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OcarinaSongs.py
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OcarinaSongs.py
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from __future__ import annotations
import random
import sys
from collections.abc import Callable, Sequence
from itertools import chain
from typing import TYPE_CHECKING, Optional
from Fill import ShuffleError
if sys.version_info >= (3, 10):
from typing import TypeAlias
else:
TypeAlias = str
if TYPE_CHECKING:
from Rom import Rom
from World import World
ActivationTransform: TypeAlias = "Callable[[list[int]], list[int]]"
PlaybackTransform: TypeAlias = "Callable[[list[dict[str, int]]], list[dict[str, int]]]"
Transform: TypeAlias = "ActivationTransform | PlaybackTransform"
PLAYBACK_START: int = 0xB781DC
PLAYBACK_LENGTH: int = 0xA0
ACTIVATION_START: int = 0xB78E5C
ACTIVATION_LENGTH: int = 0x09
FORMAT_ACTIVATION: dict[int, str] = {
0: 'A',
1: 'v',
2: '>',
3: '<',
4: '^',
}
READ_ACTIVATION: dict[str, int] = { # support both Av><^ and ADRLU
'a': 0,
'v': 1,
'd': 1,
'>': 2,
'r': 2,
'<': 3,
'l': 3,
'^': 4,
'u': 4,
}
ACTIVATION_TO_PLAYBACK_NOTE: dict[int, int] = {
0: 0x02, # A
1: 0x05, # Down
2: 0x09, # Right
3: 0x0B, # Left
4: 0x0E, # Up
0xFF: 0xFF, # Rest
}
DIFFICULTY_ORDER: list[str] = [
'Zeldas Lullaby',
'Sarias Song',
'Eponas Song',
'Song of Storms',
'Song of Time',
'Suns Song',
'Prelude of Light',
'Minuet of Forest',
'Bolero of Fire',
'Serenade of Water',
'Requiem of Spirit',
'Nocturne of Shadow',
]
# Song name: (rom index, warp, vanilla activation),
SONG_TABLE: dict[str, tuple[int, bool, str]] = {
'Zeldas Lullaby': ( 8, False, '<^><^>'),
'Eponas Song': ( 7, False, '^<>^<>'),
'Sarias Song': ( 6, False, 'v><v><'),
'Suns Song': ( 9, False, '>v^>v^'),
'Song of Time': (10, False, '>Av>Av'),
'Song of Storms': (11, False, 'Av^Av^'),
'Minuet of Forest': ( 0, True, 'A^<><>'),
'Bolero of Fire': ( 1, True, 'vAvA>v>v'),
'Serenade of Water': ( 2, True, 'Av>><'),
'Requiem of Spirit': ( 3, True, 'AvA>vA'),
'Nocturne of Shadow': ( 4, True, '<>>A<>v'),
'Prelude of Light': ( 5, True, '^>^><^'),
}
# checks if one list is a sublist of the other (in either direction)
# python is magic.....
def subsong(song1: Song, song2: Song) -> bool:
# convert both lists to strings
s1 = ''.join( map(chr, song1.activation))
s2 = ''.join( map(chr, song2.activation))
# check if either is a substring of the other
return (s1 in s2) or (s2 in s1)
# give random durations and volumes to the notes
def fast_playback(activation: list[int]) -> list[dict[str, int]]:
playback = []
for note_index, note in enumerate(activation):
playback.append({'note': note, 'duration': 0x04, 'volume': 0x57})
return playback
# give random durations and volumes to the notes
def random_playback(activation: list[int]) -> list[dict[str, int]]:
playback = []
for note_index, note in enumerate(activation):
duration = random.randint(0x8, 0x20)
# make final note longer on average
if note_index + 1 >= len(activation):
duration = random.randint(0x10, 0x30)
volume = random.randint(0x40, 0x60)
playback.append({'note': note, 'duration': duration, 'volume': volume})
# randomly rest
if random.random() < 0.1:
duration = random.randint(0x8, 0x18)
playback.append({'note': 0xFF, 'duration': duration, 'volume': 0})
return playback
# gives random volume and duration to the notes of piece
def random_piece_playback(piece: list[int]) -> list[dict[str, int]]:
playback = []
for note in piece:
duration = random.randint(0x8, 0x20)
volume = random.randint(0x40, 0x60)
playback.append({'note': note, 'duration': duration, 'volume': volume})
return playback
# takes the volume/duration of playback, and notes of piece, and creates a playback piece
# assumes the lists are the same length
def copy_playback_info(playback: list[dict[str, int]], piece: list[int]):
return [{'note': n, 'volume': p['volume'], 'duration': p['duration']} for (p, n) in zip(playback, piece)]
def identity(x: list[int | dict[str, int]]) -> list[int | dict[str, int]]:
return x
def random_piece(count: int, allowed: Sequence[int] = range(0, 5)) -> list[int]:
return random.choices(allowed, k=count)
def invert_piece(piece: list[int]) -> list[int]:
return [4 - note for note in piece]
def reverse_piece(piece: list[int | dict[str, int]]) -> list[int | dict[str, int]]:
return piece[::-1]
def clamp(val: int, low: int, high: int) -> int:
return max(low, min(high, val))
def transpose_piece(amount: int) -> ActivationTransform:
def transpose(piece: list[int]) -> list[int]:
return [clamp(note + amount, 0, 4) for note in piece]
return transpose
def compose(f: Transform, g: Transform) -> Transform:
return lambda x: f(g(x))
def add_transform_to_piece(piece: list[int], transform: ActivationTransform) -> list[int]:
return piece + transform(piece)
def repeat(piece: list[int]) -> list[int]:
return 2 * piece
# a Song contains its simple note data, as well as the data to be stored into the rom
class Song:
# create a song, based on a given scheme
def __init__(self, rand_song: bool = True, piece_size: int = 3, extra_position: str = 'none',
starting_range: Sequence[int] = range(0, 5), activation_transform: ActivationTransform = identity,
playback_transform: PlaybackTransform = identity, *, activation: Optional[list[int]] = None,
playback_fast: bool = False) -> None:
self.length: int = 0
self.activation: list[int] = []
self.playback: list[dict[str, int]] = []
self.activation_data: list[int] = []
self.playback_data: list[int] = []
self.total_duration: int = 0
if activation:
self.length = len(activation)
self.activation = activation
elif rand_song:
self.length = random.randint(4, 8)
self.activation = random.choices(range(0, 5), k=self.length)
else:
if extra_position != 'none':
piece_size = 3
piece = random_piece(piece_size, starting_range)
self.two_piece_playback(piece, extra_position, activation_transform, playback_transform)
if playback_fast:
self.playback = fast_playback(self.activation)
self.break_repeated_notes(0x03)
else:
if not self.playback:
self.playback = random_playback(self.activation)
self.break_repeated_notes()
self.format_activation_data()
self.format_playback_data()
if activation:
self.increase_duration_to(45)
def increase_duration_to(self, duration: int) -> None:
if self.total_duration >= duration:
return
duration_needed = duration - self.total_duration
last_note_duration = self.playback[-1]['duration']
last_note_adds = 0x7F - last_note_duration
if last_note_adds >= duration_needed:
self.playback[-1]['duration'] += duration_needed
self.format_playback_data()
return
else:
self.playback[-1]['duration'] = 0x7F
duration_needed -= last_note_adds
while duration_needed >= 0x7F:
self.playback.append({'note': 0xFF, 'duration': 0x7F, 'volume': 0})
duration_needed -= 0x7F
self.playback.append({'note': 0xFF, 'duration': duration_needed, 'volume': 0})
self.format_playback_data()
def two_piece_playback(self, piece: list[int], extra_position: str = 'none', activation_transform: ActivationTransform = identity,
playback_transform: PlaybackTransform = identity) -> None:
piece_length = len(piece)
piece2 = activation_transform(piece)
# add playback parameters
playback_piece1 = random_piece_playback(piece)
playback_piece2 = copy_playback_info(playback_transform(playback_piece1), piece2)
if extra_position == 'none':
self.length = 2 * piece_length
self.activation = piece + piece2
# add a rest between
duration = random.randint(0x8, 0x18)
rest = {'note': 0xFF, 'duration': duration, 'volume': 0}
self.playback = playback_piece1 + [rest] + playback_piece2
else:
self.length = 2 * piece_length + 1
extra = random_piece(1)
extra_playback = random_piece_playback(extra)
if extra_position == 'start':
self.activation = extra + piece + piece2
self.playback = extra_playback + playback_piece1 + playback_piece2
elif extra_position == 'middle':
self.activation = piece + extra + piece2
self.playback = playback_piece1 + extra_playback + playback_piece2
elif extra_position == 'end':
self.activation = piece + piece2 + extra
self.playback = playback_piece1 + playback_piece2 + extra_playback
# add rests between repeated notes in the playback so that they work in-game
def break_repeated_notes(self, duration: int = 0x08) -> None:
new_playback = []
for note_index, note in enumerate(self.playback):
new_playback.append(note)
if ( note_index + 1 < len(self.playback) ) and \
( self.playback[note_index]['note'] == self.playback[note_index + 1]['note'] ):
new_playback.append( {'note': 0xFF, 'duration': duration, 'volume': 0} )
self.playback = new_playback
# create the list of bytes that will be written into the rom for the activation
def format_activation_data(self) -> None:
# data is 1 byte for the song length,
# len bytes for the song, and the remainder is padding
padding = [0] * (ACTIVATION_LENGTH - (self.length + 1))
self.activation_data = [self.length] + self.activation + padding
# create the list of byte that will be written in to the rom for the playback
def format_playback_data(self) -> None:
self.playback_data = []
self.total_duration = 0
for note in self.playback:
pitch = ACTIVATION_TO_PLAYBACK_NOTE[ note['note'] ]
self.playback_data += [pitch, 0, 0, note['duration'], note['volume'], 0, 0, 0]
self.total_duration += note['duration']
# add a rest at the end
self.playback_data += [0xFF, 0, 0, 0, 0x5A, 0, 0, 0]
# pad the rest of the song
padding = [0] * (PLAYBACK_LENGTH - len(self.playback_data))
self.playback_data += padding
def __repr__(self) -> str:
activation_string = 'Activation Data:\n\t' + ' '.join( map( "{:02x}".format, self.activation_data) )
# break playback into groups of 8...
index = 0
broken_up_playback = []
while index < len(self.playback_data):
broken_up_playback.append( self.playback_data[index:index + 8])
index += 8
playback_string = 'Playback Data:\n\t' + '\n\t'.join( map( lambda line: ' '.join( map( "{:02x}".format, line) ), broken_up_playback ) )
return activation_string + '\n' + playback_string
@classmethod
def from_str(cls, notes: str) -> Song:
return cls(activation=[READ_ACTIVATION[note.lower()] for note in notes])
def __str__(self) -> str:
return ''.join(FORMAT_ACTIVATION[note] for note in self.activation)
# randomly choose song parameters
def get_random_song() -> Song:
rand_song = random.choices([True, False], [1, 9])[0]
piece_size = random.choices([3, 4], [5, 2])[0]
extra_position = random.choices(['none', 'start', 'middle', 'end'], [12, 1, 1, 1])[0]
activation_transform = identity
playback_transform = identity
weight_damage = 0
should_transpose = random.choices([True, False], [1, 4])[0]
starting_range = range(0, 5)
if should_transpose:
weight_damage = 2
direction = random.choices(['up', 'down'], [1, 1])[0]
if direction == 'up':
starting_range = range(0, 4)
activation_transform = transpose_piece(1)
elif direction == 'down':
starting_range = range(1, 5)
activation_transform = transpose_piece(-1)
should_invert = random.choices([True, False], [3 - weight_damage, 6])[0]
if should_invert:
weight_damage += 1
activation_transform = compose(invert_piece, activation_transform)
should_reflect = random.choices([True, False], [5 - weight_damage, 4])[0]
if should_reflect:
activation_transform = compose(reverse_piece, activation_transform)
playback_transform = reverse_piece
# print([rand_song, piece_size, extra_position, starting_range, should_transpose, should_invert, should_reflect])
song = Song(rand_song, piece_size, extra_position, starting_range, activation_transform, playback_transform)
# rate its difficulty
difficulty = piece_size * 12
if extra_position != 'none':
difficulty += 12
if should_transpose:
difficulty += 25
if should_reflect:
difficulty += 10
if should_invert:
difficulty += 20
if rand_song:
difficulty = 11 * len(song.activation)
song.difficulty = difficulty
return song
# create a list of 12 songs, none of which are sub-strings of any other song
def generate_song_list(world: World, frog: bool, warp: bool) -> dict[str, Song]:
fixed_songs = {}
if not frog:
fixed_songs.update({name: Song.from_str(notes) for name, (_, is_warp, notes) in SONG_TABLE.items() if not is_warp})
if not warp:
fixed_songs.update({name: Song.from_str(notes) for name, (_, is_warp, notes) in SONG_TABLE.items() if is_warp})
fixed_songs.update({name: Song.from_str(notes) for name, notes in world.distribution.configure_songs().items()})
for name1, song1 in fixed_songs.items():
if name1 not in SONG_TABLE:
raise ValueError(f'Unknown song: {name1!r}. Please use one of these: {", ".join(SONG_TABLE)}')
if not song1.activation:
raise ValueError(f'{name1} is empty')
if len(song1.activation) > 8:
raise ValueError(f'{name1} is too long (maximum is 8 notes)')
for name2, song2 in fixed_songs.items():
if name1 != name2 and subsong(song1, song2):
raise ValueError(f'{name2} is unplayable because it contains {name1}')
random_songs = []
for _ in range(12 - len(fixed_songs)):
for _ in range(1000):
# generate a completely random song
song = get_random_song()
# test the song against all existing songs
is_good = True
for other_song in chain(fixed_songs.values(), random_songs):
if subsong(song, other_song):
is_good = False
if is_good:
random_songs.append(song)
break
if len(fixed_songs) + len(random_songs) < 12:
# this can happen if the fixed songs are so short that any random set of songs would have them as subsongs
raise ShuffleError('Could not generate random songs')
# sort the songs by length
random_songs.sort(key=lambda s: s.difficulty)
for name in DIFFICULTY_ORDER:
if name not in fixed_songs:
fixed_songs[name] = random_songs.pop(0)
return fixed_songs
# replace the playback and activation requirements for the ocarina songs
def replace_songs(world: World, rom: Rom, frog: bool, warp: bool) -> None:
songs = generate_song_list(world, frog, warp)
world.song_notes = songs
for name, song in songs.items():
if str(song) == SONG_TABLE[name][2]:
continue # song activation is vanilla (possibly because this row wasn't randomized), don't randomize playback
# fix the song of time and sun's song
if name == 'Song of Time' or name == 'Suns Song':
song.increase_duration_to(260)
# write the song to the activation table
cur_offset = ACTIVATION_START + SONG_TABLE[name][0] * ACTIVATION_LENGTH
rom.write_bytes(cur_offset, song.activation_data)
# write the songs to the playback table
song_offset = PLAYBACK_START + SONG_TABLE[name][0] * PLAYBACK_LENGTH
rom.write_bytes(song_offset, song.playback_data)