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- from encodings.aliases import aliases
- from hashlib import sha256
- from json import dumps
- from typing import Any, Dict, Iterator, List, Optional, Tuple, Union
-
- from .constant import TOO_BIG_SEQUENCE
- from .utils import iana_name, is_multi_byte_encoding, unicode_range
-
-
- class CharsetMatch:
- def __init__(
- self,
- payload: bytes,
- guessed_encoding: str,
- mean_mess_ratio: float,
- has_sig_or_bom: bool,
- languages: "CoherenceMatches",
- decoded_payload: Optional[str] = None,
- ):
- self._payload: bytes = payload
-
- self._encoding: str = guessed_encoding
- self._mean_mess_ratio: float = mean_mess_ratio
- self._languages: CoherenceMatches = languages
- self._has_sig_or_bom: bool = has_sig_or_bom
- self._unicode_ranges: Optional[List[str]] = None
-
- self._leaves: List[CharsetMatch] = []
- self._mean_coherence_ratio: float = 0.0
-
- self._output_payload: Optional[bytes] = None
- self._output_encoding: Optional[str] = None
-
- self._string: Optional[str] = decoded_payload
-
- def __eq__(self, other: object) -> bool:
- if not isinstance(other, CharsetMatch):
- raise TypeError(
- "__eq__ cannot be invoked on {} and {}.".format(
- str(other.__class__), str(self.__class__)
- )
- )
- return self.encoding == other.encoding and self.fingerprint == other.fingerprint
-
- def __lt__(self, other: object) -> bool:
- """
- Implemented to make sorted available upon CharsetMatches items.
- """
- if not isinstance(other, CharsetMatch):
- raise ValueError
-
- chaos_difference: float = abs(self.chaos - other.chaos)
- coherence_difference: float = abs(self.coherence - other.coherence)
-
- # Below 1% difference --> Use Coherence
- if chaos_difference < 0.01 and coherence_difference > 0.02:
- # When having a tough decision, use the result that decoded as many multi-byte as possible.
- if chaos_difference == 0.0 and self.coherence == other.coherence:
- return self.multi_byte_usage > other.multi_byte_usage
- return self.coherence > other.coherence
-
- return self.chaos < other.chaos
-
- @property
- def multi_byte_usage(self) -> float:
- return 1.0 - len(str(self)) / len(self.raw)
-
- def __str__(self) -> str:
- # Lazy Str Loading
- if self._string is None:
- self._string = str(self._payload, self._encoding, "strict")
- return self._string
-
- def __repr__(self) -> str:
- return "<CharsetMatch '{}' bytes({})>".format(self.encoding, self.fingerprint)
-
- def add_submatch(self, other: "CharsetMatch") -> None:
- if not isinstance(other, CharsetMatch) or other == self:
- raise ValueError(
- "Unable to add instance <{}> as a submatch of a CharsetMatch".format(
- other.__class__
- )
- )
-
- other._string = None # Unload RAM usage; dirty trick.
- self._leaves.append(other)
-
- @property
- def encoding(self) -> str:
- return self._encoding
-
- @property
- def encoding_aliases(self) -> List[str]:
- """
- Encoding name are known by many name, using this could help when searching for IBM855 when it's listed as CP855.
- """
- also_known_as: List[str] = []
- for u, p in aliases.items():
- if self.encoding == u:
- also_known_as.append(p)
- elif self.encoding == p:
- also_known_as.append(u)
- return also_known_as
-
- @property
- def bom(self) -> bool:
- return self._has_sig_or_bom
-
- @property
- def byte_order_mark(self) -> bool:
- return self._has_sig_or_bom
-
- @property
- def languages(self) -> List[str]:
- """
- Return the complete list of possible languages found in decoded sequence.
- Usually not really useful. Returned list may be empty even if 'language' property return something != 'Unknown'.
- """
- return [e[0] for e in self._languages]
-
- @property
- def language(self) -> str:
- """
- Most probable language found in decoded sequence. If none were detected or inferred, the property will return
- "Unknown".
- """
- if not self._languages:
- # Trying to infer the language based on the given encoding
- # Its either English or we should not pronounce ourselves in certain cases.
- if "ascii" in self.could_be_from_charset:
- return "English"
-
- # doing it there to avoid circular import
- from charset_normalizer.cd import encoding_languages, mb_encoding_languages
-
- languages = (
- mb_encoding_languages(self.encoding)
- if is_multi_byte_encoding(self.encoding)
- else encoding_languages(self.encoding)
- )
-
- if len(languages) == 0 or "Latin Based" in languages:
- return "Unknown"
-
- return languages[0]
-
- return self._languages[0][0]
-
- @property
- def chaos(self) -> float:
- return self._mean_mess_ratio
-
- @property
- def coherence(self) -> float:
- if not self._languages:
- return 0.0
- return self._languages[0][1]
-
- @property
- def percent_chaos(self) -> float:
- return round(self.chaos * 100, ndigits=3)
-
- @property
- def percent_coherence(self) -> float:
- return round(self.coherence * 100, ndigits=3)
-
- @property
- def raw(self) -> bytes:
- """
- Original untouched bytes.
- """
- return self._payload
-
- @property
- def submatch(self) -> List["CharsetMatch"]:
- return self._leaves
-
- @property
- def has_submatch(self) -> bool:
- return len(self._leaves) > 0
-
- @property
- def alphabets(self) -> List[str]:
- if self._unicode_ranges is not None:
- return self._unicode_ranges
- # list detected ranges
- detected_ranges: List[Optional[str]] = [
- unicode_range(char) for char in str(self)
- ]
- # filter and sort
- self._unicode_ranges = sorted(list({r for r in detected_ranges if r}))
- return self._unicode_ranges
-
- @property
- def could_be_from_charset(self) -> List[str]:
- """
- The complete list of encoding that output the exact SAME str result and therefore could be the originating
- encoding.
- This list does include the encoding available in property 'encoding'.
- """
- return [self._encoding] + [m.encoding for m in self._leaves]
-
- def output(self, encoding: str = "utf_8") -> bytes:
- """
- Method to get re-encoded bytes payload using given target encoding. Default to UTF-8.
- Any errors will be simply ignored by the encoder NOT replaced.
- """
- if self._output_encoding is None or self._output_encoding != encoding:
- self._output_encoding = encoding
- self._output_payload = str(self).encode(encoding, "replace")
-
- return self._output_payload # type: ignore
-
- @property
- def fingerprint(self) -> str:
- """
- Retrieve the unique SHA256 computed using the transformed (re-encoded) payload. Not the original one.
- """
- return sha256(self.output()).hexdigest()
-
-
- class CharsetMatches:
- """
- Container with every CharsetMatch items ordered by default from most probable to the less one.
- Act like a list(iterable) but does not implements all related methods.
- """
-
- def __init__(self, results: Optional[List[CharsetMatch]] = None):
- self._results: List[CharsetMatch] = sorted(results) if results else []
-
- def __iter__(self) -> Iterator[CharsetMatch]:
- yield from self._results
-
- def __getitem__(self, item: Union[int, str]) -> CharsetMatch:
- """
- Retrieve a single item either by its position or encoding name (alias may be used here).
- Raise KeyError upon invalid index or encoding not present in results.
- """
- if isinstance(item, int):
- return self._results[item]
- if isinstance(item, str):
- item = iana_name(item, False)
- for result in self._results:
- if item in result.could_be_from_charset:
- return result
- raise KeyError
-
- def __len__(self) -> int:
- return len(self._results)
-
- def __bool__(self) -> bool:
- return len(self._results) > 0
-
- def append(self, item: CharsetMatch) -> None:
- """
- Insert a single match. Will be inserted accordingly to preserve sort.
- Can be inserted as a submatch.
- """
- if not isinstance(item, CharsetMatch):
- raise ValueError(
- "Cannot append instance '{}' to CharsetMatches".format(
- str(item.__class__)
- )
- )
- # We should disable the submatch factoring when the input file is too heavy (conserve RAM usage)
- if len(item.raw) <= TOO_BIG_SEQUENCE:
- for match in self._results:
- if match.fingerprint == item.fingerprint and match.chaos == item.chaos:
- match.add_submatch(item)
- return
- self._results.append(item)
- self._results = sorted(self._results)
-
- def best(self) -> Optional["CharsetMatch"]:
- """
- Simply return the first match. Strict equivalent to matches[0].
- """
- if not self._results:
- return None
- return self._results[0]
-
- def first(self) -> Optional["CharsetMatch"]:
- """
- Redundant method, call the method best(). Kept for BC reasons.
- """
- return self.best()
-
-
- CoherenceMatch = Tuple[str, float]
- CoherenceMatches = List[CoherenceMatch]
-
-
- class CliDetectionResult:
- def __init__(
- self,
- path: str,
- encoding: Optional[str],
- encoding_aliases: List[str],
- alternative_encodings: List[str],
- language: str,
- alphabets: List[str],
- has_sig_or_bom: bool,
- chaos: float,
- coherence: float,
- unicode_path: Optional[str],
- is_preferred: bool,
- ):
- self.path: str = path
- self.unicode_path: Optional[str] = unicode_path
- self.encoding: Optional[str] = encoding
- self.encoding_aliases: List[str] = encoding_aliases
- self.alternative_encodings: List[str] = alternative_encodings
- self.language: str = language
- self.alphabets: List[str] = alphabets
- self.has_sig_or_bom: bool = has_sig_or_bom
- self.chaos: float = chaos
- self.coherence: float = coherence
- self.is_preferred: bool = is_preferred
-
- @property
- def __dict__(self) -> Dict[str, Any]: # type: ignore
- return {
- "path": self.path,
- "encoding": self.encoding,
- "encoding_aliases": self.encoding_aliases,
- "alternative_encodings": self.alternative_encodings,
- "language": self.language,
- "alphabets": self.alphabets,
- "has_sig_or_bom": self.has_sig_or_bom,
- "chaos": self.chaos,
- "coherence": self.coherence,
- "unicode_path": self.unicode_path,
- "is_preferred": self.is_preferred,
- }
-
- def to_json(self) -> str:
- return dumps(self.__dict__, ensure_ascii=True, indent=4)
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