Exemple #1
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def _define_grammar():

    from pyparsing import (
        Literal as Literal,
        Word,
        Optional,
        alphas,
        alphanums,
        delimitedList,
    )

    Separator = Literal("@").suppress()
    TagSeparator = Literal("?").suppress()

    Name = delimitedList(Word(alphas, alphanums + "_"),
                         PATH_DELIM,
                         combine=True).setResultsName("name")
    Tag = Word(alphas, alphanums + "_").setResultsName("tag")
    Selector = _selector_grammar.setResultsName("selector")

    SelectorType = (Literal("solids") | Literal("faces") | Literal("edges")
                    | Literal("vertices")).setResultsName("selector_kind")

    return (Name + Optional(TagSeparator + Tag) +
            Optional(Separator + SelectorType + Separator + Selector))
Exemple #2
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 def __init__(
     self, 
     scale:Optinal(int)=0.8, 
     image_ext:Optional(str)='.jpg', 
     label_ext:Optional(str)='.txt'
 ) -> None:
     self.scale = scale
     self.image_ext = image_ext
     self.label_ext = label_ext
Exemple #3
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def make_bone(
    armature: bpy.types.Armature,
    name: str,
    head: Optional(Vector) = None,
    tail: Optional(Vector) = None,
    up: Optional(Vector) = None,
    parent: Optional(bpy.types.EditBone)
) -> bpy.types.EditBone:
    """
	Creates a new bone in the specified armature and returns the EditBone representing it.

	:param armature: The Armature data in which to create the new bone.
	:param name: Name of the new bone to create.
	:param head: If not None, the head position of the new bone.
	:param tail: If not None, the tail position of the new bone.
	:param up: If not None, the up vector of the new bone for roll calculation.
	:param parent: Parent EditBone of this new bone.
	:return: an EditBone.
	:throws: ValueError if head, tail, or up are not mathutils.Vectors, if the Armature is not in edit mode,
			or if a bone by the specified name already exists
	"""

    if not bpy.context.mode == 'EDIT':
        raise ValueError('Armature "{}" not in Edit mode.'.format(
            armature.name))

    for vector in head, tail, up:
        if vector and not isinstance(vector, Vector):
            raise ValueError(
                'head, tail, and up must be None or mathutils.Vector.')

    if name in armature.edit_bones:
        raise ValueError(
            'A bone named "{}" already exists in Armature "{}".'.format(
                name, armature.name))

    if head is None:
        head = Vector([0, 0, 0])

    if tail is None:
        tail = Vector([0, 2, 0])

    bone = armature.edit_bones.new()

    ## copies are here to protect against passing another bone.head or bone.tail
    bone.head = head.copy()
    bone.tail = tail.copy()

    if up:
        bone.align_roll(up)

    if parent:
        bone.parent = parent

    return bone
Exemple #4
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    def __init__(self, log: bool = True, log_level: str = "INFO") -> None:

        self._log_level: str = log_level.upper()

        # Following attributes are set in :func:``_initialize``
        self._ctx: Optional(plaidml.Context) = None
        self._supported_devices: Optional(List[plaidml._DeviceConfig]) = None
        self._all_devices: Optional(List[plaidml._DeviceConfig]) = None
        self._device_details: Optional(List[dict]) = None

        super().__init__(log=log)
Exemple #5
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 def __init__(self: 'SemanticVersion',
              major: Counter = 0,
              minor: Optional(Counter) = 0,
              micro: Optional(Counter) = 0,
              prerelease: Optional[PreRelease] = None,
              build: Optional[Build] = None):
     self._major = major
     self._minor = minor
     self._micro = micro
     self._prerelease = PreRelease(prerelease) if prerelease else None
     self._build = Build(build) if build else None
Exemple #6
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    def __init__(self, ip_info):
        security_data = ip_info['security']

        self.is_proxy: bool = security_data['is_proxy']
        self.proxy_type: Optional(str) = security_data['proxy_type']
        self.is_crawler: bool = security_data['is_crawler']
        self.crawler_name: Optional(str) = security_data['crawler_name']
        self.crawler_type: Optional(str) = security_data['crawler_type']
        self.is_tor: bool = security_data['is_tor']
        self.threat_level: Optional(str) = security_data['threat_level']
        self.threat_types: list = security_data['threat_types']
Exemple #7
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class IntegerGrader(Grader):
    """
    Numeric grader for integer values
    """

    fields = {
        'max': Optional(int),
        'min': Optional(int),
        'answer': int,
    }

    def grade(self, value):
        return 100 if self.answer == value else 0
Exemple #8
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class NumericGrader(Grader):
    """
    Numeric float values.
    """

    fields = {
        'max': Optional(float),
        'min': Optional(float),
        'answer': float,
        'tolerance': 0.0
    }

    def grade(self, value):
        tol = self.tolerance
        return 100 if abs(value - self.answer) <= tol else 0
Exemple #9
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def get_elasticsearch_client(url: str) -> Elasticsearch:
    if ELASTICSEARCH_AWS_HOSTED:
        credentials = boto3.Session().get_credentials()
        return Elasticsearch(
            hosts=[url],
            http_auth=AWS4Auth(
                credentials.access_key,
                credentials.secret_key,
                ELASTICSEARCH_AWS_REGION,
                "es",
                session_token=credentials.token,
            ),
            use_ssl=True,
            verify_certs=True,
            connection_class=RequestsHttpConnection,
        )
    else:
        api_key: Optional(Tuple[str, str]) = None
        if ELASTICSEARCH_API_KEY_ID and ELASTICSEARCH_API_KEY:
            api_key = (ELASTICSEARCH_API_KEY_ID, ELASTICSEARCH_API_KEY)
        return Elasticsearch(
            hosts=[url],
            timeout=ELASTICSEARCH_TIMEOUT,
            verify_certs=ELASTICSEARCH_VERIFY_CERTS,
            use_ssl=ELASTICSEARCH_USE_SSL,
            ssl_show_warn=ELASTICSEARCH_SSL_SHOW_WARN,
            ca_certs=ELASTICSEARCH_CA_CERTS,
            client_cert=ELASTICSEARCH_CLIENT_CERT,
            client_key=ELASTICSEARCH_CLIENT_KEY,
            api_key=api_key,
        )
Exemple #10
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class Delivery(BaseModel):
    user: UUID
    name: str
    post: str
    permission: str
    available: bool
    task: set() = None
    is_deleted: bool = False
    events: Optional(List[events.Event]) = []

    class Config:
        title = "Delivery"
        allow_mutations = False
        extra = "Forbid"

    def allocate(self, order: Shipping):
        if self.available == False:
            self.events.append(events.NotAvailable(self.user))
            return None
        else:
            self.task.add(order)

    def can_deliver(self, order: Shipping) -> bool:
        return self.available

    def remove_shipping(self, order: Shipping):
        if order in self.task:
            self.task.remove(order)
            self.available = True

    def mark_completed(self, order: Shipping):
        if order in self.task:
            self.task.remove(order)
            self.task.order.status = "Completed"
Exemple #11
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def main():
    settings: Optional(Settings) = None
    try:
        module_path: str = os.path.dirname(
            os.path.realpath(inspect.getfile(inspect.currentframe())))
        settings = Settings(module_path)

        processChoices(settings)

        report_generated = False

        if settings.dump_document_structure:
            print("\n%s" % getDocumentStructureDocString(settings))

        if settings.mass_report or len(settings.mass_report_members) > 0:
            writeMassReport(settings)
            report_generated = True
        elif settings.isFirmwareBinaryDefined():
            exportDocument(settings)
            report_generated = True

        if settings.driver_template_file:
            settings.writeParameterTemplateFile(
                settings.driver_template_file,
                output_actual_values=report_generated)
    except Exception as exception:
        errorOutput(settings, exception, force_stacktrace=True)
        sys.exit(RETURN_CODE_UNRECOVERABLE_ERROR)
    else:
        print(f"{CHECKERED_FLAG} Done.")

    if error_handling.WARNINGS_OCCURRED:
        print(f"{WARNING} Watch out! Warnings occurred.")
        sys.exit(RETURN_CODE_WARNINGS_OCCURRED)
Exemple #12
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def kmp_algo(inp_string: str, substr: str) -> Optional(int):
    """
	Implementation of Knuth-Morrison-Pratt algorithm

	:param inp_string: String where substr is to be found (haystack)
	:param substr: substr to be found in inp_string (needle)
	:return: index where first occurrence of substr in inp_string started or None if not found
	"""
    def prefix_fun(prefix_str: str) -> List[int]:
        """
		Prefix function for KMP

		:param prefix_str: dubstring for prefix function
		:return: prefix values table
		"""
        prefix_str = [0] * len(inp_string)
        for i in range(1, len(prefix_str)):
            k = prefix_str[i - 1]
            while k > 0 and prefix_str[k] != inp_string[i]:
                k = prefix_str[k - 1]
            if prefix_str[k] == inp_string[i]:
                k = k + 1
            prefix_str[i] = k
        print(inp_string, substr, prefix_fun)
        return prefix_str
Exemple #13
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class ReviewTextInfo(NamedTuple):
    """商品レビュー内の1文に関する情報

  Attributes:
    review_id (int): レビュー番号
    last_review_id (int): 最後のレビュー番号
    text_id (int): 文番号
    last_text_id (int): 最後の文番号
    star (float): 評価
    title (str): レビューのタイトル
    review (str): レビュー全文
    text (str): 対象としている文
    result Optional(Dict[str, Tuple(AttrExtractionResult, ...)]): 抽出結果
  """
    review_id: int
    last_review_id: int
    text_id: int
    last_text_id: int
    star: float
    title: str
    review: str
    text: str
    result: Optional(Dict[str, Tuple(AttrExtractionResult, ...)])

    @classmethod
    def from_dictionary(cls, dictionary: Dict[str, Any]):
        this = cls(**dictionary)
        result_dict = this.result
        for attr, results in result_dict.items():
            result_dict[attr] = AttrExtractionResult(*results)

        return this._replace(result=result_dict)
Exemple #14
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 def selected_col(self)->Optional(str):
     """
     Get selected feature value
     :return: Selected feature name r None if Nothing selected
     """
     index = self.features_widget.currentIndex()
     if index < 1:
         return None
     return self.features[index]
Exemple #15
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 def get_queue_by_id(queue_id: int) -> Optional(Queue):
     """
     Find the queue by the queue_id.\n
     Inputs:\n
     queue_id --> The id of the queue to look for.\n
     Returns:\n
     The queue object, return None if it is not in the database.\n
     """
     return Queue.query.filter_by(id=queue_id).first()
Exemple #16
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class PetForm(FlaskForm):

    name = StringField(
        "Pet Name", validators=[InputRequired(message="Name cannot be blank")])

    species = SelectField("Species",
                          choices=[('fish', 'Fish'), ('dog', 'Dog'),
                                   ('hedgehog', 'Hedgehog')])

    photo_url = StringField("Photo Url", validators=[URL(), Optional()])

    age = IntegerField("Pet Age",
                       validators=[Optional(),
                                   NumberRange(min=0, max=30)])

    notes = StringField("Notes")

    available = BooleanField("Is Available")
Exemple #17
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    def serialize_optional(self, context: TypeEvaluationContext, tt: OptionalType, obj: Any):
        from ..._gen.com.digitalasset.ledger.api.v1.value_pb2 import Optional
        ut = tt.type_parameter

        optional_message = Optional()
        if obj is not None:
            ctor, val = self._serialize_dispatch(context.append_path('?'), ut, obj)
            _set_value(optional_message.value, ctor, val)
        return 'optional', optional_message
Exemple #18
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def invoke_all(*, requests: List, region: Optional(str='us-east-1')):
    async def wrapper():
        async with aiohttp.ClientSession(raise_for_status=True) as session:
            invocations = run_invocations(
                requests=requests,
                default_region=region,
                session=session,
            )

            return await asyncio.gather(*invocations)

    loop = asyncio.get_event_loop()

    results = loop.run_until_complete(wrapper())

    return results
Exemple #19
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def get_numbers_of_pyments_in_lines(
        xml_file: str) -> Tuple[Optional[List[int]], Optional[str]]:
    """Получаем номера строк, где встречается Плательщик и возвращаем line_list или None"""
    line_list: List[int] = list()
    xml_encoding: Optional(str) = None
    with open(xml_file, 'r', encoding='windows-1251') as file:
        for num, line in enumerate(file):
            encoding = find_encoding_in_string(line)
            if encoding:
                xml_encoding = encoding
            if "<Плательщик>" in line:
                line_list.append(num)
        logger.info("Кодировка документа {0}".format(xml_encoding))
    if line_list:
        return line_list, xml_encoding
    else:
        return None, xml_encoding
Exemple #20
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 def preprocess_image_from_dir(
     self, 
     dir_path: str, 
     des_dir: Optional(str)='train_data'
 ) -> None:
     list_image_path = glob.glob(dir_path + '/*' + self.image_ext)
     list_image_path.sort()
     src_image_folder = os.path.join(des_dir, 'inputs')
     des_image_folder = os.path.join(des_dir, 'outputs')
     for image_path in list_image_path:
         image_name = image_path.split('/')[-1].replace('.jpg', '.png')
         print('Image name: {}'.format(image_name))
         image, labels = self.read_image_and_label(image_path)
         shape = image.shape
         density = self.preprocess_image(image, labels)
         cv2.imwrite(os.path.join(src_image_folder, image_name), image[shape[0] // 2:, :, :])
         cv2.imwrite(os.path.join(des_image_folder, image_name), density[shape[0] // 2:, :])
Exemple #21
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 def _scan_file(self,
                results: ScanResults,
                user: NamedUser,
                org: Organization,
                repo: Repository,
                commitsha: str,
                filename: str,
                filelist: List[str]) -> None:
     file: Optional(ContentFile) = None
     content: str = None
     for scanner in self._scanners:
         if scanner.want(filename):
             if not file:
                 file = repo.get_contents(filename, ref=commitsha)
                 content = file.decoded_content.decode("utf-8")
             reposlug = "{}/{}".format(org.login, repo.name)
             result = scanner.check(reposlug, commitsha, file.sha, file.path, content, filelist)
             results.add(result)
Exemple #22
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 def __init__(self,
              possible_actions: List[AVAILABLE_ACTION],
              game: GAME,
              prev_player: int = None,
              skip_actions=False,
              heuristic=None) -> None:
     self.children = {}
     self.possible_actions: Set[AVAILABLE_ACTION] = set(possible_actions)
     self._is_leaf: bool = True
     self.simulations: int = 0
     self.wins: int = 0
     self._state = game.get_state()
     self._terminating = game.done
     self.current_player = game.current_player
     self.prev_player = prev_player
     self.game = game
     self.skip_actions = skip_actions
     self.heuristic: Optional(List[float]) = heuristic(
         game._get_obs(), self.current_player) if heuristic else None
Exemple #23
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def kmp_algo(inp_string: str, substr: str) -> Optional(int):
    """
	Implementation of Knuth-Morrison-Pratt algorithm

	:param inp_string: String where substr is to be found (haystack)
	:param substr: substr to be found in inp_string (needle)
	:return: index where first occurrence of substr in inp_string started or None if not found
	"""
    def prefix_fun(prefix_str: str) -> List[int]:
        """
		Prefix function for KMP

		:param prefix_str: dubstring for prefix function
		:return: prefix values table
		"""
        print(prefix_str)
        return []

    print(inp_string, substr, prefix_fun)
    return None
Exemple #24
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def run_invocations(*, requests: List, base_url: str,
                    default_region: Optional(str), session):
    for request in requests:
        if not request.get('region') and not default_region:
            raise ValueError(
                'Must provide a region, either in the invocation arguments or'
                'as a default region when calling invoke_all')

        region = request.get('region') if type(request['region']) is str else \
            default_region

        base_url = LAMBDA_ENDPOINT.format(region=region)

        url = os.path.join(base_url, request['function_name'], 'invocations')

        yield invoke(
            url=url,
            payload=request['payload'],
            invocation_type=request['invocation_type'],
            session=session,
        )
Exemple #25
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class Settings(BaseSettings):
    POSTGRES_SERVER: str
    POSTGRES_USER: str
    POSTGRES_PASSWORD: str
    POSTGRES_DB: str

    SQLALCHEMY_DATABASE_URI: Optional(PostgresDsn) = None

    @validator("SQLALCHEMY_DATABASE_URI", pre=True)
    def assemble_db_connection(cls, v: Optional[str],
                               values: Dict[str, Any]) -> Any:
        if isinstance(v, str):
            return v
        return PostgresDsn.build(scheme="postgresql",
                                 user=values.get("POSTGRES_USER"),
                                 password=values.get("POSTGRES_PASSWORD"),
                                 host=values.get("POSTGRES_SERVER"),
                                 path=f"/{values.get('POSTGRES_DB') or ''}")

    class Config:
        case_sensitive = True
        env_file = ".env"
Exemple #26
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    def read(self, file_name):
        """read an ac3d file. TODO: groups, nested kids"""

        #        def convertObject(tokens):
        #            pass
        def convertLMaterial(tokens):
            self.materials_list.append(tokens[1])

        def convertLObj(tokens):
            self.new_object("", "")
            self._current_object._type = tokens[1]

        def convertLKids(tokens):
            self._current_object.kids = int(tokens[1])

        def convertLData(tokens):
            pass

        def convertLName(tokens):
            self._current_object.name = tokens[1].strip('"\'')

        def convertLTexture(tokens):
            self._current_object.texture = tokens[1].strip('"\'')

        def _token2array(tokens, num):
            return np.array([float(item) for item in tokens[1:num + 1]])

        def convertLTexrep(tokens):
            self._current_object.texrep = _token2array(tokens, 2)

        def convertLTexoff(tokens):
            self._current_object.texoff = _token2array(tokens, 2)

        def convertLRot(tokens):
            self._current_object.rot = _token2array(tokens, 9)

        def convertLCrease(tokens):
            self._current_object.crease = tokens[1]

        def convertLLoc(tokens):
            self._current_object.loc = _token2array(tokens, 3)

        def convertLUrl(tokens):
            self._current_object.url = tokens[1]

        def convertLVertex(tokens):
            self._current_object.node(tokens[0], tokens[1], tokens[2])

        def convertSurf(tokens):
            assert (tokens[0] == 'SURF')
            assert (tokens[2] == 'mat')
            assert (tokens[4] == 'refs')
            self._current_object.face(nodes_uv_list=tokens[6],
                                      typ=tokens[1],
                                      mat_idx=tokens[3])

        def convertIntegers(tokens):
            return int(tokens[0])

        def convertFloats(tokens):
            try:
                return float(tokens[0])
            except ValueError:
                logging.error(tokens[0])

        integer = Word(nums).setParseAction(convertIntegers)
        string = Regex(r'"[^"]*"')
        floatNumber = Regex(r'[+-]?(\d+(\.\d*)?|(\.\d*))([eE][+-]\d+)?'
                            ).setParseAction(convertFloats)
        anything = Regex(r'.*')

        debug = False

        #       Relaxed see Tor_Ness_Lighthouse.xml
        lHeader = Regex('AC3Db[S]*') + LineEnd()
        lMaterial = (
            Literal('MATERIAL') + anything +
            LineEnd()).setParseAction(convertLMaterial).setDebug(debug)
        lObject = (Literal('OBJECT') +
                   Word(alphas)).setParseAction(convertLObj).setDebug(debug)
        lKids = (Literal('kids') +
                 integer).setParseAction(convertLKids).setDebug(debug)
        lName = (Literal('name') +
                 string).setParseAction(convertLName).setDebug(debug)
        lData = (Literal('data') + integer + LineEnd() + anything +
                 LineEnd()).setParseAction(convertLData).setDebug(debug)
        lTexture = (Literal('texture') +
                    string).setParseAction(convertLTexture).setDebug(debug)
        lTexrep = (Literal('texrep') + floatNumber +
                   floatNumber).setParseAction(convertLTexrep).setDebug(debug)
        lTexoff = (Literal('texoff') + floatNumber +
                   floatNumber).setParseAction(convertLTexoff).setDebug(debug)
        lRot = (Literal('rot') + floatNumber + floatNumber + floatNumber +
                floatNumber + floatNumber + floatNumber + floatNumber +
                floatNumber +
                floatNumber).setParseAction(convertLRot).setDebug(debug)
        lLoc = (Literal('loc') + floatNumber + floatNumber +
                floatNumber).setParseAction(convertLLoc)
        lCrease = (Literal('crease') +
                   floatNumber).setParseAction(convertLCrease).setDebug(debug)
        lUrl = (Literal('url') +
                string).setParseAction(convertLUrl).setDebug(debug)
        lNumvert = Literal('numvert') + Word(nums)
        lVertex = (floatNumber + floatNumber +
                   floatNumber).setParseAction(convertLVertex)
        lNumsurf = Literal('numsurf') + Word(nums)
        lSurf = Literal('SURF') + Word(alphanums)
        lMat = Literal('mat') + integer
        lRefs = Literal('refs') + integer
        lNodes = Group(integer + floatNumber + floatNumber)

        pObjectWorld = Group(lObject + Optional(lName) + lKids)
        pSurf = (lSurf + Optional(lMat) + lRefs +
                 Group(OneOrMore(lNodes))).setParseAction(convertSurf)
        pObjectHeader = Group(lObject + Each([
            Optional(lName),
            Optional(lData),
            Optional(lTexture),
            Optional(lTexrep),
            Optional(lTexoff),
            Optional(lRot),
            Optional(lLoc),
            Optional(lUrl),
            Optional(lCrease)
        ]))
        pObject = Group(
            pObjectHeader +
            Optional(lNumvert + Group(ZeroOrMore(lVertex)) +
                     Optional(lNumsurf + Group(ZeroOrMore(pSurf)))) +
            lKids)  # .setParseAction( convertObject )

        pFile = lHeader + Group(OneOrMore(lMaterial)) + pObjectWorld \
          + Group(OneOrMore(pObject))

        try:
            self.p = pFile.parseFile(file_name)
        except IOError as e:
            logging.warning(e)
Exemple #27
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    def __init__(self, log: bool = True) -> None:
        # Following attribute set in :func:``_initialize``
        self._tf_devices: Optional(List[str]) = None

        super().__init__(log=log)
Exemple #28
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 def __init__(self):
     """
     expop   :: '^'
     multop  :: '*' | '/'
     addop   :: '+' | '-'
     integer :: ['+' | '-'] '0'..'9'+
     atom    :: PI | E | real | fn '(' expr ')' | '(' expr ')'
     factor  :: atom [ expop factor ]*
     term    :: factor [ multop factor ]*
     expr    :: term [ addop term ]*
     """
     point = Literal(".")
     e = CaselessLiteral("E")
     fnumber = Combine(
         Word("+-" + nums, nums) + Optional(point + Optional(Word(nums))) +
         Optional(e + Word("+-" + nums, nums)))
     ident = Word(alphas, alphas + nums + "_$")
     mod = Literal("%")
     plus = Literal("+")
     minus = Literal("-")
     mult = Literal("*")
     iadd = Literal("+=")
     imult = Literal("*=")
     idiv = Literal("/=")
     isub = Literal("-=")
     div = Literal("/")
     lpar = Literal("(").suppress()
     rpar = Literal(")").suppress()
     addop = plus | minus
     multop = mult | div | mod
     iop = iadd | isub | imult | idiv
     expop = Literal("^")
     pi = CaselessLiteral("PI")
     expr = Forward()
     atom = ((Optional(oneOf("- +")) +
              (ident + lpar + expr + rpar | pi | e
               | fnumber).setParseAction(self.pushFirst))
             | Optional(oneOf("- +")) +
             Group(lpar + expr + rpar)).setParseAction(self.pushUMinus)
     # by defining exponentiation as "atom [ ^ factor ]..." instead of
     # "atom [ ^ atom ]...", we get right-to-left exponents, instead of left-to-right
     # that is, 2^3^2 = 2^(3^2), not (2^3)^2.
     factor = Forward()
     factor << atom + ZeroOrMore(
         (expop + factor).setParseAction(self.pushFirst))
     term = factor + ZeroOrMore(
         (multop + factor).setParseAction(self.pushFirst))
     expr << term + ZeroOrMore(
         (addop + term).setParseAction(self.pushFirst))
     final = expr + ZeroOrMore((iop + expr).setParseAction(self.pushFirst))
     # addop_term = ( addop + term ).setParseAction( self.pushFirst )
     # general_term = term + ZeroOrMore( addop_term ) | OneOrMore( addop_term)
     # expr <<  general_term
     self.bnf = final
     # map operator symbols to corresponding arithmetic operations
     epsilon = 1e-12
     self.opn = {
         "+": operator.add,
         "-": operator.sub,
         "+=": operator.iadd,
         "-=": operator.isub,
         "*": operator.mul,
         "*=": operator.imul,
         "/": operator.truediv,
         "/=": operator.itruediv,
         "^": operator.pow,
         "%": operator.mod,
     }
     self.fn = {
         "sin": math.sin,
         "cos": math.cos,
         "tan": math.tan,
         "exp": math.exp,
         "abs": abs,
         "trunc": lambda a: int(a),
         "round": round,
         "sgn": lambda a: abs(a) > epsilon and ((a > 0) - (a < 0)) or 0,
         "log": lambda a: math.log(a, 10),
         "ln": math.log,
         "log2": math.log2,
     }
Exemple #29
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 def __init__(self, entity: Actor, item: Item, target_pos: Optional(Tuple[int, int]) = None):
     super().__init__(entity)
     self.item = item
     if not target_pos:
         target_pos = entity.position
     self.target_pos = target_pos
Exemple #30
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 def __init__(self):
     self._head: Optional(str) = None
     self._tail: Optional(str) = None