winamp/Src/external_dependencies/openmpt-trunk/soundlib/Load_amf.cpp

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2024-09-24 12:54:57 +00:00
/*
* Load_amf.cpp
* ------------
* Purpose: AMF module loader
* Notes : There are two types of AMF files, the ASYLUM Music Format (used in Crusader: No Remorse and Crusader: No Regret)
* and Advanced Music Format (DSMI / Digital Sound And Music Interface, used in various games such as Pinball World).
* Both module types are handled here.
* Authors: Olivier Lapicque
* OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#include "stdafx.h"
#include "Loaders.h"
#include <algorithm>
OPENMPT_NAMESPACE_BEGIN
// ASYLUM AMF File Header
struct AsylumFileHeader
{
char signature[32];
uint8 defaultSpeed;
uint8 defaultTempo;
uint8 numSamples;
uint8 numPatterns;
uint8 numOrders;
uint8 restartPos;
};
MPT_BINARY_STRUCT(AsylumFileHeader, 38)
// ASYLUM AMF Sample Header
struct AsylumSampleHeader
{
char name[22];
uint8le finetune;
uint8le defaultVolume;
int8le transpose;
uint32le length;
uint32le loopStart;
uint32le loopLength;
// Convert an AMF sample header to OpenMPT's internal sample header.
void ConvertToMPT(ModSample &mptSmp) const
{
mptSmp.Initialize();
mptSmp.nFineTune = MOD2XMFineTune(finetune);
mptSmp.nVolume = std::min(defaultVolume.get(), uint8(64)) * 4u;
mptSmp.RelativeTone = transpose;
mptSmp.nLength = length;
if(loopLength > 2 && loopStart + loopLength <= length)
{
mptSmp.uFlags.set(CHN_LOOP);
mptSmp.nLoopStart = loopStart;
mptSmp.nLoopEnd = loopStart + loopLength;
}
}
};
MPT_BINARY_STRUCT(AsylumSampleHeader, 37)
static bool ValidateHeader(const AsylumFileHeader &fileHeader)
{
if(std::memcmp(fileHeader.signature, "ASYLUM Music Format V1.0\0", 25)
|| fileHeader.numSamples > 64
)
{
return false;
}
return true;
}
static uint64 GetHeaderMinimumAdditionalSize(const AsylumFileHeader &fileHeader)
{
return 256 + 64 * sizeof(AsylumSampleHeader) + 64 * 4 * 8 * fileHeader.numPatterns;
}
CSoundFile::ProbeResult CSoundFile::ProbeFileHeaderAMF_Asylum(MemoryFileReader file, const uint64 *pfilesize)
{
AsylumFileHeader fileHeader;
if(!file.ReadStruct(fileHeader))
{
return ProbeWantMoreData;
}
if(!ValidateHeader(fileHeader))
{
return ProbeFailure;
}
return ProbeAdditionalSize(file, pfilesize, GetHeaderMinimumAdditionalSize(fileHeader));
}
bool CSoundFile::ReadAMF_Asylum(FileReader &file, ModLoadingFlags loadFlags)
{
file.Rewind();
AsylumFileHeader fileHeader;
if(!file.ReadStruct(fileHeader))
{
return false;
}
if(!ValidateHeader(fileHeader))
{
return false;
}
if(!file.CanRead(mpt::saturate_cast<FileReader::off_t>(GetHeaderMinimumAdditionalSize(fileHeader))))
{
return false;
}
if(loadFlags == onlyVerifyHeader)
{
return true;
}
InitializeGlobals(MOD_TYPE_AMF0);
InitializeChannels();
SetupMODPanning(true);
m_nChannels = 8;
m_nDefaultSpeed = fileHeader.defaultSpeed;
m_nDefaultTempo.Set(fileHeader.defaultTempo);
m_nSamples = fileHeader.numSamples;
if(fileHeader.restartPos < fileHeader.numOrders)
{
Order().SetRestartPos(fileHeader.restartPos);
}
m_modFormat.formatName = U_("ASYLUM Music Format");
m_modFormat.type = U_("amf");
m_modFormat.charset = mpt::Charset::CP437;
uint8 orders[256];
file.ReadArray(orders);
ReadOrderFromArray(Order(), orders, fileHeader.numOrders);
// Read Sample Headers
for(SAMPLEINDEX smp = 1; smp <= GetNumSamples(); smp++)
{
AsylumSampleHeader sampleHeader;
file.ReadStruct(sampleHeader);
sampleHeader.ConvertToMPT(Samples[smp]);
m_szNames[smp] = mpt::String::ReadBuf(mpt::String::maybeNullTerminated, sampleHeader.name);
}
file.Skip((64 - fileHeader.numSamples) * sizeof(AsylumSampleHeader));
// Read Patterns
Patterns.ResizeArray(fileHeader.numPatterns);
for(PATTERNINDEX pat = 0; pat < fileHeader.numPatterns; pat++)
{
if(!(loadFlags & loadPatternData) || !Patterns.Insert(pat, 64))
{
file.Skip(64 * 4 * 8);
continue;
}
for(auto &m : Patterns[pat])
{
const auto [note, instr, command, param] = file.ReadArray<uint8, 4>();
if(note && note + 12 + NOTE_MIN <= NOTE_MAX)
{
m.note = note + 12 + NOTE_MIN;
}
m.instr = instr;
m.command = command;
m.param = param;
ConvertModCommand(m);
#ifdef MODPLUG_TRACKER
if(m.command == CMD_PANNING8)
{
// Convert 7-bit panning to 8-bit
m.param = mpt::saturate_cast<ModCommand::PARAM>(m.param * 2u);
}
#endif
}
}
if(loadFlags & loadSampleData)
{
// Read Sample Data
const SampleIO sampleIO(
SampleIO::_8bit,
SampleIO::mono,
SampleIO::littleEndian,
SampleIO::signedPCM);
for(SAMPLEINDEX smp = 1; smp <= GetNumSamples(); smp++)
{
sampleIO.ReadSample(Samples[smp], file);
}
}
return true;
}
// DSMI AMF File Header
struct AMFFileHeader
{
char amf[3];
uint8le version;
char title[32];
uint8le numSamples;
uint8le numOrders;
uint16le numTracks;
uint8le numChannels;
};
MPT_BINARY_STRUCT(AMFFileHeader, 41)
// DSMI AMF Sample Header (v1-v9)
struct AMFSampleHeaderOld
{
uint8le type;
char name[32];
char filename[13];
uint32le index;
uint16le length;
uint16le sampleRate;
uint8le volume;
uint16le loopStart;
uint16le loopEnd;
void ConvertToMPT(ModSample &mptSmp) const
{
mptSmp.Initialize();
mptSmp.filename = mpt::String::ReadBuf(mpt::String::nullTerminated, filename);
mptSmp.nLength = length;
mptSmp.nC5Speed = sampleRate;
mptSmp.nVolume = std::min(volume.get(), uint8(64)) * 4u;
mptSmp.nLoopStart = loopStart;
mptSmp.nLoopEnd = loopEnd;
if(mptSmp.nLoopEnd == uint16_max)
mptSmp.nLoopStart = mptSmp.nLoopEnd = 0;
else if(type != 0 && mptSmp.nLoopEnd > mptSmp.nLoopStart + 2 && mptSmp.nLoopEnd <= mptSmp.nLength)
mptSmp.uFlags.set(CHN_LOOP);
}
};
MPT_BINARY_STRUCT(AMFSampleHeaderOld, 59)
// DSMI AMF Sample Header (v10+)
struct AMFSampleHeaderNew
{
uint8le type;
char name[32];
char filename[13];
uint32le index;
uint32le length;
uint16le sampleRate;
uint8le volume;
uint32le loopStart;
uint32le loopEnd;
void ConvertToMPT(ModSample &mptSmp, bool truncated) const
{
mptSmp.Initialize();
mptSmp.filename = mpt::String::ReadBuf(mpt::String::nullTerminated, filename);
mptSmp.nLength = length;
mptSmp.nC5Speed = sampleRate;
mptSmp.nVolume = std::min(volume.get(), uint8(64)) * 4u;
mptSmp.nLoopStart = loopStart;
mptSmp.nLoopEnd = loopEnd;
if(truncated && mptSmp.nLoopStart > 0)
mptSmp.nLoopEnd = mptSmp.nLength;
if(type != 0 && mptSmp.nLoopEnd > mptSmp.nLoopStart + 2 && mptSmp.nLoopEnd <= mptSmp.nLength)
mptSmp.uFlags.set(CHN_LOOP);
}
// Check if sample headers might be truncated
bool IsValid(uint8 numSamples) const
{
return type <= 1 && index <= numSamples && length <= 0x100000 && volume <= 64 && loopStart <= length && loopEnd <= length;
}
};
MPT_BINARY_STRUCT(AMFSampleHeaderNew, 65)
// Read a single AMF track (channel) into a pattern.
static void AMFReadPattern(CPattern &pattern, CHANNELINDEX chn, FileReader &fileChunk)
{
fileChunk.Rewind();
while(fileChunk.CanRead(3))
{
const auto [row, command, value] = fileChunk.ReadArray<uint8, 3>();
if(row >= pattern.GetNumRows())
{
break;
}
ModCommand &m = *pattern.GetpModCommand(row, chn);
if(command < 0x7F)
{
// Note + Volume
if(command == 0 && value == 0)
{
m.note = NOTE_NOTECUT;
} else
{
m.note = command + NOTE_MIN;
if(value != 0xFF)
{
m.volcmd = VOLCMD_VOLUME;
m.vol = value;
}
}
} else if(command == 0x7F)
{
// Instrument without note retrigger in MOD (no need to do anything here, should be preceded by 0x80 command)
} else if(command == 0x80)
{
// Instrument
m.instr = value + 1;
} else
{
// Effect
static constexpr ModCommand::COMMAND effTrans[] =
{
CMD_NONE, CMD_SPEED, CMD_VOLUMESLIDE, CMD_VOLUME,
CMD_PORTAMENTOUP, CMD_NONE, CMD_TONEPORTAMENTO, CMD_TREMOR,
CMD_ARPEGGIO, CMD_VIBRATO, CMD_TONEPORTAVOL, CMD_VIBRATOVOL,
CMD_PATTERNBREAK, CMD_POSITIONJUMP, CMD_NONE, CMD_RETRIG,
CMD_OFFSET, CMD_VOLUMESLIDE, CMD_PORTAMENTOUP, CMD_S3MCMDEX,
CMD_S3MCMDEX, CMD_TEMPO, CMD_PORTAMENTOUP, CMD_PANNING8,
};
uint8 cmd = (command & 0x7F);
uint8 param = value;
if(cmd < std::size(effTrans))
cmd = effTrans[cmd];
else
cmd = CMD_NONE;
// Fix some commands...
switch(command & 0x7F)
{
// 02: Volume Slide
// 0A: Tone Porta + Vol Slide
// 0B: Vibrato + Vol Slide
case 0x02:
case 0x0A:
case 0x0B:
if(param & 0x80)
param = (-static_cast<int8>(param)) & 0x0F;
else
param = (param & 0x0F) << 4;
break;
// 03: Volume
case 0x03:
param = std::min(param, uint8(64));
if(m.volcmd == VOLCMD_NONE || m.volcmd == VOLCMD_VOLUME)
{
m.volcmd = VOLCMD_VOLUME;
m.vol = param;
cmd = CMD_NONE;
}
break;
// 04: Porta Up/Down
case 0x04:
if(param & 0x80)
param = (-static_cast<int8>(param)) & 0x7F;
else
cmd = CMD_PORTAMENTODOWN;
break;
// 11: Fine Volume Slide
case 0x11:
if(param)
{
if(param & 0x80)
param = 0xF0 | ((-static_cast<int8>(param)) & 0x0F);
else
param = 0x0F | ((param & 0x0F) << 4);
} else
{
cmd = CMD_NONE;
}
break;
// 12: Fine Portamento
// 16: Extra Fine Portamento
case 0x12:
case 0x16:
if(param)
{
cmd = static_cast<uint8>((param & 0x80) ? CMD_PORTAMENTOUP : CMD_PORTAMENTODOWN);
if(param & 0x80)
{
param = ((-static_cast<int8>(param)) & 0x0F);
}
param |= (command == 0x16) ? 0xE0 : 0xF0;
} else
{
cmd = CMD_NONE;
}
break;
// 13: Note Delay
case 0x13:
param = 0xD0 | (param & 0x0F);
break;
// 14: Note Cut
case 0x14:
param = 0xC0 | (param & 0x0F);
break;
// 17: Panning
case 0x17:
if(param == 100)
{
// History lesson intermission: According to Otto Chrons, he remembers that he added support
// for 8A4 / XA4 "surround" panning in DMP for MOD and S3M files before any other trackers did,
// So DSMI / DMP are most likely the original source of these 7-bit panning + surround commands!
param = 0xA4;
} else
{
param = static_cast<uint8>(std::clamp(static_cast<int8>(param) + 64, 0, 128));
if(m.command != CMD_NONE)
{
// Move to volume column if required
if(m.volcmd == VOLCMD_NONE || m.volcmd == VOLCMD_PANNING)
{
m.volcmd = VOLCMD_PANNING;
m.vol = param / 2;
}
cmd = CMD_NONE;
}
}
break;
}
if(cmd != CMD_NONE)
{
m.command = cmd;
m.param = param;
}
}
}
}
static bool ValidateHeader(const AMFFileHeader &fileHeader)
{
if(std::memcmp(fileHeader.amf, "AMF", 3)
|| (fileHeader.version < 8 && fileHeader.version != 1) || fileHeader.version > 14
|| ((fileHeader.numChannels < 1 || fileHeader.numChannels > 32) && fileHeader.version >= 9))
{
return false;
}
return true;
}
CSoundFile::ProbeResult CSoundFile::ProbeFileHeaderAMF_DSMI(MemoryFileReader file, const uint64 *pfilesize)
{
AMFFileHeader fileHeader;
if(!file.ReadStruct(fileHeader))
{
return ProbeWantMoreData;
}
if(!ValidateHeader(fileHeader))
{
return ProbeFailure;
}
MPT_UNREFERENCED_PARAMETER(pfilesize);
return ProbeSuccess;
}
bool CSoundFile::ReadAMF_DSMI(FileReader &file, ModLoadingFlags loadFlags)
{
file.Rewind();
AMFFileHeader fileHeader;
if(!file.ReadStruct(fileHeader))
{
return false;
}
if(!ValidateHeader(fileHeader))
{
return false;
}
if(loadFlags == onlyVerifyHeader)
{
return true;
}
InitializeGlobals(MOD_TYPE_AMF);
InitializeChannels();
m_modFormat.formatName = MPT_UFORMAT("DSMI v{}")(fileHeader.version);
m_modFormat.type = U_("amf");
m_modFormat.charset = mpt::Charset::CP437;
m_nChannels = fileHeader.numChannels;
m_nSamples = fileHeader.numSamples;
m_songName = mpt::String::ReadBuf(mpt::String::maybeNullTerminated, fileHeader.title);
if(fileHeader.version < 9)
{
// Old format revisions are fixed to 4 channels
m_nChannels = 4;
file.SkipBack(1);
SetupMODPanning(true);
}
// Setup Channel Pan Positions
if(fileHeader.version >= 11)
{
const CHANNELINDEX readChannels = fileHeader.version >= 12 ? 32 : 16;
for(CHANNELINDEX chn = 0; chn < readChannels; chn++)
{
int8 pan = file.ReadInt8();
if(pan == 100)
ChnSettings[chn].dwFlags = CHN_SURROUND;
else
ChnSettings[chn].nPan = static_cast<uint16>(std::clamp((pan + 64) * 2, 0, 256));
}
} else if(fileHeader.version >= 9)
{
uint8 panPos[16];
file.ReadArray(panPos);
for(CHANNELINDEX chn = 0; chn < 16; chn++)
{
ChnSettings[chn].nPan = (panPos[chn] & 1) ? 0x40 : 0xC0;
}
}
// Get Tempo/Speed
if(fileHeader.version >= 13)
{
auto [tempo, speed] = file.ReadArray<uint8, 2>();
if(tempo < 32)
tempo = 125;
m_nDefaultTempo.Set(tempo);
m_nDefaultSpeed = speed;
} else
{
m_nDefaultTempo.Set(125);
m_nDefaultSpeed = 6;
}
// Setup Order List
Order().resize(fileHeader.numOrders);
std::vector<uint16> patternLength;
const FileReader::off_t trackStartPos = file.GetPosition() + (fileHeader.version >= 14 ? 2 : 0);
if(fileHeader.version >= 14)
{
patternLength.resize(fileHeader.numOrders);
}
for(ORDERINDEX ord = 0; ord < fileHeader.numOrders; ord++)
{
Order()[ord] = ord;
if(fileHeader.version >= 14)
{
patternLength[ord] = file.ReadUint16LE();
}
// Track positions will be read as needed.
file.Skip(m_nChannels * 2);
}
// Read Sample Headers
bool truncatedSampleHeaders = false;
if(fileHeader.version == 10)
{
// M2AMF 1.3 included with DMP 2.32 wrote new (v10+) sample headers, but using the old struct length.
const auto startPos = file.GetPosition();
for(SAMPLEINDEX smp = 1; smp <= GetNumSamples(); smp++)
{
AMFSampleHeaderNew sample;
if(file.ReadStruct(sample) && !sample.IsValid(fileHeader.numSamples))
{
truncatedSampleHeaders = true;
break;
}
}
file.Seek(startPos);
}
std::vector<uint32> sampleMap(GetNumSamples(), 0);
for(SAMPLEINDEX smp = 1; smp <= GetNumSamples(); smp++)
{
if(fileHeader.version < 10)
{
AMFSampleHeaderOld sample;
file.ReadStruct(sample);
sample.ConvertToMPT(Samples[smp]);
m_szNames[smp] = mpt::String::ReadBuf(mpt::String::maybeNullTerminated, sample.name);
sampleMap[smp - 1] = sample.index;
} else
{
AMFSampleHeaderNew sample;
file.ReadStructPartial(sample, truncatedSampleHeaders ? sizeof(AMFSampleHeaderOld) : sizeof(AMFSampleHeaderNew));
sample.ConvertToMPT(Samples[smp], truncatedSampleHeaders);
m_szNames[smp] = mpt::String::ReadBuf(mpt::String::maybeNullTerminated, sample.name);
sampleMap[smp - 1] = sample.index;
}
}
// Read Track Mapping Table
std::vector<uint16le> trackMap;
if(!file.ReadVector(trackMap, fileHeader.numTracks))
{
return false;
}
uint16 trackCount = 0;
if(!trackMap.empty())
trackCount = *std::max_element(trackMap.cbegin(), trackMap.cend());
// Read pattern tracks
std::vector<FileReader> trackData(trackCount);
for(uint16 i = 0; i < trackCount; i++)
{
// Track size is a 16-Bit value describing the number of byte triplets in this track, followed by a track type byte.
uint16 numEvents = file.ReadUint16LE();
file.Skip(1);
if(numEvents)
trackData[i] = file.ReadChunk(numEvents * 3 + (fileHeader.version == 1 ? 3 : 0));
}
if(loadFlags & loadSampleData)
{
// Read Sample Data
const SampleIO sampleIO(
SampleIO::_8bit,
SampleIO::mono,
SampleIO::littleEndian,
SampleIO::unsignedPCM);
// Note: in theory a sample can be reused by several instruments and appear in a different order in the file
// However, M2AMF doesn't take advantage of this and just writes instruments in the order they appear,
// without de-duplicating identical sample data.
for(SAMPLEINDEX smp = 1; smp <= GetNumSamples() && file.CanRead(1); smp++)
{
auto startPos = file.GetPosition();
for(SAMPLEINDEX target = 0; target < GetNumSamples(); target++)
{
if(sampleMap[target] != smp)
continue;
file.Seek(startPos);
sampleIO.ReadSample(Samples[target + 1], file);
}
}
}
if(!(loadFlags & loadPatternData))
{
return true;
}
// Create the patterns from the list of tracks
Patterns.ResizeArray(fileHeader.numOrders);
for(PATTERNINDEX pat = 0; pat < fileHeader.numOrders; pat++)
{
uint16 patLength = pat < patternLength.size() ? patternLength[pat] : 64;
if(!Patterns.Insert(pat, patLength))
{
continue;
}
// Get table with per-channel track assignments
file.Seek(trackStartPos + pat * (GetNumChannels() * 2 + (fileHeader.version >= 14 ? 2 : 0)));
std::vector<uint16le> tracks;
if(!file.ReadVector(tracks, GetNumChannels()))
{
continue;
}
for(CHANNELINDEX chn = 0; chn < GetNumChannels(); chn++)
{
if(tracks[chn] > 0 && tracks[chn] <= fileHeader.numTracks)
{
uint16 realTrack = trackMap[tracks[chn] - 1];
if(realTrack > 0 && realTrack <= trackCount)
{
realTrack--;
AMFReadPattern(Patterns[pat], chn, trackData[realTrack]);
}
}
}
}
return true;
}
OPENMPT_NAMESPACE_END