class GeneralGraphTestCase(unittest.TestCase):
def setUp(self):
self.graph = RDFGraph()
self.curie_map = curie_map.get()
def tearDown(self):
self.graph = None
def test_curieprefixes(self):
"""
This will ensure that we can create identifiers for all of the
defined curie prefixes using the GraphUtils.getNode() method
:return:
"""
# add one id per curie as classes to the graph
for p in self.curie_map.keys():
testid = p + ':testme'
n = self.graph._getnode(testid)
m = "prefix \"" + p + "\" has an error...can't create graph node"
self.assertTrue(n is not None, m)
return
def readGraphFromTurtleFile(self, f):
"""
This will read the specified file into a graph. A simple parsing test.
:param f:
:return:
"""
import os
vg = RDFGraph()
p = os.path.abspath(f)
logger.info("Testing reading turtle file from %s", p)
vg.parse(f, format="turtle")
logger.info('Found %s graph nodes in %s', len(vg), p)
self.assertTrue(len(vg) > 0, "No nodes found in " + p)
return
def readGraphIntoOWL(self, f):
"""
test if the ttl can be parsed by owlparser
this expects owltools to be accessible from commandline
:param f: file of ttl
:return:
"""
import subprocess
from subprocess import check_call
status = check_call(["owltools", f], stderr=subprocess.STDOUT)
# returns zero is success!
if status != 0:
logger.error('finished verifying with owltools with status %s',
status)
self.assertTrue(status == 0)
return
class GeneralGraphTestCase(unittest.TestCase):
def setUp(self):
self.graph = RDFGraph()
self.curie_map = curie_map.get()
def tearDown(self):
self.graph = None
def test_curieprefixes(self):
"""
This will ensure that we can create identifiers for all of the
defined curie prefixes using the GraphUtils.getNode() method
:return:
"""
# add one id per curie as classes to the graph
for p in self.curie_map.keys():
testid = p + ':testme'
n = self.graph._getnode(testid)
m = "prefix \"" + p + "\" has an error...can't create graph node"
self.assertTrue(n is not None, m)
return
class GeneralGraphTestCase(unittest.TestCase):
def setUp(self):
self.graph = RDFGraph()
self.curie_map = curie_map.get()
def tearDown(self):
self.graph = None
def test_curieprefixes(self):
"""
This will ensure that we can create identifiers for all of the
defined curie prefixes using the GraphUtils.getNode() method
:return:
"""
# add one id per curie as classes to the graph
for p in self.curie_map.keys():
testid = p+':testme'
n = self.graph._getnode(testid)
m = "prefix \""+p+"\" has an error...can't create graph node"
self.assertTrue(n is not None, m)
return
def readGraphFromTurtleFile(self, f):
"""
This will read the specified file into a graph. A simple parsing test.
:param f:
:return:
"""
import os
vg = RDFGraph()
p = os.path.abspath(f)
logger.info("Testing reading turtle file from %s", p)
vg.parse(f, format="turtle")
logger.info('Found %s graph nodes in %s', len(vg), p)
self.assertTrue(len(vg) > 0, "No nodes found in "+p)
return
def readGraphIntoOWL(self, f):
"""
test if the ttl can be parsed by owlparser
this expects owltools to be accessible from commandline
:param f: file of ttl
:return:
"""
import subprocess
from subprocess import check_call
status = check_call(["owltools", f], stderr=subprocess.STDOUT)
# returns zero is success!
if status != 0:
logger.error(
'finished verifying with owltools with status %s', status)
self.assertTrue(status == 0)
return
