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Multilingual phonetic-similarity replacement engine — a proper-noun substitution tool based on phonetic similarity, supporting ASR/LLM post-processing.

Project description

Phonofix

English 繁體中文

Phonofix Logo

PyPI version Python versions License Snapshot Changelog

Multilingual phonetic-similarity substitution engine for proper nouns

Useful for ASR/LLM post-processing, proper-noun standardization, and homophone/near-homophone correction.


Table of Contents


Supported Languages

Language Phonetic Key Engine Extras
Chinese Pinyin ChineseEngine phonofix[ch]
English IPA EnglishEngine phonofix[en]
Japanese Romaji JapaneseEngine phonofix[ja]

Note: More languages will be added over time. Since the author is not fluent in all languages, some language modules are developed with AI assistance and may contain mistakes. If you find issues in real usage, please report them via GitHub Issues:

Core Concepts

  • You provide a proper-noun dictionary (canonical + aliases/config).
  • The system maps both the dictionary and the input text into a phonetic key space.
  • Matches are applied back to the original string, outputting the canonical spelling.

Note: This is not a full-text spell checker; it focuses on the proper nouns you care about.

Quick Start (Latest API)

Chinese

from phonofix import ChineseEngine

engine = ChineseEngine()
corrector = engine.create_corrector({"台北車站": ["北車", "胎北車站"]})

print(corrector.correct("我在北車等你"))
# Output: 我在台北車站等你

English (requires espeak-ng)

from phonofix import EnglishEngine

engine = EnglishEngine()
corrector = engine.create_corrector({"TensorFlow": ["Ten so floor"], "Python": ["Pyton"]})

print(corrector.correct("I use Pyton to write Ten so floor code"))
# Output: I use Python to write TensorFlow code

Japanese

from phonofix import JapaneseEngine

engine = JapaneseEngine()
corrector = engine.create_corrector({"会議": ["kaigi"], "ロボット": ["robotto"]})

print(corrector.correct("明日のkaigiに参加します"))
# Output: 明日の会議に参加します
print(corrector.correct("新しいrobottoのkaihatsu"))  # Example: can also correct other terms
# Output: 新しいロボットのkaihatsu

Mixed Language (manual chaining)

This project does not perform automatic language detection. For mixed inputs, manually chain correctors:

from phonofix import ChineseEngine, EnglishEngine

ch = ChineseEngine().create_corrector({"台北車站": ["北車"]})
en = EnglishEngine().create_corrector({"Python": ["Pyton"]})

text = "我在北車用Pyton寫code"
text = en.correct(text, full_context=text)
text = ch.correct(text, full_context=text)
print(text)
# Output: 我在台北車站用Python寫code

Observability & Failure Policy

Principle: degrade is allowed, but silent degrade is not.

  • on_event: preferred SDK surface for collecting replacements, errors, and degrade signals
  • silent=True: only disables logger output; events can still be used for observability
  • fail_policy:
    • "degrade" (default): on fuzzy exception, fall back to exact-only and emit events
    • "raise": on fuzzy exception, raise immediately (good for CI/offline evaluation)
  • mode:
    • "production" is equivalent to fail_policy="degrade"
    • "evaluation" is equivalent to fail_policy="raise"
  • trace_id: correlation ID for events produced by a single correct() call (caller-provided)

Substitution Algorithm Flow (Overview)

Reference implementation: PipelineCorrectorBase.correct() (see snapshot.md for the full symbol list).

This project does not do automatic language detection. For mixed-language inputs, manually chain correctors (see the example above).

Input text
    │
    ▼
┌─────────────────────────────────────┐
│ 1. Build a protection mask          │
│    Mark spans covered by            │
│    protected_terms                  │
│    Protected spans are excluded     │
│    from substitution               │
└─────────────────────────────────────┘
    │
    ▼
┌─────────────────────────────────────┐
│ 2. Generate candidate drafts        │
│    2.1 exact: Aho-Corasick matches  │
│    2.2 fuzzy: sliding windows +     │
│         phonetic similarity         │
│         - can degrade to exact-only │
│           via fail_policy           │
└─────────────────────────────────────┘
    │
    ▼
┌─────────────────────────────────────┐
│ 3. Filter by keywords/exclude_when  │
│    - exclude_when matched → skip    │
│    - keywords not satisfied → skip  │
└─────────────────────────────────────┘
    │
    ▼
┌─────────────────────────────────────┐
│ 4. Calculate final score            │
│    Score = error_ratio - weight -   │
│            context_bonus            │
│    (lower is better)                │
└─────────────────────────────────────┘
    │
    ▼
┌─────────────────────────────────────┐
│ 5. Conflict resolution              │
│    Sort by score, keep the best     │
│    non-overlapping candidates       │
└─────────────────────────────────────┘
    │
    ▼
┌─────────────────────────────────────┐
│ 6. Apply replacements               │
│    Rebuild the output string in     │
│    ascending start order to avoid   │
│    index shifting                   │
│    and ensure consistent output     │
└─────────────────────────────────────┘
    │
    ▼
Output

Installation

Requirements

  • Python >=3.10

Using uv (recommended)

uv add phonofix

You can also use extras to make dependency intent explicit (actual versions are defined in pyproject.toml):

uv add "phonofix[ch]"
uv add "phonofix[en]"
uv add "phonofix[ja]"

English Support (espeak-ng)

English phonetic features depend on the system package espeak-ng.

Recommended: use the setup scripts under scripts/ (they help install and configure environment variables):

  • Windows PowerShell: .\scripts\setup_espeak.ps1
  • Windows CMD: scripts\setup_espeak_windows.bat
  • macOS / Linux: ./scripts/setup_espeak.sh

Manual installation:

  • macOS: brew install espeak-ng
  • Linux: apt install espeak-ng

Development & Validation

  • Run tests: pytest -q
  • Run examples:
    • Chinese: python examples/chinese_examples.py
    • English: python examples/english_examples.py
    • Japanese: python examples/japanese_examples.py
  • Generate project snapshot: python tools/snapshot.py (outputs snapshot.md)

License

MIT License

Acknowledgments

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