/usr/share/pyshared/rdflib/sparql/QueryResult.py is in python-rdflib 2.4.2-1ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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from rdflib.Graph import Graph
from xml.dom import XML_NAMESPACE
from xml.sax.saxutils import XMLGenerator
from xml.sax.xmlreader import AttributesNSImpl
from cStringIO import StringIO
SPARQL_XML_NAMESPACE = u'http://www.w3.org/2005/sparql-results#'
try:
from Ft.Xml import MarkupWriter
class SPARQLXMLWriter:
"""
4Suite-based SPARQL XML Writer
"""
def __init__(self,output):
self.writer = MarkupWriter(output, indent=u"yes")
self.writer.startDocument()
self.writer.startElement(u'sparql',namespace=SPARQL_XML_NAMESPACE)
self.askResult=False
def write_header(self,allvarsL):
self.writer.startElement(u'head', namespace=SPARQL_XML_NAMESPACE)
if allvarsL:
for i in xrange(0,len(allvarsL)) :
self.writer.startElement(u'variable',namespace=SPARQL_XML_NAMESPACE,attributes={u'name':unicode(allvarsL[i])})
self.writer.endElement(u'variable')
self.writer.endElement( u'head')
def write_results_header(self,orderBy,distinct):
self.writer.startElement(u'results',namespace=SPARQL_XML_NAMESPACE,attributes={u'ordered' : unicode(orderBy and 'true' or 'false'),
u'distinct': unicode(distinct and 'true' or 'false')})
def write_start_result(self):
self.writer.startElement(u'result',namespace=SPARQL_XML_NAMESPACE)
self._resultStarted = True
def write_end_result(self):
assert self._resultStarted
self.writer.endElement(u'result',namespace=SPARQL_XML_NAMESPACE)
self._resultStarted = False
def write_ask(self,val):
self.writer.startElement(u'boolean', namespace=SPARQL_XML_NAMESPACE)
self.writer.text((val and u't' or u'f')+unicode(val)[1:])
self.writer.endElement(u'boolean')
self.askResult=True
def write_binding(self,name,val):
assert self._resultStarted
if val:
attrs = {u'name':unicode(name)}
self.writer.startElement(u'binding', namespace=SPARQL_XML_NAMESPACE, attributes=attrs)
if isinstance(val,URIRef) :
self.writer.startElement(u'uri', namespace=SPARQL_XML_NAMESPACE)
self.writer.text(val)
self.writer.endElement(u'uri')
elif isinstance(val,BNode) :
self.writer.startElement(u'bnode', namespace=SPARQL_XML_NAMESPACE)
self.writer.text(val)
self.writer.endElement(u'bnode')
elif isinstance(val,Literal) :
attrs = {}
if val.language :
attrs[(u'lang', XML_NAMESPACE)] = unicode(val.language)
elif val.datatype:
attrs[u'datatype'] = unicode(val.datatype)
self.writer.startElement(u'literal', namespace=SPARQL_XML_NAMESPACE, attributes=attrs)
self.writer.text(val)
self.writer.endElement(u'literal')
else:
raise Exception("Unsupported RDF term: %s"%val)
self.writer.endElement(u'binding')
def close(self):
if not self.askResult:
self.writer.endElement(u'results')
self.writer.endElement(u'sparql')
except:
class SPARQLXMLWriter:
"""
Python saxutils-based SPARQL XML Writer
"""
def __init__(self, output, encoding='utf-8'):
writer = XMLGenerator(output, encoding)
writer.startDocument()
writer.startPrefixMapping(u'sparql',SPARQL_XML_NAMESPACE)
writer.startPrefixMapping(u'xml', XML_NAMESPACE)
writer.startElementNS((SPARQL_XML_NAMESPACE, u'sparql'), u'sparql', AttributesNSImpl({}, {}))
self.writer = writer
self._output = output
self._encoding = encoding
self.askResult=False
def write_header(self,allvarsL):
self.writer.startElementNS((SPARQL_XML_NAMESPACE, u'head'), u'head', AttributesNSImpl({}, {}))
for i in xrange(0,len(allvarsL)) :
attr_vals = {
(None, u'name'): unicode(allvarsL[i]),
}
attr_qnames = {
(None, u'name'): u'name',
}
self.writer.startElementNS((SPARQL_XML_NAMESPACE, u'variable'),
u'variable',
AttributesNSImpl(attr_vals, attr_qnames))
self.writer.endElementNS((SPARQL_XML_NAMESPACE, u'variable'), u'variable')
self.writer.endElementNS((SPARQL_XML_NAMESPACE, u'head'), u'head')
def write_ask(self,val):
raise
def write_results_header(self,orderBy,distinct):
attr_vals = {
(None, u'ordered') : unicode(orderBy and 'true' or 'false'),
(None, u'distinct') : unicode(distinct and 'true' or 'false'),
}
attr_qnames = {
(None, u'ordered') : u'ordered',
(None, u'distinct') : u'distinct'
}
self.writer.startElementNS((SPARQL_XML_NAMESPACE, u'results'),
u'results',
AttributesNSImpl(attr_vals, attr_qnames))
def write_start_result(self):
self.writer.startElementNS(
(SPARQL_XML_NAMESPACE, u'result'), u'result', AttributesNSImpl({}, {}))
self._resultStarted = True
def write_end_result(self):
assert self._resultStarted
self.writer.endElementNS((SPARQL_XML_NAMESPACE, u'result'), u'result')
self._resultStarted = False
def write_binding(self,name,val):
assert self._resultStarted
if val:
attr_vals = {
(None, u'name') : unicode(name),
}
attr_qnames = {
(None, u'name') : u'name',
}
self.writer.startElementNS((SPARQL_XML_NAMESPACE, u'binding'),
u'binding',
AttributesNSImpl(attr_vals, attr_qnames))
if isinstance(val,URIRef) :
self.writer.startElementNS((SPARQL_XML_NAMESPACE, u'uri'),
u'uri',
AttributesNSImpl({}, {}))
self.writer.characters(val)
self.writer.endElementNS((SPARQL_XML_NAMESPACE, u'uri'),u'uri')
elif isinstance(val,BNode) :
self.writer.startElementNS((SPARQL_XML_NAMESPACE, u'bnode'),
u'bnode',
AttributesNSImpl({}, {}))
self.writer.characters(val)
self.writer.endElementNS((SPARQL_XML_NAMESPACE, u'bnode'),u'bnode')
elif isinstance(val,Literal) :
attr_vals = {}
attr_qnames = {}
if val.language :
attr_vals[(XML_NAMESPACE, u'lang')] = val.language
attr_qnames[(XML_NAMESPACE, u'lang')] = u"xml:lang"
elif val.datatype:
attr_vals[(None,u'datatype')] = val.datatype
attr_qnames[(None,u'datatype')] = u'datatype'
self.writer.startElementNS((SPARQL_XML_NAMESPACE, u'literal'),
u'literal',
AttributesNSImpl(attr_vals, attr_qnames))
self.writer.characters(val)
self.writer.endElementNS((SPARQL_XML_NAMESPACE, u'literal'),u'literal')
else:
raise Exception("Unsupported RDF term: %s"%val)
self.writer.endElementNS((SPARQL_XML_NAMESPACE, u'binding'),u'binding')
def close(self):
self.writer.endElementNS((SPARQL_XML_NAMESPACE, u'results'), u'results')
self.writer.endElementNS((SPARQL_XML_NAMESPACE, u'sparql'), u'sparql')
self.writer.endDocument()
def retToJSON(val):
if isinstance(val,URIRef):
return '"type": "uri", "value" : "%s"' % val
elif isinstance(val,BNode) :
return '"type": "bnode", "value" : "%s"' % val
elif isinstance(val,Literal):
if val.language != "":
return '"type": "literal", "xml:lang" : "%s", "value" : "%s"' % (val.language, val)
attr += ' xml:lang="%s" ' % val.language
elif val.datatype != "" and val.datatype != None:
return '"type": "typed=literal", "datatype" : "%s", "value" : "%s"' % (val.datatype, val)
else:
return '"type": "literal", "value" : "%s"' % val
else:
return '"type": "literal", "value" : "%s"' % val
def bindingJSON(name, val):
if val == None:
return ""
retval = ''
retval += ' "%s" : {' % name
retval += retToJSON(val)
# retval += '}\n'
return retval
class SPARQLQueryResult(QueryResult.QueryResult):
"""
Query result class for SPARQL
xml : as an XML string conforming to the SPARQL XML result format: http://www.w3.org/TR/rdf-sparql-XMLres/
python: as Python objects
json : as JSON
graph : as an RDFLib Graph - for CONSTRUCT and DESCRIBE queries
"""
def __init__(self,qResult):
"""
The constructor is the result straight from sparql-p, which is uple of 1) a list of tuples
(in select order, each item is the valid binding for the corresponding variable or 'None') for SELECTs
, a SPARQLGraph for DESCRIBE/CONSTRUCT, and boolean for ASK 2) the variables selected 3) *all*
the variables in the Graph Patterns 4) the order clause 5) the DISTINCT clause
"""
self.construct=False
if isinstance(qResult,bool):
self.askAnswer = [qResult]
result=None
selectionF=None
allVars=None
orderBy=None
distinct=None
topUnion = None
elif isinstance(qResult,Graph):
self.askAnswer = []
result=qResult
self.construct=True
selectionF=None
allVars=None
orderBy=None
distinct=None
topUnion = None
else:
self.askAnswer = []
result,selectionF,allVars,orderBy,distinct,topUnion = qResult
self.result = result
self.topUnion = topUnion
self.selected = result
self.selectionF = selectionF
self.allVariables = allVars
self.orderBy = orderBy
self.distinct = distinct
def __len__(self):
if isinstance(self.selected,list):
return len(self.selected)
else:
return 1
def __iter__(self):
"""Iterates over the result entries"""
if isinstance(self.selected,list):
for item in self.selected:
if isinstance(item,basestring):
yield (item,)
else:
yield item
else:
yield self.selected
def serialize(self,format='xml'):
if isinstance(self.result,Graph):
return self.result.serialize(format=format)
elif format == 'python':
return self.selected
elif format in ['json','xml']:
retval = ""
allvarsL = self.allVariables
if format == "json" :
retval += ' "results" : {\n'
retval += ' "ordered" : %s,\n' % (self.orderBy and 'true' or 'false')
retval += ' "distinct" : %s,\n' % (self.distinct and 'true' or 'false')
retval += ' "bindings" : [\n'
for i in xrange(0,len(self.selected)):
hit = self.selected[i]
retval += ' {\n'
bindings = []
if len(self.selectionF) == 0:
for j in xrange(0, len(allvarsL)):
b = bindingJSON(allvarsL[j],hit[j])
if b != "":
bindings.append(b)
elif len(self.selectionF) == 1:
bindings.append(bindingJSON(self.selectionF[0],hit))
else:
for j in xrange(0, len(self.selectionF)):
b = bindingJSON(self.selectionF[j],hit[j])
if b != "":
bindings.append(b)
retval += "},\n".join(bindings)
retval += "}\n"
retval += ' }'
if i != len(self.selected) -1:
retval += ',\n'
else:
retval += '\n'
retval += ' ]\n'
retval += ' }\n'
retval += '}\n'
selected_vars = self.selectionF
if len(selected_vars) == 0:
selected_vars = allvarsL
header = ""
header += '{\n'
header += ' "head" : {\n "vars" : [\n'
for i in xrange(0,len(selected_vars)) :
header += ' "%s"' % selected_vars[i]
if i == len(selected_vars) - 1 :
header += '\n'
else :
header += ',\n'
header += ' ]\n'
header += ' },\n'
retval = header + retval
elif format == "xml" :
# xml output
out = StringIO()
writer = SPARQLXMLWriter(out)
if self.askAnswer:
writer.write_header(allvarsL)
writer.write_ask(self.askAnswer[0])
else:
writer.write_header(allvarsL)
writer.write_results_header(self.orderBy,self.distinct)
if self.topUnion:
for binding in self.topUnion:
writer.write_start_result()
if isinstance(binding,dict):
for key,val in binding.items():
if not self.selectionF or \
key in self.selectionF:
writer.write_binding(key,val)
else:
print self.selectionF,binding
raise
writer.write_end_result()
else:
for i in xrange(0,len(self.selected)) :
hit = self.selected[i]
if len(self.selectionF) == 0 :
if self.topUnion:
print topUnion
raise
writer.write_start_result()
if len(allvarsL) == 1:
hit = (hit,) # Not an iterable - a parser bug?
for j in xrange(0,len(allvarsL)) :
if not len(hit) < j+1:
writer.write_binding(allvarsL[j],hit[j])
writer.write_end_result()
elif len(self.selectionF) == 1 :
writer.write_start_result()
writer.write_binding(self.selectionF[0],hit)
writer.write_end_result()
else:
writer.write_start_result()
for j in xrange(0,len(self.selectionF)) :
writer.write_binding(self.selectionF[j],hit[j])
writer.write_end_result()
writer.close()
return out.getvalue()
return retval
else:
raise Exception("Result format not implemented: %s"%format)
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