def t1_add_retr_object_plain(tree=False):
del_tree = False
if not tree:
del_tree = True
tree = YANGPathHelper()
obj_one = TestObject("t1_ObjOneTest")
tree.register(["obj_one"], obj_one)
retr_obj = tree.get(["obj_one"])
assert len(retr_obj) == 1, ("retrieved path matched the wrong number of objects (%d != 1)"
% (len(retr_obj)))
assert isinstance(retr_obj[0], TestObject), ("retrieved object was not the " +
"correct class")
assert retr_obj[0].name() == "t1_ObjOneTest", ("retrieved object had an " +
"invalid name specified (%s != t1_ObjOneTest)" % retr_obj.name())
if del_tree:
del tree
def t4_retr_obj_error(tree=False):
del_tree = False
if not tree:
del_tree = True
tree = YANGPathHelper()
retr = tree.get("/a/non-existant/path")
assert len(retr) == 0, ("getting a non-existant path returned the wrong number" +
"of objects (%d != 0)" % (len(retr)))
passed = False
try:
tree.register("an-invalid-path-name", TestObject("invalid"))
except XPathError:
passed = True
assert passed == True, ("setting an invalid path did not throw an XPathError")
def t2_add_retr_object_with_attr(tree=False):
del_tree = False
if not tree:
del_tree = True
tree = YANGPathHelper()
for p in [["container"], ["container", "deeper"]]:
tree.register(p, TestObject("container"))
for q_style in ["'", '"', ""]:
for i in range(0, 5):
tree.register(p + ["foo[id=%s%d%s]" % (
q_style,
i,
q_style,
)], TestObject("t2_ObjTest%d" % i))
for q_style in ["'", '"', ""]:
for j in range(0, 5):
retr_obj = tree.get("%s/foo[id=%s%d%s]" % (
"/" + "/".join(p),
q_style,
j,
q_style,
))
assert len(retr_obj) == 1, (
"retrieved the wrong number of objects (%d != 1)" %
len(retr_obj))
assert isinstance(
retr_obj[0],
TestObject), ("retrieved object was not " +
"the correct class")
assert retr_obj[0].name() == "t2_ObjTest%d" % j, (
"retrieved object had an " +
"invalid name specified (%s != t2_ObjTest%d, q_style=%s)"
% (retr_obj.name(), j, q_style))
if del_tree:
del tree
def t1_add_retr_object_plain(tree=False):
del_tree = False
if not tree:
del_tree = True
tree = YANGPathHelper()
obj_one = TestObject("t1_ObjOneTest")
tree.register(["obj_one"], obj_one)
retr_obj = tree.get(["obj_one"])
assert len(retr_obj) == 1, (
"retrieved path matched the wrong number of objects (%d != 1)" %
(len(retr_obj)))
assert isinstance(retr_obj[0],
TestObject), ("retrieved object was not the " +
"correct class")
assert retr_obj[0].name() == "t1_ObjOneTest", (
"retrieved object had an " +
"invalid name specified (%s != t1_ObjOneTest)" % retr_obj.name())
if del_tree:
del tree
def t4_retr_obj_error(tree=False):
del_tree = False
if not tree:
del_tree = True
tree = YANGPathHelper()
retr = tree.get("/a/non-existant/path")
assert len(retr) == 0, (
"getting a non-existant path returned the wrong number" +
"of objects (%d != 0)" % (len(retr)))
passed = False
try:
tree.register("an-invalid-path-name", TestObject("invalid"))
except XPathError:
passed = True
assert passed == True, (
"setting an invalid path did not throw an XPathError")
def t3_add_retr_object_hierarchy(tree=False):
del_tree = False
if not tree:
del_tree = True
tree = YANGPathHelper()
path = []
obj = {}
for i in range(0,10):
path += ["node%d" % i]
obj[i] = TestObject(i)
tree.register(path, obj[i])
path = ""
for j in range(0,10):
path += "/node%d"% j
retr_obj = tree.get(path)
assert len(retr_obj) == 1, ("incorrect number of objects retrieved for %s (%d != 1)" %
(path,len(retr_obj)))
assert retr_obj[0].name() == j, ("retrieved object did not " +
"have a valid name (%s != %s)" % (j, retr_obj.name()))
def t3_add_retr_object_hierarchy(tree=False):
del_tree = False
if not tree:
del_tree = True
tree = YANGPathHelper()
path = []
obj = {}
for i in range(0, 10):
path += ["node%d" % i]
obj[i] = TestObject(i)
tree.register(path, obj[i])
path = ""
for j in range(0, 10):
path += "/node%d" % j
retr_obj = tree.get(path)
assert len(retr_obj) == 1, (
"incorrect number of objects retrieved for %s (%d != 1)" %
(path, len(retr_obj)))
assert retr_obj[0].name() == j, ("retrieved object did not " +
"have a valid name (%s != %s)" %
(j, retr_obj.name()))
def t2_add_retr_object_with_attr(tree=False):
del_tree = False
if not tree:
del_tree = True
tree = YANGPathHelper()
for p in [["container"], ["container", "deeper"]]:
tree.register(p, TestObject("container"))
for q_style in ["'", '"', ""]:
for i in range(0,5):
tree.register(p+["foo[id=%s%d%s]" % (q_style, i, q_style,)], TestObject("t2_ObjTest%d" % i))
for q_style in ["'", '"', ""]:
for j in range(0,5):
retr_obj = tree.get("%s/foo[id=%s%d%s]" % ("/"+"/".join(p), q_style, j, q_style,))
assert len(retr_obj) == 1, ("retrieved the wrong number of objects (%d != 1)" % len(retr_obj))
assert isinstance(retr_obj[0], TestObject), ("retrieved object was not " +
"the correct class")
assert retr_obj[0].name() == "t2_ObjTest%d" % j, ("retrieved object had an " +
"invalid name specified (%s != t2_ObjTest%d, q_style=%s)" % (retr_obj.name(), j ,q_style))
if del_tree:
del tree