diff --git a/src/highdicom/sr/templates.py b/src/highdicom/sr/templates.py index 0eb54607..1ba0e606 100644 --- a/src/highdicom/sr/templates.py +++ b/src/highdicom/sr/templates.py @@ -4015,12 +4015,6 @@ def _generate_cross_sectional_descriptors( relationship_type=RelationshipTypeValues.HAS_ACQ_CONTEXT, unit=codes.UCUM.Millimeter ), - NumContentItem( - name=codes.DCM.SpacingBetweenSlices, - value=dataset.SpacingBetweenSlices, - relationship_type=RelationshipTypeValues.HAS_ACQ_CONTEXT, - unit=codes.UCUM.Millimeter - ), NumContentItem( name=codes.DCM.SliceThickness, value=dataset.SliceThickness, @@ -4106,6 +4100,16 @@ def _generate_cross_sectional_descriptors( ) ) ] + if hasattr(dataset, 'SpacingBetweenSlices'): + descriptors.append( + NumContentItem( + name=codes.DCM.SpacingBetweenSlices, + value=dataset.SpacingBetweenSlices, + relationship_type=RelationshipTypeValues.HAS_ACQ_CONTEXT, + unit=codes.UCUM.Millimeter + ), + ) + return descriptors def _is_cross_sectional(self, ds: Dataset) -> bool: diff --git a/tests/test_sr.py b/tests/test_sr.py index dafd3aed..45f96e0c 100644 --- a/tests/test_sr.py +++ b/tests/test_sr.py @@ -5419,79 +5419,101 @@ def test_ct_construction(self): image=self._ref_ct_dataset, ) assert len(group) == 17 - assert isinstance(group[0], CodeContentItem) - assert group[0].name == codes.DCM.Modality - assert group[0].value == codes.cid29.ComputedTomography - assert isinstance(group[1], UIDRefContentItem) - assert group[1].name == codes.DCM.FrameOfReferenceUID - assert group[1].value == self._ref_ct_dataset.FrameOfReferenceUID - assert isinstance(group[2], NumContentItem) - assert group[2].name == codes.DCM.PixelDataRows - assert group[2].value == self._ref_ct_dataset.Rows - assert isinstance(group[3], NumContentItem) - assert group[3].name == codes.DCM.PixelDataColumns - assert group[3].value == self._ref_ct_dataset.Columns - assert isinstance(group[4], NumContentItem) - assert group[4].name == codes.DCM.HorizontalPixelSpacing - assert group[4].value == self._ref_ct_dataset.PixelSpacing[0] - value_item = group[4].MeasuredValueSequence[0] + + # Check Modality + modality = group.find(name=codes.DCM.Modality)[0] + assert isinstance(modality, CodeContentItem) + assert modality.value == codes.cid29.ComputedTomography + + # Check Frame of Reference UID + frame_ref = group.find(name=codes.DCM.FrameOfReferenceUID)[0] + assert isinstance(frame_ref, UIDRefContentItem) + assert frame_ref.value == self._ref_ct_dataset.FrameOfReferenceUID + + # Check Pixel Data Rows + rows = group.find(name=codes.DCM.PixelDataRows)[0] + assert isinstance(rows, NumContentItem) + assert rows.value == self._ref_ct_dataset.Rows + + # Check Pixel Data Columns + columns = group.find(name=codes.DCM.PixelDataColumns)[0] + assert isinstance(columns, NumContentItem) + assert columns.value == self._ref_ct_dataset.Columns + + # Check Horizontal Pixel Spacing + h_spacing = group.find(name=codes.DCM.HorizontalPixelSpacing)[0] + assert isinstance(h_spacing, NumContentItem) + assert h_spacing.value == self._ref_ct_dataset.PixelSpacing[0] + value_item = h_spacing.MeasuredValueSequence[0] unit_code_item = value_item.MeasurementUnitsCodeSequence[0] assert unit_code_item.CodeValue == 'mm' assert unit_code_item.CodeMeaning == 'mm' assert unit_code_item.CodingSchemeDesignator == 'UCUM' - assert isinstance(group[5], NumContentItem) - assert group[5].name == codes.DCM.VerticalPixelSpacing - assert group[5].value == self._ref_ct_dataset.PixelSpacing[1] - assert isinstance(group[6], NumContentItem) - assert group[6].name == codes.DCM.SpacingBetweenSlices - assert group[6].value == self._ref_ct_dataset.SpacingBetweenSlices - value_item = group[6].MeasuredValueSequence[0] + + # Check Vertical Pixel Spacing + v_spacing = group.find(name=codes.DCM.VerticalPixelSpacing)[0] + assert isinstance(v_spacing, NumContentItem) + assert v_spacing.value == self._ref_ct_dataset.PixelSpacing[1] + + # Check Spacing Between Slices + slice_spacing = group.find(name=codes.DCM.SpacingBetweenSlices)[0] + assert isinstance(slice_spacing, NumContentItem) + assert slice_spacing.value == self._ref_ct_dataset.SpacingBetweenSlices + value_item = slice_spacing.MeasuredValueSequence[0] unit_code_item = value_item.MeasurementUnitsCodeSequence[0] assert unit_code_item.CodeValue == 'mm' assert unit_code_item.CodeMeaning == 'mm' assert unit_code_item.CodingSchemeDesignator == 'UCUM' - assert isinstance(group[7], NumContentItem) - assert group[7].name == codes.DCM.SliceThickness - assert group[7].value == self._ref_ct_dataset.SliceThickness - assert isinstance(group[8], NumContentItem) - assert group[8].name == codes.DCM.ImagePositionPatientX - assert group[8].value == self._ref_ct_dataset.ImagePositionPatient[0] - assert isinstance(group[9], NumContentItem) - assert group[9].name == codes.DCM.ImagePositionPatientY - assert group[9].value == self._ref_ct_dataset.ImagePositionPatient[1] - assert isinstance(group[10], NumContentItem) - assert group[10].name == codes.DCM.ImagePositionPatientZ - assert group[10].value == self._ref_ct_dataset.ImagePositionPatient[2] - assert isinstance(group[11], NumContentItem) - assert group[11].name == codes.DCM.ImageOrientationPatientRowX - assert group[11].value == \ - self._ref_ct_dataset.ImageOrientationPatient[0] - value_item = group[11].MeasuredValueSequence[0] + + # Check Slice Thickness + thickness = group.find(name=codes.DCM.SliceThickness)[0] + assert isinstance(thickness, NumContentItem) + assert thickness.value == self._ref_ct_dataset.SliceThickness + + # Check Image Position Patient + pos_x = group.find(name=codes.DCM.ImagePositionPatientX)[0] + assert isinstance(pos_x, NumContentItem) + assert pos_x.value == self._ref_ct_dataset.ImagePositionPatient[0] + + pos_y = group.find(name=codes.DCM.ImagePositionPatientY)[0] + assert isinstance(pos_y, NumContentItem) + assert pos_y.value == self._ref_ct_dataset.ImagePositionPatient[1] + + pos_z = group.find(name=codes.DCM.ImagePositionPatientZ)[0] + assert isinstance(pos_z, NumContentItem) + assert pos_z.value == self._ref_ct_dataset.ImagePositionPatient[2] + + # Check Image Orientation Patient Row + row_x = group.find(name=codes.DCM.ImageOrientationPatientRowX)[0] + assert isinstance(row_x, NumContentItem) + assert row_x.value == self._ref_ct_dataset.ImageOrientationPatient[0] + value_item = row_x.MeasuredValueSequence[0] unit_code_item = value_item.MeasurementUnitsCodeSequence[0] assert unit_code_item.CodeValue == '{-1:1}' assert unit_code_item.CodeMeaning == '{-1:1}' assert unit_code_item.CodingSchemeDesignator == 'UCUM' - assert isinstance(group[12], NumContentItem) - assert group[12].name == codes.DCM.ImageOrientationPatientRowY - assert group[12].value == \ - self._ref_ct_dataset.ImageOrientationPatient[1] - assert isinstance(group[13], NumContentItem) - assert group[13].name == codes.DCM.ImageOrientationPatientRowZ - assert group[13].value == \ - self._ref_ct_dataset.ImageOrientationPatient[2] - assert isinstance(group[14], NumContentItem) - assert group[14].name == codes.DCM.ImageOrientationPatientColumnX - assert group[14].value == \ - self._ref_ct_dataset.ImageOrientationPatient[3] - assert isinstance(group[15], NumContentItem) - assert group[15].name == codes.DCM.ImageOrientationPatientColumnY - assert group[15].value == \ - self._ref_ct_dataset.ImageOrientationPatient[4] - assert isinstance(group[16], NumContentItem) - assert group[16].name == codes.DCM.ImageOrientationPatientColumnZ - assert group[16].value == \ - self._ref_ct_dataset.ImageOrientationPatient[5] - value_item = group[16].MeasuredValueSequence[0] + + row_y = group.find(name=codes.DCM.ImageOrientationPatientRowY)[0] + assert isinstance(row_y, NumContentItem) + assert row_y.value == self._ref_ct_dataset.ImageOrientationPatient[1] + + row_z = group.find(name=codes.DCM.ImageOrientationPatientRowZ)[0] + assert isinstance(row_z, NumContentItem) + assert row_z.value == self._ref_ct_dataset.ImageOrientationPatient[2] + + # Check Image Orientation Patient Column + col_x = group.find(name=codes.DCM.ImageOrientationPatientColumnX)[0] + assert isinstance(col_x, NumContentItem) + assert col_x.value == self._ref_ct_dataset.ImageOrientationPatient[3] + + col_y = group.find(name=codes.DCM.ImageOrientationPatientColumnY)[0] + assert isinstance(col_y, NumContentItem) + assert col_y.value == self._ref_ct_dataset.ImageOrientationPatient[4] + + col_z = group.find(name=codes.DCM.ImageOrientationPatientColumnZ)[0] + assert isinstance(col_z, NumContentItem) + assert col_z.value == self._ref_ct_dataset.ImageOrientationPatient[5] + value_item = col_z.MeasuredValueSequence[0] unit_code_item = value_item.MeasurementUnitsCodeSequence[0] assert unit_code_item.CodeValue == '{-1:1}' assert unit_code_item.CodeMeaning == '{-1:1}' @@ -5591,6 +5613,11 @@ def test_dx_construction(self): assert group[8].name == codes.DCM.ContentTime assert group[8].value == content_time + def test_optional_spacing_between_slices(self): + del self._ref_ct_dataset.SpacingBetweenSlices + group = ImageLibraryEntryDescriptors(image=self._ref_ct_dataset) + assert not group.find(name=codes.DCM.SpacingBetweenSlices) + class TestImageLibrary(unittest.TestCase):