Exemplo n.º 1
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    def prepare_data(self):
        """Data prep. To be run once."""
        # Download & Extract training & validation dataset
        if os.path.isdir("BSD300"):
            logger.debug("BDS300 already exists.")
        else:
            # Download
            fname = wget.download(C.BSDS_URL)
            # Extract
            with tarfile.open(fname) as tar:
                tar.extractall()
            # Cleanup
            os.remove("BSDS300-images.tgz")

        # Download & Extract testing dataset
        if os.path.isdir("cifar-10"):
            logger.debug("cifar-10 already exists.")
            self.test_dataset = CIFAR10(root_dir="cifar-10",
                                        train=False,
                                        image_size=C.IMG_SIZE,
                                        sigma=C.SIGMA,
                                        download=False)
        else:
            # Download
            # noinspection PyAttributeOutsideInit
            self.test_dataset = CIFAR10(root_dir="cifar-10",
                                        train=False,
                                        image_size=C.IMG_SIZE,
                                        sigma=C.SIGMA,
                                        download=True)
Exemplo n.º 2
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def login(account: dict):
    client = amino.Client()
    email = account.get("email")
    password = account.get("password")
    while True:
        try:
            client.login(email, password)
            return client
        except amino.exceptions.ActionNotAllowed:
            client.device_id = client.headers.device_id = random.choice(
                open(
                    os.path.join(os.getcwd(), "src", "devices", "devices.txt"),
                    "r").readlines()).replace("\n", "")
        except amino.exceptions.FailedLogin:
            service_log(email, "Failed login")
            return False
        except amino.exceptions.InvalidAccountOrPassword:
            service_log(email, "Invalid account or password")
            return False
        except amino.exceptions.InvalidPassword:
            service_log(email, "Invalid Password")
            return False
        except amino.exceptions.InvalidEmail:
            service_log(email, "Invalid Email")
            return False
        except amino.exceptions.AccountDoesntExist:
            service_log(email, "Account does not exist")
            return False
        except amino.exceptions.VerificationRequired as verify:
            service_log(email, str(verify))
            return False
        except Exception as e:
            service_log(email, str(e))
            logger.debug(traceback.format_exc())
            return False
Exemplo n.º 3
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def exportFasta(data, filename, number=0):
    """
    create a fasta file
    """
    with open(filename, 'w') as fileFasta:
        if number < 0:
            #gene random draw
            listGenes = []
            number = abs(number)
            count = number
            while count != 0:
                #random draw in data and make sur of gene have a sequence
                idGene = random.choice(list(data))
                if data[idGene].sequence != "" and idGene not in listGenes:
                    listGenes.append(idGene)
                    count -= 1
        else:
            listGenes = data.keys()
        count = 1
        for gene in listGenes:
            if data[gene].sequence != "":
                if number == 0:
                    line = fasta(data[gene].name, data[gene].sequence)
                    fileFasta.write(line + '\n')
                    count += 1
                if number > 0 and count <= number:
                    line = fasta(data[gene].name, data[gene].sequence)
                    fileFasta.write(line + '\n')
                    count += 1
            log.debug("gene " + data[gene].name + " exported")
    log.info(str(count - 1) + " gene(s) exported")
Exemplo n.º 4
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    def process_udp_bytes(self, byte_list):
        """
        see accessing-the-rako-bridge.pdf for decoding
        :param byte_list: List(Int)
        :return (topic: str, mqtt_payload: dict)
        """
        logger.debug(f'received byte_list: {byte_list}')
        if byte_list[0] != 83:
            logger.debug('not a status update - ignore')
            return

        if byte_list[1] == 7:
            if byte_list[5] != 49:
                logger.debug('not a SET_SCENE command - ignore')
                return
            topic, payload = self.process_set_scene_bytes(byte_list)
        elif byte_list[1] == 5:
            if not (3 <= byte_list[5] <= 6) and byte_list[5] != 0:
                logger.debug('not a SET_SCENE number command - ignore')
                return
            topic, payload = self.process_set_scene_number_bytes(byte_list)
        else:
            logger.debug('unhandled bytestring length - ignore')
            return

        return topic, payload
Exemplo n.º 5
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def beep(time=0.2, BUZZER_PIN=32):
    logger.debug(f'buzzer pin {BUZZER_PIN}, time {time}')
    safe_mode()
    GPIO.setup(BUZZER_PIN, GPIO.OUT)
    GPIO.output(BUZZER_PIN, GPIO.LOW)
    sleep(time)
    GPIO.cleanup(BUZZER_PIN)
    def _check_auth_status(self):
        res = requests.get(f"{API_URL}/iserver/auth/status", verify=False, timeout=REQUESTS_TIMEOUT_SEC)
        status_content = json.loads(res.content)

        L.debug(f"AUTH status: {status_content}")

        return status_content["authenticated"] and status_content["connected"] and not status_content["competing"]
Exemplo n.º 7
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    def __get_next_node_id(cls, data, state, node_data):

        next_node_id = node_data.get('NextNodeId', '')  # Fallback node id

        for button in node_data.get('Buttons', []):
            try:
                root_key = re.split(r'\.|\[',
                                    button.get("ConditionMatchKey"))[0]

                if data.get(root_key) is None:
                    data[root_key] = None

                logger.debug("rootKey " + root_key)

                path = button.get("ConditionMatchKey")
                obj = {root_key: data[root_key]}
                variable_value = Util.deep_find(obj, path)

                match_operator = button.get("ConditionOperator")
                match_value = AnaHelper.verb_replacer(text=button.get(
                    "ConditionMatchValue", ""),
                                                      state=state)

                condition_matched = AnaHelper.is_condition_match(
                    variable_value, match_operator, match_value)

                if condition_matched:
                    next_node_id = button["NextNodeId"]
                    break
            except:
                logger.error("error in btn " + str(button))
                pass

        return next_node_id
Exemplo n.º 8
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 def merge_dicts(*args):
     result = {}
     for dictionary in args:
         logger.debug("Merging dictionaries")
         logger.debug(f"{dictionary} {dictionary.__class__}")
         result.update(dictionary)
     return result
Exemplo n.º 9
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def run():
    br = RakoBridge()
    logger.debug(f'Running the rakomqtt {app_config.mode}')
    if app_config.mode == "state_watcher":
        run_state_watcher(br)
    if app_config.mode == "commander":
        run_commander(br)
Exemplo n.º 10
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 def unlock(self):
     if self.locked:
         logger.debug(f"unlocking servo")
         beep(0.1)
         sleep(0.1)
         beep(0.1)
         self.move_servo(self.SERVO_MAX_VALUE)
         self.locked = False
Exemplo n.º 11
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def safe_mode():
    actual_mode = GPIO.getmode()
    logger.debug(f"actual_mode {actual_mode}")
    if actual_mode == -1 or actual_mode is None:
        logger.debug(f"safe_mode setting BOARD")
        GPIO.setmode(GPIO.BOARD)

    return actual_mode
Exemplo n.º 12
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 def benchmark_over(self, test_files) -> List[TestResult]:
     results: List[TestResult] = list()
     for test_file in test_files:
         logger.debug(f"testing on {test_file}")
         results.append(
             test_program(self.executable_path, self.type, test_file,
                          self.count))
     return results
Exemplo n.º 13
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 def lock(self):
     if not self.locked:
         logger.debug(f"locking servo")
         beep(0.1)
         sleep(0.1)
         beep(0.1)
         self.move_servo(self.SERVO_MIN_VALUE)
         self.locked = True
Exemplo n.º 14
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 def postloop(self):
     # 销毁所有session
     ids = [str(i) for i in self.manager.session_map]
     if len(ids):
         self.manager.exec(['sessions', '-f', '-k', *ids])
         logger.debug(f'All sessions `{str(ids)}` have been killed!')
     self.manager._hook_destroy()
     logger.debug("All the exploit destroy hooks on manager session are executed.")
     super().postloop()
Exemplo n.º 15
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Arquivo: main.py Projeto: FoxOdd/FDGBM
def verifFile(filename):
    if os.path.exists(filename) and not args.force:
        log.warning(filename + " already exist, you can overwrite with -f option")
        return False
    elif os.path.exists(filename) and args.force:
        log.debug(filename + " will be overwrite")
        return True
    else:
        return True
Exemplo n.º 16
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def create_connection(conn_string):
    logger.debug("Starting ElasticSearch client")
    try:
        es = Elasticsearch([conn_string], sniff_on_start=True)
    except:
        raise ConnectionError(f"Couldn't connect to Elastic Search instance at: {conn_string} \
                                Check if you've started it or if it listens on the port listed above.")
    logger.debug("Elasticsearch connected")
    return es
Exemplo n.º 17
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    def on_message(client, userdata, msg: mqtt.MQTTMessage):
        m = re.match('^rako/room/([0-9]+)/set$', msg.topic)
        if not m:
            logger.debug(f"Topic unrecognised ${msg.topic}")
            return

        room__id = int(m.group(1))
        payload_str = str(msg.payload.decode("utf-8"))
        payload = serder.deserialise(payload_schema, payload_str)
        rako_bridge.post_scene(room__id, payload['brightness'])
Exemplo n.º 18
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    def move_servo(self, value):
        assert type(value) is int
        parsed_value = max(value, self.SERVO_MIN_VALUE)
        parsed_value = min(parsed_value, self.SERVO_MAX_VALUE)
        logger.debug(f'moving servo {self.SERVO_PIN}, value {parsed_value}')

        pwm_servo = self.setup_servo_pin()
        pwm_servo.ChangeDutyCycle(parsed_value)
        sleep(0.3)
        GPIO.cleanup(self.SERVO_PIN)
Exemplo n.º 19
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 def cmdhandler(self, args: Cmdline)-> int:
     if args.cmd is None:
         return Command.STOP
     cmd = args.cmd
     func = self.session.command_map.get(cmd)
     if func is None:
         logger.error(f'No command named `{cmd}`.')
         return Command.STOP
     ret = func.run(args)
     logger.debug(f'A command line `{args.cmdline}` is executed, returns `{ret}`')
     return ret
Exemplo n.º 20
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    def ping(self):
        """
        Checks if Elastic is healthy

        Returns:
            True if healthy, False otherwise
        """
        ping = self.es.ping()
        if ping:
            logger.debug(f'Ping successful')
        return ping
Exemplo n.º 21
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    def handle_events(self, events):
        responses = []
        for event in events:
            logger.debug(f"Event received {event}")
            event_type = EventType.get_name(event.get("type"))
            handler_method = getattr(self, "handle_%s" % event_type.lower(), None)

            if handler_method is None:
                logger.error(f"Unknown event encountered in message {event}")
            else:
                response = handler_method(event) # for synchronous events, return the response
                responses.extend(response)

        return responses
Exemplo n.º 22
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    def post_scene(self, room_id, brightness):
        scene = self._rako_scene(brightness)
        payload = {
            'room': room_id,
            'ch': 0,
            'com': self.scene_to_scene_command[scene]
        }

        try:
            logger.debug('payload {}'.format(payload))
            requests.post(self._url, params=payload, timeout=self._timeout)
        except Exception as ex:
            logger.error("Can't turn on %s. Is resource/endpoint offline?",
                         self._url)
Exemplo n.º 23
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def run(keyword):
    """
    启动搜索
    """
    logger.debug("searching...")
    loop = asyncio.get_event_loop()
    tasks = [
        search(item['name'], item['url'], keyword, item['selector'],
               item['description']) for item in MOVIE_SITES
    ]
    results = []
    if tasks:
        results = loop.run_until_complete(asyncio.gather(*tasks))
    logger.debug("completed...")
    return results
Exemplo n.º 24
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    def __make_api_call(self, node_data):

        logger.debug(f"State passed to replace api_url is {self.state}")

        api_url = node_data.get("ApiUrl", "")
        api_method = node_data.get("ApiMethod")
        api_url = AnaHelper.verb_replacer(text=api_url, state=self.state)

        logger.debug(f"URL after verb replacing is {api_url}")

        api_headers = {}
        headers = node_data.get("Headers", "").split("\n")
        for header_line in headers:
            header_key_values = header_line.split(":")[:2]
            if len(header_key_values) == 2:
                api_headers[header_key_values[0]] = header_key_values[1]

        logger.debug(f"api headers: {api_headers}")

        api_body = node_data.get("RequestBody", None)
        if api_body:
            api_body = AnaHelper.verb_replacer(text=api_body, state=self.state)
            try:
                api_body = json.loads(api_body)
            except ValueError:
                logger.error(f"Could not parse api body {api_body}")
                return {}

        logger.debug(f"api_body: {api_body}")

        response = requests.request(method=api_method,
                                    url=api_url,
                                    headers=api_headers,
                                    json=api_body)

        logger.debug(f"api response: {response}")

        if response.status_code in [200, 201]:
            try:
                api_response = response.json()
            except ValueError:
                api_response = response.text
        else:
            api_response = None
            logger.error(
                f"ApiCall did not return status code 200 {node_data['Id']}")

        return api_response
Exemplo n.º 25
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    def SendToServer(self, action: Dict) -> bool:
        if self.socket is None:
            logger.error(f"connection closed abrubtly on port: {self.port}")
            return False

        message: str = ""

        try:
            message = ServerState.Serialize(action)
            self.socket.sendto(message.encode(), (self.host, self.port))
        except Exception as e:
            logger.error(f"error sending to server on port {self.port}\n{e}")
            if self.verbose:
                logger.debug(f"{message}")
            return False
        return True
Exemplo n.º 26
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def tblastn(file, blast):
    """
    parse a xml file result of a tblastn
    """
    count = 0  #counter of result in blast xml
    #verification if file is a xml
    f = open(file, 'r')
    header = f.readline()
    if '<?xml version="1.0"?>' not in header:
        log.critical("Make sure of your file is an xml")
        return False
    f.close()
    #initialisation for parsing file
    tree = ET.parse(file)
    root = tree.getroot()
    for iteration in root.findall('./BlastOutput_iterations/Iteration'):
        #a iteration is a query sequence
        numberQuery = int(iteration[0].text)
        name = iteration[2].text
        lenght = iteration[3].text
        blast[numberQuery] = Query(numberQuery, name, lenght)
        for hit in iteration[4]:
            #a hit is a resultat of blast, a hit in xml file
            id = hit[1].text
            queryDef = hit[2].text
            log.debug(queryDef)
            for hsp in hit[5]:
                #a hsp is result of blast hit, like sequence or score… ; is hit_hsps°in xml
                eValue = float(hsp.find('Hsp_evalue').text)
                gaps = int(hsp.find('Hsp_gaps').text)
                identity = int(hsp.find('Hsp_identity').text)
                positive = int(hsp.find('Hsp_positive').text)
                qSeq = hsp.find('Hsp_qseq').text
                mSeq = hsp.find('Hsp_midline').text
                hSeq = hsp.find('Hsp_hseq').text
                hSeqLen = int(hsp.find('Hsp_align-len').text)
                scores = {
                    'eValue': eValue,
                    'gaps': gaps,
                    'identity': identity,
                    'positive': positive
                }
                blast[numberQuery][id] = Hit(id, queryDef, scores, qSeq, hSeq,
                                             mSeq, hSeqLen)
                count += 1
    log.info(str(len(blast)) + ' sequences was submited')
    log.info(str(count) + ' sequences in total')
    def _launch_and_validate_ib_gateway(self, retry=False, relaunch=False):
        # _launcher.launch_ib_gateway_and_auth(retry_auth=self._connection_attempts > 1)
        self._connection_attempts += 1

        if not retry:
            _launcher.launch_ib_gateway_and_auth()
        elif relaunch:
            _launcher.relaunch()
        else:
            res = requests.post(f"{API_URL}/iserver/reauthenticate", verify=False)
            L.debug(res.content)

        sleep(3)
        self._call_post_auth_methods()

        sleep(2)
        self._validate_gateway_auth()
Exemplo n.º 28
0
    def get_next_node(self, node_data):

        next_node_id = node_data.get('NextNodeId', '')  #Fallback node id
        variable_data = self.state.get("var_data", {})
        buttons = node_data.get("Buttons")

        for button in buttons:

            root_key = re.split(r'\.|\[', button.get("ConditionMatchKey"))[0]
            logger.debug(
                f"Variable Data received for condition call is {variable_data}"
            )

            # if isinstance(variable_data, str):
            # try:
            # variable_data = json.loads(variable_data)
            # except Exception as err:
            # logger.error(f"Error parsing variable_data {variable_data}")
            # variable_data = {}

            logger.debug(
                f"Variable Data after dict conversion is {variable_data}")
            if variable_data.get(root_key) is None:
                continue

            path = button.get("ConditionMatchKey")
            obj = {root_key: variable_data[root_key]}
            variable_value = Util.deep_find(obj, path)

            match_operator = button.get("ConditionOperator")
            match_value = AnaHelper.verb_replacer(text=button.get(
                "ConditionMatchValue", ""),
                                                  state=self.state)

            logger.debug(
                f"variable_value {variable_value} {variable_value.__class__} match_operator {match_operator} match_value {match_value}"
            )

            condition_matched = AnaHelper.is_condition_match(
                variable_value, match_operator, match_value)
            logger.debug(f"Condition matched is {condition_matched}")
            if condition_matched:
                variable_data = self.state.get("var_data", {})
                node_variable_name = node_data.get("VariableName")
                if node_variable_name:
                    button_variable_value = button.get("VariableValue")
                    button_variable_value = AnaHelper.verb_replacer(
                        text=button_variable_value, state=self.state)
                    variable_data[node_variable_name] = button_variable_value
                next_node_id = button["NextNodeId"]
                break

        next_node_key = self.state.get("flow_id", "") + "." + next_node_id
        node_data = AnaNode(next_node_key).get_contents()
        return {"id": next_node_key, "data": node_data}
Exemplo n.º 29
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    def sample(self, index_name=None, size=3):
        """
        Provides a sample of documents from the index

        Args:
            index_name (string, optional) name of index, defaults to index name defined when initiating the class
            size (int, optional) number of results to retrieve, defaults to 3, max 10k, can be relaxed with elastic config             
        """
        if not index_name:
            if self.index_name:
                index_name = self.index_name
            else:
                raise ValueError('index_name not provided')
        res = self.es.search(index=index_name, size=size)
        logger.debug(
            f"Successfully sampled {len(res['hits']['hits'])} docs from {index_name}"
        )
        return res
Exemplo n.º 30
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    def __process_repeatable_item(ana_repeatable, state, is_carousel):
        variable_data = state.get("var_data", {})

        repeat_on_varname = ana_repeatable.get("RepeatOn", None)
        repeat_on = variable_data.get(repeat_on_varname, None)

        if repeat_on is None:
            logger.debug(f"No exact repeat_on_varname")
            root_key = re.split(r"\.|\[", repeat_on_varname)[0]
            if variable_data.get(root_key, None) is not None:
                repeat_on = Util.deep_find({root_key:variable_data[root_key]}, repeat_on_varname)
        
        logger.info("repeat_on: " + json.dumps(repeat_on))
        
        repeat_as_varname = ana_repeatable.get("RepeatAs", None)
        start_position = ana_repeatable.get("StartPosition", 0)
        max_repeats = ana_repeatable.get("MaxRepeats", None)
        end_position = None
        if max_repeats:
            end_position = start_position + max_repeats
            pass
        resulting_items = []
        if isinstance(repeat_on, list):
            for item in repeat_on[start_position:end_position]:
                tempState = {}
                tempState['var_data'] = copy.deepcopy(variable_data)
                tempState['var_data'][repeat_as_varname] = item
                item_json = json.dumps(ana_repeatable)
                replaced_item_json = AnaHelper.verb_replacer(text=item_json, state=tempState)
                replaced_item = json.loads(replaced_item_json)
                if is_carousel:
                    car_buttons = replaced_item.get("Buttons", [])
                    car_buttons = AnaHelper.process_repeatable(car_buttons, tempState, False)
                    for car_button in car_buttons:
                        car_button["DoesRepeat"] = False
                    replaced_item["Buttons"] = car_buttons
                    pass
                replaced_item['_id'] = replaced_item.get('_id', '') + "--" + str(repeat_on.index(item))
                resulting_items.append(replaced_item)
                pass
            pass
        pass
        return resulting_items