Add new tool, update README for others.

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Cainan 2024-06-17 18:38:46 +01:00
parent 6878ea4b82
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.gitignore vendored
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*.bin
*.def
*.DS_Store
*.tja
*.ini *.ini
.DS_Store *.json
*.mp3
*.ogg

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I will be looking into getting it running on Unix-based operating systems. (Linux/macOS) I will be looking into getting it running on Unix-based operating systems. (Linux/macOS)
![song conversion tool](https://i.imgur.com/TnRlAxR.png) ![song conversion tool](https://i.imgur.com/TnRlAxR.png)
## Tools Used
at9tool - Used to convert audio to the Sony AT9 format.
[VGAudioCli](https://github.com/Thealexbarney/VGAudio) - Used to convert audio to Nintendo IDSP and Nintendo OPUS.
[G.722.1 Reference Tool](https://www.itu.int/rec/T-REC-G.722.1-200505-I/en) - Used to convert audio to Polycom Siren 14
### Special Thanks
Steam User [descatal](https://steamcommunity.com/id/descatal) for writing [this](https://exvsfbce.home.blog/2020/02/04/guide-to-encoding-bnsf-is14-audio-files-converting-wav-back-to-bnsf-is14/) guide on how to create/encode `bnsf` files.
[korenkonder](https://github.com/korenkonder) for compiling the G.722.1 tool used in this project.
[Kamui/despairoharmony](https://github.com/despairoharmony) for some of the Nijiiro `.nus3bank` template research.
## Related Tools
[tja2fumen](https://github.com/vivaria/tja2fumen)
[TjaOffsetNeutralise](https://github.com/cainan-c/TaikoPythonTools/tree/main/TjaBatchConvert)
[TjaBatchConvert](https://github.com/cainan-c/TaikoPythonTools/tree/main/TjaBatchConvert)

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TjaBatchConvert/README.md Normal file
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# TJA Batch Conversion
Python script that converts TJA files and audio for use with [TaikoSongConversionTool](https://github.com/cainan-c/TaikoPythonTools/tree/main/TaikoSongConversionTool)
The tool isn't very fast, due to the JSON files becoming malformed when multi-threading is involved.
This tool takes advantage of vivaria's [tja2fumen](https://github.com/vivaria/tja2fumen) for conversion.
Usage: batch_convert.py [-h] input_folder output_folder
Process TJA files and generate related files.
positional arguments:
input_folder The input folder containing TJA files.
output_folder The output folder where processed files will be saved.
options:
-h, --help show this help message and exit

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import os
import json
import shutil
from pydub import AudioSegment
import subprocess
import concurrent.futures
import argparse
import logging
from threading import Lock
logging.basicConfig(level=logging.INFO)
json_lock = Lock()
# Define genre mapping
GENRE_MAPPING = {
"J-POP": 0,
"アニメ": 1,
"VOCALOID": 2,
"バラエティー": 3,
"どうよう": 3,
"クラシック": 5,
"ゲームミュージック": 6,
"ナムコオリジナル": 7
}
def get_genre_no(box_def_path):
if not os.path.exists(box_def_path):
return 3 # Default genre if box.def does not exist
with open(box_def_path, "r", encoding="utf-8-sig") as file:
for line in file:
if line.startswith("#GENRE:"):
genre = line.split(":")[1].strip()
return GENRE_MAPPING.get(genre, 3)
return 3
def parse_tja(tja_path):
info = {}
note_counts = {
"Easy": 0,
"Normal": 0,
"Hard": 0,
"Oni": 0,
"Edit": 0
}
current_difficulty = None
inside_notes_section = False
difficulty_tags = {
"Easy": "starEasy",
"Normal": "starNormal",
"Hard": "starHard",
"Oni": "starMania",
"Edit": "starUra"
}
with open(tja_path, "r", encoding="utf-8-sig") as file:
for line in file:
line = line.strip()
if line.startswith("TITLE:"):
info['TITLE'] = line.split(":")[1].strip()
elif line.startswith("TITLEJA:"):
info['TITLEJA'] = line.split(":")[1].strip()
elif line.startswith("SUBTITLE:"):
info['SUBTITLE'] = line.split(":")[1].strip()
elif line.startswith("SUBTITLEJA:"):
info['SUBTITLEJA'] = line.split(":")[1].strip()
elif line.startswith("BPM:"):
info['BPM'] = float(line.split(":")[1].strip())
elif line.startswith("WAVE:"):
info['WAVE'] = line.split(":")[1].strip()
elif line.startswith("OFFSET:"):
info['OFFSET'] = float(line.split(":")[1].strip())
elif line.startswith("DEMOSTART:"):
info['DEMOSTART'] = int(float(line.split(":")[1].strip()) * 1000) # convert to ms
elif line.startswith("COURSE:"):
course = line.split(":")[1].strip()
if course in difficulty_tags:
current_difficulty = course
inside_notes_section = False
elif line.startswith("LEVEL:") and current_difficulty:
info[difficulty_tags[current_difficulty]] = int(line.split(":")[1].strip())
elif line.startswith("#START") and current_difficulty:
inside_notes_section = True
elif line.startswith("#END") and current_difficulty:
inside_notes_section = False
current_difficulty = None
elif inside_notes_section and current_difficulty:
note_counts[current_difficulty] += sum(line.count(ch) for ch in '1234')
# Calculate shinuti and scores based on note counts
for difficulty, count in note_counts.items():
if difficulty in difficulty_tags and count > 0:
tag = difficulty_tags[difficulty]
shinuti = -(-1000000 // count) # equivalent to math.ceil(1000000 / count)
info[f'shinuti{difficulty}'] = shinuti
info[f'shinuti{difficulty}Duet'] = shinuti
info[f'score{difficulty}'] = shinuti * count
else:
tag = difficulty_tags[difficulty]
info[f'shinuti{difficulty}'] = 0
info[f'shinuti{difficulty}Duet'] = 0
info[f'score{difficulty}'] = 0
info['NOTE_COUNT'] = sum(note_counts.values())
return info
def convert_audio(wave_path, output_path):
audio = AudioSegment.from_file(wave_path)
audio.export(output_path, format="mp3")
def append_to_json_file(filepath, data):
with json_lock:
try:
if os.path.exists(filepath):
with open(filepath, "r", encoding="utf-8") as f:
existing_data = json.load(f)
existing_data["items"].append(data)
else:
existing_data = {"items": [data]}
with open(filepath, "w", encoding="utf-8") as f:
json.dump(existing_data, f, ensure_ascii=False, indent=4)
#logging.info(f"Appended data to {filepath} successfully.")
except json.JSONDecodeError as e:
logging.error(f"JSON decoding error while processing {filepath}: {e}")
raise
except Exception as e:
logging.error(f"Error while appending data to {filepath}: {e}")
raise
def append_to_json_list_file(filepath, data):
with json_lock:
try:
if os.path.exists(filepath):
with open(filepath, "r", encoding="utf-8") as f:
existing_data = json.load(f)
existing_data.append(data)
else:
existing_data = [data]
with open(filepath, "w", encoding="utf-8") as f:
json.dump(existing_data, f, ensure_ascii=False, indent=4)
#logging.info(f"Appended data to {filepath} successfully.")
except json.JSONDecodeError as e:
logging.error(f"JSON decoding error while processing {filepath}: {e}")
raise
except Exception as e:
logging.error(f"Error while appending data to {filepath}: {e}")
raise
def create_json_files(info, genre_no, unique_id, output_dir):
musicinfo = {
"uniqueId": unique_id,
"id": f"cs{unique_id:04d}",
"songFileName": f"sound/song_cs{unique_id:04d}",
"order": unique_id,
"genreNo": genre_no,
"branchEasy": False,
"branchNormal": False,
"branchHard": False,
"branchMania": False,
"branchUra": False,
"starEasy": info.get("starEasy", 0),
"starNormal": info.get("starNormal", 0),
"starHard": info.get("starHard", 0),
"starMania": info.get("starMania", 0),
"starUra": info.get("starUra", 0),
"shinutiEasy": info.get("shinutiEasy", 0),
"shinutiNormal": info.get("shinutiNormal", 0),
"shinutiHard": info.get("shinutiHard", 0),
"shinutiMania": info.get("shinutiMania", 0),
"shinutiUra": info.get("shinutiUra", 0),
"shinutiEasyDuet": info.get("shinutiEasyDuet", 0),
"shinutiNormalDuet": info.get("shinutiNormalDuet", 0),
"shinutiHardDuet": info.get("shinutiHardDuet", 0),
"shinutiManiaDuet": info.get("shinutiManiaDuet", 0),
"shinutiUraDuet": info.get("shinutiUraDuet", 0),
"scoreEasy": info.get("scoreEasy", 0),
"scoreNormal": info.get("scoreNormal", 0),
"scoreHard": info.get("scoreHard", 0),
"scoreMania": info.get("scoreMania", 0),
"scoreUra": info.get("scoreUra", 0)
}
previewpos = {
"id": f"cs{unique_id:04d}",
"previewPos": info['DEMOSTART']
}
wordlist = {
"key": f"song_cs{unique_id:04d}",
"japaneseText": info['TITLE'],
"japaneseFontType": 0,
"englishUsText": info['TITLE'],
"englishUsFontType": 1,
"chineseTText": info['TITLE'],
"chineseTFontType": 0,
"koreanText": info['TITLE'],
"koreanFontType": 0
}
wordlist_sub = {
"key": f"song_sub_cs{unique_id:04d}",
"japaneseText": info.get('SUBTITLE', ''),
"japaneseFontType": 0,
"englishUsText": info.get('SUBTITLE', ''),
"englishUsFontType": 0,
"chineseTText": info.get('SUBTITLE', ''),
"chineseTFontType": 1,
"koreanText": info.get('SUBTITLE', ''),
"koreanFontType": 2
}
wordlist_detail = {
"key": f"song_detail_cs{unique_id:04d}",
"japaneseText": "",
"japaneseFontType": 0,
"englishUsText": "",
"englishUsFontType": 1,
"chineseTText": "",
"chineseTFontType": 0,
"koreanText": "",
"koreanFontType": 0
}
append_to_json_file(os.path.join(output_dir, "datatable/musicinfo.json"), musicinfo)
append_to_json_list_file(os.path.join(output_dir, "datatable/previewpos.json"), previewpos)
append_to_json_file(os.path.join(output_dir, "datatable/wordlist.json"), wordlist)
append_to_json_file(os.path.join(output_dir, "datatable/wordlist.json"), wordlist_sub)
append_to_json_file(os.path.join(output_dir, "datatable/wordlist.json"), wordlist_detail)
def convert_tja_to_fumen(tja_path):
subprocess.run(["bin/tja2fumen", tja_path], check=True)
def move_and_rename_bin_files(tja_path, output_dir, unique_id):
base_dir = os.path.dirname(tja_path)
output_path = os.path.join(output_dir, f"fumen/cs{unique_id:04d}")
os.makedirs(output_path, exist_ok=True)
for difficulty in ["_e", "_n", "_h", "_x", "_m"]:
bin_file = f"{os.path.splitext(tja_path)[0]}{difficulty}.bin"
if os.path.exists(bin_file):
shutil.move(bin_file, os.path.join(output_path, f"cs{unique_id:04d}{difficulty}.bin"))
def process_song_charts(dir_path, file, output_folder, unique_id):
tja_path = os.path.join(dir_path, file)
convert_tja_to_fumen(tja_path)
move_and_rename_bin_files(tja_path, output_folder, unique_id)
def process_song_metadata(dir_path, file, genre_no, unique_id, output_folder):
tja_path = os.path.join(dir_path, file)
info = parse_tja(tja_path)
create_json_files(info, genre_no, unique_id, output_folder)
def process_song_audio(dir_path, file, unique_id, output_folder):
tja_path = os.path.join(dir_path, file)
info = parse_tja(tja_path)
convert_audio(os.path.join(dir_path, info['WAVE']), os.path.join(output_folder, f"sound/song_cs{unique_id:04d}.mp3"))
def process_song(dir_path, file, genre_no, unique_id, output_folder):
try:
process_song_charts(dir_path, file, output_folder, unique_id)
process_song_audio(dir_path, file, unique_id, output_folder)
process_song_metadata(dir_path, file, genre_no, unique_id, output_folder)
#logging.info(f"Processed {file} successfully.")
except Exception as e:
logging.error(f"Failed to process {file} in {dir_path}: {e}")
def main(input_folder, output_folder):
unique_id = 1
for root, dirs, files in os.walk(input_folder):
if "box.def" in files:
genre_no = get_genre_no(os.path.join(root, "box.def"))
for dir in dirs:
dir_path = os.path.join(root, dir)
tja_files = [file for file in os.listdir(dir_path) if file.endswith(".tja")]
with concurrent.futures.ThreadPoolExecutor() as executor:
futures = [
executor.submit(process_song, dir_path, file, genre_no, unique_id + i, output_folder)
for i, file in enumerate(tja_files)
]
for future in concurrent.futures.as_completed(futures):
try:
future.result()
unique_id += 1
except Exception as e:
logging.error(f"Error in future: {e}")
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Process TJA files and generate related files.")
parser.add_argument("input_folder", help="The input folder containing TJA files.")
parser.add_argument("output_folder", help="The output folder where processed files will be saved.")
args = parser.parse_args()
os.makedirs(args.output_folder, exist_ok=True)
os.makedirs(os.path.join(args.output_folder, "sound"), exist_ok=True)
os.makedirs(os.path.join(args.output_folder, "datatable"), exist_ok=True)
main(args.input_folder, args.output_folder)

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Incredibly simple script which can take `.tja` files and remove any audio offsets in them. Modifying both the .ogg audio file and the chart iself. Incredibly simple script which can take `.tja` files and remove any audio offsets in them. Modifying both the .ogg audio file and the chart iself.
This tool will add a blank measure to make sure no audio is cut off, etc. This tool will add a blank measure to make sure no audio is cut off, etc.
Recomended to run your TJA files through this tool before using [TjaBatchConvert](https://github.com/cainan-c/TaikoPythonTools/tree/main/TjaBatchConvert)
Usage: offset_adjust.py [-h] [--file FILE] [--path PATH] [--encoding {shift_jis,utf-8}] Usage: offset_adjust.py [-h] [--file FILE] [--path PATH] [--encoding {shift_jis,utf-8}]
Process TJA and OGG files. Process TJA and OGG files.