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-rw-r--r--dbpl.py362
1 files changed, 245 insertions, 117 deletions
diff --git a/dbpl.py b/dbpl.py
index dddd192..d1fbaef 100644
--- a/dbpl.py
+++ b/dbpl.py
@@ -1,12 +1,14 @@
-import os
-import struct
-
+from __future__ import annotations
+from typing import List, Optional
+from struct import pack, unpack
from enum import Enum
+import os
+
class Flag(Enum):
- DDB_IS_SUBTRACK = 1 << 0 # file is not single-track, might have metainfo in external file
- DDB_IS_READONLY = 1 << 1 # check this flag to block tag writing (e.g. in iso.wv)
+ DDB_IS_SUBTRACK = 1 << 0 # file is not single-track, might have metainfo in external file
+ DDB_IS_READONLY = 1 << 1 # check this flag to block tag writing (e.g. in iso.wv)
DDB_HAS_EMBEDDED_CUESHEET = 1 << 2
DDB_TAG_ID3V1 = 1 << 8
@@ -23,147 +25,273 @@ class Flag(Enum):
class Track:
+ uri = Optional[str]
+ decoder = Optional[str]
+ num = Optional[int]
+ startsample = Optional[int]
+ endsample = Optional[int]
+ duration = Optional[float]
+ filetype = Optional[str]
+ replaygain_albumgain = Optional[int]
+ replaygain_albumpeak = Optional[int]
+ replaygain_trackgain = Optional[int]
+ replaygain_trackpeak = Optional[int]
+ flags: int
+ meta: dict
+
def __init__(self):
- self.uri = None
- self.decoder = None
- self.num = None
- self.startsample = None
- self.endsample = None
- self.duration = None
- self.filetype = None
- self.replaygain_albumgain = None
- self.replaygain_albumpeak = None
- self.replaygain_trackgain = None
- self.replaygain_trackpeak = None
+ self.uri = ''
+ self.decoder = ''
+ self.num = 0
+ self.startsample = 0
+ self.endsample = 0
+ self.duration = 0
+ self.filetype = ''
+ self.replaygain_albumgain = 0
+ self.replaygain_albumpeak = 0
+ self.replaygain_trackgain = 0
+ self.replaygain_trackpeak = 0
self.flags = 0
self.meta = {}
+ def get_uri(self) -> str:
+ return self.meta[':URI'] if ':URI' in self.meta else self.uri
+
+ def set_uri(self, uri) -> None:
+ self.uri = uri
+ self.meta[':URI'] = uri
+
+ def get_startsample(self) -> int:
+ return self.meta[':STARTSAMPLE'] if ':STARTSAMPLE' in self.meta else self.startsample
+
+ def set_startsample(self, value) -> None:
+ self.startsample = value
+ self.meta[':STARTSAMPLE'] = value
+
+ def get_endsample(self) -> int:
+ return self.meta[':ENDSAMPLE'] if ':ENDSAMPLE' in self.meta else self.endsample
+
+ def set_endsample(self, value) -> None:
+ self.endsample = value
+ self.meta[':ENDSAMPLE'] = value
+
+ def get_writable_meta(self) -> dict:
+ meta = {}
+ for key, value in self.meta.items():
+ if key[0] != '_' and key[0] != '!':
+ meta[key] = value
+ return meta
+
+ def pack(self) -> bytes:
+ buf = bytearray()
+
+ uri_b = self.get_uri().encode()
+ buf.extend(pack('H', len(uri_b)))
+ buf.extend(uri_b)
+
+ if self.decoder:
+ decoder_b = self.decoder.encode()
+ buf.append(len(decoder_b))
+ buf.extend(decoder_b)
+ else:
+ buf.append(0)
+
+ buf.extend(pack('h', self.num))
+ buf.extend(pack('i', self.get_startsample()))
+ buf.extend(pack('i', self.get_endsample()))
+ buf.extend(pack('f', self.duration))
+
+ ft_b = self.filetype.encode()
+ buf.append(len(ft_b))
+ if len(self.filetype):
+ buf.extend(ft_b)
+
+ buf.extend(pack('f', self.replaygain_albumgain))
+ buf.extend(pack('f', self.replaygain_albumpeak))
+ buf.extend(pack('f', self.replaygain_trackgain))
+ buf.extend(pack('f', self.replaygain_trackpeak))
+ buf.extend(pack('I', self.flags))
+
+ meta = self.get_writable_meta()
+ buf.extend(pack('h', len(meta)))
+
+ for key, value in meta.items():
+ value = str(value).encode()
+ key = key.encode()
+ key_len, value_len = len(key), len(value)
+
+ buf.extend(pack('H', key_len))
+ if key_len:
+ buf.extend(key)
+
+ buf.extend(pack('H', value_len))
+ if value_len:
+ buf.extend(value)
+
+ return bytes(buf)
+
class Playlist:
- def __init__(self):
+ MINOR_VERSION = 2
+ MAJOR_VERSION = 1
+
+ major_version: Optional[int]
+ minor_version: Optional[int]
+ tracks = List[Track]
+ meta: dict
+
+ def __init__(self, file: str):
+ self.file = file
self.major_version = None
self.minor_version = None
- self.tracks_count = None
self.tracks = []
self.meta = {}
+ self.read()
-def read(file):
- playlist = Playlist()
+ def add_track(self, track: Track) -> None:
+ self.tracks.append(track)
- with open(file, 'rb') as f:
- magic = f.read(4)
- if magic != b'DBPL':
- raise ValueError('invalid magic value')
+ def pack(self) -> bytes:
+ pass
- # uint8_t
- playlist.major_version, playlist.minor_version = struct.unpack('BB', f.read(2))
+ def read(self) -> None:
+ with open(self.file, 'rb') as f:
+ magic = f.read(4)
+ if magic != b'DBPL':
+ raise ValueError('invalid magic value')
- if playlist.major_version != 1:
- raise ValueError('invalid major version')
+ # uint8_t
+ self.major_version, self.minor_version = unpack('BB', f.read(2))
- if playlist.minor_version < 1:
- raise ValueError('invalid minor version')
+ if self.major_version != 1:
+ raise ValueError('invalid major version %d' % self.major_version)
- # uint32_t
- tracks_count = struct.unpack('I', f.read(4))[0]
+ if self.minor_version < 1:
+ raise ValueError('invalid minor version %d' % self.minor_version)
- for i in range(tracks_count):
- track = Track()
+ # uint32_t
+ tracks_count = unpack('I', f.read(4))[0]
- if playlist.minor_version <= 2:
- # uint16_t
- uri_len = struct.unpack('H', f.read(2))[0]
- track.uri = f.read(uri_len)
+ for i in range(tracks_count):
+ track = Track()
- # uint8_t
- decoder_len = struct.unpack('B', f.read(1))[0]
- if decoder_len >= 20:
- raise ValueError('invalid decoder length')
+ if self.minor_version <= 2:
+ # uint16_t
+ uri_len = unpack('H', f.read(2))[0]
+ track.uri = f.read(uri_len).decode()
- if decoder_len:
- track.decoder = f.read(decoder_len)
+ # uint8_t
+ decoder_len = unpack('B', f.read(1))[0]
+ if decoder_len >= 20:
+ raise ValueError('invalid decoder length %d' % decoder_len)
- # int16_t
- track.num = struct.unpack('h', f.read(2))[0]
-
- # int32_t
- track.startsample, track.endsample = struct.unpack('ii', f.read(8))
-
- # float
- track.duration = struct.unpack('f', f.read(4))[0]
-
- if playlist.minor_version <= 2:
- # legacy filetype support, they say
- # uint8_t
- filetype_len = struct.unpack('B', f.read(1))[0]
- if filetype_len:
- track.filetype = f.read(filetype_len)
-
- # floats
- ag, ap, tg, tp = struct.unpack('ffff', f.read(16))
- if ag != 0:
- track.replaygain_albumgain = ag
- if ap != 0 and ap != 1:
- track.replaygain_albumpeak = ap
- if tg != 0:
- track.replaygain_trackgain = tg
- if tp != 0 and tp != 1:
- track.replaygain_trackpeak = tp
-
- if playlist.minor_version >= 2:
- # uint32_t
- track.flags = struct.unpack('I', f.read(4))[0]
- elif track.startsample > 0 or track.endsample > 0 or track.num > 0:
- track.flags |= Flag.DDB_IS_SUBTRACK
+ if decoder_len:
+ track.decoder = f.read(decoder_len).decode()
- # int16_t
- nm = struct.unpack('h', f.read(2))[0]
- for j in range(nm):
- # uint16_t
- value_len = struct.unpack('H', f.read(2))[0]
- if value_len >= 20000:
- raise ValueError('invalid key length')
+ # int16_t
+ track.num = unpack('h', f.read(2))[0]
- key = f.read(value_len)
+ # int32_t
+ ss, es = unpack('ii', f.read(8))
+ track.set_startsample(ss)
+ track.set_endsample(es)
- value_len = struct.unpack('H', f.read(2))[0]
- if value_len >= 20000:
- f.seek(value_len, os.SEEK_CUR)
- else:
- value = f.read(value_len)
- if key[0] == ':':
- value = int(value)
- if key == ':STARTSAMPLE':
- track.startsample = value
- elif key == ':ENDSAMPLE':
- track.endsample = value
- else:
- track.meta[key] = value
+ # float
+ track.duration = unpack('f', f.read(4))[0]
+
+ if self.minor_version <= 2:
+ # legacy filetype support, they say
+ # uint8_t
+ filetype_len = unpack('B', f.read(1))[0]
+ if filetype_len:
+ track.filetype = f.read(filetype_len).decode()
+
+ # floats
+ ag, ap, tg, tp = unpack('ffff', f.read(16))
+ if ag != 0:
+ track.replaygain_albumgain = ag
+ if ap != 0 and ap != 1:
+ track.replaygain_albumpeak = ap
+ if tg != 0:
+ track.replaygain_trackgain = tg
+ if tp != 0 and tp != 1:
+ track.replaygain_trackpeak = tp
+
+ if self.minor_version >= 2:
+ # uint32_t
+ track.flags = unpack('I', f.read(4))[0]
+ elif track.startsample > 0 or track.endsample > 0 or track.num > 0:
+ track.flags |= Flag.DDB_IS_SUBTRACK
+
+ # int16_t
+ meta_count = unpack('h', f.read(2))[0]
+ for j in range(meta_count):
+ # uint16_t
+ value_len = unpack('H', f.read(2))[0]
+ if value_len >= 20000:
+ raise ValueError('invalid key length')
+
+ key = f.read(value_len).decode()
+
+ value_len = unpack('H', f.read(2))[0]
+ if value_len >= 20000:
+ f.seek(value_len, os.SEEK_CUR)
else:
- track.meta[key] = value
+ value = f.read(value_len)
+ if key[0] == ':':
+ if key == ':STARTSAMPLE':
+ track.set_startsample(int(value))
+ elif key == ':ENDSAMPLE':
+ track.set_endsample(int(value))
+ else:
+ track.meta[key] = value.decode()
+ else:
+ track.meta[key] = value.decode()
- playlist.tracks.append(track)
+ self.add_track(track)
- assert tracks_count == len(playlist.tracks)
+ assert tracks_count == len(self.tracks)
- # playlist metadata
- # int16_t
- nm = struct.unpack('H', f.read(2))[0]
- for i in range(nm):
+ # playlist metadata
# int16_t
- key_len = struct.unpack('h', f.read(2))[0]
- if key_len < 0 or key_len >= 20000:
- raise ValueError('invalid length')
+ meta_count = unpack('H', f.read(2))[0]
+ for i in range(meta_count):
+ # int16_t
+ key_len = unpack('h', f.read(2))[0]
+ if key_len < 0 or key_len >= 20000:
+ raise ValueError('invalid length')
- key = f.read(key_len)
+ key = f.read(key_len).decode()
- # int16_t
- value_len = struct.unpack('h', f.read(2))[0]
- if value_len < 0 or value_len >= 20000:
- f.seek(value_len, os.SEEK_CUR)
- else:
- value = f.read(value_len)
- playlist.meta[key] = value
-
- return playlist \ No newline at end of file
+ # int16_t
+ value_len = unpack('h', f.read(2))[0]
+ if value_len < 0 or value_len >= 20000:
+ f.seek(value_len, os.SEEK_CUR)
+ else:
+ value = f.read(value_len)
+ self.meta[key] = value.decode()
+
+ def save(self, file: str = None) -> None:
+ if file is None:
+ file = self.file
+
+ with open(file, 'wb') as f:
+ f.write(b'DBPL')
+ f.write(pack('BB', Playlist.MAJOR_VERSION, Playlist.MINOR_VERSION))
+ f.write(pack('I', len(self.tracks)))
+ for track in self.tracks:
+ f.write(track.pack())
+
+ f.write(pack('h', len(self.meta)))
+ for key, value in self.meta.items():
+ value = str(value)
+ key_len, value_len = len(key), len(value)
+
+ f.write(pack('H', key_len))
+ if key_len:
+ f.write(key.encode())
+
+ f.write(pack('H', value_len))
+ if value_len:
+ f.write(value.encode())