bool _prepare_WaveMemory(byte[] instrument_code, string key, bool is_deps)
{
Debug.Assert(SongInstrumentForm.IsWaveMemory(instrument_code[0]));
uint sample_location = U.p32(instrument_code, 4);
if (sample_location > this.Data.Length)
{
this.ErrorMessage += "\r\n" +
R.Error("DirectSoundの中に、おかしなデータがありました。無視します。 sample_location:{0} > {1} ROM Size"
, U.To0xHexString(sample_location), U.To0xHexString(this.Data.Length));
//ダメな楽器として認識する.
return(false);
}
List <byte> current_sample = U.subrangeToList(this.Data, sample_location, sample_location + 16);
//4バイトアライメント
while ((current_sample.Count % 4) != 0)
{
current_sample.Add(0);
}
Log.Debug(U.HexDump(instrument_code));
U.write_u32(instrument_code, 4, (uint)this.Sample_data.Count);
this.Sample_data.AddRange(current_sample);
Log.Debug(R._("SampleData:{0} bytes (append({1}bytes))", this.Sample_data.Count, current_sample.Count));
return(true);
}
uint _prepare(byte[] instrument_code, string key, bool is_deps)
{
// Fix instrument pointer to be an offset relative to start of sample data.
// The pointer for the first instrument - which is the percussion map - is
// of course relative to the start of instrument data, being zero. The
// burn procedure is aware of this.
if (is_deps && (instrument_code[0] == 0x80 || instrument_code[0] == 0x40))
{
//print "song in song error!"
//print hexdump(instrument_code)
Log.Error(U.HexDump(instrument_code));
this.ErrorMessage += "\r\n" +
R.Error("Multi または Drumの中に、さらにMulti または Drumがありました。\r\nこういう複雑なものは対応できないので無視します。\r\n");
instrument_code = bad_inst();
Debug.Assert(false);
}
else if (SongInstrumentForm.IsDirectSound(instrument_code[0]))
{
bool success = _prepare_DirectSound(instrument_code, key, is_deps);
if (success == false)
{
instrument_code = bad_inst();
}
}
else if (SongInstrumentForm.IsWaveMemory(instrument_code[0]))
{
bool success = _prepare_WaveMemory(instrument_code, key, is_deps);
if (success == false)
{
instrument_code = bad_inst();
}
}
else if (instrument_code[0] == 0x80)
{
Log.Debug("Drum");
Log.Debug(U.HexDump(instrument_code));
//drum instrument is always id:0
this.Instrument_mapping[key] = 0;
return(0);
}
else if (instrument_code[0] == 0x40)
{
bool success = _prepare_MultiSample(instrument_code, key, is_deps);
if (success == false)
{
instrument_code = bad_inst();
}
}
else
{
Log.Debug("???");
Log.Debug(U.HexDump(instrument_code));
}
Debug.Assert(instrument_code.Length >= 0xC);
uint result = this.Count();
this.Instrument_mapping[key] = result;
this.Instrument_codes.AddRange(instrument_code);
return(result);
}
void Burn(SongSt song, InstrumentMap instrument_map, List <List <byte> > trackdata)
{
//必要なサイズを計算する.
uint use_size = 8 + (4 * (uint)trackdata.Count); //ヘッダー
for (int track = 0; track < trackdata.Count; track++)
{
use_size += (uint)trackdata[track].Count; //楽譜
}
use_size = U.Padding4(use_size); //楽譜と楽器の間は 4バイトアライメントが必要.
use_size += (uint)(instrument_map.Instrument_mapping.Count * 12); //楽器
use_size += (uint)instrument_map.Sample_data.Count; //楽器データ
uint write_pointer = InputFormRef.AllocBinaryData(use_size);
if (write_pointer == U.NOT_FOUND)
{
R.ShowStopError("データサイズを({0})確保できません。\r\nROM容量がもうないか、音楽のパースに失敗しています。", use_size);
return;
}
U.toPointer(write_pointer);
byte[] data = new byte[use_size];
U.write_u8(data, 0, (uint)trackdata.Count); //トラック数
U.write_u8(data, 1, 0x0); //常にゼロ.
U.write_u8(data, 2, 0x0A); //Do these values matter?
U.write_u8(data, 3, 0x80); //This is just copying what the stock ROM does...
uint offset = 8 + (4 * (uint)trackdata.Count);
//データ構造
//ヘッダー
//[track数] [0] [0x0A] [0x80] [楽器ポンタ] [楽譜1ポインタ] [楽譜2ポインタ].... [楽譜Nポインタ]
//
//実データ
//[楽譜1データ].......
//[楽譜2データ].......
//
//[楽器データ]
//[楽器サンプルデータ]
//楽譜
for (int track = 0; track < trackdata.Count; track++)
{
//楽譜ポインタの書き込み
U.write_u32(data, 8 + (4 * (uint)track), U.toPointer(write_pointer + offset));
//楽譜データを書き込む.
burn_track(data, offset, write_pointer, trackdata[track].ToArray());
offset += (uint)trackdata[track].Count;
}
offset = U.Padding4(offset); //楽譜と楽器の間は 4バイトアライメントが必要.
//楽器ポインタ
U.write_u32(data, 4, U.toPointer(write_pointer + offset));
uint instrument_start = offset; //楽器開始
uint instrumentdata_start = instrument_start + (12 * (uint)instrument_map.Instrument_mapping.Count); //楽器データ開始
Log.Debug("instrumentdata_start(", instrumentdata_start.ToString(), ") = instrument_start(", instrument_start.ToString(), ") + 12 * instrument_count(", instrument_map.Instrument_mapping.Count.ToString(), ")");
U.write_range(data, instrument_start, instrument_map.Instrument_codes.ToArray());
U.write_range(data, instrumentdata_start, instrument_map.Sample_data.ToArray());
//楽器
uint resyclesize = 0;
for (int i = 0; i < instrument_map.Instrument_mapping.Count; i++)
{
uint this_instrument = instrument_start + (12 * (uint)i);
Log.Debug("track:", i.ToString(), " ", data[this_instrument + 0].ToString());
uint instrumentCode = U.u8(data, this_instrument + 0);
if (SongInstrumentForm.IsDirectSound(instrumentCode) ||
SongInstrumentForm.IsWaveMemory(instrumentCode))
{
uint sample_data_start = U.u32(data, this_instrument + 4);
sample_data_start += instrumentdata_start;
if (sample_data_start < resyclesize)
{
Log.Error("BAD INSTRUMENT:", i.ToString(), (sample_data_start - instrumentdata_start).ToString(), sample_data_start.ToString(), resyclesize.ToString());
continue;
}
sample_data_start -= resyclesize;
uint sample_data_len;
if (SongInstrumentForm.IsWaveMemory(instrumentCode))
{
sample_data_len = 16;
}
else
{
sample_data_len = U.u32(data, sample_data_start + 12);
sample_data_len = U.Padding4(sample_data_len);
}
Log.Debug("d ", sample_data_start.ToString("X"), " ", sample_data_len.ToString());
uint found_address = U.Grep(Program.ROM.Data, U.subrange(data, sample_data_start, sample_data_start + sample_data_len), 100, 0, 4);
if (found_address != U.NOT_FOUND)
{
Log.Debug("recycle ", sample_data_start.ToString("X"), " len ", sample_data_len.ToString(), " -> ", found_address.ToString("X"));
//existing address in ROM.
//recycle
data = U.del(data, sample_data_start, sample_data_start + sample_data_len);
U.write_u32(data, this_instrument + 4, U.toPointer(found_address));
resyclesize += sample_data_len;
}
else
{
//nothing to recycle, write the data.
uint baseoffset = U.u32(data, this_instrument + 4); //相対アドレスが書いてあるので、それを求めに絶対値に変換する
U.write_u32(data, this_instrument + 4
, U.toPointer((instrumentdata_start + write_pointer + baseoffset) - resyclesize));
}
}
else if (instrumentCode == 0x80)
{ //ドラム
uint baseoffset = U.u32(data, this_instrument + 4); //相対アドレスが書いてあるので、それを求めに絶対値に変換する
U.write_u32(data, this_instrument + 4
, U.toPointer(instrument_start + write_pointer + baseoffset));
}
else if (instrumentCode == 0x40)
{
Log.Debug("MULTI TRACK!");
uint baseoffset = U.u32(data, this_instrument + 4); //相対アドレスが書いてあるので、それを求めに絶対値に変換する
U.write_u32(data, this_instrument + 4
, U.toPointer(instrument_start + write_pointer + baseoffset));
baseoffset = U.u32(data, this_instrument + 8); //相対アドレスが書いてあるので、それを求めに絶対値に変換する
U.write_u32(data, this_instrument + 8
, U.toPointer((instrumentdata_start + write_pointer + baseoffset) - resyclesize));
}
}
Log.Notify("resyclesize:", resyclesize.ToString(), U.To0xHexString(resyclesize));
string undo_name = "";
Undo.UndoData undodata = Program.Undo.NewUndoData(undo_name);
undodata.list.Add(new Undo.UndoPostion(song.table, 8));
Program.ROM.write_u32(song.table, U.toPointer(write_pointer));
InputFormRef.WriteBinaryDataDirect(write_pointer, data, undodata);
uint priority = GetSongPriority(trackdata.Count);
Program.ROM.write_u32(song.table + 4, priority, undodata);
Program.Undo.Push(undodata);
}