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bazarr/libs/charamel/detector.py

133 lines
4 KiB
Python

"""
🌏 Charamel: Truly Universal Encoding Detection in Python 🌎
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Licensed under Apache 2.0
"""
import itertools
import math
from typing import Dict, List, Optional, Sequence, Set, Tuple
from charamel.encoding import Encoding
from charamel.resources import load_biases, load_features, load_weights
def _get_features(content: bytes) -> Set[int]:
"""
Extract unique byte uni-grams and bi-grams
Args:
content: Encoded text
Returns:
Set of integers that represent byte n-grams
"""
pairs = zip(content, itertools.islice(content, 1, None))
return set(content).union(x * 256 + y for x, y in pairs)
def _apply_sigmoid(value: float) -> float:
"""
Apply sigmoid function to given value
"""
return 1 / (1 + math.exp(-value))
class Detector:
"""
Universal encoding detector
"""
def __init__(
self,
encodings: Sequence[Encoding] = tuple(Encoding),
min_confidence: float = 0.0,
):
"""
Create universal encoding detector for given encodings
Args:
encodings: Encodings that will be supported by this Detector instance,
less encodings lead to faster runtime
min_confidence: Minimum confidence threshold for encodings
Example:
>>> detector = Detector(
... encodings=[Encoding.UTF_8, Encoding.BIG_5],
... min_confidence=0.7,
... )
"""
if not encodings:
raise ValueError('No encodings specified')
if not 0.0 <= min_confidence <= 1.0:
raise ValueError('min_confidence must be in range [0, 1]')
self._features = load_features()
self._weights = load_weights(encodings)
self._biases = load_biases(encodings)
self._min_confidence = min_confidence
def _score(self, content: bytes) -> Dict[Encoding, float]:
"""
Compute how likely each encoding is able to decode the content
Args:
content: Encoded text
Returns:
Real-valued score for each encoding
"""
scores = self._biases.copy()
features = _get_features(content).intersection(self._features)
indices = [self._features[feature] for feature in features]
for encoding, weights in self._weights.items():
scores[encoding] += sum(weights[index] for index in indices)
return scores
def detect(self, content: bytes) -> Optional[Encoding]:
"""
Detect the most probable encoding for given byte content
Args:
content: Encoded text
Returns:
Encoding or `None` if not confident enough
Example:
>>> detector = Detector()
>>> detector.detect(b'\xc4\xe3\xba\xc3')
<Encoding.GB_K: 'gbk'>
"""
scores = self._score(content)
if scores:
encoding, score = max(scores.items(), key=lambda x: x[1])
if _apply_sigmoid(score) >= self._min_confidence:
return encoding
return None
def probe(self, content: bytes, top: int = 3) -> List[Tuple[Encoding, float]]:
"""
Detect `top` probable encodings with confidences
Args:
content: Encoded text
top: How many of the most likely encodings to return
Example:
>>> detector = Detector()
>>> detector.probe(b'\xc4\xe3\xba\xc3')
[(<Encoding.GB_K: 'gbk'>, 0.6940633812304486),
(<Encoding.GB_18030: 'gb18030'>, 0.6886364021582343),
(<Encoding.GB_2312: 'gb2312'>, 0.6707061223726806)]
"""
scores = sorted(self._score(content).items(), key=lambda x: x[1], reverse=True)
confidences = [
(encoding, _apply_sigmoid(score)) for encoding, score in scores[:top]
]
return [
(encoding, confidence)
for encoding, confidence in confidences
if confidence >= self._min_confidence
]