def export(self, nidm_version, export_dir, prepend_path):
"""
Copy file over of export_dir and create corresponding triples
"""
if self.path is not None:
if export_dir is not None:
# Copy file only if export_dir is not None
new_file = os.path.join(export_dir, self.filename)
if not self.path == new_file:
if prepend_path.endswith('.zip'):
with zipfile.ZipFile(prepend_path) as z:
extracted = z.extract(str(self.path), export_dir)
shutil.move(extracted, new_file)
else:
if prepend_path:
file_copied = os.path.join(prepend_path, self.path)
else:
file_copied = self.path
shutil.copy(file_copied, new_file)
if self.temporary:
os.remove(self.path)
else:
new_file = self.path
if nidm_version['num'] in ["1.0.0", "1.1.0"]:
loc = Identifier("file://./" + self.filename)
else:
loc = Identifier(self.filename)
self.add_attributes([(NFO['fileName'], self.filename)])
if export_dir:
self.add_attributes([(PROV['atLocation'], loc)])
if nidm_version['num'] in ("1.0.0", "1.1.0"):
path, org_filename = os.path.split(self.path)
if (org_filename is not self.filename) \
and (not self.temporary):
self.add_attributes([(NFO['fileName'], org_filename)])
if self.is_nifti():
if self.sha is None:
self.sha = self.get_sha_sum(new_file)
if self.fmt is None:
self.fmt = "image/nifti"
self.add_attributes([
(CRYPTO['sha512'], self.sha),
(DCT['format'], self.fmt)
])
def export(self):
"""
Create prov entities and activities.
"""
# Create coordinate space export
self.p.update(self.coord_space.export())
# Copy residuals map in export directory
residuals_file = os.path.join(self.export_dir,
'ResidualMeanSquares.nii.gz')
residuals_original_filename, residuals_filename = self.copy_nifti(
self.file, residuals_file)
# Create "residuals map" entity
self.p.entity(
self.id,
other_attributes=((
PROV['type'],
NIDM['ResidualMeanSquaresMap'],
), (DCT['format'],
"image/nifti"), (PROV['location'],
Identifier("file://./" + residuals_filename)),
(PROV['label'], "Residual Mean Squares Map"),
(NIDM['filename'], residuals_original_filename),
(NIDM['filename'], residuals_filename),
(CRYPTO['sha512'],
self.get_sha_sum(residuals_file)),
(NIDM['inCoordinateSpace'],
self.coord_space.id)))
return self.p
def export(self):
"""
Create prov entities and activities.
"""
self.p.update(self.coord_space.export())
# Copy "Mask map" in export directory
search_space_orig_file = self.file
search_space_file = os.path.join(self.export_dir, 'SearchSpace.nii.gz')
search_space_orig_filename, search_space_filename = self.copy_nifti(
search_space_orig_file, search_space_file)
# Crate "Mask map" entity
self.p.entity(self.id, other_attributes=(
(PROV['label'], "Search Space Map"),
(DCT['format'], "image/nifti"),
(PROV['type'], NIDM['SearchSpaceMap']),
(PROV['location'],
Identifier("file://./"+search_space_filename)),
(NIDM['filename'], search_space_orig_filename),
(NIDM['filename'], search_space_filename),
(NIDM['randomFieldStationarity'], self.rf_stationarity),
(NIDM['inCoordinateSpace'], self.coord_space.id),
(FSL['searchVolumeInVoxels'], self.search_volume),
(CRYPTO['sha512'], self.get_sha_sum(search_space_file)),
(FSL['reselSizeInVoxels'], self.resel_size_in_voxels),
(FSL['dlh'], self.dlh)))
return self.p
def decode_json_representation(value, type, bundle):
"""
Return the value based on the type see also encode_json_representation
:param value:
:param type:
:param bundle:
:return:
"""
if isinstance(type, dict):
# complex type
datatype = type['type'] if 'type' in type else None
datatype = bundle.valid_qualified_name(datatype)
langtag = type['lang'] if 'lang' in type else None
if datatype == XSD_ANYURI:
return Identifier(value)
elif datatype == PROV_QUALIFIEDNAME:
return bundle.valid_qualified_name(value)
else:
# The literal of standard Python types is not converted here
# It will be automatically converted when added to a record by
# _auto_literal_conversion()
return Literal(value, datatype, langtag)
else:
# simple type, just return it
return value
def export(self):
"""
Create prov graph.
"""
self.p.update(self.coord_space.export())
# Copy contrast map in export directory
cope_file = os.path.join(self.export_dir, \
'Contrast'+self.num+'.nii.gz')
cope_original_filename, cope_filename = self.copy_nifti(
self.file, cope_file)
# Contrast Map entity
path, filename = os.path.split(cope_file)
self.p.entity(
self.id,
other_attributes=((PROV['type'], NIDM['ContrastMap']),
(DCT['format'],
"image/nifti"), (NIDM['inCoordinateSpace'],
self.coord_space.id),
(PROV['location'],
Identifier("file://./" + cope_filename)),
(NIDM['filename'],
cope_original_filename), (NIDM['filename'],
cope_filename),
(NIDM['contrastName'],
self.name), (CRYPTO['sha512'],
self.get_sha_sum(cope_file)),
(PROV['label'], "Contrast Map: " + self.name)))
return self.p
def export(self):
"""
Create prov entities and activities.
"""
self.p.update(self.coord_space.export())
self.p.update(self.visu.export())
# Copy "Excursion set map" in export directory
exc_set_orig_file = self.file
exc_set_file = os.path.join(self.export_dir, 'ExcursionSet'+\
self.num+'.nii.gz')
exc_set_orig_filename, exc_set_filename = self.copy_nifti(
exc_set_orig_file, exc_set_file)
# Create "Excursion set" entity
self.p.entity(self.id, other_attributes=(
(PROV['type'], NIDM['ExcursionSet']),
(DCT['format'], "image/nifti"),
(PROV['location'], Identifier("file://./"+exc_set_filename)),
(NIDM['filename'], exc_set_orig_filename),
(NIDM['filename'], exc_set_filename),
(NIDM['inCoordinateSpace'], self.coord_space.id),
(PROV['label'], "Excursion Set"),
(NIDM['visualisation'], self.visu.id),
(CRYPTO['sha512'], self.get_sha_sum(exc_set_file)),
))
return self.p
def __init__(self, oid=None):
if oid is None:
self.id = NIIRI[str(uuid.uuid4())]
else:
if not type(oid) is QualifiedName:
oid = NIIRI.qname(Identifier(oid))
self.id = oid
def __init__(self, software_type, version, label=None, feat_version=None,
oid=None):
super(NeuroimagingSoftware, self).__init__(oid=oid)
self.version = version
if isinstance(software_type, QualifiedName):
self.type = software_type
else:
if software_type.startswith('http'):
self.type = Identifier(software_type)
elif software_type.lower() == "fsl":
self.type = SCR_FSL
else:
warnings.warn('Unrecognised software: ' + str(software_type))
self.name = str(software_type)
self.type = None
# FIXME: get label from owl!
if self.type == SCR_FSL:
self.name = "FSL"
elif self.type == SCR_SPM:
self.name = "SPM"
else:
warnings.warn('Unrecognised software: ' + str(software_type))
self.name = str(software_type)
if not label:
self.label = self.name
else:
self.label = label
self.prov_type = PROV['Agent']
self.feat_version = feat_version
def export(self):
"""
Create prov entities and activities.
"""
# Create coordinate space entity
self.p.update(self.coord_space.export())
# Create "Display Mask Map" entity
disp_mask_file = os.path.join(self.export_dir, 'DisplayMask.nii.gz')
disp_mask_orig_filename, disp_mask_filename = self.copy_nifti(
self.filename, disp_mask_file)
self.p.entity(self.id,
other_attributes=( (PROV['type'], NIDM['DisplayMaskMap']),
(PROV['label'] , "Display Mask Map"),
(DCT['format'] , "image/nifti"),
(NIDM['inCoordinateSpace'],
self.coord_space.id),
(NIDM['filename'], disp_mask_orig_filename),
(NIDM['filename'], disp_mask_filename),
(PROV['location'],
Identifier("file://./"+disp_mask_filename)),
(CRYPTO['sha512'],
self.get_sha_sum(disp_mask_file))))
return self.p
def export(self):
"""
Create prov graph.
"""
self.p.update(self.coord_space.export())
standard_error_file = os.path.join(
self.export_dir, "ContrastStandardError" + self.num + ".nii.gz")
if self.is_variance:
self.p.update(self.var_coord_space.export())
# Copy contrast variance map in export directory
path, var_cope_filename = os.path.split(self.file)
# FIXME: Use ContrastVariance.nii.gz?
# var_cope_file = os.path.join(self.export_dir, var_cope_filename)
# var_cope_original_filename, var_cope_filename = self.copy_nifti(var_cope_original_file, var_cope_file)
# Contrast Variance Map entity
# self.provBundle.entity('niiri:'+'contrast_variance_map_id_'+contrast_num, other_attributes=(
contrast_var_id = NIIRI[str(uuid.uuid4())]
self.p.entity(
contrast_var_id,
other_attributes=(
(PROV['type'], FSL['ContrastVarianceMap']),
# (NIDM['inCoordinateSpace'], self.var_coord_space.id),
(DCT['format'], "image/nifti"),
(CRYPTO['sha512'], self.get_sha_sum(self.file)),
(NIDM['filename'], var_cope_filename)))
# Create standard error map from contrast variance map
var_cope_img = nib.load(self.file)
contrast_variance = var_cope_img.get_data()
standard_error_img = nib.Nifti1Image(np.sqrt(contrast_variance),
var_cope_img.get_qform())
nib.save(standard_error_img, standard_error_file)
else:
standard_error_original_file, standard_error_file = self.copy_nifti(
self.file, standard_error_file)
path, filename = os.path.split(standard_error_file)
self.p.entity(
self.id,
other_attributes=((PROV['type'], NIDM['ContrastStandardErrorMap']),
(DCT['format'], "image/nifti"),
(NIDM['inCoordinateSpace'], self.coord_space.id),
(PROV['location'],
Identifier("file://./" + filename)),
(CRYPTO['sha512'],
self.get_sha_sum(standard_error_file)),
(NIDM['filename'],
filename), (PROV['label'],
"Contrast Standard Error Map")))
if self.is_variance:
self.p.wasDerivedFrom(self.id, contrast_var_id)
return self.p
def __init__(self,
stat_threshold=None,
p_corr_threshold=None,
p_uncorr_threshold=None,
threshold_type=None,
value=None,
label=None,
version={'num': '1.3.0'},
oid=None,
equiv_thresh=None):
super(HeightThreshold, self).__init__(oid=oid)
if not stat_threshold and not p_corr_threshold and \
not p_uncorr_threshold and not value:
raise Exception('No threshold defined')
if isinstance(threshold_type, str):
threshold_type = Identifier(threshold_type)
thresh_desc = ""
if stat_threshold is not None:
thresh_desc = "Z>" + str(stat_threshold)
if version['num'] == "1.0.0":
user_threshold_type = "Z-Statistic"
else:
threshold_type = OBO_STATISTIC
value = stat_threshold
elif p_uncorr_threshold is not None:
thresh_desc = "p<" + \
str(p_uncorr_threshold) + " (uncorrected)"
if version['num'] == "1.0.0":
user_threshold_type = "p-value uncorrected"
else:
threshold_type = NIDM_P_VALUE_UNCORRECTED_CLASS
value = p_uncorr_threshold
elif p_corr_threshold is not None:
thresh_desc = "p<" + str(p_corr_threshold) + " (FWE)"
if version['num'] == "1.0.0":
user_threshold_type = "p-value FWE"
else:
threshold_type = OBO_P_VALUE_FWER
value = p_corr_threshold
if version['num'] == "1.0.0":
self.user_threshold_type = user_threshold_type
self.p_uncorr_threshold = p_uncorr_threshold
self.p_corr_threshold = p_corr_threshold
self.stat_threshold = stat_threshold
else:
self.value = value
self.threshold_type = threshold_type
if not label:
self.label = "Height Threshold: " + thresh_desc
else:
self.label = label
self.type = NIDM_HEIGHT_THRESHOLD
self.prov_type = PROV['Entity']
self.equiv_thresh = equiv_thresh
def export(self, nidm_version, export_dir):
"""
Create prov entities and activities.
"""
# Create cvs file containing design matrix
np.savetxt(os.path.join(export_dir, self.csv_file),
np.asarray(self.matrix),
delimiter=",")
if nidm_version['num'] in ["1.0.0", "1.1.0"]:
csv_location = Identifier("file://./" + self.csv_file)
else:
csv_location = Identifier(self.csv_file)
attributes = [(PROV['type'], self.type), (PROV['label'], self.label),
(NIDM_REGRESSOR_NAMES, json.dumps(self.regressors)),
(DCT['format'], "text/csv"),
(NFO['fileName'], self.filename),
(DC['description'], self.image.id),
(PROV['location'], csv_location)]
if self.hrf_models is not None:
if nidm_version['num'] in ("1.0.0", "1.1.0"):
if self.design_type is not None:
attributes.append((NIDM_HAS_FMRI_DESIGN, self.design_type))
else:
warnings.warn("Design type is missing")
# hrf model
for hrf_model in self.hrf_models:
attributes.append((NIDM_HAS_HRF_BASIS, hrf_model))
# drift model
if self.drift_model is not None:
attributes.append((NIDM_HAS_DRIFT_MODEL, self.drift_model.id))
# Create "design matrix" entity
self.add_attributes(attributes)
def export(self):
"""
Create prov entities and activities.
"""
# Copy visualisation of excursion set in export directory
shutil.copy(self.file, self.export_dir)
path, visu_filename = os.path.split(self.file)
# Create "png visualisation of Excursion set" entity
self.p.entity(self.id, other_attributes=(
(PROV['type'], NIDM['Image']),
(NIDM['filename'], visu_filename),
(PROV['location'], Identifier("file://./"+visu_filename)),
(DCT['format'], "image/png"),
))
return self.p
def decode_json_representation(literal, bundle):
if isinstance(literal, dict):
# complex type
value = literal['$']
datatype = literal['type'] if 'type' in literal else None
datatype = valid_qualified_name(bundle, datatype)
langtag = literal['lang'] if 'lang' in literal else None
if datatype == XSD_ANYURI:
return Identifier(value)
elif datatype == PROV_QUALIFIEDNAME:
return valid_qualified_name(bundle, value)
else:
# The literal of standard Python types is not converted here
# It will be automatically converted when added to a record by
# _auto_literal_conversion()
return Literal(value, datatype, langtag)
else:
# simple type, just return it
return literal
def export(self):
"""
Create prov graph.
"""
self.p.update(self.coord_space.export())
# Copy Statistical map in export directory
stat_file = os.path.join(
self.export_dir,
self.stat_type + 'Statistic' + self.num + '.nii.gz')
stat_orig_filename, stat_filename = self.copy_nifti(
self.file, stat_file)
label = "Statistic Map: " + self.name
if self.stat_type == 'Z':
label = self.stat_type + '-' + label
attributes = [
(PROV['type'], NIDM['StatisticMap']),
(DCT['format'], "image/nifti"), (PROV['label'], label),
(PROV['location'], Identifier("file://./" + stat_filename)),
(NIDM['statisticType'], NIDM[self.stat_type + 'Statistic']),
(NIDM['filename'], stat_filename),
(NIDM['filename'], stat_orig_filename),
(NIDM['contrastName'], self.name),
(CRYPTO['sha512'], self.get_sha_sum(stat_file)),
(NIDM['inCoordinateSpace'], self.coord_space.id)
]
if not self.stat_type == 'Z':
attributes.insert(0, (NIDM['errorDegreesOfFreedom'], self.dof))
# FIXME: this should not be 1 for F-test
attributes.insert(0, (NIDM['effectDegreesOfFreedom'], 1.0))
else:
# For Z-Statistic error dof is infinity and effect dof is 1
attributes.insert(0, (NIDM['errorDegreesOfFreedom'], float("inf")))
attributes.insert(0, (NIDM['effectDegreesOfFreedom'], 1.0))
# Create "Statistic Map" entity
# FIXME: Deal with other than t-contrast maps: dof + statisticType
self.p.entity(self.id, other_attributes=attributes)
return self.p
def export(self):
"""
Create prov entities and activities.
"""
# Coordinate space entity
self.p.update(self.coord_space.export())
# Grand Mean Map entity
grand_mean_file = os.path.join(self.export_dir, 'GrandMean.nii.gz')
grand_mean_original_filename, grand_mean_filename = self.copy_nifti(
self.file, grand_mean_file)
grand_mean_img = nib.load(grand_mean_file)
grand_mean_data = grand_mean_img.get_data()
grand_mean_data = np.ndarray.flatten(grand_mean_data)
mask_img = nib.load(self.mask_file)
mask_data = mask_img.get_data()
mask_data = np.ndarray.flatten(mask_data)
grand_mean_data_in_mask = grand_mean_data[mask_data > 0]
masked_median = np.median(
np.array(grand_mean_data_in_mask, dtype=float))
self.p.entity(
self.id,
other_attributes=((PROV['type'], NIDM['GrandMeanMap']),
(DCT['format'],
"image/nifti"), (PROV['label'],
"Grand Mean Map"),
(NIDM['maskedMedian'],
masked_median), (NIDM['filename'],
grand_mean_filename),
(NIDM['filename'], grand_mean_original_filename),
(NIDM['inCoordinateSpace'], self.coord_space.id),
(CRYPTO['sha512'],
self.get_sha_sum(grand_mean_file)),
(PROV['location'],
Identifier("file://./" + grand_mean_filename))))
return self.p
def export(self):
"""
Create prov entities and activities.
"""
# Export visualisation of the design matrix
self.p.update(self.image.export())
# Create cvs file containing design matrix
design_matrix_csv = 'DesignMatrix.csv'
np.savetxt(os.path.join(self.export_dir, design_matrix_csv),
np.asarray(self.matrix),
delimiter=",")
# Create "design matrix" entity
self.p.entity(
self.id,
other_attributes=((PROV['type'], NIDM['DesignMatrix']),
(PROV['label'], "Design Matrix"), (DCT['format'],
"text/csv"),
(NIDM['filename'], "DesignMatrix.csv"),
(NIDM['visualisation'], self.image.id),
(PROV['location'],
Identifier("file://./" + design_matrix_csv))))
return self.p
def export(self):
"""
Create prov entity.
"""
if self.file is not None:
# FIXME: replace by another name
new_file = os.path.join(self.export_dir, "DesignMatrix.png")
orig_filename, filename = self.copy_nifti(self.file, new_file)
self.p.entity(self.id,
other_attributes={
PROV['type']:
NIDM['Image'],
PROV['atLocation']:
Identifier("file://./" + filename),
NIDM['filename']:
orig_filename,
NIDM['filename']:
filename,
DCT['format']:
"image/png",
})
return self.p
def w3c_publication_2():
# https://github.com/lucmoreau/ProvToolbox/blob/master/asn/src/test/resources/prov/w3c-publication2.prov-asn
# ===========================================================================
# bundle
#
# prefix ex <http://example.org/>
# prefix rec <http://example.org/record>
#
# prefix w3 <http://www.w3.org/TR/2011/>
# prefix hg <http://dvcs.w3.org/hg/prov/raw-file/9628aaff6e20/model/releases/WD-prov-dm-20111215/>
#
#
# entity(hg:Overview.html, [ prov:type="file in hg" ])
# entity(w3:WD-prov-dm-20111215, [ prov:type="html4" ])
#
#
# activity(ex:rcp,-,-,[prov:type="copy directory"])
#
# wasGeneratedBy(rec:g; w3:WD-prov-dm-20111215, ex:rcp, -)
#
# entity(ex:req3, [ prov:type="http://www.w3.org/2005/08/01-transitions.html#pubreq" %% xsd:anyURI ])
#
# used(rec:u; ex:rcp,hg:Overview.html,-)
# used(ex:rcp, ex:req3, -)
#
#
# wasDerivedFrom(w3:WD-prov-dm-20111215, hg:Overview.html, ex:rcp, rec:g, rec:u)
#
# agent(ex:webmaster, [ prov:type='prov:Person' ])
#
# wasAssociatedWith(ex:rcp, ex:webmaster, -)
#
# endBundle
# ===========================================================================
ex = Namespace("ex", "http://example.org/")
rec = Namespace("rec", "http://example.org/record")
w3 = Namespace("w3", "http://www.w3.org/TR/2011/")
hg = Namespace(
"hg",
"http://dvcs.w3.org/hg/prov/raw-file/9628aaff6e20/model/releases/WD-prov-dm-20111215/",
)
g = ProvDocument()
g.entity(hg["Overview.html"], {"prov:type": "file in hg"})
g.entity(w3["WD-prov-dm-20111215"], {"prov:type": "html4"})
g.activity(ex["rcp"], None, None, {"prov:type": "copy directory"})
g.wasGeneratedBy("w3:WD-prov-dm-20111215", "ex:rcp", identifier=rec["g"])
g.entity(
"ex:req3",
{
"prov:type":
Identifier("http://www.w3.org/2005/08/01-transitions.html#pubreq")
},
)
g.used("ex:rcp", "hg:Overview.html", identifier="rec:u")
g.used("ex:rcp", "ex:req3")
g.wasDerivedFrom("w3:WD-prov-dm-20111215", "hg:Overview.html", "ex:rcp",
"rec:g", "rec:u")
g.agent("ex:webmaster", {"prov:type": "Person"})
g.wasAssociatedWith("ex:rcp", "ex:webmaster")
return g
def w3c_publication_2():
# https://github.com/lucmoreau/ProvToolbox/blob/master/asn/src/test/resources/prov/w3c-publication2.prov-asn
#===========================================================================
# bundle
#
# prefix ex <http://example.org/>
# prefix rec <http://example.org/record>
#
# prefix w3 <http://www.w3.org/TR/2011/>
# prefix hg <http://dvcs.w3.org/hg/prov/raw-file/9628aaff6e20/model/releases/WD-prov-dm-20111215/>
#
#
# entity(hg:Overview.html, [ prov:type="file in hg" ])
# entity(w3:WD-prov-dm-20111215, [ prov:type="html4" ])
#
#
# activity(ex:rcp,-,-,[prov:type="copy directory"])
#
# wasGeneratedBy(rec:g; w3:WD-prov-dm-20111215, ex:rcp, -)
#
# entity(ex:req3, [ prov:type="http://www.w3.org/2005/08/01-transitions.html#pubreq" %% xsd:anyURI ])
#
# used(rec:u; ex:rcp,hg:Overview.html,-)
# used(ex:rcp, ex:req3, -)
#
#
# wasDerivedFrom(w3:WD-prov-dm-20111215, hg:Overview.html, ex:rcp, rec:g, rec:u)
#
# agent(ex:webmaster, [ prov:type='prov:Person' ])
#
# wasAssociatedWith(ex:rcp, ex:webmaster, -)
#
# endBundle
#===========================================================================
ex = Namespace('ex', 'http://example.org/')
rec = Namespace('rec', 'http://example.org/record')
w3 = Namespace('w3', 'http://www.w3.org/TR/2011/')
hg = Namespace(
'hg',
'http://dvcs.w3.org/hg/prov/raw-file/9628aaff6e20/model/releases/WD-prov-dm-20111215/'
)
g = ProvDocument()
g.entity(hg['Overview.html'], {'prov:type': "file in hg"})
g.entity(w3['WD-prov-dm-20111215'], {'prov:type': "html4"})
g.activity(ex['rcp'], None, None, {'prov:type': "copy directory"})
g.wasGeneratedBy('w3:WD-prov-dm-20111215', 'ex:rcp', identifier=rec['g'])
g.entity(
'ex:req3', {
'prov:type':
Identifier("http://www.w3.org/2005/08/01-transitions.html#pubreq")
})
g.used('ex:rcp', 'hg:Overview.html', identifier='rec:u')
g.used('ex:rcp', 'ex:req3')
g.wasDerivedFrom('w3:WD-prov-dm-20111215', 'hg:Overview.html', 'ex:rcp',
'rec:g', 'rec:u')
g.agent('ex:webmaster', {'prov:type': "Person"})
g.wasAssociatedWith('ex:rcp', 'ex:webmaster')
return g
def prov_api_record_example():
doc = ProvDocument()
doc.add_namespace("ex", "http://example.com")
doc.add_namespace("custom", "http://custom.com")
attributes = attributes_dict_example()
del attributes[
"ex:dict value"] # remove dict value because it is not allowed in a prov_record, but for low level adapter tests necessary
del attributes[
"ex:list value"] # remove dict value because it is not allowed in a prov_record, but for low level adapter tests necessary
attributes.update({
"ex:Qualified name ":
doc.valid_qualified_name("custom:qualified name")
})
attributes.update({"ex:Qualified name 2": "ex:unqualified_name"})
attributes.update({"ex:Literal": Literal("test literal", langtag="en")})
attributes.update({
"ex:Literal 2":
Literal("test literal with datatype",
langtag="en",
datatype=PROV["InternationalizedString"])
})
attributes.update(
{"ex:identifier type": Identifier("http://example.com/#test")})
expected_attributes = dict()
for key, value in attributes.items():
new_key = doc.valid_qualified_name(key)
expected_attributes.update({new_key: value})
# The prov lib don't require to auto convert string values into qualified names
# valid_name = doc.valid_qualified_name("ex:Qualified name 2")
# expected_attributes[valid_name] = doc.valid_qualified_name("ex:unqualified_name")
namespaces = dict()
namespaces.update({"ex": "http://example.com"})
namespaces.update({"custom": "http://custom.com"})
namespaces.update({"prov": "http://www.w3.org/ns/prov#"})
type_map = dict()
type_map.update({"ex:date value": {"type": "xsd:dateTime"}})
type_map.update({"ex:double value": {"type": "xsd:double"}})
type_map.update({"ex:int value": {"type": "xsd:int"}})
type_map.update({"ex:Qualified name ": {'type': 'prov:QUALIFIED_NAME'}})
# type_map.update({"ex:Qualified name 2":{'type': 'prov:QUALIFIED_NAME'}}) #The prov lib don't require to auto convert strings into qualified names
type_map.update({"ex:Literal": {'lang': 'en'}})
type_map.update({"ex:Literal 2": {'lang': 'en'}})
type_map.update({"ex:identifier type": {'type': 'xsd:anyURI'}})
metadata = dict()
metadata.update({METADATA_KEY_PROV_TYPE: PROV_RECORD_IDS_MAP["activity"]})
metadata.update(
{METADATA_KEY_IDENTIFIER: doc.valid_qualified_name("ex:record")})
metadata.update({METADATA_KEY_NAMESPACES: namespaces})
metadata.update({METADATA_KEY_TYPE_MAP: type_map})
record = ProvActivity(doc, "ex:record", attributes)
Example = namedtuple(
"prov_api_metadata_record_example",
"metadata, attributes, prov_record, expected_attributes")
return Example(metadata, attributes, record, expected_attributes)
def get_anon_id(self, obj, local_prefix='id'):
if obj not in self._cache:
self._count += 1
self._cache[obj] = Identifier('_:%s%d' %
(local_prefix, self._count))
return self._cache[obj]
