Datasets:
Languages:
Yue Chinese
License:
| import xml.etree.ElementTree as ET | |
| import csv | |
| import pandas as pd | |
| from pydub import AudioSegment | |
| import re | |
| import sys | |
| from typing import List, Tuple, Dict | |
| # Global dictionary to store custom character choices for each pinyin | |
| custom_choices: Dict[str, str] = {} | |
| def parse_xml(xml_content: str) -> List[Tuple[int, int, str]]: | |
| root = ET.fromstring(xml_content) | |
| time_order = {ts.get('TIME_SLOT_ID'): int(ts.get('TIME_VALUE')) | |
| for ts in root.iter('TIME_SLOT')} | |
| tier_data = [] | |
| for tier in root.iter('TIER'): | |
| tier_id = tier.get('TIER_ID') | |
| if not ('-' in tier_id) and (tier_id == 'G' or tier_id == 'E'): | |
| for annotation in tier.iter('ALIGNABLE_ANNOTATION'): | |
| start_time = time_order[annotation.get('TIME_SLOT_REF1')] | |
| end_time = time_order[annotation.get('TIME_SLOT_REF2')] | |
| text = annotation.find('./ANNOTATION_VALUE').text | |
| tier_data.append((start_time, end_time, text)) | |
| return tier_data | |
| def transform_latin_to_chinese(text: str, dict_df: pd.DataFrame, output_wav: str) -> Tuple[str, pd.DataFrame]: | |
| global custom_choices | |
| transformed_text = "" | |
| i = 0 | |
| while i < len(text): | |
| char = text[i] | |
| if char == "&": | |
| j = i + 1 | |
| while j < i + 7 and j < len(text) and text[j].isalpha(): | |
| j += 1 | |
| if j < len(text) and text[j].isdigit(): | |
| term = text[(i+1):j + 1].lower() | |
| pinyin_entries = dict_df[dict_df['拼音'] == term]['繁體'] | |
| if not pinyin_entries.empty: | |
| if len(pinyin_entries) > 1: | |
| full_sentence = f"Full Sentence: {text}" | |
| print(full_sentence) | |
| print(f"Path: {output_wav}") | |
| print(f"Multiple entries found for { | |
| term}. Choose one (or enter a custom character):") | |
| for idx, entry in enumerate(pinyin_entries): | |
| print(f"{idx + 1}. {entry}") | |
| print(f"{len(pinyin_entries) + | |
| 1}. Enter a custom character") | |
| choice = input("Enter the number of your choice: ") | |
| if choice.isdigit() and int(choice) <= len(pinyin_entries): | |
| choice = int(choice) - 1 | |
| transformed_text += pinyin_entries.values[choice] | |
| custom_choices[term] = pinyin_entries.values[choice] | |
| elif choice == str(len(pinyin_entries) + 1): | |
| custom_choice = input( | |
| f"Enter a custom character for {term}: ") | |
| transformed_text += custom_choice | |
| custom_choices[term] = custom_choice | |
| # Update DataFrame with the custom character | |
| dict_df = pd.concat([dict_df, pd.DataFrame( | |
| [{'拼音': term, '繁體': custom_choice}])], ignore_index=True) | |
| else: | |
| print("Invalid choice. Using the default character.") | |
| transformed_text += pinyin_entries.values[0] | |
| else: | |
| try: | |
| transformed_text += pinyin_entries.values[0] or "" | |
| except: | |
| pass | |
| else: | |
| print(f"Full Sentence: {text}") | |
| print(f"Path: {output_wav}") | |
| custom_choice = input(f"No corresponding character found for { | |
| term}. Enter a custom character: ") | |
| transformed_text += custom_choice | |
| custom_choices[term] = custom_choice | |
| # Update DataFrame with the custom character | |
| dict_df = pd.concat([dict_df, pd.DataFrame( | |
| [{'拼音': term, '繁體': custom_choice}])], ignore_index=True) | |
| i = j + 1 | |
| else: | |
| transformed_text += char | |
| i += 1 | |
| else: | |
| transformed_text += char | |
| i += 1 | |
| return transformed_text, dict_df | |
| def clean_transformed_text(text: str) -> str: | |
| # Replace "#" with a blank space | |
| text = text.replace("#", " ") | |
| # Remove special characters and symbols | |
| text = re.sub(r"[^a-zA-Z0-9\u4e00-\u9fff ]", "", text) | |
| # Remove HTML entities (e.g., &) | |
| text = re.sub(r"&[a-zA-Z]+;", "", text) | |
| return text | |
| def extract_audio_segments(input_wav: str, output_wav: str, start_time: int, end_time: int) -> None: | |
| audio = AudioSegment.from_wav(input_wav) | |
| segment = audio[start_time:end_time] | |
| segment.export(output_wav, format="wav") | |
| def main() -> None: | |
| with open(sys.argv[1], "r", encoding="utf-8") as file: | |
| xml_content = file.read() | |
| tier_data = parse_xml(xml_content) | |
| with open("./粵語字典_(耶魯_數字).csv", "r", encoding="utf-8") as dict_file: | |
| dict_csv = dict_file.name | |
| dict_df = pd.read_csv(dict_csv) | |
| # Replace with your actual audio file | |
| audio_file = sys.argv[1].replace("eaf", "wav") | |
| transformed_tier_data = [] | |
| for i, (start_time, end_time, text) in enumerate(tier_data): | |
| output_wav = f"audio/{sys.argv[1].split('/') | |
| [-1].replace('.eaf', '')}_ts{i+1}.wav" | |
| extract_audio_segments(audio_file, output_wav, start_time, end_time) | |
| transformed_text, dict_df = transform_latin_to_chinese(text, dict_df, output_wav) | |
| transformed_text = clean_transformed_text(transformed_text) | |
| transformed_tier_data.append( | |
| (start_time, end_time, transformed_text, output_wav.split("/")[-1])) | |
| # Save the updated DataFrame to the CSV file | |
| dict_df.to_csv(dict_csv, index=False, encoding='utf-8') | |
| tsv_filename = "transcript/" + \ | |
| sys.argv[1].split("/")[-1].replace("eaf", "tsv") | |
| with open(tsv_filename, "w", newline="", encoding="utf-8") as tsvfile: | |
| tsv_writer = csv.writer(tsvfile, delimiter='\t') | |
| tsv_writer.writerow( | |
| ["timestamp_start", "timestamp_end", "text", "path"]) | |
| tsv_writer.writerows(transformed_tier_data) | |
| if __name__ == "__main__": | |
| main() | |