def run(self, methods, args):
# Run clusterings
results = []
vectorizer = None
if args["vectorizer"] == "count":
vectorizer = CountVectorizer(
min_df=args["min_df"],
max_df=args["max_df"],
lowercase=True,
analyzer="word",
stop_words="english",
)
elif args["vectorizer"] == "tfidf":
vectorizer = TfidfVectorizer(
min_df=args["min_df"],
max_df=args["max_df"],
lowercase=True,
analyzer="word",
stop_words="english",
)
self.create_data_matrix(vectorizer)
if "kmeans" in methods:
labels, processing_time = self.kmeans()
results.append(Result("KMeans", labels, processing_time))
if "hdbscan" in methods:
labels, processing_time = self.hdbscan(args)
results.append(Result("HDBSCAN", labels, processing_time))
return results
def register_user():
if not request.json \
or not 'name' in request.json \
or not 'password' in request.json \
or not 'email' in request.json:
return Result.gen_fail(None,
'Request not Json or miss name/email/password')
elif User.objects(name=request.json['name']).first():
return Result.gen_fail(None, 'Name is already existed.')
else:
user = User(
uid=User.objects().count() + 1,
name=request.json['name'],
email=request.json['email'] if 'email' in request.json else "",
password=request.json['password'],
createtime=datetime.now())
try:
user.save()
except Exception as ex:
traceback.print_exc()
return Result.gen_fail(None, 'Register error.')
return Result.gen_success({'uid': user.get_id()}, 'Register success.')
def detectViolatedCompositeRule(self, result:Result) -> list:
compositeNormalTypeList = []
detectedRule = []
normalIdTuple = None
confLoader = result.getConfLoader()
compositeResults = result.getCompositeResults();
# print('==== compositeResults:', compositeResults)
if compositeResults:
for item in compositeResults:
if item['logType'] == 'NORMAL':
compositeNormalTypeList.append(item)
if compositeNormalTypeList:
normalIdTuple = tuple(item['id'] for item in compositeNormalTypeList)
compositeRule = self._confLoader.getCompositeRule()
# print(compositeRule)
if compositeRule:
for item in compositeRule:
if item['logType'] == 'NORMAL':
if normalIdTuple:
if not item['id'] in normalIdTuple:
detectedRule.append(item)
return detectedRule
def updateResult(self, result: Result) -> Result:
detectedRule = self.detectViolatedCompositeRule(result)
# print('===detectedRule: ', detectedRule)
oneshutRes = result.getOneShutResults()
# print('oneshutRes:', oneshutRes)
ruleList = []
for rule in detectedRule:
if rule['ruleType'] == 'BOOLEANEXPR':
conditionStr = rule['condition']
logs = []
for resultTuple in oneshutRes:
for d in resultTuple[1:]: # remove filepath`
#print(conditionStr, '>>> ', d[0])
if conditionStr.find(d[0]) > -1: # item[0] is id
logs.append(d)
rule["logs"] = logs
##print('=== ', rule)
ruleList.append(rule)
#print(ruleList)
elif rule['ruleType'] == 'SEQUENTIAL':
idSeqList = rule['order']
logs = []
for idStr in idSeqList:
for resultTuple in oneshutRes:
for d in resultTuple[1:]: # remove filepath`
if d[0] == idStr:
logs.append(d)
rule["logs"] = logs
ruleList.append(rule)
result.setCompositeViolatedRule(ruleList)
return result
def testOne(self, inFile, solFile):
"""
run the executable using inFile as the inputs
and checking the output against solFile
@inFIle: the name of the file containing the inputs
@solFile: the name of the file containg the solution
@returns: a Result
"""
(progStatus,
studentAnswer) = self._runOne(inFile, self.userOut) #run the program
testName = os.path.basename(inFile) #the name of the test
if (progStatus == Tester._PROGRAM_CRASHED):
return Result(testName, False, 'Crashed')
elif (progStatus == Tester._PROGRAM_TIMED_OUT):
return Result(testName, False, 'Timed Out')
else: #program completed successfully
if (self.outputType == Tester.OUTPUT_STDOUT):
(correct, out,
sol) = self._checkSolution(studentAnswer, solFile)
if (correct):
studentLogger.info('%s %s passed test %s', self.executable,
' '.join(self.cmdArgs),
os.path.basename(inFile))
else:
studentLogger.info(
'%s %s failed test %s. Program output: %s \n Solution: %s \n\n',
self.executable, ' '.join(self.cmdArgs),
os.path.basename(inFile), out, sol)
return Result(testName, correct, self.endTime - self.startTime)
else: #haven't done anything where solutions are contained in files
raise NotImplementedError
def __init__(self,
data,
model,
learning_rate=0.01,
l1_rate=0.,
l2_rate=0.):
assert isinstance(data, Data)
assert isinstance(model, Model)
self.data = data
self.model = model
self.result = Result()
self.params_result = Result(os.path.join(self.result.dir, 'params'))
weights = [
p for p in self.model.params
if 'weight' in p.name or 'filter' in p.name
]
l1 = np.sum([abs(w).sum() for w in weights])
l2 = np.sum([(w**2).sum() for w in weights])
self._cost = function(
inputs=(self.model.input_symbol, self.model.answer_symbol),
outputs=self.model.cost(True) + l1_rate * l1 + l2_rate * l2,
updates=self._update(learning_rate))
self._train_error = function(inputs=(self.model.input_symbol,
self.model.answer_symbol),
outputs=self.model.error(True),
updates=[])
self._test_error = function(inputs=(self.model.input_symbol,
self.model.answer_symbol),
outputs=self.model.error(False),
updates=[])
def test_sources_are_stored(self):
r = Result()
r.add("foo", Source("handle", "what they twote about foo", "twitter.com/linktotweet"))
s = r.get_source_list("foo")
self.assertEqual(s[0].handle, "handle")
self.assertEqual(s[0].text, "what they twote about foo")
self.assertEqual(s[0].link, "twitter.com/linktotweet")
def parseScript(self, scriptURL):
result = Result(TBTAFParsingScriptStatus.SUCCESS, "Success")
file = None
try:
file = self._openFile(scriptURL)
self._parseFile(file, result)
if (result.status==TBTAFParsingScriptStatus.ERROR):
file.close()
##return result
else:
if (TBTAFInterpreter.OrchestratorReference is None):
result.status=TBTAFParsingScriptStatus.ERROR
result.message="Orchestrator Reference has not been set."
##return result
if(result.status==TBTAFParsingScriptStatus.SUCCESS):
self.startExecution(TBTAFInterpreter.OrchestratorReference)
#print result.status
#print result.message
except Exception as e:
#traceback.print_exc(e)
raise e
finally:
if(file is not None):
file.close()
return result
def spline(year, min_seats=6, parliament_size=751, max_seats=96, round=ceil):
pop = get_pop(year)
tmp = deepcopy(pop)
for item in tmp:
tmp[item] = Result(pop[item])
d = sum(pop.values()) / parliament_size
min_pop = min(pop.values())
x = None
while True:
for item in pop:
tmp[item].seats_before_rounding = min(min_seats + (pop[item]-min_pop) / d, max_seats)
tmp[item].seats = round(tmp[item].seats_before_rounding)
seats = [x.seats for x in tmp.values()]
if sum(seats) == parliament_size:
break
elif sum(seats) > parliament_size:
d += d * 0.00001
if x is False:
raise RuntimeError("Impossible")
x = True
else:
d -= d * 0.00001
if x is True:
raise RuntimeError("Impossible")
x = False
return tmp
def walk(combination, ptr, actionsSoFar, remainingTargets):
start = ptr
targets = list(remainingTargets)
actions = list(actionsSoFar)
if ptr >= len(combination):
return Result(self.source, actions, [], targets)
alternate = None
total = int(combination[ptr])
while ptr < len(combination):
if total in targets:
altTargets = list(targets)
altTargets.remove(total)
altActions = list(actions)
action = ''.join([str(n) for n in combination[start:ptr + 1]])
altActions.append(action)
alternate = walk(combination, ptr + 2, altActions, altTargets)
if ptr < len(combination) - 2:
op = combination[ptr + 1]
nextDigit = int(combination[ptr + 2])
if op == '+':
total = total + nextDigit
elif op == '-':
total = total - nextDigit
else:
total = total * nextDigit
ptr += 2
leftovers = str(combination[start:]).translate(self.all, self.nodigits)
result = Result(self.source, actions, list(leftovers), targets)
if alternate is not None and alternate.score() > result.score():
return alternate
return result
def read_result_from_file(result_file, docnolist_file):
docnolist = parse_corpus(docnolist_file)
docid_map = dict(zip(docnolist, range(len(docnolist))))
res_all = parse_corpus(result_file)
res_dict = OrderedDict()
prev_qid, runid = -1, -1
docid_list = []
score_list = []
for line in res_all:
tokens = line.split()
qid, docid, score, runid = int(tokens[0]), docid_map.get(
tokens[2]), float(tokens[4]), tokens[5]
if qid != prev_qid:
if len(docid_list) > 0:
result = Result(qid, docid_list, score_list, runid)
res_dict.update({prev_qid: result})
docid_list, score_list = [docid], [score]
prev_qid = qid
else:
docid_list.append(docid)
score_list.append(score)
res = Result(prev_qid, docid_list, score_list, runid)
res_dict.update({prev_qid: res})
return res_dict
def plot_active_cases(country):
data.process_data(country)
model = Model(data.dtf)
model.forecast()
model.add_deaths(data.mortality)
result = Result(model.dtf)
return result.plot_active(model.today)
def parse_output(self, output_lines, variable_map, core_file_name=None):
if output_lines[0][2:] == 'SATISFIABLE':
# get values from remaining lines
# be aware that only the last line is 0-terminated!
output_values = {}
for l in output_lines[1:]:
for v in l.split(" ")[1:]:
var_num = int(v.strip("-")) - 1
if var_num == -1 or var_num not in variable_map:
break
if v.startswith("-"):
output_values[variable_map[var_num]] = False
else:
output_values[variable_map[var_num]] = True
return Result(True, output_values, [])
elif output_lines[0][2:] == 'UNSATISFIABLE':
core = []
if self.options.get('calculate_unsat_core', True) != False:
with open(core_file_name, "r") as f:
corelines = f.read().strip().split("\n")[1:]
for l in corelines:
literals = l.split(" ")[:-1]
if len(literals
) == 1: # watching out for clauses with one literal
index = abs(int(literals[0])) - 1
var = self.vars[index]
if var in self.core_map:
core.append(self.core_map[var].ab_predicate)
return Result(False, [], core)
else:
raise RuntimeError("picosat returned unexpected output: " +
"\n".join(output_lines))
def flag(self, i, j):
"""Toggle flag at position (i,j)."""
if not self.valid_position(i, j):
# Return invalid input message
return Result(
message="Invalid position ({},{}) on {}x{} board.".format(
i, j, self.m, self.n),
code=0)
target = self.board[i][j]
if target.revealed:
return Result(message="Cell ({},{}) already revealed.".format(
i, j),
code=0)
# Toggle flag:
delta = target.toggle_flag()
self.num_mines += delta
# Check for completion (num_mines == 0)
if self.num_mines == 0:
# If complete reveal board and return success result
self._reveal_board()
return Result("Success!", 1)
# Otherwise return continue result
return Result("", 0)
def __init__(self, data, model, learning_rate=0.01, l1_rate=0.0, l2_rate=0.0):
assert isinstance(data, Data)
assert isinstance(model, Model)
self.data = data
self.model = model
self.result = Result()
self.params_result = Result(os.path.join(self.result.dir, "params"))
weights = [p for p in self.model.params if "weight" in p.name or "filter" in p.name]
l1 = np.sum([abs(w).sum() for w in weights])
l2 = np.sum([(w ** 2).sum() for w in weights])
self._cost = function(
inputs=(self.model.input_symbol, self.model.answer_symbol),
outputs=self.model.cost(True) + l1_rate * l1 + l2_rate * l2,
updates=self._update(learning_rate),
)
self._train_error = function(
inputs=(self.model.input_symbol, self.model.answer_symbol), outputs=self.model.error(True), updates=[]
)
self._test_error = function(
inputs=(self.model.input_symbol, self.model.answer_symbol), outputs=self.model.error(False), updates=[]
)
def show(self, res: Result) -> str:
print('==== Composite faulty Logs ====')
faultList = res.getCompositeFaultList()
if faultList:
for item in faultList:
print('Rule ID', item['id'])
logList = item['logs']
for d in logList:
print(d)
print('\n\n')
print('==== Detected abnomal states ====')
abnormalList = res.getCompositeViolatedRule()
if abnormalList:
for item in abnormalList:
print('Rule ID', item['id'])
if item['ruleType'] == 'BOOLEANEXPR':
print('Condition: ', item['condition'])
elif item['ruleType'] == 'SEQUENTIAL':
print('order: ', item['order'])
logList = item['logs']
print('\nRemained logs')
for d in logList:
print(d[1])
print('\n\n')
#print(abnormalList)
return super().show(res)
def initialize(self):
# Set the display position of the mainwindow.
desktop = QApplication.desktop()
x = (desktop.width() - self.width()) // 2
y = (desktop.height()-65 - self.height()) // 2
self.move(x, y)
# Desine the translator to translate interface languages.
self.trans = QTranslator(self)
# Define the Result class to record the results in the process.
self.result = Result()
# Define the fdem forward simulation thread class.
self.thread_cal_fdem = ThreadCalFdem()
# Define the fdem inversion thread class.
self.thread_inv_fdem = ThreadInvFdem()
# Define the figure to show data in the interface.
self.fig_scenario = Figure(figsize=(4.21, 3.91))
self.canvas_scenario = FigureCanvasQTAgg(self.fig_scenario)
self.gl_detection_scenario.addWidget(self.canvas_scenario)
self.fig_discretize = Figure(figsize=(4.21, 3.91))
self.canvas_discretize = FigureCanvasQTAgg(self.fig_discretize)
self.gl_discretize.addWidget(self.canvas_discretize)
self.fig_magnetic_field = Figure(figsize=(4.21, 3.91))
self.canvas_magnetic_field = FigureCanvasQTAgg(self.fig_magnetic_field)
self.gl_magnetic_field_data.addWidget(self.canvas_magnetic_field)
self.pbar_rfs.setVisible(False)
self.pbar_rfi.setVisible(False)
def create_result_set(self, reading_system, testsuite, user):
from result import Result
from score import Score, AccessibilityScore
from testsuite_app import helper_functions
last_updated = helper_functions.generate_timestamp()
result_set = ResultSet(reading_system = reading_system, testsuite=testsuite, last_updated = last_updated, user = user)
result_set.save()
print "Creating result set"
# create empty results for each test
tests = testsuite.get_tests()
for test in tests:
result = Result(result_set = result_set, test = test)
result.save()
# create empty scores for each category
categories = testsuite.get_categories()
for cat in categories:
if testsuite.testsuite_type == common.TESTSUITE_TYPE_DEFAULT:
score = Score(category = cat, result_set = result_set)
score.save()
else:
score = AccessibilityScore(category = cat, result_set = result_set)
score.save()
if testsuite.testsuite_type == common.TESTSUITE_TYPE_DEFAULT:
overall_score = Score(category = None, result_set = result_set)
overall_score.save()
else:
overall_score = AccessibilityScore(category = None, result_set = result_set)
overall_score.save()
result_set.visibility = reading_system.visibility
return result_set
def bfs(initial_state):
print('Solving puzzle with BFS')
explored_states = set()
cost = 0
frontier = [State(initial_state, None, cost, None)]
if frontier[0].state == desired_state:
return Result(frontier[0], frontier[0].cost, False, True)
while frontier:
current_node = frontier.pop(0)
explored_states.add(current_node.str_state)
cost += 1
blank_pos = find_blank_pos(current_node.state)
for move in allowed_moves(blank_pos):
#print('trying move: ', move)
new_state = globals()[move](current_node.state, blank_pos)
#print('child node state: ', str(new_state))
new_moves_list = list(current_node.move_list)
new_moves_list.append(move)
#print('new move list: ', str(new_moves_list))
child = State(new_state, current_node, cost, new_moves_list)
if child.str_state not in explored_states:
if child.state == desired_state:
#return child
return Result(child, child.cost, False, True)
frontier.append(child)
class ContainerBuilder(object):
"""
container image builder
"""
def __init__(self, xml_state, target_dir, root_dir):
self.root_dir = root_dir
self.requested_container_name = xml_state.build_type.get_container()
self.requested_container_type = xml_state.get_build_type_name()
self.filename = ''.join([
target_dir, '/',
xml_state.xml_data.get_name(), '.' + platform.machine(),
'-' + xml_state.get_image_version(), '.',
self.requested_container_type, '.tar.xz'
])
self.result = Result()
def create(self):
setup_options = {}
if self.requested_container_name:
setup_options['container_name'] = self.requested_container_name
container_setup = ContainerSetup(self.requested_container_type,
self.root_dir, setup_options)
log.info('Setting up %s container', self.requested_container_type)
log.info('--> Container name: %s',
container_setup.get_container_name())
container_setup.setup()
log.info('--> Creating container archive')
container_image = ContainerImage(self.requested_container_type,
self.root_dir)
container_image.create(self.filename)
self.result.add('container', self.filename)
return self.result
def hamilton(year, min_seats=6, parliament_size=751, max_seats=96):
pop = get_pop(year)
tmp = deepcopy(pop)
for item in tmp:
tmp[item] = Result(pop[item])
total_pop = sum([pop[x] for x in pop])
rem = parliament_size
for item in tmp:
tmp[item].seats_before_rounding = (tmp[item].population/total_pop)*parliament_size
tmp[item].seats = floor(tmp[item].seats_before_rounding)
tmp[item].seats = min(tmp[item].seats, max_seats)
tmp[item].seats = max(tmp[item].seats, min_seats)
rem -= tmp[item].seats
srt = by_value(tmp, lambda x: -(x[1].seats_before_rounding-x[1].seats))
order = list(srt.keys())
i = 0
while rem > 0:
if tmp[order[i]].seats < max_seats:
tmp[order[i]].seats += 1
rem -= 1
i = (i + 1) % len(tmp)
return tmp
def check(self, i, j):
"""Reveal position (i,j).
Also reveal any neighboring cells with counts of 0.
"""
if not self.valid_position(i, j):
# Return invalid input message
return Result(
message="Invalid position ({},{}) on {}x{} board.".format(
i, j, self.m, self.n),
code=0)
target = self.board[i][j]
if target.revealed:
return Result(message="Cell ({},{}) already revealed.".format(
i, j),
code=0)
if target.mine:
target.fatal = True
return Result(message="Mine!", code=-1)
# Reveal cell
# Recursively reveal all empty neighbors
target.reveal()
return Result(message="", code=0)
def dldfs(initial_state, limit):
visited_nodes.clear()
cost = 0
frontier = [State(initial_state, None, cost, None)]
while frontier:
#print('frontier size: ', len(frontier))
if frontier[0].depth <= limit:
#print('Limit: ', limit)
current_node = frontier.pop(0)
#print('current node depth: ',current_node.depth)
visited_nodes.add(current_node.str_state)
if current_node.state == desired_state:
return Result(current_node, current_node.cost, False, True)
cost += 1
blank_pos = find_blank_pos(current_node.state)
for move in allowed_moves(blank_pos):
new_state = globals()[move](current_node.state, blank_pos)
new_moves_list = list(current_node.move_list)
new_moves_list.append(move)
#print('new move list: ', str(new_moves_list))
child = State(new_state, current_node, cost, new_moves_list,
current_node.depth + 1)
#print('child node depth: ', child.depth)
if child.str_state not in visited_nodes:
frontier.insert(0, child)
#visited_nodes.add(child.str_state)
else:
#print('Sigo con el siguiente de la frontera, este supera el limite')
frontier.pop(0)
return Result(None, None, True, False)
async def get_permalink(self, channel_id: str,
message_ts: str) -> Result[str, str]:
"""
Get permalink for given message in given channel
:param channel_id: channel ID where message is located
:param message_ts: timestamp (unixtime) of the message
:return: permalink or None if not found or any error
"""
try:
answer = await self.retry_policy.execute(
lambda: self.bot_web_client.chat_getPermalink(
channel=channel_id, message_ts=message_ts))
link = answer.get("permalink", "")
return Result.Ok(link)
except (asyncio.TimeoutError, RetryAfterError):
self.logger.debug(
"Too much permalinks requested, will try next time.")
except errors.SlackApiError as e:
if e.response.get("error", "") == "message_not_found":
return Result.Err("Sorry, the message was deleted :(")
if e.response.get("error", "") == "channel_not_found":
return Result.Err("Sorry, the channel was deleted :(")
self.logger.exception(e)
except Exception as e:
self.logger.exception(e)
return Result.Err("")
def __init__(self, xml_state, target_dir, root_dir):
self.media_dir = None
self.arch = platform.machine()
self.root_dir = root_dir
self.target_dir = target_dir
self.xml_state = xml_state
self.live_type = xml_state.build_type.get_flags()
self.types = Defaults.get_live_iso_types()
self.hybrid = xml_state.build_type.get_hybrid()
self.volume_id = xml_state.build_type.get_volid()
self.machine = xml_state.get_build_type_machine_section()
self.mbrid = ImageIdentifier()
self.mbrid.calculate_id()
if not self.live_type:
self.live_type = Defaults.get_default_live_iso_type()
self.boot_image_task = BootImageTask('kiwi', xml_state, target_dir)
self.firmware = FirmWare(xml_state)
self.system_setup = SystemSetup(xml_state=xml_state,
description_dir=None,
root_dir=self.root_dir)
self.isoname = ''.join([
target_dir, '/',
xml_state.xml_data.get_name(), '.' + platform.machine(),
'-' + xml_state.get_image_version(), '.iso'
])
self.live_image_file = ''.join([
target_dir, '/',
xml_state.xml_data.get_name(), '-read-only.', self.arch, '-',
xml_state.get_image_version()
])
self.result = Result()
def train(train_dataloader, model, criterion, optimizer, epoch):
average_meter = AverageMeter()
model.train() # switch to train mode
end = time.time()
for i, (input, target) in enumerate(train_dataloader):
input, target = input.cuda(), target.cuda()
torch.cuda.synchronize()
data_time = time.time() - end
# compute pred
end = time.time()
pred = model(input)
# pred = process_output(pred)
loss = criterion(pred, target)
optimizer.zero_grad()
loss.backward() # compute gradient and do SGD step
optimizer.step()
torch.cuda.synchronize()
gpu_time = time.time() - end
# measure accuracy and record loss
result = Result()
result.evaluate(pred.data, target.data)
average_meter.update(result, gpu_time, data_time, input.size(0))
end = time.time()
if (i + 1) % args.print_freq == 0:
print('Train Epoch: {0} [{1}/{2}]\t'
't_Data={data_time:.3f}({average.data_time:.3f}) '
't_GPU={gpu_time:.3f}({average.gpu_time:.3f})\n\t'
'RMSE={result.rmse:.2f}({average.rmse:.2f}) '
'MAE={result.mae:.2f}({average.mae:.2f}) '
'Delta1={result.delta1:.3f}({average.delta1:.3f}) '
'REL={result.absrel:.3f}({average.absrel:.3f}) '
'Loss{loss:.3f} '.format(epoch,
i + 1,
len(train_dataloader),
data_time=data_time,
gpu_time=gpu_time,
result=result,
average=average_meter.average(),
loss=loss))
avg = average_meter.average()
with open(output_train, 'a') as csvfile:
writer = csv.DictWriter(csvfile, fieldnames=fieldnames)
writer.writerow({
'mse': avg.mse,
'rmse': avg.rmse,
'absrel': avg.absrel,
'mae': avg.mae,
'delta1': avg.delta1,
'delta2': avg.delta2,
'delta3': avg.delta3,
'gpu_time': avg.gpu_time,
'data_time': avg.data_time
})
class FileSystemBuilder(object):
"""
Filesystem image builder
"""
def __init__(self, xml_state, target_dir, root_dir):
self.custom_args = None
self.label = None
self.root_dir = root_dir
self.requested_image_type = xml_state.get_build_type_name()
if self.requested_image_type == 'pxe':
self.requested_filesystem = xml_state.build_type.get_filesystem()
else:
self.requested_filesystem = self.requested_image_type
if not self.requested_filesystem:
raise KiwiFileSystemSetupError(
'No filesystem configured in %s type' %
self.requested_image_type)
self.filename = ''.join([
target_dir, '/',
xml_state.xml_data.get_name(), '.' + platform.machine(),
'-' + xml_state.get_image_version(), '.', self.requested_filesystem
])
self.blocksize = xml_state.build_type.get_target_blocksize()
self.filesystem_setup = FileSystemSetup(xml_state, root_dir)
self.filesystems_no_device_node = ['squashfs']
self.result = Result()
def create(self):
log.info('Creating %s filesystem', self.requested_filesystem)
supported_filesystems = Defaults.get_filesystem_image_types()
if self.requested_filesystem not in supported_filesystems:
raise KiwiFileSystemSetupError('Unknown filesystem: %s' %
self.requested_filesystem)
if self.requested_filesystem not in self.filesystems_no_device_node:
self.__operate_on_loop()
else:
self.__operate_on_file()
self.result.add('filesystem_image', self.filename)
return self.result
def __operate_on_loop(self):
filesystem = None
loop_provider = LoopDevice(self.filename,
self.filesystem_setup.get_size_mbytes(),
self.blocksize)
loop_provider.create()
filesystem = FileSystem(self.requested_filesystem, loop_provider,
self.root_dir, self.custom_args)
filesystem.create_on_device(self.label)
log.info('--> Syncing data to filesystem on %s',
loop_provider.get_device())
exclude_list = ['image', '.profile', '.kconfig', 'var/cache/kiwi']
filesystem.sync_data(exclude_list)
def __operate_on_file(self):
default_provider = DeviceProvider()
filesystem = FileSystem(self.requested_filesystem, default_provider,
self.root_dir, self.custom_args)
filesystem.create_on_file(self.filename, self.label)
def __init__(self, elements, nodes):
self.__elements = elements
self.__nodes = nodes
self.__kg = [[]]
self.__fg = []
self.__result = Result()
self.__dTau = 0
self.__tauArray = []
def check_qna_answer(answer: Any) -> Result[List[QnAAnswer], str]:
try:
if not (isinstance(answer, list)):
raise ValueError("Base type is not list.")
return Result.Ok([QnAAnswer.parse_obj(x) for x in answer])
except (ValidationError, ValueError) as e:
container.logger.exception(e)
return Result.Err(str(e))
def __init__(self, xml_state, target_dir, root_dir):
self.root_dir = root_dir
self.target_dir = target_dir
self.xml_state = xml_state
self.requested_archive_type = xml_state.get_build_type_name()
self.result = Result()
self.filename = self.__target_file_for('tar.xz')
self.checksum = self.__target_file_for('md5')
def main():
pred_with_tweets = '../data/trial.csv' # predicted labels + tweet text
gold = '../data/trial.labels' # file contains gold labels
mycorpus = Corpus(pred_with_tweets, gold)
myscores = Scorer(mycorpus)
myresult = Result()
myresult.show(myscores)
def open_result(self, b):
# Открытие окна с результатом текущей сессии
self.timer.stop()
self.setEnabled(False)
global result
result = Result(self, self.name, str(self.time), str(self.right),
str(self.wrong), str(self.text_n), b)
result.show()
def describe(self, verbose=True):
description = Result("\n------ " + self.name + " ------", success=True)
if verbose or not self.visited:
description.append("\n\n" + self.description)
self.append_compelling_items(description)
self.append_evident_items(description)
self.append_exit_description(description)
return description
def getResults(self):
if not self.cancelled and self.review:
resultsObj = Result(self.resultsHREF,self.type)
results = resultsObj.getResults()
else :
results="None"
return results
def get_results(self):
"""
This function reads the file saved by the simulator at the end of the simulation to retrieve results
:return: Dictionary containing simulation results
"""
# Retrieve filename
res = Result()
results = res.get_results(self.filename)
return results
def collate_words(self, meme, sources):
"""Given a list of Sources and a Meme, populate a Result
object with matching words"""
regex = self._format_regex(meme)
result = Result()
for source in sources:
match = re.search(regex, source.text, re.IGNORECASE)
if match:
result.add(match.groups()[0].lower(), source)
#assumption: there was exactly one match
return result
def run(self):
while True:
rid = libimport.GetNextListenResult(self.iid)
if rid is not None:
function = libimport.GetNextListenResultFunction(self.iid).decode('ascii')
inparams = libimport.GetNextListenResultInParameter(self.iid)
params = libimport.GetNextListenResultParameter(self.iid)
request = Request(rid, function, inparams, None)
result = Result(self.iid, request)
result.set_params(params)
self.listen_q.put(result)
time.sleep(0.001)
def main(argv): result = Result() w1 = Worker(0.1, 100, result) w1.start() w1.join() w2 = Worker(0.2, 200, result) w2.start() w2.join() print result.get() print "Done."
def submit_result(self):
for result in self.get_results():
if result['score'] > settings.MIN_HOF_SCORE:
login = result['login']
if ' ' in login:
login = login.split(' ')[0]
lowest = yield Result.get_last(login, self.board_size)
if lowest is None or lowest.score < result['score']:
result = Result(
login=login,
score=result['score'],
board_size=self.board_size,
)
yield result.put()
def __init__(self, xml_state, target_dir, root_dir):
self.custom_args = None
self.label = None
self.root_dir = root_dir
self.requested_image_type = xml_state.get_build_type_name()
if self.requested_image_type == 'pxe':
self.requested_filesystem = xml_state.build_type.get_filesystem()
else:
self.requested_filesystem = self.requested_image_type
if not self.requested_filesystem:
raise KiwiFileSystemSetupError(
'No filesystem configured in %s type' %
self.requested_image_type
)
self.filename = ''.join(
[
target_dir, '/',
xml_state.xml_data.get_name(),
'.' + platform.machine(),
'-' + xml_state.get_image_version(),
'.', self.requested_filesystem
]
)
self.blocksize = xml_state.build_type.get_target_blocksize()
self.filesystem_setup = FileSystemSetup(xml_state, root_dir)
self.filesystems_no_device_node = [
'squashfs'
]
self.result = Result()
def exit(self):
"""Exit the simulation and create a result file"""
self.logger.debug("Interruption: exit = " + str(eval(self.config.exit_condition)) +
" sim time = " + str(time.time() - self.config.t_init) + " timeout = " + str(
self.config.timeout))
self.config.t_end = time.time()
# Create a result instance and save
try:
results = Result(self.body)
self.logger.info(results)
results.save_results()
except Exception as e:
self.logger.error("Unable to create a result report. Caused by: " + str(e))
pass
class ArchiveBuilder(object):
"""
root archive image builder
"""
def __init__(self, xml_state, target_dir, root_dir):
self.root_dir = root_dir
self.target_dir = target_dir
self.xml_state = xml_state
self.requested_archive_type = xml_state.get_build_type_name()
self.result = Result()
self.filename = self.__target_file_for('tar.xz')
self.checksum = self.__target_file_for('md5')
def create(self):
supported_archives = Defaults.get_archive_image_types()
if self.requested_archive_type not in supported_archives:
raise KiwiArchiveSetupError(
'Unknown archive type: %s' % self.requested_archive_type
)
if self.requested_archive_type == 'tbz':
log.info('Creating XZ compressed tar archive')
archive = ArchiveTar(
self.__target_file_for('tar')
)
archive.create_xz_compressed(self.root_dir)
checksum = Checksum(self.filename)
log.info('--> Creating archive checksum')
checksum.md5(self.checksum)
self.result.add(
'root_archive', self.filename
)
self.result.add(
'root_archive_checksum', self.checksum
)
return self.result
def __target_file_for(self, suffix):
return ''.join(
[
self.target_dir, '/',
self.xml_state.xml_data.get_name(),
'.' + platform.machine(),
'-' + self.xml_state.get_image_version(),
'.', suffix
]
)
def test_list_is_sorted(self):
r = Result()
r.add("baz", None)
r.add("bar", None)
r.add("foo", None)
r.add("foo", None)
r.add("baz", None)
r.add("baz", None)
self.assertEqual(r.get_list(), [("baz", 3), ("foo", 2), ("bar", 1)])
def __init__(self, xml_state, target_dir, root_dir):
self.root_dir = root_dir
self.target_dir = target_dir
self.xml_state = xml_state
self.requested_archive_type = xml_state.get_build_type_name()
self.result = Result()
self.filename = self.__target_file_for('tar.xz')
self.checksum = self.__target_file_for('md5')
class ContainerBuilder(object):
"""
container image builder
"""
def __init__(self, xml_state, target_dir, root_dir):
self.root_dir = root_dir
self.requested_container_name = xml_state.build_type.get_container()
self.requested_container_type = xml_state.get_build_type_name()
self.filename = ''.join(
[
target_dir, '/',
xml_state.xml_data.get_name(),
'.' + platform.machine(),
'-' + xml_state.get_image_version(),
'.', self.requested_container_type, '.tar.xz'
]
)
self.result = Result()
def create(self):
setup_options = {}
if self.requested_container_name:
setup_options['container_name'] = self.requested_container_name
container_setup = ContainerSetup(
self.requested_container_type, self.root_dir, setup_options
)
log.info('Setting up %s container', self.requested_container_type)
log.info(
'--> Container name: %s', container_setup.get_container_name()
)
container_setup.setup()
log.info(
'--> Creating container archive'
)
container_image = ContainerImage(
self.requested_container_type, self.root_dir
)
container_image.create(
self.filename
)
self.result.add(
'container', self.filename
)
return self.result
def parse_record(record):
"""
Parses a benchmark results record
"""
r = Result()
items = record.split('\n')
for item in items:
if 'name' in item.lower():
name = item.split(':')[1].strip()
r.name = name
elif 'elapsed time' in item.lower():
# Format is like this
# elapsed time : 123123 seconds
num = float(item.split(':')[1].strip().split(' ')[0])
r.elapsed_time += num
elif 'cpu cycles' in item.lower():
# Format is like this
# cpu cycles : 123123
num = float(item.split(':')[1])
r.cpu_cycles += num
# This condition should be above the instructions
# case to ensure proper parsing
elif 'branch instructions' in item.lower():
num = float(item.split(':')[1])
r.branch_instructions += num
elif 'ipc' in item.lower():
num = float(item.split(':')[1])
r.ipc += num
elif 'branch misses' in item.lower():
num = float(item.split(':')[1])
r.branch_misses += num
elif 'instructions' in item.lower():
num = float(item.split(':')[1])
r.instructions += num
elif 'branch mispred' in item.lower():
# Format is like this
# branch mispred rate: 1.12312%
percentage = item.split(':')[1]
num = float(percentage.strip()[:-1]) # remove percentage
r.branch_mispredict_rate += num
else:
pass
return r
def __calculate_rank_points(self):
start = time.time()
test = Result(self.name)
tWiki = Thread(target=test.getWiki)
tArticles = Thread(target=test.getGoogle)
tGoogle = Thread(target=test.getFromArticles)
tWiki.start()
tArticles.start()
tGoogle.start()
tWiki.join()
tArticles.join()
tGoogle.join()
print self.name + ": " + (str)(time.time() - start) + "s"
return test.getHits()
def __init__(self):
FSM.__init__(self, "FSM-Game")
self.menu = Menu()
self.gameResult = Result()
self.numNPCs = 7
self.musicMenu = loader.loadMusic("Eraplee Noisewall Orchestra - Bermuda Fire.ogg")
self.musicMenu.setLoop(True)
self.musicGame = loader.loadMusic("Echovolt - Nothing to Fear.ogg")
self.musicGame.setLoop(True)
def create_evaluation(self, reading_system):
"Create and return a new evaluation, along with an initialized set of result objects."
from test import Test
from score import Score
from result import Result
from category import Category
from testsuite import TestSuite
testsuite = TestSuite.objects.get_most_recent_testsuite()
print "Creating evaluation for testsuite {0}".format(testsuite.version_date)
tests = Test.objects.filter(testsuite = testsuite)
evaluation = self.create(
testsuite = testsuite,
last_updated = generate_timestamp(),
percent_complete = 0.00,
reading_system = reading_system
)
evaluation.save()
total_score = Score(category = None, evaluation = evaluation)
total_score.save()
# create results for this evaluation
for t in tests:
result = Result(test = t, evaluation = evaluation, result = RESULT_NOT_ANSWERED)
result.save()
# update the score once results have been created
total_score.update(evaluation.get_all_results())
# create category score entries for this evaluation
categories = Category.objects.filter(testsuite = evaluation.testsuite)
for cat in categories:
score = Score(
category = cat,
evaluation = evaluation
)
score.update(evaluation.get_category_results(cat))
score.save()
return evaluation
def get(self, board_size='5'):
"""
Players best results list
"""
board_size = int(board_size)
results = yield Result.get_best(board_size)
if 'html' in self.request.headers.get('Accept', 'html'):
return self.render(
'templates/hall_of_fame.html',
results=results,
board_size=board_size,
)
def __init__(self, xml_state, target_dir, root_dir):
self.root_dir = root_dir
self.requested_container_name = xml_state.build_type.get_container()
self.requested_container_type = xml_state.get_build_type_name()
self.filename = ''.join(
[
target_dir, '/',
xml_state.xml_data.get_name(),
'.' + platform.machine(),
'-' + xml_state.get_image_version(),
'.', self.requested_container_type, '.tar.xz'
]
)
self.result = Result()
def process(self):
self.manual = Help()
if self.__help():
return
result_directory = os.path.normpath(
self.command_args['--target-dir']
)
log.info(
'Listing results from %s', result_directory
)
result = Result.load(
result_directory + '/kiwi.result'
)
result.print_results()
def openBackup(self): # WARNING -> obsolete, use targets and performance
result = Result()
tarTemp = Target(0)
with open("backup.txt") as f:
temp = f.readlines()
f.close()
# open("backup.txt", "w").close() # TODO uncomment to activate backup refresh
for index, line in enumerate(temp): # on parcourt toutes les lignes du fichier
if line.__len__() > 10 and line[:1] == "|": # la ligne ne contient pas qu'un |
if index < temp.__len__() - 1 and temp[index + 1][:13] != line[:13]: # on est pas sur une ligne partielle
line = line.split(",")
tarTemp = Target(line[0][1:])
lineb = line[1].split("/")
print(lineb.__len__())
for p in lineb:
tempPoint = Point(line[0][1:], p)
tarTemp.addPoint(tempPoint)
del tempPoint
result.append(tarTemp)
return result
# def targets(self):
# result = Result()
# return 0
def run_filters(self, filters, hostIDs, vmID, properties_map):
result = Result()
request_id = str(uuid.uuid1())
log_adapter = \
utils.RequestAdapter(self._logger,
{'method': 'run_filters',
'request_id': request_id})
# run each filter in a process for robustness
log_adapter.info("got request: %s" % str(filters))
avail_f, missing_f = utils.partition(filters,
lambda f: f in self._filters)
# handle missing filters
for f in missing_f:
log_adapter.warning("Filter requested but was not found: %s" % f)
result.pluginError(f, "plugin not found: '%s'" % f)
# Prepare a generator "list" of runners
filterRunners = [
PythonMethodRunner(
self._pluginDir,
self._class_to_module_map[f],
f,
utils.FILTER,
(hostIDs, vmID, properties_map),
request_id)
for f in avail_f
]
for runner in filterRunners:
runner.start()
log_adapter.debug("Waiting for filters to finish")
# TODO add timeout config
if utils.waitOnGroup(filterRunners):
log_adapter.warning("Waiting on filters timed out")
log_adapter.debug("Aggregating results")
filters_results = self.aggregate_filter_results(filterRunners,
request_id)
if filters_results is None:
log_adapter.info('All filters failed, return the full list')
result.error("all filters failed")
filters_results = hostIDs
result.add(filters_results)
log_adapter.info('returning: %s' % str(filters_results))
return result
def run_cost_functions(self,
cost_functions,
hostIDs,
vmID,
properties_map):
result = Result()
request_id = str(uuid.uuid1())
log_adapter = \
utils.RequestAdapter(self._logger,
{'method': 'run_cost_functions',
'request_id': request_id})
# run each filter in a process for robustness
log_adapter.info("got request: %s" % str(cost_functions))
# Get the list of known and unknown score functions
available_cost_f, missing_cost_f = \
utils.partition(cost_functions, lambda (n, w): n in self._scores)
# Report the unknown functions
for name, weight in missing_cost_f:
log_adapter.warning("requested but was not found: %s" % name)
result.pluginError(name, "plugin not found: '%s'" % name)
# Prepare a generator "list" with runners and weights
scoreRunners = [
(PythonMethodRunner(
self._pluginDir,
self._class_to_module_map[name],
name,
utils.SCORE,
(hostIDs, vmID, properties_map),
request_id), weight)
for name, weight in available_cost_f
]
for runner, _weight in scoreRunners:
runner.start()
log_adapter.debug("Waiting for scoring to finish")
if utils.waitOnGroup([runner for runner, _weight in scoreRunners]):
log_adapter.warning("Waiting on score functions timed out")
result.error("Waiting on score functions timed out")
log_adapter.debug("Aggregating results")
results = self.aggregate_score_results(scoreRunners, request_id)
result.add(results)
log_adapter.info('returning: %s' % str(results))
return result
def __init__(self, xml_state, target_dir, root_dir):
self.target_dir = target_dir
self.compressed = xml_state.build_type.get_compressed()
self.image_name = xml_state.xml_data.get_name()
self.machine = xml_state.get_build_type_machine_section()
self.pxedeploy = xml_state.get_build_type_pxedeploy_section()
self.filesystem = FileSystemBuilder(
xml_state, target_dir, root_dir
)
self.system_setup = SystemSetup(
xml_state=xml_state, description_dir=None, root_dir=root_dir
)
self.boot_image_task = BootImageTask(
'kiwi', xml_state, target_dir
)
self.kernel_filename = None
self.hypervisor_filename = None
self.result = Result()
def __init__(self, conf):
self.conf = conf
self.name = conf["name"]
if not os.path.exists(self.name):
os.mkdir(self.name)
os.chdir(self.name)
if not os.path.exists("time-used"):
self.write_time(0)
self.start_time = datetime.datetime.now()
self.time_used = self.read_time()
self.result = Result(conf)
self.refresh()
def __init__(self, xml_state, target_dir, root_dir):
self.media_dir = None
self.arch = platform.machine()
self.root_dir = root_dir
self.target_dir = target_dir
self.xml_state = xml_state
self.live_type = xml_state.build_type.get_flags()
self.types = Defaults.get_live_iso_types()
self.hybrid = xml_state.build_type.get_hybrid()
self.volume_id = xml_state.build_type.get_volid()
self.machine = xml_state.get_build_type_machine_section()
self.mbrid = ImageIdentifier()
self.mbrid.calculate_id()
if not self.live_type:
self.live_type = Defaults.get_default_live_iso_type()
self.boot_image_task = BootImageTask(
'kiwi', xml_state, target_dir
)
self.firmware = FirmWare(
xml_state
)
self.system_setup = SystemSetup(
xml_state=xml_state, description_dir=None, root_dir=self.root_dir
)
self.isoname = ''.join(
[
target_dir, '/',
xml_state.xml_data.get_name(),
'.' + platform.machine(),
'-' + xml_state.get_image_version(),
'.iso'
]
)
self.live_image_file = ''.join(
[
target_dir, '/',
xml_state.xml_data.get_name(),
'-read-only.', self.arch, '-',
xml_state.get_image_version()
]
)
self.result = Result()
def interpret(self, message, cmd):
"""
:param message: instance of Message
:param cmd: the PARSED command to execute
:return:
"""
# make sure sender is known to Treasurer
sender, created = self.tr.dm.user_mng.get_by_id(
message.sender.lower(), auto_create=True)
if sender.status is None:
sender.status = 'confirmed'
# fix special cases (BEFORE creating Log instance!)
if 'currencies' in cmd and cmd['currencies'] == 'all':
cmd['currencies'] = self.tr.dm.cur_mng.currencies.keys()
if 'groups' in cmd and cmd['domain'] == 'groups' and cmd['groups'] == 'all':
cmd['groups'] = self.tr.dm.group_mng.groups.keys()
self.sender = sender
self.res = Result(treasurer=self.tr, sender=sender.clone(), cmd=cmd)
self.log = self.tr.lm.log_factory(message, cmd)
try:
f = getattr(self, '_cmd_' + cmd['domain'] + '_' + cmd['cmd'])
f(cmd)
except (AttributeError, TypeError):
# includes those which need no processing. Incomplete list:
# easter_egg (who_is_your_daddy)
# error
# greetings, 'hi'
# stats / stats_plus
# help
# default
self.res.none()
# if IMP.DEBUG:
# raise
return self.res, self.log
def read_profile(fp_result,video,profile): #READ QP qp = int(fp_result.readline()) # print str(qp) #READ DEPTH depth = int(fp_result.readline()) # print str(depth) result = Result() #READ BITS result.bits = float(fp_result.readline()) # print str(result.bits) #READ Y_PSNR result.Y_PSNR = float(fp_result.readline()) # print str(result.Y_PSNR) #READ U_PSNR result.U_PSNR = float(fp_result.readline()) # print str(result.U_PSNR) #READ V_PSNR result.V_PSNR = float(fp_result.readline()) # print str(result.V_PSNR) #READ TIME result.time = float(fp_result.readline()) # print str(result.time) if qp == 22: j=0 elif qp == 27: j=1 elif qp == 32: j=2 else: j=3 if depth == -1: reference[video][profile][j].append(result) elif depth == 8: results_h0_depth8[video][profile][j].append(result) elif depth == 16: results_h0_depth16[video][profile][j].append(result) elif depth == 32: results_h0_depth32[video][profile][j].append(result) else: results_h0_depth64[video][profile][j].append(result)
