def testLogin(self):
# Create admin user.
from django.contrib.auth.create_superuser import createsuperuser
createsuperuser('admin','*****@*****.**','admin')
c = Client()
#response = c.post('/accounts/login', {'username': '******', 'password': '******'})
response = c.get('/accounts', {}, follow=True)
d(response.status_code)
d("content: " + response.content)
self.assertTrue("you are not authorised" not in response.content)
def testLogin(self):
# Create admin user.
from django.contrib.auth.create_superuser import createsuperuser
createsuperuser('admin', '*****@*****.**', 'admin')
c = Client()
#response = c.post('/accounts/login', {'username': '******', 'password': '******'})
response = c.get('/accounts', {}, follow=True)
d(response.status_code)
d("content: " + response.content)
self.assertTrue("you are not authorised" not in response.content)
def TESTS() :
d("Testing")
# Assert the ZeroDivisionError is thrown.
with assert_raises(ZeroDivisionError) :
x = 1 / 0
# Assert that we expected the ZeroDivisionError to be thrown.
with assert_raises(Exception) :
with assert_raises(ZeroDivisionError) :
x = 1 / 1
# Confirm that the unexpected exception is let through. My most beautiful test, ever!
with assert_raises(IndexError) :
with assert_raises(ZeroDivisionError) :
x = []
x[0] = 2
def TESTS() :
lens = List(AnyOf(nums, type=int), ",", type=list)
d("GET")
assert(lens.get("1,2,3") == [1,2,3])
d("PUT")
assert(lens.put([6,2,6,7,4,8]) == "6,2,6,7,4,8")
# It was getting flattened due to And within And!
test_description("Test a bug I found with nested lists.")
INPUT = "1|2,3|4,5|6"
lens = List(
List(AnyOf(nums, type=int), "|", name="inner_list", type=list),
",", name="outer_list",
type=list,
)
got = lens.get(INPUT)
assert_equal(got, [[1,2],[3,4],[5,6]])
got.insert(2, [6,7])
assert_equal(lens.put(got), "1|2,3|4,6|7,5|6")
def TESTS() :
GlobalSettings.check_consumption = False
lens = Word(alphanums, init_chars=alphas, type=str, max_count=5)
d("GET")
assert(lens.get("w23dffdf3") == "w23df")
with assert_raises(LensException) :
assert(lens.get("1w23dffdf3") == "w23df")
d("PUT")
assert(lens.put("R2D2") == "R2D2")
with assert_raises(LensException) :
lens.put("2234") == "R2D2"
# XXX: Should fail if length checking working correctly.
#with assert_raises(LensException) :
# lens.put("TooL0ng")
d("Test with no type")
lens = Word(alphanums, init_chars=alphas, max_count=5, default="a123d")
assert(lens.get("w23dffdf3") == None)
concrete_input_reader = ConcreteInputReader("ab12_3456")
assert(lens.put(None, concrete_input_reader) == "ab12")
assert(concrete_input_reader.get_remaining() == "_3456")
assert(lens.put() == "a123d")
def register_document_elements(self) :
# Register roles
for item_name in dir(self.translator_class) :
# Normal roles
if item_name.startswith("role_") :
role_name = item_name.replace("role_", "")
roles.register_canonical_role(role_name, generic_inline_role)
d("Registered (normal) role %s" % role_name)
# Raw roles.
elif item_name.startswith("raw_role_") :
role_name = item_name.replace("raw_role_", "")
roles.register_canonical_role(role_name, generic_raw_role)
d("Registered raw role %s" % role_name)
# Register directives, first from this module, the from an extension module, so can overload.
items = globals()
if self.extension_module :
items.update(self.extension_module.__dict__)
for item_name, item in items.iteritems() :
if inspect.isclass(item) and issubclass(item, WriterDirective) and item != WriterDirective:
d("Registering directive %s" % item_name)
directives.register_directive(item.__name__, item)
def run(command) : d(command) return os.system(command)
def generate_pages_from_example_code(python_file) :
d(python_file)
content = open(python_file).read()
matches = []
multiline_comment_matches = []
for match in re.finditer("^\s\s\"\"\"(.+?)\"\"\".*?\n", content, re.DOTALL + re.MULTILINE) :
if match:
multiline_comment_matches.append(match)
hash_comment_matches = []
for match in re.finditer("^\s\s#(.*?)\n", content, re.DOTALL + re.MULTILINE) :
if match:
hash_comment_matches.append(match)
test_function_matches = []
for match in re.finditer("def\s+(.+?)_test.+?\n", content, re.DOTALL) :
if match:
test_function_matches.append(match)
all_matches = []
all_matches.extend(multiline_comment_matches)
all_matches.extend(hash_comment_matches)
all_matches.extend(test_function_matches)
# Sort matches by their source positions.
all_matches = sorted(all_matches, key=lambda x: x.start())
output_blocks = []
prev_match = None
for match in all_matches:
if prev_match :
code_block = content[prev_match.end(0):match.start(0)].strip()
if code_block :
# Convert our assertions to showing expected outputs.
def f(match) :
args = match.group(1)
if ", " in args :
# Since ',' may appear inside two args, we use double space to
# indicate docs should be transformed in this way.
return args.replace(", ", " ---> ")
else :
return match.group(0)
if "assert_equal" in code_block :
code_block = re.sub("assert_equal\((.+?)\)\s*$", f, code_block, flags=re.MULTILINE)
# TODO: Need to handle multilines.
#code_block = re.sub("assert_equal\((.+?)\)\s*\n", f, code_block, flags=re.DOTALL)
code_block = "\n\n::\n\n %s\n\n" % code_block
output_blocks.append([prev_match.end(0), code_block])
prev_match = match
match = None
for match in all_matches:
text = match.group(1)
if match in test_function_matches:
text = "\n\n" + " ".join([s.capitalize() for s in text.split("_")]) + "\n" + "-"*80 + "\n\n"
elif match in multiline_comment_matches:
text = text.replace("\n ","\n")+"\n\n"
elif match in hash_comment_matches:
text = text[1:]+"\n"
output_blocks.append((match.start(0), text))
output_blocks = sorted(output_blocks, key=lambda x: x[0])
output = ""
for x in output_blocks :
output += x[1]
return output
def test_description(msg) : """A debug message that will stand out.""" msg = "========= " + msg + " =========" return d(msg)