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2d454933f3
* [Audio 9/?] Multiversion samplebank and soundfont extraction xmls, 1.0 and 1.1 audio extraction * Rework multiversion samplebanks to reduce duplicates
982 lines
37 KiB
Python
982 lines
37 KiB
Python
# SPDX-FileCopyrightText: © 2024 ZeldaRET
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# SPDX-License-Identifier: CC0-1.0
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#
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# Implements audiobank file
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#
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import struct
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from typing import Optional
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from .audio_tables import AudioCodeTableEntry
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from .audiobank_structs import AdpcmBook, AdpcmLoop, Drum, Instrument, SoundFontSample, SoundFontSound
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from .audiotable import AudioTableFile, AudioTableSample
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from .envelope import Envelope
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from .extraction_xml import SoundFontExtractionDescription
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from .tuning import pitch_names
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from .util import XMLWriter, align, debugm, merge_like_ranges, merge_ranges
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# Debug settings
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PLOT_DRUM_TUNING = False
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LOG_COVERAGE = False
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def coverage_log(str):
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if LOG_COVERAGE: debugm(str)
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if PLOT_DRUM_TUNING:
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import matplotlib.pyplot as plt
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# dummy types for coverage labeling
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class Padding:
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pass
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class SfxListPtr:
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SIZE = 4
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class DrumsListPtr:
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SIZE = 4
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class InstrumentPtr:
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SIZE = 4
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class DrumPtr:
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SIZE = 4
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class DrumGroup:
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def __init__(self):
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self.drums = []
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self.start = None
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self.end = None
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self.sample_header_offset = None
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self.sample = None
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# Filled in at finalize
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self.envelope_offset = None
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self.envelope = None
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self.release_rate = None
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self.pan = None
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self.sample_header_offset = None
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self.sample_rate = None
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self.base_note = None
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self.needs_rate_override = None
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self.needs_note_override = None
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def __len__(self):
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return len(self.drums)
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def __iter__(self):
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for drum in self.drums:
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yield drum
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def append(self, drum):
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self.drums.append(drum)
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def set_range(self, start, end):
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self.start, self.end = start, end
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def finalize(self, envelopes, sample_lookup_fn):
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# A drum group should use the same envelope for all entries
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env_offsets = set(drum.envelope for drum in self.drums)
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assert len(env_offsets) == 1
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self.envelope_offset = env_offsets.pop()
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self.envelope : Envelope = envelopes[self.envelope_offset]
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# A drum group should use the same release rate
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release_rates = set(drum.release_rate for drum in self.drums)
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assert len(release_rates) == 1
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self.release_rate = release_rates.pop()
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# The release rate used should belong to the envelope used
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assert self.release_rate in self.envelope.release_rates
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# A drum group should always contain a single pan value
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pans = set(drum.pan for drum in self.drums)
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assert len(pans) == 1
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self.pan = pans.pop()
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# A drum group should be the same sample repeated
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sample_header_offsets = set(drum.sample for drum in self.drums)
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assert len(sample_header_offsets) == 1
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sample_header_offset = sample_header_offsets.pop()
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# Fetch sample header
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self.sample_header_offset = sample_header_offset
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sample = sample_lookup_fn(sample_header_offset)
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sample : AudioTableSample
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# Collect final samplerate and basenotes for each drum in the group
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final_rate = None
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notes = []
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for drum in self:
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drum : Drum
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tuning = drum.tuning
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assert tuning in sample.tuning_map
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# Get from sample
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rate, note = sample.tuning_map[tuning]
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if final_rate is None:
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final_rate = rate
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# This should never occur as drum groups are split when the samplerate changes
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assert final_rate == rate
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notes.append(note)
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# Note values should increase monotonically in a drum group
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note_indices = [pitch_names.index(note) + 21 for note in notes]
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assert all(v == note_indices[0] + i for i,v in enumerate(note_indices))
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# Assign final rate and note.
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# Use first note in the group as the basenote for the whole group, the rest will be filled in during build.
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self.sample_rate = final_rate
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self.base_note = notes[0]
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assert sample.sample_rate is not None
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assert sample.base_note is not None
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# Needs override if they do not agree with the final values in the sample
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self.needs_rate_override = sample.sample_rate != self.sample_rate
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self.needs_note_override = sample.base_note != self.base_note
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def to_xml(self, xml : XMLWriter, name : str, sample_name_func, envelope_name_func):
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attributes = {
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"Name" : name,
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"Envelope" : envelope_name_func(self.envelope_offset),
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}
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if self.release_rate != self.envelope.release_rate():
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attributes["Release"] = self.release_rate
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attributes["Pan"] = self.pan
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if self.start == self.end:
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attributes["Note"] = pitch_names[self.start]
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else:
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attributes["NoteStart"] = pitch_names[self.start]
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attributes["NoteEnd"] = pitch_names[self.end]
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attributes["Sample"] = sample_name_func(self.sample_header_offset)
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if self.needs_rate_override:
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attributes["SampleRate"] = self.sample_rate
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if self.needs_note_override:
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attributes["BaseNote"] = self.base_note
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xml.write_element("Drum", attributes)
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class AudiobankFile:
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"""
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"""
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def __init__(self, audiobank_seg : memoryview, index : int, table_entry : AudioCodeTableEntry,
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seg_offset : int, bank1 : AudioTableFile, bank2 : AudioTableFile, bank1_num : int, bank2_num : int,
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extraction_desc : Optional[SoundFontExtractionDescription] = None):
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self.bank_num = index
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self.table_entry : AudioCodeTableEntry = table_entry
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self.num_instruments = self.table_entry.num_instruments
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self.data = self.table_entry.data(audiobank_seg, seg_offset)
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self.bank1 : AudioTableFile = bank1
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self.bank2 : AudioTableFile = bank2
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self.bank1_num = bank1_num
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self.bank2_num = bank2_num
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if extraction_desc is None:
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self.file_name = f"Soundfont_{self.bank_num}"
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self.name = f"Soundfont_{self.bank_num}"
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self.extraction_envelopes_info = None
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self.extraction_instruments_info = None
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self.extraction_drums_info = None
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self.extraction_effects_info = None
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self.extraction_envelopes_info_versions = []
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self.extraction_instruments_info_versions = {}
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self.extraction_drums_info_versions = []
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self.extraction_effects_info_versions = []
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else:
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self.file_name = extraction_desc.file_name
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self.name = extraction_desc.name
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self.extraction_envelopes_info = extraction_desc.envelopes_info
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self.extraction_instruments_info = extraction_desc.instruments_info
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self.extraction_drums_info = extraction_desc.drums_info
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self.extraction_effects_info = extraction_desc.effects_info
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self.extraction_envelopes_info_versions = extraction_desc.envelopes_info_versions
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self.extraction_instruments_info_versions = extraction_desc.instruments_info_versions
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self.extraction_drums_info_versions = extraction_desc.drums_info_versions
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self.extraction_effects_info_versions = extraction_desc.effects_info_versions
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# Coverage consists of a list of itervals of the form [[start,type],[end,type]]
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self.coverage = []
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self.envelopes = {}
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self.sample_headers = {}
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self.books = {}
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self.loops = {}
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self.loops_have_frames = False
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# Read Drums
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self.collect_drums()
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self.group_drums()
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# Read Sfx
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self.collect_sfx()
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# Read Instruments
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self.collect_instruments()
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# Check Coverage
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self.cvg_log()
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self.coverage = merge_ranges(self.coverage)
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self.resolve_cvg_gaps()
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self.coverage = merge_ranges(self.coverage)
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coverage_log("Final Coverage:")
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coverage_log([[[interval[0][0], interval[0][1].__name__], [interval[1][0], interval[1][1].__name__]] for interval in self.coverage])
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coverage_log(f"[[{0}, {len(self.data)}]]")
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assert len(self.coverage) == 1
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coverage_log("OK")
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# Check End of File
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self.check_end()
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def collect_drums(self):
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# Read structures
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self.drums_ptr_list_ptr = self.read_pointer(0, DrumsListPtr)
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assert self.drums_ptr_list_ptr % 16 == 0
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self.drums_ptr_list = self.read_pointer_list(self.drums_ptr_list_ptr, self.table_entry.num_drums, DrumPtr)
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self.drums = self.read_list_from_offset_list(self.drums_ptr_list, Drum)
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# Process structures
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for drum in self.drums:
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if drum is None:
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# NULL pointer in drums pointer list
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continue
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# Read envelope
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self.read_envelope(drum.envelope, drum.release_rate)
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# Read sample if it exists
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if drum.tuning != 0 and drum.sample != 0:
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self.read_sample_header(drum.sample, drum.tuning, drum)
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def group_drums(self):
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self.drum_groups = []
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first = True
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last_drum = None
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for drum in self.drums:
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if drum is None:
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if last_drum is None and not first:
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self.drum_groups[-1].append(None)
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else:
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self.drum_groups.append([None])
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last_drum = None
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else:
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drum : Drum
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if not drum.group_continuation(last_drum):
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# group changed
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self.drum_groups.append(DrumGroup())
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self.drum_groups[-1].append(drum)
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last_drum = drum
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first = False
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note_start = 0
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for drum_grp in self.drum_groups:
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note_end = note_start + len(drum_grp) - 1
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if any(d is not None for d in drum_grp):
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drum_grp : DrumGroup
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drum_grp.set_range(note_start, note_end)
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note_start = note_end + 1
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def collect_sfx(self):
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# Read structures
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self.sfx_list_ptr = self.read_pointer(4, SfxListPtr)
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assert self.sfx_list_ptr % 16 == 0
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self.sfx = self.read_list(self.sfx_list_ptr, self.table_entry.num_sfx, SoundFontSound)
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# Process structures
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for sfx in self.sfx:
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# Read sample if it exists
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if sfx.tuning != 0 and sfx.sample != 0:
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self.read_sample_header(sfx.sample, sfx.tuning, sfx)
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def collect_instruments(self):
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# Read structures
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self.instrument_offset_list = self.read_pointer_list(8, self.table_entry.num_instruments, InstrumentPtr)
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self.instruments = self.read_list_from_offset_list(self.instrument_offset_list, Instrument)
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# Record order information
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for i,instr in enumerate(self.instruments):
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if instr is None:
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# NULL entry in pointer list
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continue
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instr.program_number = i
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instr.offset = self.instrument_offset_list[i]
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# Get rid of NULL entries, these correspond to program numbers with no assigned instrument.
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self.instruments = [instr for instr in self.instruments if instr is not None]
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# Build index map for sequence checking
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self.instrument_index_map = { instr.program_number : instr for instr in self.instruments }
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# The struct index records the order of the instrument structures themselves. This is often different than the
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# order they appear in the pointer table, since the pointer table is indexed by program number. We want to emit
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# xml entries in struct order with a property stating their program number as this seems most user-friendly.
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for i,instr in enumerate(sorted(self.instruments, key=lambda instr : instr.offset)):
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instr : Instrument
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instr.struct_index = i
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# Read data that this structure references
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for i,instr in enumerate(self.instruments):
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# Read the envelope
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self.read_envelope(instr.envelope, instr.release_rate)
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# Read the samples, if they exist
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if instr.low_notes_tuning != 0 and instr.low_notes_sample != 0:
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self.read_sample_header(instr.low_notes_sample, instr.low_notes_tuning, instr)
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if instr.normal_notes_tuning != 0 and instr.normal_notes_sample != 0:
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self.read_sample_header(instr.normal_notes_sample, instr.normal_notes_tuning, instr)
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if instr.high_notes_tuning != 0 and instr.high_notes_sample != 0:
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self.read_sample_header(instr.high_notes_sample, instr.high_notes_tuning, instr)
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def cvg_log(self):
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if not LOG_COVERAGE:
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return
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types_ranges = merge_like_ranges(self.coverage)
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for type_range in types_ranges:
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interval_start, interval_start_type = type_range[0]
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interval_end, _ = type_range[1]
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if interval_start == interval_end:
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continue
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interval_length = interval_end - interval_start
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if interval_start_type == int:
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sizeof_type = 4
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elif interval_start_type == Padding:
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sizeof_type = interval_end - interval_start
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elif interval_start_type == AdpcmBook:
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sizeof_type = self.read_book_size(interval_start)
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elif interval_start_type == AdpcmLoop:
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sizeof_type = self.read_loop_size(interval_start)
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elif interval_start_type == Envelope.EnvelopePoint:
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sizeof_type = 4
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else:
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sizeof_type = interval_start_type.SIZE
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array_size = interval_length // sizeof_type
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output_str = f"0x{interval_start:04X} - 0x{interval_end:04X} : {interval_start_type.__name__}"
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if array_size != 1 or interval_start_type == Envelope.EnvelopePoint:
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output_str += f"[{array_size}]"
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coverage_log(output_str)
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def resolve_cvg_gaps(self):
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if len(self.coverage) < 2:
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# There are already no gaps, nothing to do
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return
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# Resolve gaps in coverage with heuristics
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for i in range(len(self.coverage) - 1):
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prev_interval = self.coverage[i]
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next_interval = self.coverage[i + 1]
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unref_start_offset, unref_start_type = prev_interval[1]
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unref_end_offset, unref_end_type = next_interval[0]
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unaccounted_data = self.data[unref_start_offset:unref_end_offset]
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if unref_end_type in [AdpcmBook, AdpcmLoop] and all(b == 0 for b in unaccounted_data) and \
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unref_end_offset - unref_start_offset < 16 and (unref_end_offset % 16) == 0:
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# Book and Loop structures are aligned to 16 byte boundaries, silently mark padding
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self.coverage.append([[unref_start_offset, Padding], [unref_end_offset, Padding]])
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continue
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coverage_log(f"Unaccounted: 0x{unref_start_offset:04X}({unref_start_type.__name__}) " + \
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f"to 0x{unref_end_offset:04X}({unref_end_type.__name__})")
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coverage_log([f"0x{b:02X}" for b in unaccounted_data])
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try:
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if unref_start_type == Envelope.EnvelopePoint:
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# Assume it is an envelope if it follows an envelope
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assert unref_start_offset not in self.envelopes
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coverage_log("Unaccounted follows an envelope, assume it is an envelope")
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st = self.read_envelope(unref_start_offset, None, is_zero=all(b == 0 for b in unaccounted_data))
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elif unref_start_type in [SoundFontSample, AdpcmLoop]:
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# Orphaned loops are unlikely, it's more likely a SoundFontSample
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coverage_log("Unaccounted follows a SoundFontSample or AdpcmLoop, assuming SoundFontSample")
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st = self.read_sample_header(unref_start_offset, None, None)
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elif unref_start_type == Instrument:
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coverage_log("Unaccounted follows an Instrument, assume it is an Instrument")
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st : Instrument = self.read_structure(unref_start_offset, unref_start_type)
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# Check that we already saw the sample header this instrument wants
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assert st.normal_notes_sample in self.sample_headers
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assert st.normal_range_hi == 127 or st.high_notes_sample in self.sample_headers
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assert st.normal_range_lo == 0 or st.low_notes_sample in self.sample_headers
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# Insert into instrument list in the appropriate location, mark it as unused so that sfc knows not
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# to add it to the instrument pointer list when recompiling
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st.offset = unref_start_offset
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st.unused = True
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# Assign struct index for this unreferenced instrument
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new_index = -1
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for instr in sorted(self.instruments, key= lambda instr : instr.struct_index):
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instr : Instrument
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if instr.offset > unref_start_offset:
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if new_index == -1:
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# Record struct index for the unused instrument
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new_index = instr.struct_index
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# Increment struct indices for every structure that occurs after this one
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instr.struct_index += 1
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else:
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# Give it a new index at the end
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if new_index == -1:
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new_index = len(self.instruments)
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st.struct_index = new_index
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self.instruments.append(st)
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else:
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st = self.read_structure(unref_start_offset, unref_start_type)
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coverage_log(st)
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assert False, "Unhandled coverage case" # handle more structures if they appear
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coverage_log(st)
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except Exception as e:
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coverage_log("FAILED")
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if all(b == 0 for b in unaccounted_data):
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coverage_log("Probably padding or an empty file?")
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raise e
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def check_end(self):
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self.pad_to_size = None
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end = self.coverage[-1][1][0]
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end_aligned = align(end, 16)
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if end_aligned != len(self.data):
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print(f"[Soundfont {self.bank_num:2}] Did not reach end of the file?",
|
|
f"0x{end_aligned:X} vs 0x{len(self.data):X}")
|
|
assert all(b == 0 for b in self.data[end_aligned:])
|
|
self.pad_to_size = len(self.data)
|
|
|
|
self.file_padding = None
|
|
|
|
if not all(b == 0 for b in self.data[end:]):
|
|
print(f"[Soundfont {self.bank_num:2}] Non-zero unaccounted data at the end of the file?",
|
|
f"From 0x{end:X} to 0x{len(self.data):X}")
|
|
self.file_padding = self.data[end:]
|
|
|
|
def dump_bin(self, path):
|
|
with open(path, "wb") as outfile:
|
|
outfile.write(self.data)
|
|
|
|
def read_loop_size(self, offset):
|
|
loop_count, = struct.unpack(">I", self.data[offset+8:offset+0xC])
|
|
return 0x30 if loop_count != 0 else 0x10
|
|
|
|
def read_loop_struct(self, offset):
|
|
return AdpcmLoop(self.logged_read(offset, self.read_loop_size(offset), AdpcmLoop))
|
|
|
|
def read_book_size(self, offset):
|
|
order, npredictors = struct.unpack(">ii", self.data[offset:offset+8])
|
|
return 8 + 2 * 8 * order * npredictors
|
|
|
|
def read_sample_header(self, offset, tuning, ob):
|
|
assert offset % 16 == 0
|
|
|
|
if offset in self.sample_headers:
|
|
# Don't re-read a sample header structure if it was already read
|
|
sample_header = self.sample_headers[offset]
|
|
sample_header : SoundFontSample
|
|
else:
|
|
# Read the new sample header and cache it
|
|
sample_header = self.read_structure(offset, SoundFontSample)
|
|
self.sample_headers[offset] = sample_header
|
|
|
|
# Samples must always have an associated book
|
|
assert sample_header.book != 0
|
|
|
|
if sample_header.book in self.books:
|
|
# Lookup the book, samples may share books if they are identical
|
|
book = self.books[sample_header.book]
|
|
else:
|
|
# Read the new book
|
|
book_size = self.read_book_size(sample_header.book)
|
|
book = AdpcmBook(self.logged_read(sample_header.book, book_size, AdpcmBook))
|
|
|
|
# Books are `8 + 16 * n` bytes large and should start on an 0x10 byte boundary.
|
|
# Check that we get 8 bytes of padding following the book.
|
|
book_end = sample_header.book + book_size
|
|
assert sample_header.book % 16 == 0
|
|
assert book_end % 16 == 8
|
|
assert all(b == 0 for b in self.logged_read(book_end, 8, Padding))
|
|
|
|
# Cache it
|
|
self.books[sample_header.book] = book
|
|
|
|
# Read the loop, if there is one
|
|
if sample_header.loop == 0:
|
|
# No loop
|
|
loop = None
|
|
elif sample_header.loop in self.loops:
|
|
# Already seen, look it up
|
|
loop = self.loops[sample_header.loop]
|
|
else:
|
|
# Read new loop structure
|
|
loop = self.read_loop_struct(sample_header.loop)
|
|
|
|
# If loops were determined to store the sample's total frame count, require that all loops with nonzero
|
|
# count all have the same behavior within the same soundfont
|
|
if self.loops_have_frames and loop.count != 0:
|
|
assert loop.num_frames != 0, loop
|
|
|
|
# If the numFrames field is nonzero anywhere, record this
|
|
# TODO this may miss some checks, fix?
|
|
if loop.num_frames != 0:
|
|
self.loops_have_frames = True
|
|
|
|
# Add the sample to the appropriate samplebank
|
|
bank = self.bank1 if sample_header.medium == 0 else self.bank2
|
|
if tuning is not None:
|
|
bank.add_sample(sample_header, book, loop, tuning, ob)
|
|
else:
|
|
# If we found unreferenced sample data that was not discovered elsewhere there is no tuning value to recover
|
|
# the samplerate from. These need to be handled manually, but this is currently unsupported as this does not
|
|
# occur in zelda64 audio banks.
|
|
assert sample_header.sample_addr in bank.samples , \
|
|
"Unreferenced sample header refers to sample that was not otherwise discovered, cannot " + \
|
|
"automatically recover sample rate"
|
|
|
|
return sample_header
|
|
|
|
def read_envelope_points(self, offset, is_zero=False):
|
|
size = 0
|
|
|
|
if not is_zero:
|
|
points = []
|
|
|
|
while True:
|
|
point = Envelope.EnvelopePoint(*struct.unpack(">hh", self.data[offset + size:][:4]))
|
|
assert point.delay >= -3 # TODO this could be used to determine whether data is really an envelope
|
|
points.append(point)
|
|
size += 4
|
|
if point.delay < 0:
|
|
break
|
|
|
|
# pad to 0x10 byte boundary
|
|
while (size % 16) != 0:
|
|
point = Envelope.EnvelopePoint(*struct.unpack(">hh", self.data[offset + size:][:4]))
|
|
assert point.delay == 0 and point.arg == 0
|
|
points.append(point)
|
|
size += 4
|
|
else:
|
|
size = 16
|
|
points = [Envelope.EnvelopePoint(0, 0), Envelope.EnvelopePoint(0, 0),
|
|
Envelope.EnvelopePoint(0, 0), Envelope.EnvelopePoint(0, 0)]
|
|
|
|
return points, size
|
|
|
|
def read_envelope(self, offset, release_rate, is_zero=False):
|
|
assert offset % 16 == 0
|
|
|
|
if offset in self.envelopes:
|
|
# Look it up if it was already seen
|
|
env = self.envelopes[offset]
|
|
else:
|
|
# Read new
|
|
points, size = self.read_envelope_points(offset, is_zero)
|
|
env = Envelope(points, is_zero=is_zero)
|
|
|
|
# Cache it
|
|
self.envelopes[offset] = env
|
|
# Mark coverage
|
|
self.coverage.append([[offset, Envelope.EnvelopePoint], [offset + size, Envelope.EnvelopePoint]])
|
|
|
|
# Add release rate if there was one
|
|
if release_rate is not None:
|
|
env.release_rates.append(release_rate)
|
|
|
|
return env
|
|
|
|
def logged_read(self, start, length, dtype):
|
|
"""
|
|
Read data while also recording coverage information
|
|
"""
|
|
end = start + length
|
|
self.coverage.append([[start, dtype], [end, dtype]])
|
|
return self.data[start:end]
|
|
|
|
def read_structure(self, offset, dtype):
|
|
return dtype(self.logged_read(offset, dtype.SIZE, dtype))
|
|
|
|
def read_list(self, offset, num, dtype):
|
|
return [dtype(i, self.logged_read(offset + i * dtype.SIZE, dtype.SIZE, dtype)) for i in range(num)]
|
|
|
|
def read_pointer(self, offset, ptr_type):
|
|
return struct.unpack('>I', self.logged_read(offset, 4, ptr_type))[0]
|
|
|
|
def read_list_from_offset_list(self, offset_list, dtype):
|
|
assert all([b % 0x10 == 0 for b in offset_list])
|
|
return [dtype(self.logged_read(offset, dtype.SIZE, dtype)) if offset != 0 else None for offset in offset_list]
|
|
|
|
def read_pointer_list(self, offset, count, ptr_type):
|
|
# May be NULL, but only if the count is 0
|
|
assert (count == 0 and offset == 0) or offset != 0
|
|
|
|
if count == 0:
|
|
# No data
|
|
return []
|
|
|
|
# Read pointer list contents
|
|
ptr_list = [i[0] for i in struct.iter_unpack('>I', self.logged_read(offset, 4 * count, ptr_type))]
|
|
assert len(ptr_list) == count
|
|
|
|
# Pointer lists seem to always pad to the next 0x10 byte boundary
|
|
pointers_end = offset + 4 * count
|
|
possible_pad = self.logged_read(pointers_end, align(pointers_end, 16) - pointers_end, Padding)
|
|
assert all(b == 0 for b in possible_pad)
|
|
|
|
return ptr_list
|
|
|
|
def sorted_envelopes(self):
|
|
# sort by offset
|
|
for i,(offset,env) in enumerate(sorted(self.envelopes.items(), key=lambda x : x[0])):
|
|
yield i,(offset,env)
|
|
|
|
def envelope_name_func(self, offset):
|
|
return self.envelopes[offset].name
|
|
|
|
def sorted_sample_headers(self):
|
|
for i,offset in enumerate(sorted(self.sample_headers)):
|
|
yield i,(offset,self.sample_headers[offset])
|
|
|
|
def lookup_sample(self, header_offset : int) -> Optional[AudioTableSample]:
|
|
if header_offset == 0:
|
|
return None
|
|
header : SoundFontSample = self.sample_headers[header_offset]
|
|
bank = self.bank1 if header.medium == 0 else self.bank2
|
|
return bank.lookup_sample(header.sample_addr)
|
|
|
|
def lookup_sample_name(self, sample_header : SoundFontSample):
|
|
bank = self.bank1 if sample_header.medium == 0 else self.bank2
|
|
name = bank.lookup_sample(sample_header.sample_addr).name
|
|
assert name is not None
|
|
return name
|
|
|
|
def sample_name_func(self, offset):
|
|
return self.lookup_sample_name(self.sample_headers[offset])
|
|
|
|
def finalize(self):
|
|
# Assign envelope names
|
|
for i,(offset,env) in self.sorted_envelopes():
|
|
env : Envelope
|
|
env.name = self.envelope_name(i)
|
|
|
|
# Link Instruments
|
|
for instr in self.instruments:
|
|
instr.finalize(self.lookup_sample)
|
|
|
|
# Final Drum Groups
|
|
|
|
if PLOT_DRUM_TUNING:
|
|
plt.clf()
|
|
plt.cla()
|
|
plt.title(f"Drums in soundfont {self.bank_num}")
|
|
plt.xlabel("Drum index")
|
|
plt.ylabel("Tuning value")
|
|
|
|
for drum_grp in self.drum_groups:
|
|
if all(d is None for d in drum_grp):
|
|
continue
|
|
|
|
if PLOT_DRUM_TUNING:
|
|
plt.plot( range(drum_grp.start,drum_grp.end), [drum.tuning for drum in drum_grp])
|
|
plt.scatter(range(drum_grp.start,drum_grp.end), [drum.tuning for drum in drum_grp])
|
|
|
|
drum_grp : DrumGroup
|
|
drum_grp.finalize(self.envelopes, self.lookup_sample)
|
|
|
|
if PLOT_DRUM_TUNING:
|
|
if len(self.drum_groups) != 0:
|
|
plt.savefig(f"figures/drums_{self.bank_num}.png")
|
|
|
|
# Link SFX
|
|
for sfx in self.sfx:
|
|
sfx.finalize(self.lookup_sample)
|
|
|
|
# TODO resolve decay/release index overrides?
|
|
|
|
def envelope_name(self, index):
|
|
if self.extraction_envelopes_info is not None and index < len(self.extraction_envelopes_info):
|
|
return self.extraction_envelopes_info[index]
|
|
else:
|
|
return f"Env{index}"
|
|
|
|
def instrument_name(self, program_number):
|
|
if self.extraction_instruments_info is not None and program_number in self.extraction_instruments_info:
|
|
return self.extraction_instruments_info[program_number]
|
|
else:
|
|
return f"INST_{program_number}"
|
|
|
|
def drum_grp_name(self, index):
|
|
if self.extraction_drums_info is not None and index < len(self.extraction_drums_info):
|
|
return self.extraction_drums_info[index]
|
|
else:
|
|
return f"DRUM_{index}"
|
|
|
|
def effect_name(self, index):
|
|
if self.extraction_effects_info is not None and index < len(self.extraction_effects_info):
|
|
return self.extraction_effects_info[index]
|
|
else:
|
|
return f"EFFECT_{index}"
|
|
|
|
def envelopes_to_xml(self, xml : XMLWriter):
|
|
if len(self.envelopes) == 0:
|
|
return
|
|
|
|
xml.write_start_tag("Envelopes")
|
|
|
|
for i,(offset,env) in self.sorted_envelopes():
|
|
env : Envelope
|
|
env.to_xml(xml, self.envelope_name(i))
|
|
|
|
xml.write_end_tag()
|
|
|
|
def samples_to_xml(self, xml : XMLWriter):
|
|
if len(self.sample_headers) == 0:
|
|
return
|
|
|
|
xml.write_start_tag("Samples")
|
|
|
|
# Emit these in the order the sample headers appear in the soundfont
|
|
for i,(offset,sample_header) in self.sorted_sample_headers():
|
|
sample_header : SoundFontSample
|
|
sample_header.to_xml(xml, self.lookup_sample_name(sample_header))
|
|
|
|
xml.write_end_tag()
|
|
|
|
def sfx_to_xml(self, xml : XMLWriter):
|
|
if len(self.sfx) == 0:
|
|
return
|
|
|
|
xml.write_start_tag("Effects")
|
|
|
|
for i,sfx in enumerate(self.sfx):
|
|
sfx.to_xml(xml, self.effect_name(i), self.sample_name_func)
|
|
|
|
xml.write_end_tag()
|
|
|
|
def drums_to_xml(self, xml : XMLWriter):
|
|
if len(self.drums) == 0:
|
|
return
|
|
|
|
xml.write_start_tag("Drums")
|
|
|
|
for i,drum_grp in enumerate(self.drum_groups):
|
|
if isinstance(drum_grp, list):
|
|
for _ in range(len(drum_grp)):
|
|
xml.write_element("Drum")
|
|
else:
|
|
drum_grp : DrumGroup
|
|
drum_grp.to_xml(xml, self.drum_grp_name(i), self.sample_name_func, self.envelope_name_func)
|
|
|
|
xml.write_end_tag()
|
|
|
|
def instruments_to_xml(self, xml : XMLWriter):
|
|
if len(self.instruments) == 0:
|
|
return
|
|
|
|
xml.write_start_tag("Instruments")
|
|
|
|
# Write in struct order
|
|
for instr in sorted(self.instruments, key=lambda instr : instr.struct_index):
|
|
instr : Instrument
|
|
name = self.instrument_name(instr.program_number) if not instr.unused else None
|
|
instr.to_xml(xml, name, self.sample_name_func, self.envelope_name_func)
|
|
|
|
xml.write_end_tag()
|
|
|
|
def to_xml(self, name, samplebanks_base):
|
|
xml = XMLWriter()
|
|
|
|
start = {
|
|
"Name" : name,
|
|
"Index" : self.bank_num,
|
|
"Medium" : self.table_entry.medium.name,
|
|
"CachePolicy" : self.table_entry.cache_policy.name,
|
|
"SampleBank" : f"$(BUILD_DIR)/{samplebanks_base}/{self.bank1.file_name}.xml",
|
|
}
|
|
|
|
# If the samplebank1 index is not the true index (that is it's a pointer), write an Indirect
|
|
if self.bank1_num != self.bank1.bank_num:
|
|
start["Indirect"] = self.bank1_num
|
|
|
|
if self.bank2_num != 255: # bank2 is not None if bank2_num != 255
|
|
start["SampleBankDD"] = f"$(BUILD_DIR)/{samplebanks_base}/{self.bank2.file_name}.xml",
|
|
# TODO we should really write an indirect for DD banks too if bank2_num != bank2.bank_num
|
|
|
|
if self.loops_have_frames:
|
|
# Some MM banks have sample frame counts embedded in loop headers, but not all soundfonts do this
|
|
start["LoopsHaveFrames"] = "true"
|
|
|
|
if max(instr.program_number or 0 for instr in self.instruments) + 1 != self.table_entry.num_instruments:
|
|
# Some banks have trailing NULLs in their instrument pointer tables, record the max length for matching
|
|
start["NumInstruments"] = self.table_entry.num_instruments
|
|
|
|
if self.pad_to_size is not None:
|
|
# The final soundfont typically has extra zeros at the end
|
|
start["PadToSize"] = f"0x{self.pad_to_size:X}"
|
|
|
|
xml.write_start_tag("Soundfont", start)
|
|
|
|
self.envelopes_to_xml(xml)
|
|
self.samples_to_xml(xml)
|
|
|
|
self.sfx_to_xml(xml)
|
|
self.drums_to_xml(xml)
|
|
self.instruments_to_xml(xml)
|
|
|
|
if self.file_padding is not None:
|
|
# Some soundfonts may have garbage data in the final 16-byte file padding
|
|
xml.write_start_tag("MatchPadding")
|
|
xml.write_raw(", ".join(f"0x{b:02X}" for b in self.file_padding))
|
|
xml.write_end_tag()
|
|
|
|
xml.write_end_tag()
|
|
return str(xml)
|
|
|
|
def write_extraction_xml(self, path):
|
|
xml = XMLWriter()
|
|
|
|
xml.write_comment("This file is only for extraction of vanilla data. For other purposes see assets/audio/soundfonts/")
|
|
|
|
xml.write_start_tag("SoundFont", {
|
|
"Name" : self.name,
|
|
"Index" : self.bank_num,
|
|
})
|
|
|
|
# add contents for names
|
|
|
|
if len(self.envelopes) != 0 or len(self.extraction_envelopes_info_versions) != 0:
|
|
xml.write_start_tag("Envelopes")
|
|
|
|
# First write envelopes that were defined in the extraction xml, possibly interleaved with envelopes
|
|
# we ignored for this version
|
|
i = 0
|
|
for envelope_entry,in_version in self.extraction_envelopes_info_versions:
|
|
xml.write_element("Envelope", envelope_entry)
|
|
# Count how many envelopes we saw that were defined for this version
|
|
i += in_version
|
|
|
|
# Write any remaining envelopes that weren't defined in the xml
|
|
for j in range(i, len(self.envelopes)):
|
|
xml.write_element("Envelope", {
|
|
"Name" : self.envelope_name(j)
|
|
})
|
|
|
|
xml.write_end_tag()
|
|
|
|
if len(self.instruments) != 0 or len(self.extraction_instruments_info_versions) != 0:
|
|
xml.write_start_tag("Instruments")
|
|
|
|
# Write in struct order
|
|
sorted_instruments = tuple(sorted(self.instruments, key=lambda instr : instr.struct_index))
|
|
|
|
# First write instruments that were defined in the extraction xml, possibly interleaved with instruments
|
|
# we ignored for this version
|
|
i = 0
|
|
for instr_entry,in_version in self.extraction_instruments_info_versions:
|
|
xml.write_element("Instrument", instr_entry)
|
|
# Count how many instruments we saw that were defined for this version
|
|
i += in_version
|
|
|
|
# Write any remaining instruments that weren't defined in the xml
|
|
for instr in sorted_instruments[i:]:
|
|
instr : Instrument
|
|
if not instr.unused:
|
|
xml.write_element("Instrument", {
|
|
"ProgramNumber" : instr.program_number,
|
|
"Name" : self.instrument_name(instr.program_number),
|
|
})
|
|
|
|
xml.write_end_tag()
|
|
|
|
if any(isinstance(dg, DrumGroup) for dg in self.drum_groups) or len(self.extraction_drums_info_versions):
|
|
xml.write_start_tag("Drums")
|
|
|
|
# First write drums that were defined in the extraction xml, possibly interleaved with drums
|
|
# we ignored for this version
|
|
i = 0
|
|
for drum_entry,in_version in self.extraction_drums_info_versions:
|
|
xml.write_element("Drum", drum_entry)
|
|
# Count how many drum groups we saw that were defined for this version
|
|
i += in_version
|
|
|
|
for j,drum_grp in enumerate(self.drum_groups[i:], i):
|
|
if isinstance(drum_grp, DrumGroup):
|
|
xml.write_element("Drum", {
|
|
"Name" : self.drum_grp_name(j)
|
|
})
|
|
|
|
xml.write_end_tag()
|
|
|
|
if len(self.sfx) != 0 or len(self.extraction_effects_info_versions):
|
|
xml.write_start_tag("Effects")
|
|
|
|
# First write effects that were defined in the extraction xml, possibly interleaved with effects
|
|
# we ignored for this version
|
|
i = 0
|
|
for sfx_entry,in_version in self.extraction_effects_info_versions:
|
|
xml.write_element("Effect", sfx_entry)
|
|
# Count how many effects we saw that were defined for this version
|
|
i += in_version
|
|
|
|
for j,sfx in enumerate(self.sfx[i:], i):
|
|
xml.write_element("Effect", {
|
|
"Name" : self.effect_name(j)
|
|
})
|
|
|
|
xml.write_end_tag()
|
|
|
|
xml.write_end_tag()
|
|
|
|
with open(path, "w") as outfile:
|
|
outfile.write(str(xml))
|