientName = 'Grace Hopper'
        ds.PatientID = 'VMS.XI.Service'
        ds.PatientBirthDate = '19000101'
        ds.PatientBirthTime = '000000'
        ds.PatientSex = ''
        ds.SoftwareVersions = '2.5.13.2'
        ds.StudyInstanceUID = '1.2.246.352.64.4.5644626269434644263.1905029945372990626'
        ds.SeriesInstanceUID = '1.2.246.352.64.2.5508761605912087323.11665958260371685307'
        ds.StudyID = 'fdd794f2-8520-4c4a-aecc-e4446c1730ff'
        ds.SeriesNumber = None
        ds.AcquisitionNumber = "739774555"
        ds.InstanceNumber = "1"
        ds.PatientOrientation = ''
        ds.FrameOfReferenceUID = '1.2.246.352.64.3.4714322356925391886.9391210174715030407'
        ds.PositionReferenceIndicator = ''
        ds.SamplesPerPixel = 1
        ds.PhotometricInterpretation = 'MONOCHROME1'
        ds.PlanarConfiguration = 0
        ds.Rows = self.shape[0]
        ds.Columns = self.shape[1]
        ds.BitsAllocated = 16
        ds.BitsStored = 16
        ds.HighBit = 15
        ds.PixelRepresentation = 0
        ds.WindowCenter = "32767.0"
        ds.WindowWidth = "65535.0"
        ds.RescaleIntercept = "0.0"
        ds.RescaleSlope = "1.0"
        ds.RescaleType = 'US'
        ds.RTImageLabel = 'MV_180'
        ds.RTImageDescription = ""
        ds.ReportedValuesOrigin = 'ACTUAL'
        ds.RTImagePlane = 'NORMAL'
        ds.XRayImageReceptorTranslation = [0.00, 0.00, 1000 - self.sid]
        ds.XRayImageReceptorAngle = "0.0"
        ds.RTImageOrientation = [1, 0, 0, 0, -1, 0]
        ds.ImagePlanePixelSpacing = [self.pixel_size, self.pixel_size]
        ds.RTImagePosition = [-214.872, 214.872]
        ds.RadiationMachineName = 'TrueBeam from Hell'
        ds.RadiationMachineSAD = "1000.0"
        ds.RTImageSID = self.sid
        ds.PrimaryDosimeterUnit = 'MU'
        ds.GantryAngle = str(gantry_angle)
        ds.BeamLimitingDeviceAngle = str(coll_angle)
        ds.PatientSupportAngle = str(table_angle)
        ds.TableTopVerticalPosition = "-24.59382842824"
        ds.TableTopLongitudinalPosition = "200.813502948597"
        ds.TableTopLateralPosition = "3.00246706215532"
        ds.PixelData = self.image  # XXX Array of 3276800 bytes excluded

        ds.file_meta = file_meta
        ds.is_implicit_VR = True
        ds.is_little_endian = True
        ds.save_as(file_out_name, write_like_original=False)