Files
abogen/abogen/subtitle_utils.py
T
Artem Akymenko d8fcfb1cce chore: normalize line endings to LF, add .gitattributes
- Add .gitattributes with text=auto eol=lf for all text files
- Renormalize all files in index to LF line endings
- Fixes massive whitespace-only diffs between main and feature branch
2026-07-12 16:20:42 +03:00

585 lines
22 KiB
Python

import re
import platform
from abogen.utils import detect_encoding, load_config
from abogen.constants import SAMPLE_VOICE_TEXTS
# Pre-compile frequently used regex patterns for better performance
_METADATA_TAG_PATTERN = re.compile(r"<<METADATA_[^:]+:[^>]*>>")
_WHITESPACE_PATTERN = re.compile(r"[^\S\n]+")
_MULTIPLE_NEWLINES_PATTERN = re.compile(r"\n{3,}")
_SINGLE_NEWLINE_PATTERN = re.compile(r"(?<!\n)\n(?!\n)")
_CHAPTER_MARKER_PATTERN = re.compile(r"<<CHAPTER_MARKER:[^>]*>>")
_HTML_TAG_PATTERN = re.compile(r"<[^>]+>")
_VOICE_TAG_PATTERN = re.compile(r"{[^}]+}")
_ASS_STYLING_PATTERN = re.compile(r"\{[^}]+\}")
_ASS_NEWLINE_N_PATTERN = re.compile(r"\\N")
_ASS_NEWLINE_LOWER_N_PATTERN = re.compile(r"\\n")
_CHAPTER_MARKER_SEARCH_PATTERN = re.compile(r"<<CHAPTER_MARKER:(.*?)>>")
_VOICE_MARKER_PATTERN = re.compile(r"<<VOICE:[^>]*>>")
_VOICE_MARKER_SEARCH_PATTERN = re.compile(r"<<VOICE:(.*?)>>")
_WEBVTT_HEADER_PATTERN = re.compile(r"^WEBVTT.*?\n", re.MULTILINE)
_VTT_STYLE_PATTERN = re.compile(r"STYLE\s*\n.*?(?=\n\n|$)", re.DOTALL)
_VTT_NOTE_PATTERN = re.compile(r"NOTE\s*\n.*?(?=\n\n|$)", re.DOTALL)
_DOUBLE_NEWLINE_SPLIT_PATTERN = re.compile(r"\n\s*\n")
_VTT_TIMESTAMP_PATTERN = re.compile(r"([\d:.]+)\s*-->\s*([\d:.]+)")
_TIMESTAMP_ONLY_PATTERN = re.compile(r"^(\d{1,2}:\d{2}:\d{2}(?:[.,]\d{1,3})?)$")
_WINDOWS_ILLEGAL_CHARS_PATTERN = re.compile(r'[<>:"/\\|?*]')
_CONTROL_CHARS_PATTERN = re.compile(r"[\x00-\x1f]")
_LINUX_CONTROL_CHARS_PATTERN = re.compile(
r"[\x01-\x1f]"
) # Linux: exclude \x00 for separate handling
_MACOS_ILLEGAL_CHARS_PATTERN = re.compile(r"[:]")
_LINUX_ILLEGAL_CHARS_PATTERN = re.compile(r"[/\x00]")
def clean_subtitle_text(text):
"""Remove chapter markers, voice markers, and metadata tags from subtitle text."""
# Use pre-compiled patterns for better performance
text = _METADATA_TAG_PATTERN.sub("", text)
text = _CHAPTER_MARKER_PATTERN.sub("", text)
text = _VOICE_MARKER_PATTERN.sub("", text)
return text.strip()
def calculate_text_length(text):
# Use pre-compiled patterns for better performance
# Ignore chapter markers, voice markers, and metadata patterns in a single pass
text = _CHAPTER_MARKER_PATTERN.sub("", text)
text = _VOICE_MARKER_PATTERN.sub("", text)
text = _METADATA_TAG_PATTERN.sub("", text)
# Ignore newlines and leading/trailing spaces
text = text.replace("\n", "").strip()
# Calculate character count
char_count = len(text)
return char_count
def clean_text(text, *args, **kwargs):
# Remove metadata tags first
text = _METADATA_TAG_PATTERN.sub("", text)
# Load replace_single_newlines from config
cfg = load_config()
replace_single_newlines = cfg.get("replace_single_newlines", True)
# Collapse all whitespace (excluding newlines) into single spaces per line and trim edges
# Use pre-compiled pattern for better performance
lines = [_WHITESPACE_PATTERN.sub(" ", line).strip() for line in text.splitlines()]
text = "\n".join(lines)
# Standardize paragraph breaks (multiple newlines become exactly two) and trim overall whitespace
# Use pre-compiled pattern for better performance
text = _MULTIPLE_NEWLINES_PATTERN.sub("\n\n", text).strip()
# Optionally replace single newlines with spaces, but preserve double newlines
if replace_single_newlines:
# Use pre-compiled pattern for better performance
text = _SINGLE_NEWLINE_PATTERN.sub(" ", text)
return text
def parse_srt_file(file_path):
"""
Parse an SRT subtitle file and return a list of subtitle entries.
Args:
file_path: Path to the SRT file
Returns:
List of tuples: [(start_time_seconds, end_time_seconds, text), ...]
"""
encoding = detect_encoding(file_path)
with open(file_path, "r", encoding=encoding, errors="replace") as f:
content = f.read()
# Split by double newlines to get individual subtitle blocks
blocks = re.split(r"\n\s*\n", content.strip())
subtitles = []
for block in blocks:
if not block.strip():
continue
lines = block.strip().split("\n")
if len(lines) < 3:
continue
# First line is index, second line is timestamp, rest is text
try:
timestamp_line = lines[1]
match = re.match(
r"(\d{2}:\d{2}:\d{2},\d{3})\s*-->\s*(\d{2}:\d{2}:\d{2},\d{3})",
timestamp_line,
)
if not match:
continue
start_str = match.group(1)
end_str = match.group(2)
text = "\n".join(lines[2:])
# Convert timestamp to seconds
def time_to_seconds(t):
h, m, s_ms = t.split(":")
s, ms = s_ms.split(",")
return int(h) * 3600 + int(m) * 60 + int(s) + int(ms) / 1000.0
start_sec = time_to_seconds(start_str)
end_sec = time_to_seconds(end_str)
# Clean text of any styling tags using pre-compiled pattern
text = _HTML_TAG_PATTERN.sub("", text)
# Remove chapter markers and metadata tags
text = clean_subtitle_text(text)
if text: # Only add non-empty subtitles
subtitles.append((start_sec, end_sec, text))
except (ValueError, IndexError):
continue
return subtitles
def parse_vtt_file(file_path):
"""
Parse a VTT (WebVTT) subtitle file and return a list of subtitle entries.
Args:
file_path: Path to the VTT file
Returns:
List of tuples: [(start_time_seconds, end_time_seconds, text), ...]
"""
encoding = detect_encoding(file_path)
with open(file_path, "r", encoding=encoding, errors="replace") as f:
content = f.read()
# Remove WEBVTT header and any style/note blocks using pre-compiled patterns
content = _WEBVTT_HEADER_PATTERN.sub("", content)
content = _VTT_STYLE_PATTERN.sub("", content)
content = _VTT_NOTE_PATTERN.sub("", content)
# Split by double newlines to get individual subtitle blocks using pre-compiled pattern
blocks = _DOUBLE_NEWLINE_SPLIT_PATTERN.split(content.strip())
subtitles = []
for block in blocks:
if not block.strip():
continue
lines = block.strip().split("\n")
if len(lines) < 2:
continue
# VTT can have optional identifier on first line, timestamp on second or first
timestamp_line = None
text_start_idx = 0
# Check if first line is timestamp
if "-->" in lines[0]:
timestamp_line = lines[0]
text_start_idx = 1
elif len(lines) > 1 and "-->" in lines[1]:
timestamp_line = lines[1]
text_start_idx = 2
else:
continue
try:
# VTT format: 00:00:00.000 --> 00:00:05.000 or 00:00.000 --> 00:05.000
# Use pre-compiled pattern
match = _VTT_TIMESTAMP_PATTERN.match(timestamp_line)
if not match:
continue
start_str = match.group(1)
end_str = match.group(2)
text = "\n".join(lines[text_start_idx:])
# Convert timestamp to seconds
def time_to_seconds(t):
parts = t.split(":")
if len(parts) == 3: # HH:MM:SS.mmm
h, m, s = parts
s, ms = s.split(".")
return int(h) * 3600 + int(m) * 60 + int(s) + int(ms) / 1000.0
elif len(parts) == 2: # MM:SS.mmm
m, s = parts
s, ms = s.split(".")
return int(m) * 60 + int(s) + int(ms) / 1000.0
return 0
start_sec = time_to_seconds(start_str)
end_sec = time_to_seconds(end_str)
# Clean text of any styling tags and cue settings using pre-compiled patterns
text = _HTML_TAG_PATTERN.sub("", text)
text = _VOICE_TAG_PATTERN.sub("", text) # Remove voice tags
# Remove chapter markers and metadata tags
text = clean_subtitle_text(text)
if text: # Only add non-empty subtitles
subtitles.append((start_sec, end_sec, text))
except (ValueError, IndexError, AttributeError):
continue
return subtitles
def detect_timestamps_in_text(file_path):
"""Detect if text file contains timestamp markers (HH:MM:SS or HH:MM:SS,ms format) on separate lines."""
try:
encoding = detect_encoding(file_path)
with open(file_path, "r", encoding=encoding, errors="replace") as f:
lines = [
line.strip() for line in f.readlines()[:50] if line.strip()
] # Check first 50 non-empty lines
# Count lines that are ONLY timestamps (no other text)
# Supports HH:MM:SS or HH:MM:SS,ms format
# Use pre-compiled pattern for better performance
timestamp_lines = sum(
1 for line in lines if _TIMESTAMP_ONLY_PATTERN.match(line)
)
# Must have at least 2 timestamp-only lines and they should be >5% of total lines
return timestamp_lines >= 2 and (timestamp_lines / max(len(lines), 1)) > 0.05
except Exception:
return False
def parse_timestamp_text_file(file_path):
"""Parse text file with timestamps. Returns list of (start_time, end_time, text) tuples.
Supports HH:MM:SS or HH:MM:SS,ms format. Returns time in seconds as float."""
encoding = detect_encoding(file_path)
with open(file_path, "r", encoding=encoding, errors="replace") as f:
content = f.read()
# Split by timestamp pattern (supports HH:MM:SS or HH:MM:SS,ms)
pattern = r"^(\d{1,2}:\d{2}:\d{2}(?:[.,]\d{1,3})?)$"
lines = content.split("\n")
def parse_time(time_str):
"""Convert HH:MM:SS or HH:MM:SS,ms to seconds as float."""
time_str = time_str.replace(",", ".")
parts = time_str.split(":")
return float(int(parts[0]) * 3600 + int(parts[1]) * 60 + float(parts[2]))
entries = []
current_time = None
current_text = []
pre_timestamp_text = [] # Text before first timestamp
for line in lines:
match = re.match(pattern, line.strip())
if match:
# Save previous entry
if current_time is not None and current_text:
text = "\n".join(current_text).strip()
if text:
entries.append((current_time, text))
elif current_time is None and pre_timestamp_text:
# First timestamp found, save pre-timestamp text with time 0
text = "\n".join(pre_timestamp_text).strip()
if text:
entries.append((0.0, text))
pre_timestamp_text = []
# Start new entry
time_str = match.group(1)
current_time = parse_time(time_str)
current_text = []
elif current_time is not None:
current_text.append(line)
else:
# Text before first timestamp
pre_timestamp_text.append(line)
# Save last entry
if current_time is not None and current_text:
text = "\n".join(current_text).strip()
if text:
entries.append((current_time, text))
elif not entries and pre_timestamp_text:
# No timestamps found at all, treat entire file as starting at 0
text = "\n".join(pre_timestamp_text).strip()
if text:
entries.append((0.0, text))
# Convert to subtitle format with end times
subtitles = []
for i, (start_time, text) in enumerate(entries):
end_time = entries[i + 1][0] if i + 1 < len(entries) else None
# Remove chapter markers and metadata tags
text = clean_subtitle_text(text)
if text: # Only add non-empty entries
subtitles.append((start_time, end_time, text))
return subtitles
def parse_ass_file(file_path):
"""
Parse an ASS/SSA subtitle file and return a list of subtitle entries.
Args:
file_path: Path to the ASS/SSA file
Returns:
List of tuples: [(start_time_seconds, end_time_seconds, text), ...]
"""
encoding = detect_encoding(file_path)
with open(file_path, "r", encoding=encoding, errors="replace") as f:
lines = f.readlines()
subtitles = []
in_events = False
format_indices = {}
for line in lines:
line = line.strip()
if line.startswith("[Events]"):
in_events = True
continue
if line.startswith("[") and in_events:
# New section, stop processing
break
if in_events and line.startswith("Format:"):
# Parse format line to know column positions
parts = line.split(":", 1)[1].strip().split(",")
for i, part in enumerate(parts):
format_indices[part.strip().lower()] = i
continue
if in_events and (line.startswith("Dialogue:") or line.startswith("Comment:")):
if line.startswith("Comment:"):
continue # Skip comments
parts = line.split(":", 1)[1].strip().split(",", len(format_indices) - 1)
if (
"start" in format_indices
and "end" in format_indices
and "text" in format_indices
):
start_str = parts[format_indices["start"]].strip()
end_str = parts[format_indices["end"]].strip()
text = parts[format_indices["text"]].strip()
# Convert timestamp to seconds (ASS format: H:MM:SS.CS where CS is centiseconds)
def ass_time_to_seconds(t):
parts = t.split(":")
if len(parts) == 3:
h, m, s = parts
s_parts = s.split(".")
seconds = float(s_parts[0])
centiseconds = float(s_parts[1]) if len(s_parts) > 1 else 0
return (
int(h) * 3600 + int(m) * 60 + seconds + centiseconds / 100.0
)
return 0
start_sec = ass_time_to_seconds(start_str)
end_sec = ass_time_to_seconds(end_str)
# Clean text of ASS styling tags using pre-compiled patterns
text = _ASS_STYLING_PATTERN.sub("", text) # Remove {tags}
text = _ASS_NEWLINE_N_PATTERN.sub("\n", text) # Convert \N to newline
text = _ASS_NEWLINE_LOWER_N_PATTERN.sub(
"\n", text
) # Convert \n to newline
# Remove chapter markers and metadata tags
text = clean_subtitle_text(text)
if text: # Only add non-empty subtitles
subtitles.append((start_sec, end_sec, text))
return subtitles
def get_sample_voice_text(lang_code):
return SAMPLE_VOICE_TEXTS.get(lang_code, SAMPLE_VOICE_TEXTS["a"])
def sanitize_name_for_os(name, is_folder=True):
"""
Sanitize a filename or folder name based on the operating system.
Args:
name: The name to sanitize
is_folder: Whether this is a folder name (default: True)
Returns:
Sanitized name safe for the current OS
"""
if not name:
return "audiobook"
system = platform.system()
if system == "Windows":
# Windows illegal characters: < > : " / \ | ? *
# Also can't end with space or dot
# Use pre-compiled pattern for better performance
sanitized = _WINDOWS_ILLEGAL_CHARS_PATTERN.sub("_", name)
# Remove control characters (0-31)
sanitized = _CONTROL_CHARS_PATTERN.sub("_", sanitized)
# Remove trailing spaces and dots
sanitized = sanitized.rstrip(". ")
# Windows reserved names (CON, PRN, AUX, NUL, COM1-9, LPT1-9)
reserved = (
["CON", "PRN", "AUX", "NUL"]
+ [f"COM{i}" for i in range(1, 10)]
+ [f"LPT{i}" for i in range(1, 10)]
)
if sanitized.upper() in reserved or sanitized.upper().split(".")[0] in reserved:
sanitized = f"_{sanitized}"
elif system == "Darwin": # macOS
# macOS illegal characters: : (colon is converted to / by the system)
# Also can't start with dot (hidden file) for folders typically
# Use pre-compiled pattern for better performance
sanitized = _MACOS_ILLEGAL_CHARS_PATTERN.sub("_", name)
# Remove control characters
sanitized = _CONTROL_CHARS_PATTERN.sub("_", sanitized)
# Avoid leading dot for folders (creates hidden folders)
if is_folder and sanitized.startswith("."):
sanitized = "_" + sanitized[1:]
else: # Linux and others
# Linux illegal characters: / and null character
# Though / is illegal, most other chars are technically allowed
# Use pre-compiled pattern for better performance
sanitized = _LINUX_ILLEGAL_CHARS_PATTERN.sub("_", name)
# Remove other control characters for safety (excluding \x00 which is already handled)
sanitized = _LINUX_CONTROL_CHARS_PATTERN.sub("_", sanitized)
# Avoid leading dot for folders (creates hidden folders)
if is_folder and sanitized.startswith("."):
sanitized = "_" + sanitized[1:]
# Ensure the name is not empty after sanitization
if not sanitized or sanitized.strip() == "":
sanitized = "audiobook"
# Limit length to 255 characters (common limit across filesystems)
if len(sanitized) > 255:
sanitized = sanitized[:255].rstrip(". ")
return sanitized
def validate_voice_name(voice_name):
"""Validate voice name against available voices (case-insensitive).
Handles both single voices and formulas like 'af_heart*0.5 + am_echo*0.5'.
Args:
voice_name: Voice name or formula string to validate
Returns:
Tuple of (is_valid, invalid_voice_name):
- is_valid: True if all voices in the name/formula are valid
- invalid_voice_name: The first invalid voice found, or None if all valid
"""
from abogen.tts_plugin.utils import get_voices
# Create case-insensitive lookup set (done once per call)
voice_lookup_lower = {v.lower() for v in get_voices("kokoro")}
voice_name = voice_name.strip()
# Check if it's a formula (contains *)
if "*" in voice_name:
# Extract voice names from formula
voices = voice_name.split("+")
for term in voices:
if "*" in term:
base_voice = term.split("*")[0].strip()
# Case-insensitive comparison
if base_voice.lower() not in voice_lookup_lower:
return False, base_voice
return True, None
else:
# Single voice - case-insensitive comparison
if voice_name.lower() not in voice_lookup_lower:
return False, voice_name
return True, None
def split_text_by_voice_markers(text, default_voice):
"""Split text by voice markers, returning list of (voice, text) tuples.
IMPORTANT: Returns the last voice used so it can persist across chapters.
Voice names are normalized to lowercase to match canonical voice names.
Args:
text: Text potentially containing <<VOICE:name>> markers
default_voice: Voice to use if no markers found or before first marker
Returns:
Tuple of (segments_list, last_voice_used, valid_count, invalid_count):
- segments_list: List of (voice_name, segment_text) tuples
- last_voice_used: The voice that should continue into next chapter
- valid_count: Number of valid voice markers processed
- invalid_count: Number of invalid voice markers skipped
"""
from abogen.tts_plugin.utils import get_voices
voice_splits = list(_VOICE_MARKER_SEARCH_PATTERN.finditer(text))
if not voice_splits:
# No voice markers, return entire text with default voice
return [(default_voice, text)], default_voice, 0, 0
segments = []
current_voice = default_voice
valid_markers = 0
invalid_markers = 0
# Text before first marker uses default voice
first_start = voice_splits[0].start()
if first_start > 0:
intro_text = text[:first_start].strip()
if intro_text:
segments.append((current_voice, intro_text))
# Process each voice marker
for idx, match in enumerate(voice_splits):
voice_name = match.group(1).strip()
start = match.end()
end = voice_splits[idx + 1].start() if idx + 1 < len(voice_splits) else len(text)
segment_text = text[start:end].strip()
# Validate voice name
is_valid, invalid_voice = validate_voice_name(voice_name)
if is_valid:
# Normalize to lowercase to match canonical form
# Handle both single voices and formulas
if "*" in voice_name:
# Normalize each voice in the formula
normalized_parts = []
for part in voice_name.split("+"):
part = part.strip()
if "*" in part:
voice_part, weight = part.split("*", 1)
# Find the canonical (lowercase) voice name
voice_part_lower = voice_part.strip().lower()
canonical_voice = next(
(v for v in get_voices("kokoro") if v.lower() == voice_part_lower),
voice_part.strip()
)
normalized_parts.append(f"{canonical_voice}*{weight.strip()}")
current_voice = " + ".join(normalized_parts)
else:
# Find the canonical (lowercase) voice name
voice_name_lower = voice_name.lower()
current_voice = next(
(v for v in get_voices("kokoro") if v.lower() == voice_name_lower),
voice_name
)
valid_markers += 1
else:
# Invalid voice - stay with previous voice
invalid_markers += 1
if segment_text:
segments.append((current_voice, segment_text))
# Return segments, last voice, and counts
return segments, current_voice, valid_markers, invalid_markers