void LoadFmtBlock(int size)
{
var format = mReader.ReadS16();
if (format != 1)
{
mareep.WriteError("WAV: only LPCM is supported.");
}
mChannelCount = mReader.Read16();
if (mChannelCount < 1 || mChannelCount > 2)
{
mareep.WriteError("WAV: only mono or stereo is supported.");
}
mSampleRate = mReader.ReadS32();
mByteRate = mReader.ReadS32();
mBlockAlign = mReader.Read16();
mBitDepth = mReader.Read16();
if (mBitDepth != 8 && mBitDepth != 16)
{
mareep.WriteError("WAV: only bit-depths of 8 and 16 are supported.");
}
}
protected override void loadBlo1(aBinaryReader reader)
{
base.loadBlo1(reader);
var finder = bloResourceFinder.getFinder();
int numparams = reader.Read8();
mFont = finder.find <bloResFont>(reader, "font");
mTopColor = new bloColor(reader.Read32());
mBottomColor = new bloColor(reader.Read32());
int binding = reader.Read8();
mHBinding = (bloTextboxHBinding)((binding >> 2) & 3);
mVBinding = (bloTextboxVBinding)((binding >> 0) & 3);
mFontSpacing = reader.ReadS16();
mFontLeading = reader.ReadS16();
mFontWidth = reader.Read16();
mFontHeight = reader.Read16();
int strlen = reader.Read16();
setString(reader.Read8s(strlen));
numparams -= 10;
if (numparams > 0)
{
if (reader.Read8() != 0)
{
setConnectParent(true);
}
--numparams;
}
if (numparams > 0)
{
mFromColor = new bloColor(reader.Read32());
--numparams;
}
else
{
mFromColor = new bloColor(bloColor.cZero);
}
if (numparams > 0)
{
mToColor = new bloColor(reader.Read32());
--numparams;
}
else
{
mToColor = new bloColor(bloColor.cOne);
}
reader.Skip(4);
}
public static bloScreen loadBlo1(Stream stream)
{
aBinaryReader reader = new aBinaryReader(stream, Endianness.Big, Encoding.GetEncoding(1252));
bloScreen scrn = new bloScreen();
if (reader.Read32() != cSCRN)
{
return(null);
}
if (reader.Read32() != cBLO1)
{
return(null);
}
reader.Step(24);
if (reader.Read32() != cINF1)
{
return(null);
}
long inf1size = reader.Read32();
int width = reader.ReadS16();
int height = reader.ReadS16();
scrn.mRect.set(0, 0, width, height);
scrn.mTintColor = new bloColor(reader.Read32());
if (!loadBlo1(scrn, reader))
{
return(null);
}
return(scrn);
}
static void DecodeStreamPcm(aBinaryReader reader, aBinaryWriter writer, int sampleCount)
{
for (var i = 0; i < sampleCount; ++i)
{
writer.WriteS16(reader.ReadS16());
writer.WriteS16(reader.ReadS16());
if ((i % cMessageInterval) == 0 || i >= sampleCount)
{
mareep.WriteMessage("\rSamples decoded: {0}/{1}", System.Math.Min((i + 1), sampleCount), sampleCount);
}
}
}
public override void load(Stream stream)
{
aBinaryReader reader = new aBinaryReader(stream, Endianness.Big);
mFormat = (gxTextureFormat)reader.Read8(); // 0000
mTransparency = reader.Read8(); // 0001
mWidth = reader.Read16(); // 0002
mHeight = reader.Read16(); // 0004
mWrapS = (gxWrapMode)reader.Read8(); // 0006
mWrapT = (gxWrapMode)reader.Read8(); // 0007
reader.Step(1); // 0008 (0001)
mTlutFormat = (gxTlutFormat)reader.Read8(); // 0009
int tlutentrycount = reader.Read16(); // 000A
long tlutoffset = reader.Read32(); // 000C
mMipMap = (reader.Read8() != 0); // 0010
mEdgeLOD = (reader.Read8() != 0); // 0011
mBiasClamp = (reader.Read8() != 0); // 0012
mMaxAniso = (gxAnisotropy)reader.Read8(); // 0013
mMinFilter = (gxTextureFilter)reader.Read8(); // 0014
mMagFilter = (gxTextureFilter)reader.Read8(); // 0015
mMinLod = reader.ReadS8(); // 0016
mMaxLod = reader.ReadS8(); // 0017
mImageCount = reader.Read8(); // 0018 (0001)
mLodBias = reader.ReadS16(); // 001A
long texoffset = reader.Read32(); // 001C
loadImageData(reader, texoffset);
if (tlutentrycount > 0)
{
loadPaletteData(reader, tlutentrycount, tlutoffset);
}
}
protected override void loadCompact(aBinaryReader reader)
{
base.loadCompact(reader);
var finder = bloResourceFinder.getFinder();
mFont = finder.find <bloResFont>(reader, "font");
mTopColor = new bloColor(reader.Read32());
mBottomColor = new bloColor(reader.Read32());
int hbinding = reader.Read8();
mHBinding = (bloTextboxHBinding)(hbinding & 127);
mVBinding = (bloTextboxVBinding)reader.Read8();
if ((hbinding & 0x80) != 0)
{
mFontSpacing = reader.ReadS16();
mFontLeading = reader.ReadS16();
mFontWidth = reader.Read16();
mFontHeight = reader.Read16();
}
else if (mFont != null)
{
mFontSpacing = 0;
mFontLeading = mFont.getLeading();
mFontWidth = mFont.getWidth();
mFontHeight = mFont.getHeight();
}
else
{
mFontSpacing = 0;
mFontLeading = 0;
mFontWidth = 0;
mFontHeight = 0;
}
int strlen = reader.Read16();
setString(reader.Read8s(strlen));
mFromColor = new bloColor(bloColor.cZero);
mToColor = new bloColor(bloColor.cOne);
reader.Skip(4);
}
protected virtual void loadCompact(aBinaryReader reader)
{
if (reader == null)
{
throw new ArgumentNullException("reader");
}
mVisible = (reader.Read8() != 0);
reader.Step(1);
mName = reader.Read32();
int left = reader.ReadS16();
int top = reader.ReadS16();
int width = reader.ReadS16();
int height = reader.ReadS16();
mRect.set(left, top, (left + width), (top + height));
setBasePosition(bloAnchor.TopLeft);
mAngle = 0.0d;
mAlpha = 255;
mInheritAlpha = true;
}
protected override WaveBank DoTransform(WaveBank obj)
{
if (obj != null)
{
return(obj);
}
mReader.Keep();
mReader.PushAnchor();
if (mReader.Read32() != WSYS)
{
mareep.WriteError("WSYS: could not find header.");
}
var size = mReader.ReadS32();
mReader.Step(8); // unused
var winfOffset = mReader.ReadS32();
var wbctOffset = mReader.ReadS32();
mareep.WriteMessage("WSYS: header found, size {0:F1} KB\n", ((double)size / 1024.0d));
var waveBank = new WaveBank();
waveBank.Name = mName;
mReader.Goto(winfOffset);
if (mReader.Read32() != WINF)
{
mareep.WriteError("WSYS: could not find WINF at 0x{0:X6}.", winfOffset);
}
var waveGroupCount = mReader.ReadS32();
if (waveGroupCount < 0)
{
mareep.WriteError("WSYS: bad wave-group count '{0}' in WINF.", waveGroupCount);
}
mareep.WriteMessage("WSYS: WINF found, {0} wave group(s).\n", waveGroupCount);
var waveGroupOffsets = mReader.ReadS32s(waveGroupCount);
mReader.Goto(wbctOffset);
if (mReader.Read32() != WBCT)
{
mareep.WriteError("WSYS: could not find WBCT at 0x{0:X6}.", wbctOffset);
}
mReader.Step(4); // unused
var sceneCount = mReader.ReadS32();
if (sceneCount != waveGroupCount)
{
mareep.WriteError("WSYS: WINF count ({0}) does not match WBCT count ({1}).", waveGroupCount, sceneCount);
}
var sceneOffsets = mReader.ReadS32s(sceneCount);
for (var i = 0; i < waveGroupCount; ++i)
{
mReader.Goto(waveGroupOffsets[i]);
var archiveName = mReader.ReadString <aCSTR>(112);
var waveInfoCount = mReader.ReadS32();
if (waveInfoCount < 0)
{
mareep.WriteError("WSYS: bad wave count '{0}' in wave group #{1}.", waveInfoCount, i);
}
var waveInfoOffsets = mReader.ReadS32s(waveInfoCount);
mReader.Goto(sceneOffsets[i]);
if (mReader.Read32() != SCNE)
{
mareep.WriteError("WSYS: could not find SCNE at 0x{0:X6}.", sceneOffsets[i]);
}
mReader.Step(8); // unused
var cdfOffset = mReader.ReadS32();
mReader.Goto(cdfOffset);
if (mReader.Read32() != C_DF)
{
mareep.WriteError("WSYS: could not find C-DF at 0x{0:X6}.", cdfOffset);
}
var waveidCount = mReader.ReadS32();
if (waveidCount != waveInfoCount)
{
mareep.WriteError("WSYS: C-DF count ({0}) does not match wave-info count ({1}).", waveidCount, waveInfoCount);
}
var waveidOffsets = mReader.ReadS32s(waveidCount);
var waveGroup = new WaveGroup();
waveGroup.ArchiveFileName = archiveName;
for (var j = 0; j < waveInfoCount; ++j)
{
var wave = new Wave();
mReader.Goto(waveidOffsets[j]);
var waveid = (mReader.ReadS32() & 0xFFFF);
wave.WaveId = waveid;
mReader.Goto(waveInfoOffsets[j]);
mReader.Step(1); // unknown
var format = (WaveFormat)mReader.Read8();
if (!format.IsDefined())
{
mareep.WriteError("WSYS: group #{0}: wave #{1}: bad format '{2}'.", i, j, (byte)format);
}
else
{
wave.Format = format;
}
var key = mReader.Read8();
if (key < 0 || key > 127)
{
mareep.WriteError("WSYS: group #{0}: wave #{1}: bad root key '{2}'.", i, j, key);
}
else
{
wave.RootKey = key;
}
mReader.Step(1); // alignment
var sampleRate = mReader.ReadF32();
if (sampleRate < 0.0f)
{
mareep.WriteError("WSYS: group #{0}: wave #{1}: bad sample rate '{2:F1}'.", i, j, sampleRate);
}
else
{
wave.SampleRate = sampleRate;
}
var waveStart = mReader.ReadS32();
if (waveStart < 0)
{
mareep.WriteError("WSYS: group #{0}: wave #{1}: bad wave start '{2}'.", i, j, waveStart);
}
else
{
wave.WaveStart = waveStart;
}
var waveSize = mReader.ReadS32();
if (waveSize < 0)
{
mareep.WriteError("WSYS: group #{0}: wave #{1}: bad wave size '{1}'.", i, j, waveSize);
}
else
{
wave.WaveSize = waveSize;
}
wave.Loop = (mReader.Read32() != 0);
var loopStart = mReader.ReadS32();
if (loopStart < 0)
{
mareep.WriteError("WSYS: group #{0}: wave #{1}: bad loop start '{2}'.", i, j, loopStart);
}
else
{
wave.LoopStart = loopStart;
}
var loopEnd = mReader.ReadS32();
if (loopEnd < 0)
{
mareep.WriteError("WSYS: group #{0}: wave #{1}: bad loop end '{2}'.", i, j, loopEnd);
}
else
{
wave.LoopEnd = loopEnd;
}
var sampleCount = mReader.ReadS32();
wave.SampleCount = mareep.CalculateSampleCount(format, waveSize);
if (loopStart > loopEnd)
{
mareep.WriteWarning("WSYS: group #{0}: wave #{1}: loop start '{2}' is greater than loop end '{3}'.\n", i, j, loopStart, loopEnd);
}
if (loopStart > wave.SampleCount)
{
mareep.WriteWarning("WSYS: group #{0}: wave #{1}: loop start '{2}' is greater than sample count '{3}'.\n", i, j, loopStart, wave.SampleCount);
}
if (loopEnd > wave.SampleCount)
{
mareep.WriteWarning("WSYS: group #{0}: wave #{1}: loop end '{2}' is greater than sample count '{3}'.\n", i, j, loopEnd, wave.SampleCount);
}
wave.HistoryLast = mReader.ReadS16();
wave.HistoryPenult = mReader.ReadS16();
// rest of the fields are unknown or runtime
waveGroup.Add(wave);
}
waveBank.Add(waveGroup);
}
mReader.PopAnchor();
mReader.Back();
return(waveBank);
}
protected override void CalculateHistoryAdpcm2(int sample, out int last, out int penult)
{
last = 0;
penult = 0;
var frame = (sample / 16);
if (frame == 0)
{
return;
}
switch (mFormat)
{
case WaveFormat.Pcm8: {
var adpcm2 = new byte[5];
var pcm16 = new short[16];
int _last = 0, _penult = 0;
mReader.Goto(0);
for (var i = 0; i < frame; ++i)
{
for (var j = 0; j < 16; ++j)
{
pcm16[j] = 0;
if ((i * 16 + j) < mSampleCount)
{
Waveform.Pcm8toPcm16(mReader.ReadS8(), out pcm16[j]);
}
}
Waveform.Pcm16toAdpcm2(pcm16, adpcm2, ref _last, ref _penult);
Waveform.Adpcm2toPcm16(adpcm2, pcm16, ref last, ref penult);
}
break;
}
case WaveFormat.Pcm16: {
var adpcm2 = new byte[5];
var pcm16 = new short[16];
int _last = 0, _penult = 0;
mReader.Goto(0);
for (var i = 0; i < frame; ++i)
{
for (var j = 0; j < 16; ++j)
{
pcm16[j] = 0;
if ((i * 16 + j) < mSampleCount)
{
pcm16[j] = mReader.ReadS16();
}
}
Waveform.Pcm16toAdpcm2(pcm16, adpcm2, ref _last, ref _penult);
Waveform.Adpcm2toPcm16(adpcm2, pcm16, ref last, ref penult);
}
break;
}
case WaveFormat.Adpcm2: {
var pcm16 = new short[16];
mReader.Goto(0);
for (var i = 0; i < frame; ++i)
{
Waveform.Adpcm2toPcm16(mReader.Read8s(5), pcm16, ref last, ref penult);
}
break;
}
case WaveFormat.Adpcm4: {
var adpcm2 = new byte[5];
var pcm16 = new short[16];
int last1 = 0, penult1 = 0;
int last2 = 0, penult2 = 0;
mReader.Goto(0);
for (var i = 0; i < frame; ++i)
{
Waveform.Adpcm4toPcm16(mReader.Read8s(9), pcm16, ref last1, ref penult1);
Waveform.Pcm16toAdpcm2(pcm16, adpcm2, ref last2, ref penult2);
Waveform.Adpcm2toPcm16(adpcm2, pcm16, ref last, ref penult);
}
break;
}
}
}
protected virtual void loadBlo1(aBinaryReader reader)
{
if (reader == null)
{
throw new ArgumentNullException("reader");
}
int numparams = reader.Read8();
mVisible = (reader.Read8() != 0);
reader.Step(2);
mName = reader.Read32();
int left = reader.ReadS16();
int top = reader.ReadS16();
int width = reader.ReadS16();
int height = reader.ReadS16();
mRect.set(left, top, (left + width), (top + height));
numparams -= 6;
if (numparams > 0)
{
mAngle = reader.Read16();
--numparams;
}
else
{
mAngle = 0.0d;
}
if (numparams > 0)
{
mAnchor = (bloAnchor)reader.Read8();
--numparams;
}
else
{
mAnchor = bloAnchor.TopLeft;
}
if (numparams > 0)
{
mAlpha = reader.Read8();
--numparams;
}
else
{
mAlpha = 255;
}
if (numparams > 0)
{
mInheritAlpha = (reader.Read8() != 0);
--numparams;
}
else
{
mInheritAlpha = true;
}
reader.Skip(4);
}
void DoReplaceSeq()
{
if (mAafInPath == null)
{
mareep.WriteError("CHARGE: missing -init-data-file parameter");
}
if (mArcInPath == null)
{
mareep.WriteError("CHARGE: missing -seq-data-file parameter");
}
byte[] arc_data = ReadFileData(mArcInPath);
if (mInput == null)
{
mareep.WriteError("CHARGE: missing -input parameter");
}
byte[] seq_data = ReadFileData(mInput);
if (mTarget == null)
{
mareep.WriteError("CHARGE: missing -target parameter");
}
byte[] barc_data = null;
using (Stream input = mareep.OpenFile(mAafInPath)) {
mareep.WriteMessage("Scanning AAF header...\n");
aBinaryReader reader = new aBinaryReader(input, Endianness.Big);
int offset, size;
if (!ReadAafHeader(reader, 4, 0, out offset, out size))
{
mareep.WriteError("CHARGE: failed to find sequence info block");
}
reader.Goto(offset);
if (reader.ReadS32() != 0x42415243) // 'BARC'
{
mareep.WriteError("CHARGE: could not find 'BARC' header");
}
reader.Goto(offset + 12);
int count = reader.ReadS32();
barc_data = new byte[32 + 32 * count];
reader.Goto(offset + 32);
int index, old_offset, old_size;
mareep.WriteMessage("Found sequence info data (0x{0:X6}, 0x{1:X6}), {2} sequence(s)\n", offset, size, count);
mareep.WriteMessage("Scanning sequence list...\n");
if (!ReadBarcHeader(reader, mTarget, count, out index, out old_offset, out old_size))
{
mareep.WriteError("CHARGE: could not find sequence {0}", mTarget);
}
mareep.WriteMessage("Found sequence {0} (0x{1:X6}, 0x{2:X6})\n", index, offset, size);
int new_offset, new_size = ((seq_data.Length + 31) & ~31);
int difference = (new_size - old_size);
reader.Goto(offset + 16);
using (Stream arc_stream = mareep.CreateFile(mArcOutPath))
using (MemoryStream barc_stream = new MemoryStream(barc_data, true)) {
mareep.WriteMessage("Writing new sequence data...\n");
aBinaryWriter arc_writer = new aBinaryWriter(arc_stream);
aBinaryWriter barc_writer = new aBinaryWriter(barc_stream, Endianness.Big);
barc_writer.WriteS32(0x42415243); // 'BARC'
barc_writer.WriteS32(0x2D2D2D2D); // '----'
barc_writer.WriteS32(0);
barc_writer.WriteS32(count);
barc_writer.Write8s(reader.Read8s(16));
for (int i = 0; i < count; ++i)
{
barc_writer.Write8s(reader.Read8s(14));
barc_writer.WriteS16(reader.ReadS16());
barc_writer.WriteS32(reader.ReadS32());
barc_writer.WriteS32(reader.ReadS32());
offset = reader.ReadS32();
size = reader.ReadS32();
new_offset = offset;
if (offset > old_offset)
{
new_offset += difference;
}
arc_writer.Goto(new_offset);
if (i == index)
{
arc_writer.Write8s(seq_data);
arc_writer.WritePadding(32, 0);
size = new_size;
}
else
{
arc_writer.Write8s(arc_data, offset, size);
}
barc_writer.WriteS32(new_offset);
barc_writer.WriteS32(size);
}
}
reader.Goto(0);
using (Stream output = mareep.CreateFile(mAafOutPath)) {
mareep.WriteMessage("Writing new AAF file...\n");
aBinaryWriter writer = new aBinaryWriter(output, Endianness.Big);
if (!WriteAafHeader(reader, writer, 4, 0, barc_data))
{
mareep.WriteError("CHARGE: failed to write aaf file");
}
}
}
}
