testsAndMisc/python_pkg/word_frequency/translator.py
Krzysztof kuhy Rudnicki 0460f3fac6 refactor(word_frequency): fix all ruff violations and remove noqa comments
- Replace print() with logging module throughout
- Add type annotations and Google docstrings to all functions
- Introduce DeckInput and LessonConfig dataclasses to reduce function parameters
- Use specific exception types instead of bare except (BLE001)
- Remove all noqa suppression comments
- Fix test fixtures: remove unused _capsys/_tmp_path parameters
2026-03-13 20:41:31 +01:00

952 lines
26 KiB
Python
Executable File

#!/usr/bin/env python3
r"""Translator - translates words/text between languages.
This module provides translation capabilities using either:
1. Argos Translate (offline, requires large downloads)
2. deep-translator (online, uses Google Translate)
Usage::
# Translate a single word
python -m python_pkg.word_frequency.translator \\
--text "hello" --from en --to es
# Translate multiple words
python -m python_pkg.word_frequency.translator \\
--words hello world goodbye --from en --to pl
# Translate words from a file (one word per line)
python -m python_pkg.word_frequency.translator \\
--words-file words.txt --from la --to en
# List available languages
python -m python_pkg.word_frequency.translator \\
--list-languages
# Output to file
python -m python_pkg.word_frequency.translator \\
--words-file vocab.txt --from pl --to en \\
--output translations.txt
Dependencies (install one)::
pip install deep-translator
pip install argostranslate
"""
from __future__ import annotations
import argparse
import importlib
import logging
import os
from pathlib import Path
import subprocess
import sys
from typing import TYPE_CHECKING, NamedTuple
if TYPE_CHECKING:
from collections.abc import Sequence
try:
import torch
except ImportError:
torch = None # type: ignore[assignment]
try:
import argostranslate.package
import argostranslate.translate
except ImportError:
argostranslate = None # type: ignore[assignment]
try:
from deep_translator import GoogleTranslator
except ImportError:
GoogleTranslator = None
try:
import langdetect
except ImportError:
langdetect = None # type: ignore[assignment]
try:
from python_pkg.word_frequency.cache import (
get_translation_cache,
)
except ImportError:
get_translation_cache = None
logger = logging.getLogger(__name__)
_LANG_DETECT_SAMPLE_SIZE = 5000
_BATCH_SIZE = 100
class _TranslatorState:
"""Holds module-level state for lazy-initialized backends."""
gpu_initialized: bool = False
def _check_cuda_available() -> bool:
"""Check if CUDA is available for GPU acceleration."""
return torch is not None and torch.cuda.is_available()
def _validate_gpu_device() -> str:
"""Validate GPU device availability and return device name.
Raises:
RuntimeError: If no GPU devices are found.
"""
device_count = torch.cuda.device_count()
if device_count == 0:
msg = "CUDA reports available but no GPU devices found"
raise RuntimeError(msg)
return torch.cuda.get_device_name(0)
def _init_gpu_if_available() -> None:
"""Initialize GPU for argostranslate if CUDA is available.
Raises:
RuntimeError: If CUDA is available but GPU init fails.
"""
if _TranslatorState.gpu_initialized:
return
if not _check_cuda_available():
_TranslatorState.gpu_initialized = True
return
logger.info(
"CUDA detected, initializing GPU acceleration..."
)
try:
device_name = _validate_gpu_device()
logger.info(" Using GPU: %s", device_name)
os.environ["CT2_CUDA_ALLOW_FP16"] = "1"
os.environ["CT2_USE_EXPERIMENTAL_PACKED_GEMM"] = "1"
_TranslatorState.gpu_initialized = True
logger.info(" GPU acceleration enabled.")
except Exception as e:
msg = (
f"CUDA is available but GPU initialization failed: "
f"{e}\nThis may be due to incompatible CUDA "
"version or driver issues.\n"
"To disable GPU and use CPU only, set "
"environment variable: CT2_FORCE_CPU=1"
)
raise RuntimeError(msg) from e
def _check_argos() -> bool:
"""Check if argostranslate is available."""
return argostranslate is not None
def _check_deep_translator() -> bool:
"""Check if deep-translator is available."""
return GoogleTranslator is not None
def _check_langdetect() -> bool:
"""Check if langdetect is available."""
return langdetect is not None
def detect_language(text: str) -> str | None:
"""Detect the language of a text.
Args:
text: The text to analyze.
Returns:
ISO 639-1 language code (e.g., 'en', 'la', 'pl') or None if detection fails.
"""
if not _check_langdetect():
return None
try:
sample = (
text[:_LANG_DETECT_SAMPLE_SIZE]
if len(text) > _LANG_DETECT_SAMPLE_SIZE
else text
)
return langdetect.detect(sample) # type: ignore[no-any-return,union-attr]
except langdetect.LangDetectException: # type: ignore[attr-defined,union-attr]
return None
class TranslationResult(NamedTuple):
"""Result of a translation."""
source_word: str
translated_word: str
source_lang: str
target_lang: str
success: bool
error: str | None = None
def get_installed_languages() -> list[tuple[str, str]]:
"""Get list of installed languages.
Returns:
List of (code, name) tuples for installed languages.
"""
if not _check_argos():
return []
languages = argostranslate.translate.get_installed_languages()
return [(lang.code, lang.name) for lang in languages]
def get_available_packages() -> list[tuple[str, str, str, str]]:
"""Get list of available language packages for download.
Returns:
List of (from_code, from_name, to_code, to_name) tuples.
"""
if not _check_argos():
return []
argostranslate.package.update_package_index()
available = argostranslate.package.get_available_packages()
return [
(pkg.from_code, pkg.from_name, pkg.to_code, pkg.to_name) for pkg in available
]
def download_languages(lang_codes: Sequence[str]) -> dict[str, bool]:
"""Download language packages for the specified languages.
Downloads packages for translation between English and the specified languages,
and between each pair of specified languages if available.
Args:
lang_codes: List of language codes to download (e.g., ['en', 'es', 'pl']).
Returns:
Dict mapping "from->to" to success boolean.
"""
if not _check_argos():
return {}
results: dict[str, bool] = {}
# Update package index
logger.info("Updating package index...")
argostranslate.package.update_package_index()
available = argostranslate.package.get_available_packages()
# Create a lookup for available packages
available_lookup: dict[tuple[str, str], object] = {}
for pkg in available:
available_lookup[(pkg.from_code, pkg.to_code)] = pkg
# Download packages for all requested language pairs
lang_codes_set = set(lang_codes)
for from_code in lang_codes_set:
for to_code in lang_codes_set:
if from_code == to_code:
continue
key = f"{from_code}->{to_code}"
pkg_key = (from_code, to_code)
if pkg_key in available_lookup:
pkg = available_lookup[pkg_key]
try:
logger.info(
"Downloading %s -> %s...",
from_code,
to_code,
)
argostranslate.package.install_from_path(pkg.download())
results[key] = True
logger.info(
" Installed %s -> %s",
from_code,
to_code,
)
except (OSError, RuntimeError, ValueError) as e:
results[key] = False
logger.info(
" Failed %s -> %s: %s",
from_code,
to_code,
e,
)
else:
# Package not available
results[key] = False
return results
def _ensure_argos_installed() -> None:
"""Ensure argostranslate is installed, attempt installation if not.
Raises:
ImportError: If argos cannot be installed.
"""
if _check_argos():
return
logger.info("argostranslate not found. Attempting to install...")
try:
subprocess.run(
[sys.executable, "-m", "pip", "install", "argostranslate"],
check=True,
capture_output=True,
)
# Attempt runtime re-import
importlib.import_module("argostranslate.package")
importlib.import_module("argostranslate.translate")
logger.info("argostranslate installed successfully.")
except subprocess.CalledProcessError as e:
error_msg = e.stderr.decode() if e.stderr else str(e)
msg = (
"argostranslate is required for offline "
"translation.\n\n"
"Install manually with one of:\n"
" pip install argostranslate"
" # In a virtualenv\n"
" pipx install argostranslate"
" # System-wide via pipx\n"
" pacman -S python-argostranslate"
" # Arch Linux (if available)\n\n"
f"Original error: {error_msg}"
)
raise ImportError(msg) from e
except ImportError:
msg = (
"argostranslate installation succeeded but "
"import failed"
)
raise ImportError(msg) from None
def _ensure_language_pair(from_lang: str, to_lang: str) -> None:
"""Ensure the language pair is available, download if needed.
Args:
from_lang: Source language code.
to_lang: Target language code.
Raises:
ValueError: If language pair cannot be obtained.
"""
installed_languages = (
argostranslate.translate.get_installed_languages()
)
from_lang_obj = None
to_lang_obj = None
for lang in installed_languages:
if lang.code == from_lang:
from_lang_obj = lang
if lang.code == to_lang:
to_lang_obj = lang
if from_lang_obj and to_lang_obj:
# Check if translation is available
translation = from_lang_obj.get_translation(to_lang_obj)
if translation:
return # Already available
# Need to download
logger.info(
"Downloading language pack: %s -> %s...",
from_lang,
to_lang,
)
logger.info(" Fetching package index...")
argostranslate.package.update_package_index()
available = argostranslate.package.get_available_packages()
pkg = next(
(
p
for p in available
if p.from_code == from_lang and p.to_code == to_lang
),
None,
)
if pkg is None:
msg = (
f"No language pack available for "
f"{from_lang} -> {to_lang}. "
"Available pairs can be listed with "
"--list-languages."
)
raise ValueError(msg)
logger.info(
" Downloading package (~50-100MB, "
"this may take a minute)...",
)
download_path = pkg.download()
logger.info(" Installing language pack...")
argostranslate.package.install_from_path(download_path)
logger.info(
"Language pack %s -> %s installed.",
from_lang,
to_lang,
)
def translate_word(
word: str,
from_lang: str,
to_lang: str,
*,
use_cache: bool = True,
) -> TranslationResult:
"""Translate a single word using argostranslate (offline).
Args:
word: The word to translate.
from_lang: Source language code (e.g., 'en', 'pl', 'la').
to_lang: Target language code.
use_cache: Whether to use/update translation cache.
Returns:
TranslationResult with the translation.
Raises:
ImportError: If argostranslate is not available and cannot be installed.
"""
# Check cache first
if use_cache and get_translation_cache is not None:
cache = get_translation_cache()
cached = cache.get(word, from_lang, to_lang)
if cached is not None:
return TranslationResult(
source_word=word,
translated_word=cached,
source_lang=from_lang,
target_lang=to_lang,
success=True,
)
# Ensure argos is installed (will raise if it can't be)
_ensure_argos_installed()
try:
translated = argostranslate.translate.translate(
word, from_lang, to_lang,
)
# Cache the result
if use_cache and get_translation_cache is not None:
get_translation_cache().set(
word, from_lang, to_lang, translated,
)
return TranslationResult(
source_word=word,
translated_word=translated,
source_lang=from_lang,
target_lang=to_lang,
success=True,
)
except (OSError, RuntimeError, ValueError, TypeError) as e:
return TranslationResult(
source_word=word,
translated_word="",
source_lang=from_lang,
target_lang=to_lang,
success=False,
error=str(e),
)
def translate_words(
words: Sequence[str],
from_lang: str,
to_lang: str,
*,
use_cache: bool = True,
) -> list[TranslationResult]:
"""Translate multiple words.
Args:
words: List of words to translate.
from_lang: Source language code.
to_lang: Target language code.
use_cache: Whether to use translation cache.
Returns:
List of TranslationResult for each word.
"""
return [
translate_word(word, from_lang, to_lang, use_cache=use_cache) for word in words
]
def _translate_batch_worker(
batch_words: list[str],
from_lang: str,
to_lang: str,
batch_idx: int,
) -> tuple[int, dict[str, str]]:
"""Worker function to translate a batch of words.
Args:
batch_words: Words to translate in this batch.
from_lang: Source language code.
to_lang: Target language code.
batch_idx: Index of this batch (for ordering results).
Returns:
Tuple of (batch_idx, translations dict).
"""
translations: dict[str, str] = {}
# Batch translate by joining with newlines
batch_text = "\n".join(batch_words)
translated_batch = argostranslate.translate.translate(
batch_text, from_lang, to_lang
)
translated_words = translated_batch.split("\n")
# If we got the same number of translations, use them
if len(translated_words) == len(batch_words):
for word, trans in zip(batch_words, translated_words, strict=True):
translations[word.lower()] = trans.strip()
else:
# Fall back to individual translation for this batch
for word in batch_words:
translated = argostranslate.translate.translate(word, from_lang, to_lang)
translations[word.lower()] = translated
return batch_idx, translations
def _run_batch_translation(
words_to_translate: list[str],
from_lang: str,
to_lang: str,
) -> dict[str, str]:
"""Translate a list of words in batches with progress logging.
Args:
words_to_translate: Words needing translation.
from_lang: Source language code.
to_lang: Target language code.
Returns:
Dict mapping lowercased words to translations.
Raises:
RuntimeError: If translation fails.
"""
new_translations: dict[str, str] = {}
num_to_translate = len(words_to_translate)
gpu_status = (
" (GPU)" if _check_cuda_available() else " (CPU)"
)
logger.info(
"Translating %d words from %s to %s%s...",
num_to_translate,
from_lang,
to_lang,
gpu_status,
)
try:
batches = [
words_to_translate[i : i + _BATCH_SIZE]
for i in range(0, num_to_translate, _BATCH_SIZE)
]
total_batches = len(batches)
for batch_idx, batch_words in enumerate(batches):
words_done = min(
(batch_idx + 1) * _BATCH_SIZE,
num_to_translate,
)
pct = int(words_done / num_to_translate * 100)
logger.info(
" [%3d%%] Translating batch %d/%d "
"(%d/%d words)...",
pct,
batch_idx + 1,
total_batches,
words_done,
num_to_translate,
)
_, batch_translations = _translate_batch_worker(
batch_words, from_lang, to_lang, batch_idx,
)
new_translations.update(batch_translations)
logger.info(" Translation complete.")
except Exception as e:
msg = (
f"Translation failed for "
f"{from_lang} -> {to_lang}: {e}"
)
raise RuntimeError(msg) from e
return new_translations
def translate_words_batch(
words: Sequence[str],
from_lang: str,
to_lang: str,
*,
use_cache: bool = True,
) -> list[TranslationResult]:
"""Translate multiple words using argostranslate (offline).
Uses small batch translation for efficiency with frequent progress updates.
Requires argostranslate. Will use GPU if CUDA is available.
Args:
words: List of words to translate.
from_lang: Source language code.
to_lang: Target language code.
use_cache: Whether to use translation cache.
Returns:
List of TranslationResult for each word.
Raises:
ImportError: If argostranslate is not available and cannot be installed.
RuntimeError: If CUDA is available but GPU initialization fails.
"""
if not words:
return []
_ensure_argos_installed()
_init_gpu_if_available()
_ensure_language_pair(from_lang, to_lang)
# Check cache for already-translated words
cached_results: dict[str, str] = {}
if use_cache and get_translation_cache is not None:
cache = get_translation_cache()
cached_results = cache.get_many(
list(words), from_lang, to_lang,
)
# Find words that still need translation
words_to_translate = [
word for word in words
if word.lower() not in cached_results
]
# Translate uncached words using argos batch
new_translations: dict[str, str] = {}
if words_to_translate:
new_translations = _run_batch_translation(
words_to_translate, from_lang, to_lang,
)
# Cache new translations
if use_cache and get_translation_cache is not None:
get_translation_cache().set_many(
new_translations, from_lang, to_lang,
)
# Merge cached and new translations
all_translations = {**cached_results, **new_translations}
# Build results in original order
results: list[TranslationResult] = []
for word in words:
translation = all_translations.get(word.lower(), "")
results.append(
TranslationResult(
source_word=word,
translated_word=translation,
source_lang=from_lang,
target_lang=to_lang,
success=bool(translation),
error=None if translation else "Translation failed",
)
)
return results
def format_translations(
results: list[TranslationResult],
*,
show_errors: bool = True,
) -> str:
"""Format translation results as a table.
Args:
results: List of TranslationResult to format.
show_errors: If True, show error messages for failed translations.
Returns:
Formatted string with translations.
"""
if not results:
return "No translations."
lines: list[str] = []
# Find max widths
max_source = max(len(r.source_word) for r in results)
max_source = max(max_source, 6) # "Source" header
successful_lengths = [len(r.translated_word) for r in results if r.success]
max_trans = max(successful_lengths) if successful_lengths else 0
max_trans = max(max_trans, 11) # "Translation" header minimum
# Header
from_lang = results[0].source_lang
to_lang = results[0].target_lang
lines.append(f"Translation: {from_lang} -> {to_lang}")
lines.append("")
lines.append(f"{'Source':<{max_source}} {'Translation':<{max_trans}}")
lines.append("-" * (max_source + max_trans + 2))
# Data
for r in results:
if r.success:
lines.append(
f"{r.source_word:<{max_source}} {r.translated_word:<{max_trans}}"
)
elif show_errors:
error_msg = f"[Error: {r.error}]" if r.error else "[Failed]"
lines.append(f"{r.source_word:<{max_source}} {error_msg}")
return "\n".join(lines)
def read_file(filepath: str | Path) -> str:
"""Read text content from a file."""
return Path(filepath).read_text(encoding="utf-8")
def _build_parser() -> argparse.ArgumentParser:
"""Build the argument parser for the translator CLI."""
parser = argparse.ArgumentParser(
description="Offline translator using Argos Translate.",
formatter_class=argparse.RawDescriptionHelpFormatter,
epilog=__doc__,
)
action_group = parser.add_mutually_exclusive_group()
action_group.add_argument(
"--list-languages",
"-l",
action="store_true",
help="List installed languages",
)
action_group.add_argument(
"--list-available",
"-L",
action="store_true",
help="List available language packages for download",
)
action_group.add_argument(
"--download",
"-d",
nargs="+",
metavar="LANG",
help=(
"Download language packs "
"(e.g., --download en es pl)"
),
)
input_group = parser.add_mutually_exclusive_group()
input_group.add_argument(
"--text",
"-t",
type=str,
help="Single text/word to translate",
)
input_group.add_argument(
"--words",
"-w",
nargs="+",
help="Words to translate",
)
input_group.add_argument(
"--words-file",
"-W",
type=str,
help="File with words to translate (one per line)",
)
parser.add_argument(
"--from",
"-f",
dest="from_lang",
type=str,
default="en",
help="Source language code (default: en)",
)
parser.add_argument(
"--to",
"-T",
dest="to_lang",
type=str,
default="en",
help="Target language code (default: en)",
)
parser.add_argument(
"--output",
"-o",
type=str,
help="Output file path",
)
return parser
def _handle_list_languages() -> int:
"""Handle --list-languages command."""
langs = get_installed_languages()
if not langs:
sys.stdout.write("No languages installed.\n")
sys.stdout.write(
"Download some with: --download en es pl de fr\n",
)
else:
sys.stdout.write("Installed languages:\n")
for code, name in sorted(langs):
sys.stdout.write(f" {code}: {name}\n")
return 0
def _handle_list_available() -> int:
"""Handle --list-available command."""
packages = get_available_packages()
if not packages:
sys.stdout.write(
"No packages available "
"(check internet connection).\n",
)
else:
sys.stdout.write("Available language packages:\n")
for from_code, from_name, to_code, to_name in sorted(
packages,
):
sys.stdout.write(
f" {from_code} ({from_name})"
f" -> {to_code} ({to_name})\n",
)
return 0
def _handle_download(lang_codes: list[str]) -> int:
"""Handle --download command."""
download_results = download_languages(lang_codes)
success_count = sum(
1 for v in download_results.values() if v
)
sys.stdout.write(
f"\nDownloaded {success_count}/"
f"{len(download_results)} language pairs.\n",
)
return 0 if success_count > 0 else 1
def _collect_words(
args: argparse.Namespace,
) -> list[str] | None:
"""Collect words from args. Returns None on error."""
if args.text:
return [args.text]
if args.words:
return args.words
if args.words_file:
try:
content = read_file(args.words_file)
except FileNotFoundError:
sys.stderr.write(
f"Error: File not found: {args.words_file}\n",
)
return None
return [
w.strip()
for w in content.splitlines()
if w.strip()
]
return []
def _handle_translation(args: argparse.Namespace) -> int:
"""Handle the translation action."""
try:
results = translate_words_batch(
args.words, args.from_lang, args.to_lang,
)
except ImportError:
logger.exception("Translation import error")
return 1
output = format_translations(results)
if args.output:
Path(args.output).write_text(output, encoding="utf-8")
sys.stdout.write(
f"Translations written to {args.output}\n",
)
else:
sys.stdout.write(output + "\n")
if any(not r.success for r in results):
return 1
return 0
def main(argv: Sequence[str] | None = None) -> int:
"""Main entry point for the translator.
Args:
argv: Command line arguments.
Returns:
Exit code.
"""
parser = _build_parser()
args = parser.parse_args(argv)
if not _check_argos():
sys.stderr.write(
"Error: argostranslate is not installed.\n"
"Install it with: pip install argostranslate\n",
)
return 1
if args.list_languages:
return _handle_list_languages()
if args.list_available:
return _handle_list_available()
if args.download:
return _handle_download(args.download)
words = _collect_words(args)
if not words:
if words is not None:
parser.print_help()
return 1
args.words = words
return _handle_translation(args)
if __name__ == "__main__":
sys.exit(main())