ref: 85bfc5b6ea03f364b8b4f80bd1dc1340ba2fd111
dir: /tables/compile_music.py/
import array import sys import yaml import re import util class Song: name = 'Song' def __str__(self): s = '[Song_0x%x idx=%d]\n' % (self.ea, self.index) s += "".join(x.name + '\n' for x in self.phrases) return s class Phrase: name = 'Phrase' def __str__(self): s = '[%s]' % (self.name) return s class PhraseLoop: name = 'PhraseLoop' def __init__(self, loops, jmp): self.loops = loops self.jmp = jmp self.name = 'PhraseLoop %d %d' % (self.loops, self.jmp) def __str__(self): return self.name class Pattern: name = 'Pattern' class SfxPattern: name = 'SfxPattern' class SongList: name = 'SongList' class SfxList: name = 'SfxList' types_for_name = {} def get_type_for_name(nam, tp, is_create): if nam == 'None': assert not is_create return None a = types_for_name.get(nam) if a != None: if is_create: if a.defined: raise Exception('%s already defined' % nam) a.defined = True assert type(a) == tp, (nam, type(a), tp) return a a = tp() a.name = nam a.defined = is_create types_for_name[nam] = a a.ea = None if '_0x' in nam: a.ea = int(nam[nam.index('_0x') + 3:], 16) return a def process_song(caption, args, lines): song = get_type_for_name(caption, Song, True) song.phrases = [] for line in lines: line_cmd, *line_args = line.split(' ') if line_cmd == 'PhraseLoop': song.phrases.append(PhraseLoop(int(line_args[0]), int(line_args[1]))) else: song.phrases.append(get_type_for_name(line_cmd, Phrase, False)) return song def process_song_list(caption, args, lines): song_list = get_type_for_name(caption, SongList, True) song_list.songs = [get_type_for_name(line, Song, False) for line in lines] return song_list def process_phrase(caption, args, lines): phrase = get_type_for_name(caption, Phrase, True) assert len(lines)==8 phrase.patterns = [get_type_for_name(lines[i], Pattern, False) for i in range(8)] return phrase kEffectByteLength = [1, 1, 2, 3, 0, 1, 2, 1, 2, 1, 1, 3, 0, 1, 2, 3, 1, 3, 3, 0, 1, 3, 0, 3, 3, 3, 1] kEffectNames = ['Instrument', 'Pan', 'PanFade', 'Vibrato', 'VibratoOff', 'SongVolume', 'SongVolumeFade', 'Tempo', 'TempoFade', 'Transpose', 'ChannelTranpose', 'Tremolo', 'TremoloOff', 'Volume', 'VolumeFade', 'Call', 'VibratoFade', 'PitchEnvelopeTo', 'PitchEnvelopeFrom', 'PitchEnvelopeOff', 'FineTune', 'EchoEnable', 'EchoOff', 'EchoSetup', 'EchoVolumeFade', 'PitchSlide', 'PercussionDefine'] kEffectNamesDict = {a:i for i, a in enumerate(kEffectNames)} kKeys = ['C-', 'C#', 'D-', 'D#', 'E-', 'F-', 'F#', 'G-', 'G#', 'A-', 'A#', 'B-'] kKeysDict = {a+str(j+1):i+j*12 for i, a in enumerate(kKeys) for j in range(6)} kKeysDict['-+-'] = 72 kKeysDict['---'] = 73 def process_pattern(caption, args, lines): pattern = get_type_for_name(caption, Pattern, True) pattern.lines = [] pattern.fallthrough = False for line in lines: assert not pattern.fallthrough line_cmd, *line_args = line.split() if line_cmd == 'Call': assert len(line_args) == 2 pattern.lines.append(('Call', (get_type_for_name(line_args[0], Pattern, False),int(line_args[1]) ), None, None)) elif line_cmd == 'Fallthrough': pattern.fallthrough = True elif line_cmd in kEffectNamesDict: line_args = [int(a) for a in line_args] pattern.lines.append((line_cmd, line_args, None, None)) elif line_cmd in kKeysDict: assert len(line_args) == 2, line_args note_length = None if line_args[0] == '--' else int(line_args[0]) volstuff = None if line_args[1] == '--' else int(line_args[1], 16) pattern.lines.append((line_cmd, line_args, note_length, volstuff)) else: assert 0, repr(line_cmd) return pattern def process_sfx_pattern(caption, args, lines): pattern = get_type_for_name(caption, SfxPattern, True) pattern.lines = lines return pattern def write_sfx_pattern(serializer, o): # print('# Creating %s (%x)' % ( o.name, serializer.addr)) for i,line in enumerate(o.lines): # print(line) line_cmd, *line_args = re.split(r' +', line) if line_cmd == 'SetInstrument': assert len(line_args) == 1 serializer.write([0xe0, int(line_args[0])]) elif line_cmd == 'Restart': serializer.write([0xff]) assert i == len(o.lines) - 1 return elif line_cmd == 'Fallthrough': assert i == len(o.lines) - 1 return elif line_cmd in kKeysDict or line_cmd == '.': if line_args[0] != '--': serializer.write((int(line_args[0]),)) if line_args[1] != '---': serializer.write((int(line_args[1]),)) if line_args[2] != '---': serializer.write((int(line_args[2]),)) if len(line_args) >= 4: assert line_args[3] == 'PitchSlide' if line_cmd == '.': serializer.write([0xf1, int(line_args[4]), int(line_args[5]), int(line_args[6])]) else: serializer.write([0xf9, kKeysDict[line_cmd] | 0x80, int(line_args[4]), int(line_args[5]), int(line_args[6])]) else: serializer.write([kKeysDict[line_cmd] | 0x80]) else: assert 0, repr(line_cmd) serializer.write([0]) def process_sfx_list(caption, args, lines): sfx_list = get_type_for_name(caption, SfxList, True) sfx_list.patterns = [] sfx_list.next = [] sfx_list.echo = [] for line in lines: r = line.split(',') sfx_list.patterns.append(get_type_for_name(r[0], SfxPattern, False)) sfx_list.next.append(int(r[1])) if len(r) >= 3: sfx_list.echo.append(int(r[2])) assert len(sfx_list.echo) in (0, len(lines)) return sfx_list def write_sfx_list(serializer, o): for line in o.patterns: serializer.write_reloc_entry(line) for next in o.next: serializer.write([next]) for i in o.echo: serializer.write([i]) kGapStartAddrs = (0x2b00, 0x2880, 0xd000) class Serializer: def __init__(self): self.memory = [None] * 65536 self.relocs = [] self.addr = None def write(self, data): for d in data: assert self.memory[self.addr] == None, '0x%x' % self.addr self.memory[self.addr] = d self.addr += 1 def write_at(self, a, data): for d in data: self.memory[a] = d a += 1 def write_word(self, a, v): self.memory[a] = v & 0xff self.memory[a + 1] = v >> 8 & 0xff def write_reloc_entry(self, r): self.write([0, 0]) if r: self.relocs.append((self.addr - 2, r)) def write_song(self, song): for phrase in song.phrases: if isinstance(phrase, PhraseLoop): i = self.addr + phrase.jmp * 2 self.write([phrase.loops, 0]) self.write([i & 0xff, i >> 8]) else: self.write_reloc_entry(phrase) self.write([0, 0]) def write_phrase(self, phrase): for i in range(8): self.write_reloc_entry(phrase.patterns[i]) def write_song_list(self, song_list): for song in song_list.songs: self.write_reloc_entry(song) def write_pattern(self, patt): for cmd, args, note_length, volstuff in patt.lines: #print(cmd, args, note_length, volstuff) if note_length != None: self.write((note_length, )) if volstuff != None: self.write((volstuff, )) if cmd in kKeysDict: self.write((0x80 | kKeysDict[cmd], )) elif cmd == 'Call': self.write([0xef, 0, 0, int(args[1])]) self.relocs.append((self.addr - 3, args[0])) elif cmd in kEffectNamesDict: i = kEffectNamesDict[cmd] assert len(args) == kEffectByteLength[i] self.write([0xe0 + i]) self.write(args) if not patt.fallthrough: self.write((0, )) def write_obj(self, what): # print(what.name, self.addr, what.ea) # print('Writing %s at 0x%x. Curr pos 0x%x' % (what.name, what.ea, 0 if self.addr == None else self.addr)) if what.ea != None: if self.addr == None or what.ea in kGapStartAddrs:# or True:#what.ea >= self.addr: self.addr = what.ea elif what.ea != self.addr: print('%s: 0x%x != 0x%x' % (what.name, what.ea, self.addr)) assert(0) what.write_addr = self.addr assert self.addr != None if isinstance(what, Phrase): self.write_phrase(what) elif isinstance(what, Pattern): self.write_pattern(what) elif isinstance(what, Song): self.write_song(what) elif isinstance(what, SongList): self.write_song_list(what) elif isinstance(what, SfxPattern): write_sfx_pattern(self, what) elif isinstance(what, SfxList): write_sfx_list(self, what) else: print(type(what)) assert(0) def write_zeros(self, a, b): while a < b: self.memory[a] = 0 a += 1 def process_relocs(self): for p, r in self.relocs: self.memory[p + 0] = r.write_addr & 0xff self.memory[p + 1] = r.write_addr >> 8 def process_file(file): sorted_ents = [] def add_collect(heading, collect): caption, *args = heading.strip('[]').split(' ', 1) if caption.startswith('Song_'): r = process_song(caption, args, collect) elif caption.startswith('Phrase_'): r = process_phrase(caption, args, collect) elif caption.startswith('Pattern_'): r = process_pattern(caption, args, collect) elif caption.startswith('SongList_'): r = process_song_list(caption, args, collect) elif caption.startswith('Sfx_'): r = process_sfx_pattern(caption, args, collect) elif caption.startswith('SfxPort'): r = process_sfx_list(caption, args, collect) else: assert 0 sorted_ents.append(r) collect = None heading = None for line in file: line = line.strip() if line == '' or line.startswith('#'): continue if line.startswith('['): if heading != None: add_collect(heading, collect) heading = line collect = [] # #print(caption, args) else: collect.append(line.strip('\n')) if heading != None: add_collect(heading, collect) return sorted_ents def serialize_song(serializer, song, sorted_ents): if song == 'intro': # serializer.write_zeros(0x2a8b, 0x2b00) # serializer.write_zeros(0x3188, 0x4000) # serializer.write_zeros(0xbaa0, 0xd000) # serializer.write_zeros(0xfdae, 0x10000) # serializer.write_zeros(0x2850, 0x2880) serializer.addr = 0x4000 sample_to_addr = {} music_info = yaml.safe_load(open('music_info.yaml', 'r')) for i, info in enumerate(music_info['samples']): if info['file'] not in sample_to_addr: sample_to_addr[info['file']] = serializer.addr serializer.write(open('%s.brr' % info['file'], 'rb').read()) addr = sample_to_addr[info['file']] serializer.write_word(0x3c00 + i * 4, addr) serializer.write_word(0x3c00 + i * 4 + 2, addr + info['repeat'] // 16 * 9 if 'repeat' in info else serializer.addr) for i in range(6): serializer.write_word(0x3c64 + i * 2, 0xffff) for i, info in enumerate(music_info['instruments']): ea = 0x3d00 + i * 6 serializer.memory[ea + 0] = info['sample'] serializer.memory[ea + 1] = 0x80 | info['decay'] << 4 | info['attack'] serializer.memory[ea + 2] = info['sustain_level'] << 5 | info['sustain_rate'] serializer.memory[ea + 3] = info['vxgain'] serializer.memory[ea + 4] = info['pitch_base'] >> 8 serializer.memory[ea + 5] = info['pitch_base'] & 0xff serializer.write_at(0x3D96, music_info['note_gate_off']) serializer.write_at(0x3D9e, music_info['note_volume']) for i, info in enumerate(music_info['sfx_instruments']): ea = 0x3e00 + i * 9 serializer.memory[ea + 0] = info['voll'] serializer.memory[ea + 1] = info['volr'] serializer.write_word(ea + 2, info['pitch']) serializer.memory[ea + 4] = info['sample'] serializer.memory[ea + 5] = 0x80 | info['decay'] << 4 | info['attack'] serializer.memory[ea + 6] = info['sustain_level'] << 5 | info['sustain_rate'] serializer.memory[ea + 7] = info['vxgain'] serializer.memory[ea + 8] = info['pitch_base'] serializer.addr = None for e in sorted_ents: serializer.write_obj(e) if song == 'indoor': t = types_for_name['Song_0x2880'] t.defined = True t.write_addr = 0x2880 for e in types_for_name.values(): if not e.defined: raise Exception('Symbol %s not defined' % e.name) serializer.process_relocs() def compare_with_orig(serializer, song): ranges=[] ok = True spc = open('sound/%s.spc' % song, 'rb').read() for i in range(65536): if serializer.memory[i] != None: if serializer.memory[i]!= spc[i]: print('0x%x: 0x%x != 0x%x' % (i, serializer.memory[i], spc[i])) ok = False else: # serializer.memory[i] = spc[i] if len(ranges) and ranges[-1][1] == i: ranges[-1][1] = i + 1 else: ranges.append([i, i + 1]) if __name__ == "__main__": for a, b in ranges: print('// undefined %x-%x' % (a, b)) return ok def produce_loadable_seq(serializer): r = [] # count non zeros start, i = 0, 0 while start < 0x10000: while i < 0x10000 and serializer.memory[i] != None: i += 1 j = i while i < 0x10000 and serializer.memory[i] == None: i += 1 if j == start: start = i continue r.extend([(j - start) & 0xff, (j - start) >> 8, start & 0xff, start >> 8]) r.extend(serializer.memory[start:j]) # print('copy 0x%x - 0x%x (%d)' % (start, j, j - start)) start = i r.extend([0, 0]) return r def print_song(song, f): global types_for_name types_for_name = {} serializer = Serializer() sorted_ents = process_file(open('sound_%s.txt' % song, 'r')) if song == 'intro': sorted_ents.extend(process_file(open('sfx.txt' , 'r'))) serialize_song(serializer, song, sorted(sorted_ents, key = lambda x: x.ea)) r = produce_loadable_seq(serializer) util.print_int_array('kSoundBank_%s' % song, r, 'uint8', False, 32, file = f) if not compare_with_orig(serializer, song): raise Exception('compare failed') if __name__ == "__main__": if len(sys.argv) == 1: for song in ['intro', 'indoor', 'ending']: print_song(song, sys.stdout) else: print_song(sys.argv[1], sys.stdout)