amuse/lib/AudioGroupSampleDirectory.cpp

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#include "amuse/AudioGroupSampleDirectory.hpp"
#include <cstring>
#include "amuse/AudioGroup.hpp"
#include "amuse/AudioGroupData.hpp"
#include "amuse/Common.hpp"
#include "amuse/DirectoryEnumerator.hpp"
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#include "amuse/DSPCodec.hpp"
#include "amuse/N64MusyXCodec.hpp"
#include <athena/FileReader.hpp>
#include <athena/FileWriter.hpp>
#include <athena/MemoryReader.hpp>
#include <athena/VectorWriter.hpp>
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#ifndef _WIN32
#include <fcntl.h>
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#else
#include <sys/utime.h>
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#endif
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namespace amuse {
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static bool AtEnd32(athena::io::IStreamReader& r) {
uint32_t v = r.readUint32Big();
r.seek(-4, athena::SeekOrigin::Current);
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return v == 0xffffffff;
}
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void AudioGroupSampleDirectory::ADPCMParms::swapBigDSP() {
dsp.m_bytesPerFrame = SBig(dsp.m_bytesPerFrame);
dsp.m_hist2 = SBig(dsp.m_hist2);
dsp.m_hist1 = SBig(dsp.m_hist1);
for (int i = 0; i < 8; ++i) {
dsp.m_coefs[i][0] = SBig(dsp.m_coefs[i][0]);
dsp.m_coefs[i][1] = SBig(dsp.m_coefs[i][1]);
}
}
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void AudioGroupSampleDirectory::ADPCMParms::swapBigVADPCM() {
int16_t* allCoefs = reinterpret_cast<int16_t*>(vadpcm.m_coefs[0][0]);
for (int i = 0; i < 128; ++i)
allCoefs[i] = SBig(allCoefs[i]);
}
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AudioGroupSampleDirectory::AudioGroupSampleDirectory(athena::io::IStreamReader& r, GCNDataTag) {
while (!AtEnd32(r)) {
EntryDNA<athena::Endian::Big> ent;
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ent.read(r);
m_entries[ent.m_sfxId] = MakeObj<Entry>(ent);
if (SampleId::CurNameDB)
SampleId::CurNameDB->registerPair(NameDB::generateName(ent.m_sfxId, NameDB::Type::Sample), ent.m_sfxId);
}
for (auto& p : m_entries) {
if (p.second->m_data->m_adpcmParmOffset) {
r.seek(p.second->m_data->m_adpcmParmOffset, athena::SeekOrigin::Begin);
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r.readUBytesToBuf(&p.second->m_data->m_ADPCMParms, sizeof(ADPCMParms::DSPParms));
p.second->m_data->m_ADPCMParms.swapBigDSP();
}
}
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}
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AudioGroupSampleDirectory::AudioGroupSampleDirectory(athena::io::IStreamReader& r, const unsigned char* sampData,
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bool absOffs, N64DataTag) {
if (absOffs) {
while (!AtEnd32(r)) {
MusyX1AbsSdirEntry<athena::Endian::Big> ent;
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ent.read(r);
m_entries[ent.m_sfxId] = MakeObj<Entry>(ent);
SampleId::CurNameDB->registerPair(NameDB::generateName(ent.m_sfxId, NameDB::Type::Sample), ent.m_sfxId);
}
} else {
while (!AtEnd32(r)) {
MusyX1SdirEntry<athena::Endian::Big> ent;
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ent.read(r);
m_entries[ent.m_sfxId] = MakeObj<Entry>(ent);
SampleId::CurNameDB->registerPair(NameDB::generateName(ent.m_sfxId, NameDB::Type::Sample), ent.m_sfxId);
}
}
for (auto& p : m_entries) {
memcpy(&p.second->m_data->m_ADPCMParms, sampData + p.second->m_data->m_sampleOff, sizeof(ADPCMParms::VADPCMParms));
p.second->m_data->m_ADPCMParms.swapBigVADPCM();
}
}
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AudioGroupSampleDirectory::AudioGroupSampleDirectory(athena::io::IStreamReader& r, bool absOffs, PCDataTag) {
if (absOffs) {
while (!AtEnd32(r)) {
MusyX1AbsSdirEntry<athena::Endian::Little> ent;
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ent.read(r);
auto& store = m_entries[ent.m_sfxId];
store = MakeObj<Entry>(ent);
store->m_data->m_numSamples |= atUint32(SampleFormat::PCM_PC) << 24;
SampleId::CurNameDB->registerPair(NameDB::generateName(ent.m_sfxId, NameDB::Type::Sample), ent.m_sfxId);
}
} else {
while (!AtEnd32(r)) {
MusyX1SdirEntry<athena::Endian::Little> ent;
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ent.read(r);
auto& store = m_entries[ent.m_sfxId];
store = MakeObj<Entry>(ent);
store->m_data->m_numSamples |= atUint32(SampleFormat::PCM_PC) << 24;
SampleId::CurNameDB->registerPair(NameDB::generateName(ent.m_sfxId, NameDB::Type::Sample), ent.m_sfxId);
}
}
}
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AudioGroupSampleDirectory AudioGroupSampleDirectory::CreateAudioGroupSampleDirectory(const AudioGroupData& data) {
if (data.getSdirSize() < 4)
return {};
athena::io::MemoryReader r(data.getSdir(), data.getSdirSize());
switch (data.getDataFormat()) {
case DataFormat::GCN:
default:
return AudioGroupSampleDirectory(r, GCNDataTag{});
case DataFormat::N64:
return AudioGroupSampleDirectory(r, data.getSamp(), data.getAbsoluteProjOffsets(), N64DataTag{});
case DataFormat::PC:
return AudioGroupSampleDirectory(r, data.getAbsoluteProjOffsets(), PCDataTag{});
}
}
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static uint32_t DSPSampleToNibble(uint32_t sample) {
uint32_t ret = sample / 14 * 16;
if (sample % 14)
ret += (sample % 14) + 2;
return ret;
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}
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static uint32_t DSPNibbleToSample(uint32_t nibble) {
uint32_t ret = nibble / 16 * 14;
if (nibble % 16)
ret += (nibble % 16) - 2;
return ret;
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}
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void AudioGroupSampleDirectory::EntryData::setLoopStartSample(atUint32 sample) {
_setLoopStartSample(sample);
if (m_looseData && isFormatDSP()) {
uint32_t block = m_loopStartSample / 14;
uint32_t rem = m_loopStartSample % 14;
int16_t prev1 = 0;
int16_t prev2 = 0;
for (uint32_t b = 0; b < block; ++b)
DSPDecompressFrameStateOnly(m_looseData.get() + 8 * b, m_ADPCMParms.dsp.m_coefs, &prev1, &prev2, 14);
if (rem)
DSPDecompressFrameStateOnly(m_looseData.get() + 8 * block, m_ADPCMParms.dsp.m_coefs, &prev1, &prev2, rem);
m_ADPCMParms.dsp.m_hist1 = prev1;
m_ADPCMParms.dsp.m_hist2 = prev2;
m_ADPCMParms.dsp.m_lps = m_looseData[8 * block];
}
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}
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void AudioGroupSampleDirectory::EntryData::loadLooseDSP(std::string_view dspPath) {
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athena::io::FileReader r(dspPath);
if (!r.hasError()) {
DSPADPCMHeader header;
header.read(r);
m_pitch = header.m_pitch;
m_sampleRate = atUint16(header.x8_sample_rate);
m_numSamples = header.x0_num_samples;
if (header.xc_loop_flag) {
_setLoopStartSample(DSPNibbleToSample(header.x10_loop_start_nibble));
setLoopEndSample(DSPNibbleToSample(header.x14_loop_end_nibble));
}
m_ADPCMParms.dsp.m_ps = uint8_t(header.x3e_ps);
m_ADPCMParms.dsp.m_lps = uint8_t(header.x44_loop_ps);
m_ADPCMParms.dsp.m_hist1 = header.x40_hist1;
m_ADPCMParms.dsp.m_hist2 = header.x42_hist2;
for (int i = 0; i < 8; ++i)
for (int j = 0; j < 2; ++j)
m_ADPCMParms.dsp.m_coefs[i][j] = header.x1c_coef[i][j];
uint32_t dataLen = (header.x4_num_nibbles + 1) / 2;
m_looseData.reset(new uint8_t[dataLen]);
r.readUBytesToBuf(m_looseData.get(), dataLen);
}
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}
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void AudioGroupSampleDirectory::EntryData::loadLooseVADPCM(std::string_view vadpcmPath) {
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athena::io::FileReader r(vadpcmPath);
if (!r.hasError()) {
VADPCMHeader header;
header.read(r);
m_pitch = header.m_pitchSampleRate >> 24;
m_sampleRate = header.m_pitchSampleRate & 0xffff;
m_numSamples = header.m_numSamples & 0xffff;
m_numSamples |= atUint32(SampleFormat::N64) << 24;
m_loopStartSample = header.m_loopStartSample;
m_loopLengthSamples = header.m_loopLengthSamples;
uint32_t dataLen = 256 + (m_numSamples + 63) / 64 * 40;
m_looseData.reset(new uint8_t[dataLen]);
r.readUBytesToBuf(m_looseData.get(), dataLen);
memcpy(&m_ADPCMParms, m_looseData.get(), 256);
m_ADPCMParms.swapBigVADPCM();
}
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}
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void AudioGroupSampleDirectory::EntryData::loadLooseWAV(std::string_view wavPath) {
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athena::io::FileReader r(wavPath);
if (!r.hasError()) {
atUint32 riffMagic = r.readUint32Little();
if (riffMagic != SBIG('RIFF'))
return;
atUint32 wavChuckSize = r.readUint32Little();
atUint32 wavMagic = r.readUint32Little();
if (wavMagic != SBIG('WAVE'))
return;
while (r.position() < wavChuckSize + 8) {
atUint32 chunkMagic = r.readUint32Little();
atUint32 chunkSize = r.readUint32Little();
atUint64 startPos = r.position();
if (chunkMagic == SBIG('fmt ')) {
WAVFormatChunk fmt;
fmt.read(r);
m_sampleRate = atUint16(fmt.sampleRate);
} else if (chunkMagic == SBIG('smpl')) {
WAVSampleChunk smpl;
smpl.read(r);
m_pitch = atUint8(smpl.midiNote);
if (smpl.numSampleLoops) {
WAVSampleLoop loop;
loop.read(r);
_setLoopStartSample(loop.start);
setLoopEndSample(loop.end);
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}
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} else if (chunkMagic == SBIG('data')) {
m_numSamples = ((chunkSize / 2) & 0xffffff) | (atUint32(SampleFormat::PCM_PC) << 24);
m_looseData.reset(new uint8_t[chunkSize]);
r.readUBytesToBuf(m_looseData.get(), chunkSize);
}
r.seek(startPos + chunkSize, athena::SeekOrigin::Begin);
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}
}
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}
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void AudioGroupSampleDirectory::Entry::loadLooseData(std::string_view basePath) {
std::string wavPath = std::string(basePath) + ".wav";
std::string dspPath = std::string(basePath) + ".dsp";
std::string vadpcmPath = std::string(basePath) + ".vadpcm";
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Sstat wavStat, dspStat, vadpcmStat;
bool wavValid = !Stat(wavPath.c_str(), &wavStat) && S_ISREG(wavStat.st_mode);
bool dspValid = !Stat(dspPath.c_str(), &dspStat) && S_ISREG(dspStat.st_mode);
bool vadpcmValid = !Stat(vadpcmPath.c_str(), &vadpcmStat) && S_ISREG(vadpcmStat.st_mode);
if (wavValid && dspValid) {
if (wavStat.st_mtime > dspStat.st_mtime)
dspValid = false;
else
wavValid = false;
}
if (wavValid && vadpcmValid) {
if (wavStat.st_mtime > vadpcmStat.st_mtime)
vadpcmValid = false;
else
wavValid = false;
}
if (dspValid && vadpcmValid) {
if (dspStat.st_mtime > vadpcmStat.st_mtime)
vadpcmValid = false;
else
dspValid = false;
}
EntryData& curData = *m_data;
if (dspValid && (!curData.m_looseData || dspStat.st_mtime > curData.m_looseModTime)) {
m_data = MakeObj<EntryData>();
m_data->loadLooseDSP(dspPath);
m_data->m_looseModTime = dspStat.st_mtime;
} else if (vadpcmValid && (!curData.m_looseData || vadpcmStat.st_mtime > curData.m_looseModTime)) {
m_data = MakeObj<EntryData>();
m_data->loadLooseVADPCM(vadpcmPath);
m_data->m_looseModTime = vadpcmStat.st_mtime;
} else if (wavValid && (!curData.m_looseData || wavStat.st_mtime > curData.m_looseModTime)) {
m_data = MakeObj<EntryData>();
m_data->loadLooseWAV(wavPath);
m_data->m_looseModTime = wavStat.st_mtime;
}
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}
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SampleFileState AudioGroupSampleDirectory::Entry::getFileState(std::string_view basePath, std::string* pathOut) const {
std::string wavPath = std::string(basePath) + ".wav";
std::string dspPath = std::string(basePath) + ".dsp";
std::string vadpcmPath = std::string(basePath) + ".vadpcm";
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Sstat wavStat, dspStat, vadpcmStat;
bool wavValid = !Stat(wavPath.c_str(), &wavStat) && S_ISREG(wavStat.st_mode);
bool dspValid = !Stat(dspPath.c_str(), &dspStat) && S_ISREG(dspStat.st_mode);
bool vadpcmValid = !Stat(vadpcmPath.c_str(), &vadpcmStat) && S_ISREG(vadpcmStat.st_mode);
EntryData& curData = *m_data;
if (!wavValid && !dspValid && !vadpcmValid) {
if (!curData.m_looseData)
return SampleFileState::NoData;
if (curData.isFormatDSP() || curData.getSampleFormat() == SampleFormat::N64)
return SampleFileState::MemoryOnlyCompressed;
return SampleFileState::MemoryOnlyWAV;
}
if (wavValid && dspValid) {
if (wavStat.st_mtime > dspStat.st_mtime) {
if (pathOut)
*pathOut = wavPath;
return SampleFileState::WAVRecent;
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}
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if (pathOut)
*pathOut = dspPath;
return SampleFileState::CompressedRecent;
}
if (wavValid && vadpcmValid) {
if (wavStat.st_mtime > vadpcmStat.st_mtime) {
if (pathOut)
*pathOut = wavPath;
return SampleFileState::WAVRecent;
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}
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if (pathOut)
*pathOut = vadpcmPath;
return SampleFileState::CompressedRecent;
}
if (dspValid && vadpcmValid) {
if (dspStat.st_mtime > vadpcmStat.st_mtime) {
if (pathOut)
*pathOut = dspPath;
return SampleFileState::CompressedNoWAV;
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}
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if (pathOut)
*pathOut = vadpcmPath;
return SampleFileState::CompressedNoWAV;
}
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if (dspValid) {
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if (pathOut)
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*pathOut = dspPath;
return SampleFileState::CompressedNoWAV;
}
if (vadpcmValid) {
if (pathOut)
*pathOut = vadpcmPath;
return SampleFileState::CompressedNoWAV;
}
if (pathOut)
*pathOut = wavPath;
return SampleFileState::WAVNoCompressed;
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}
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void AudioGroupSampleDirectory::EntryData::patchMetadataDSP(std::string_view dspPath) {
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athena::io::FileReader r(dspPath);
if (!r.hasError()) {
DSPADPCMHeader head;
head.read(r);
if (isLooped()) {
uint32_t block = getLoopStartSample() / 14;
uint32_t rem = getLoopStartSample() % 14;
int16_t prev1 = 0;
int16_t prev2 = 0;
uint8_t blockBuf[8];
for (uint32_t b = 0; b < block; ++b) {
r.readBytesToBuf(blockBuf, 8);
DSPDecompressFrameStateOnly(blockBuf, head.x1c_coef, &prev1, &prev2, 14);
}
if (rem) {
r.readBytesToBuf(blockBuf, 8);
DSPDecompressFrameStateOnly(blockBuf, head.x1c_coef, &prev1, &prev2, rem);
}
head.xc_loop_flag = 1;
head.x44_loop_ps = blockBuf[0];
head.x46_loop_hist1 = prev1;
head.x48_loop_hist2 = prev2;
} else {
head.xc_loop_flag = 0;
head.x44_loop_ps = 0;
head.x46_loop_hist1 = 0;
head.x48_loop_hist2 = 0;
}
head.x10_loop_start_nibble = DSPSampleToNibble(getLoopStartSample());
head.x14_loop_end_nibble = DSPSampleToNibble(getLoopEndSample());
head.m_pitch = m_pitch;
r.close();
athena::io::FileWriter w(dspPath, false);
if (!w.hasError()) {
w.seek(0, athena::SeekOrigin::Begin);
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head.write(w);
}
}
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}
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void AudioGroupSampleDirectory::EntryData::patchMetadataVADPCM(std::string_view vadpcmPath) {
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athena::io::FileWriter w(vadpcmPath, false);
if (!w.hasError()) {
w.seek(0, athena::SeekOrigin::Begin);
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VADPCMHeader header;
header.m_pitchSampleRate = m_pitch << 24;
header.m_pitchSampleRate |= m_sampleRate & 0xffff;
header.m_numSamples = m_numSamples;
header.m_loopStartSample = m_loopStartSample;
header.m_loopLengthSamples = m_loopLengthSamples;
header.write(w);
}
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}
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void AudioGroupSampleDirectory::EntryData::patchMetadataWAV(std::string_view wavPath) {
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athena::io::FileReader r(wavPath);
if (!r.hasError()) {
atUint32 riffMagic = r.readUint32Little();
if (riffMagic == SBIG('RIFF')) {
atUint32 wavChuckSize = r.readUint32Little();
atUint32 wavMagic = r.readUint32Little();
if (wavMagic == SBIG('WAVE')) {
atInt64 smplOffset = -1;
atInt64 loopOffset = -1;
WAVFormatChunk fmt;
int readSec = 0;
while (r.position() < wavChuckSize + 8) {
atUint32 chunkMagic = r.readUint32Little();
atUint32 chunkSize = r.readUint32Little();
atUint64 startPos = r.position();
if (chunkMagic == SBIG('fmt ')) {
fmt.read(r);
++readSec;
} else if (chunkMagic == SBIG('smpl')) {
smplOffset = startPos;
if (chunkSize >= 60)
loopOffset = startPos + 36;
++readSec;
}
r.seek(startPos + chunkSize, athena::SeekOrigin::Begin);
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}
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if (smplOffset == -1 || loopOffset == -1) {
/* Complete rewrite of RIFF layout - new smpl chunk */
r.seek(12, athena::SeekOrigin::Begin);
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athena::io::FileWriter w(wavPath);
if (!w.hasError()) {
w.writeUint32Little(SBIG('RIFF'));
w.writeUint32Little(0);
w.writeUint32Little(SBIG('WAVE'));
bool wroteSMPL = false;
while (r.position() < wavChuckSize + 8) {
atUint32 chunkMagic = r.readUint32Little();
atUint32 chunkSize = r.readUint32Little();
if (!wroteSMPL && (chunkMagic == SBIG('smpl') || chunkMagic == SBIG('data'))) {
wroteSMPL = true;
w.writeUint32Little(SBIG('smpl'));
w.writeUint32Little(60);
WAVSampleChunk smpl;
smpl.smplPeriod = 1000000000 / fmt.sampleRate;
smpl.midiNote = m_pitch;
if (isLooped()) {
smpl.numSampleLoops = 1;
smpl.additionalDataSize = 0;
} else {
smpl.numSampleLoops = 0;
smpl.additionalDataSize = 24;
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}
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smpl.write(w);
WAVSampleLoop loop;
loop.start = getLoopStartSample();
loop.end = getLoopEndSample();
loop.write(w);
if (chunkMagic == SBIG('smpl')) {
r.seek(chunkSize, athena::SeekOrigin::Current);
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continue;
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}
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}
w.writeUint32Little(chunkMagic);
w.writeUint32Little(chunkSize);
w.writeUBytes(r.readUBytes(chunkSize).get(), chunkSize);
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}
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atUint64 wavLen = w.position();
w.seek(4, athena::SeekOrigin::Begin);
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w.writeUint32Little(wavLen - 8);
}
r.close();
} else {
/* In-place patch of RIFF layout - edit smpl chunk */
r.close();
athena::io::FileWriter w(wavPath, false);
if (!w.hasError()) {
w.seek(smplOffset, athena::SeekOrigin::Begin);
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WAVSampleChunk smpl;
smpl.smplPeriod = 1000000000 / fmt.sampleRate;
smpl.midiNote = m_pitch;
if (isLooped()) {
smpl.numSampleLoops = 1;
smpl.additionalDataSize = 0;
} else {
smpl.numSampleLoops = 0;
smpl.additionalDataSize = 24;
}
smpl.write(w);
WAVSampleLoop loop;
loop.start = getLoopStartSample();
loop.end = getLoopEndSample();
loop.write(w);
}
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}
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}
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}
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}
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}
/* File timestamps reflect actual audio content, not loop/pitch data */
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static void SetAudioFileTime(const std::string& path, const Sstat& stat) {
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#if _WIN32
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__utimbuf64 times = {stat.st_atime, stat.st_mtime};
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const nowide::wstackstring wpath(path);
_wutime64(wpath.get(), &times);
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#else
#if __APPLE__
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struct timespec times[] = {stat.st_atimespec, stat.st_mtimespec};
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#elif __SWITCH__
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struct timespec times[] = {stat.st_atime, stat.st_mtime};
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#else
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struct timespec times[] = {stat.st_atim, stat.st_mtim};
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#endif
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utimensat(AT_FDCWD, path.c_str(), times, 0);
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#endif
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}
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void AudioGroupSampleDirectory::Entry::patchSampleMetadata(std::string_view basePath) const {
std::string wavPath = std::string(basePath) + ".wav";
std::string dspPath = std::string(basePath) + ".dsp";
std::string vadpcmPath = std::string(basePath) + ".vadpcm";
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Sstat wavStat, dspStat, vadpcmStat;
bool wavValid = !Stat(wavPath.c_str(), &wavStat) && S_ISREG(wavStat.st_mode);
bool dspValid = !Stat(dspPath.c_str(), &dspStat) && S_ISREG(dspStat.st_mode);
bool vadpcmValid = !Stat(vadpcmPath.c_str(), &vadpcmStat) && S_ISREG(vadpcmStat.st_mode);
EntryData& curData = *m_data;
if (wavValid) {
curData.patchMetadataWAV(wavPath);
SetAudioFileTime(wavPath, wavStat);
}
if (vadpcmValid) {
curData.patchMetadataVADPCM(vadpcmPath);
SetAudioFileTime(vadpcmPath, vadpcmStat);
}
if (dspValid) {
curData.patchMetadataDSP(dspPath);
SetAudioFileTime(dspPath, dspStat);
}
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}
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AudioGroupSampleDirectory AudioGroupSampleDirectory::CreateAudioGroupSampleDirectory(std::string_view groupPath) {
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AudioGroupSampleDirectory ret;
DirectoryEnumerator de(groupPath, DirectoryEnumerator::Mode::FilesSorted);
for (const DirectoryEnumerator::Entry& ent : de) {
if (ent.m_name.size() < 4)
continue;
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std::string baseName;
std::string basePath;
if (!CompareCaseInsensitive(ent.m_name.data() + ent.m_name.size() - 4, ".dsp") ||
!CompareCaseInsensitive(ent.m_name.data() + ent.m_name.size() - 4, ".wav")) {
baseName = std::string(ent.m_name.begin(), ent.m_name.begin() + ent.m_name.size() - 4);
basePath = std::string(ent.m_path.begin(), ent.m_path.begin() + ent.m_path.size() - 4);
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} else if (ent.m_name.size() > 7 &&
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!CompareCaseInsensitive(ent.m_name.data() + ent.m_name.size() - 7, ".vadpcm")) {
baseName = std::string(ent.m_name.begin(), ent.m_name.begin() + ent.m_name.size() - 7);
basePath = std::string(ent.m_path.begin(), ent.m_path.begin() + ent.m_path.size() - 7);
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} else
continue;
ObjectId sampleId = SampleId::CurNameDB->generateId(NameDB::Type::Sample);
SampleId::CurNameDB->registerPair(baseName, sampleId);
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auto& entry = ret.m_entries[sampleId];
entry = MakeObj<Entry>();
entry->loadLooseData(basePath);
}
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return ret;
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}
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void AudioGroupSampleDirectory::_extractWAV(SampleId id, const EntryData& ent, std::string_view destDir,
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const unsigned char* samp) {
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std::string path(destDir);
path += "/";
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path += SampleId::CurNameDB->resolveNameFromId(id);
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std::string dspPath = path;
path += ".wav";
dspPath += ".dsp";
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athena::io::FileWriter w(path);
SampleFormat fmt = SampleFormat(ent.m_numSamples >> 24);
uint32_t numSamples = ent.m_numSamples & 0xffffff;
if (ent.isLooped()) {
WAVHeaderLoop header;
header.fmtChunk.sampleRate = ent.m_sampleRate;
header.fmtChunk.byteRate = ent.m_sampleRate * 2u;
header.smplChunk.smplPeriod = 1000000000u / ent.m_sampleRate;
header.smplChunk.midiNote = ent.m_pitch;
header.smplChunk.numSampleLoops = 1;
header.sampleLoop.start = ent.getLoopStartSample();
header.sampleLoop.end = ent.getLoopEndSample();
header.dataChunkSize = numSamples * 2u;
header.wavChuckSize = 36 + 68 + header.dataChunkSize;
header.write(w);
} else {
WAVHeader header;
header.fmtChunk.sampleRate = ent.m_sampleRate;
header.fmtChunk.byteRate = ent.m_sampleRate * 2u;
header.smplChunk.smplPeriod = 1000000000u / ent.m_sampleRate;
header.smplChunk.midiNote = ent.m_pitch;
header.dataChunkSize = numSamples * 2u;
header.wavChuckSize = 36 + 44 + header.dataChunkSize;
header.write(w);
}
atUint64 dataLen;
if (fmt == SampleFormat::DSP || fmt == SampleFormat::DSP_DRUM) {
uint32_t remSamples = numSamples;
uint32_t numFrames = (remSamples + 13) / 14;
const unsigned char* cur = samp;
int16_t prev1 = ent.m_ADPCMParms.dsp.m_hist1;
int16_t prev2 = ent.m_ADPCMParms.dsp.m_hist2;
for (uint32_t i = 0; i < numFrames; ++i) {
int16_t decomp[14] = {};
unsigned thisSamples = std::min(remSamples, 14u);
DSPDecompressFrame(decomp, cur, ent.m_ADPCMParms.dsp.m_coefs, &prev1, &prev2, thisSamples);
remSamples -= thisSamples;
cur += 8;
w.writeBytes(decomp, thisSamples * 2);
}
w.close();
Sstat dspStat;
if (!Stat(dspPath.c_str(), &dspStat) && S_ISREG(dspStat.st_mode))
SetAudioFileTime(path.c_str(), dspStat);
dataLen = (DSPSampleToNibble(numSamples) + 1) / 2;
} else if (fmt == SampleFormat::N64) {
uint32_t remSamples = numSamples;
uint32_t numFrames = (remSamples + 63) / 64;
const unsigned char* cur = samp + sizeof(ADPCMParms::VADPCMParms);
for (uint32_t i = 0; i < numFrames; ++i) {
int16_t decomp[64] = {};
unsigned thisSamples = std::min(remSamples, 64u);
N64MusyXDecompressFrame(decomp, cur, ent.m_ADPCMParms.vadpcm.m_coefs, thisSamples);
remSamples -= thisSamples;
cur += 40;
w.writeBytes(decomp, thisSamples * 2);
}
dataLen = sizeof(ADPCMParms::VADPCMParms) + (numSamples + 63) / 64 * 40;
} else if (fmt == SampleFormat::PCM) {
dataLen = numSamples * 2;
const int16_t* cur = reinterpret_cast<const int16_t*>(samp);
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for (uint32_t i = 0; i < numSamples; ++i)
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w.writeInt16Big(cur[i]);
} else // PCM_PC
{
dataLen = numSamples * 2;
w.writeBytes(samp, dataLen);
}
std::unique_ptr<uint8_t[]>& ld = const_cast<std::unique_ptr<uint8_t[]>&>(ent.m_looseData);
if (!ld) {
Sstat theStat;
Stat(path.c_str(), &theStat);
const_cast<time_t&>(ent.m_looseModTime) = theStat.st_mtime;
ld.reset(new uint8_t[dataLen]);
memcpy(ld.get(), samp, dataLen);
}
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}
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void AudioGroupSampleDirectory::extractWAV(SampleId id, std::string_view destDir,
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const unsigned char* samp) const {
auto search = m_entries.find(id);
if (search == m_entries.cend())
return;
_extractWAV(id, *search->second->m_data, destDir, samp + search->second->m_data->m_sampleOff);
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}
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void AudioGroupSampleDirectory::extractAllWAV(std::string_view destDir, const unsigned char* samp) const {
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for (const auto& ent : m_entries)
_extractWAV(ent.first, *ent.second->m_data, destDir, samp + ent.second->m_data->m_sampleOff);
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}
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void AudioGroupSampleDirectory::_extractCompressed(SampleId id, const EntryData& ent, std::string_view destDir,
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const unsigned char* samp, bool compressWAV) {
SampleFormat fmt = ent.getSampleFormat();
if (!compressWAV && (fmt == SampleFormat::PCM || fmt == SampleFormat::PCM_PC)) {
_extractWAV(id, ent, destDir, samp);
return;
}
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std::string path(destDir);
path += "/";
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path += SampleId::CurNameDB->resolveNameFromId(id);
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uint32_t numSamples = ent.getNumSamples();
atUint64 dataLen = 0;
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if (fmt == SampleFormat::DSP || fmt == SampleFormat::DSP_DRUM) {
DSPADPCMHeader header;
header.x0_num_samples = numSamples;
header.x4_num_nibbles = DSPSampleToNibble(numSamples);
header.x8_sample_rate = ent.m_sampleRate;
header.xc_loop_flag = atUint16(ent.isLooped());
if (header.xc_loop_flag) {
header.x10_loop_start_nibble = DSPSampleToNibble(ent.getLoopStartSample());
header.x14_loop_end_nibble = DSPSampleToNibble(ent.getLoopEndSample());
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}
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for (int i = 0; i < 8; ++i)
for (int j = 0; j < 2; ++j)
header.x1c_coef[i][j] = ent.m_ADPCMParms.dsp.m_coefs[i][j];
header.x3e_ps = ent.m_ADPCMParms.dsp.m_ps;
header.x40_hist1 = ent.m_ADPCMParms.dsp.m_hist1;
header.x42_hist2 = ent.m_ADPCMParms.dsp.m_hist2;
header.x44_loop_ps = ent.m_ADPCMParms.dsp.m_lps;
header.m_pitch = ent.m_pitch;
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path += ".dsp";
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athena::io::FileWriter w(path);
header.write(w);
dataLen = (header.x4_num_nibbles + 1) / 2;
w.writeUBytes(samp, dataLen);
} else if (fmt == SampleFormat::N64) {
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path += ".vadpcm";
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athena::io::FileWriter w(path);
VADPCMHeader header;
header.m_pitchSampleRate = ent.m_pitch << 24;
header.m_pitchSampleRate |= ent.m_sampleRate & 0xffff;
header.m_numSamples = ent.m_numSamples;
header.m_loopStartSample = ent.m_loopStartSample;
header.m_loopLengthSamples = ent.m_loopLengthSamples;
header.write(w);
dataLen = 256 + (numSamples + 63) / 64 * 40;
w.writeUBytes(samp, dataLen);
} else if (fmt == SampleFormat::PCM_PC || fmt == SampleFormat::PCM) {
const int16_t* samps = reinterpret_cast<const int16_t*>(samp);
std::unique_ptr<int16_t[]> sampsSwapped;
if (fmt == SampleFormat::PCM) {
sampsSwapped.reset(new int16_t[numSamples]);
for (uint32_t i = 0; i < numSamples; ++i)
sampsSwapped[i] = SBig(samps[i]);
samps = sampsSwapped.get();
}
int32_t loopStartSample = ent.getLoopStartSample();
int32_t loopEndSample = ent.getLoopEndSample();
DSPADPCMHeader header = {};
header.x0_num_samples = numSamples;
header.x4_num_nibbles = DSPSampleToNibble(numSamples);
header.x8_sample_rate = ent.m_sampleRate;
header.xc_loop_flag = atUint16(ent.isLooped());
header.m_pitch = ent.m_pitch;
if (header.xc_loop_flag) {
header.x10_loop_start_nibble = DSPSampleToNibble(loopStartSample);
header.x14_loop_end_nibble = DSPSampleToNibble(loopEndSample);
}
DSPCorrelateCoefs(samps, numSamples, header.x1c_coef);
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path += ".dsp";
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athena::io::FileWriter w(path);
header.write(w);
uint32_t remSamples = numSamples;
uint32_t curSample = 0;
int16_t convSamps[16] = {};
while (remSamples) {
uint32_t sampleCount = std::min(14u, remSamples);
convSamps[0] = convSamps[14];
convSamps[1] = convSamps[15];
memcpy(convSamps + 2, samps, sampleCount * 2);
unsigned char adpcmOut[8];
DSPEncodeFrame(convSamps, sampleCount, adpcmOut, header.x1c_coef);
w.writeUBytes(adpcmOut, 8);
if (curSample == 0)
header.x3e_ps = adpcmOut[0];
if (header.xc_loop_flag) {
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if (loopStartSample >= int32_t(curSample) && loopStartSample < int32_t(curSample) + 14)
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header.x44_loop_ps = adpcmOut[0];
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if (loopStartSample - 1 >= int32_t(curSample) && loopStartSample - 1 < int32_t(curSample) + 14)
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header.x46_loop_hist1 = convSamps[2 + (loopStartSample - 1 - curSample)];
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if (loopStartSample - 2 >= int32_t(curSample) && loopStartSample - 2 < int32_t(curSample) + 14)
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header.x48_loop_hist2 = convSamps[2 + (loopStartSample - 2 - curSample)];
}
remSamples -= sampleCount;
curSample += sampleCount;
samps += sampleCount;
}
w.seek(0, athena::SeekOrigin::Begin);
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header.write(w);
} else {
return;
}
std::unique_ptr<uint8_t[]>& ld = const_cast<std::unique_ptr<uint8_t[]>&>(ent.m_looseData);
if (!ld) {
Sstat theStat;
Stat(path.c_str(), &theStat);
const_cast<time_t&>(ent.m_looseModTime) = theStat.st_mtime;
ld.reset(new uint8_t[dataLen]);
memcpy(ld.get(), samp, dataLen);
}
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}
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void AudioGroupSampleDirectory::extractCompressed(SampleId id, std::string_view destDir,
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const unsigned char* samp) const {
auto search = m_entries.find(id);
if (search == m_entries.cend())
return;
_extractCompressed(id, *search->second->m_data, destDir, samp + search->second->m_data->m_sampleOff);
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}
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void AudioGroupSampleDirectory::extractAllCompressed(std::string_view destDir, const unsigned char* samp) const {
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for (const auto& ent : m_entries)
_extractCompressed(ent.first, *ent.second->m_data, destDir, samp + ent.second->m_data->m_sampleOff);
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}
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void AudioGroupSampleDirectory::reloadSampleData(std::string_view groupPath) {
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DirectoryEnumerator de(groupPath, DirectoryEnumerator::Mode::FilesSorted);
for (const DirectoryEnumerator::Entry& ent : de) {
if (ent.m_name.size() < 4)
continue;
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std::string baseName;
std::string basePath;
if (!CompareCaseInsensitive(ent.m_name.data() + ent.m_name.size() - 4, ".dsp") ||
!CompareCaseInsensitive(ent.m_name.data() + ent.m_name.size() - 4, ".wav")) {
baseName = std::string(ent.m_name.begin(), ent.m_name.begin() + ent.m_name.size() - 4);
basePath = std::string(ent.m_path.begin(), ent.m_path.begin() + ent.m_path.size() - 4);
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} else if (ent.m_name.size() > 7 &&
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!CompareCaseInsensitive(ent.m_name.data() + ent.m_name.size() - 7, ".vadpcm")) {
baseName = std::string(ent.m_name.begin(), ent.m_name.begin() + ent.m_name.size() - 7);
basePath = std::string(ent.m_path.begin(), ent.m_path.begin() + ent.m_path.size() - 7);
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} else
continue;
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if (SampleId::CurNameDB->m_stringToId.find(baseName) == SampleId::CurNameDB->m_stringToId.end()) {
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ObjectId sampleId = SampleId::CurNameDB->generateId(NameDB::Type::Sample);
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SampleId::CurNameDB->registerPair(baseName, sampleId);
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auto& entry = m_entries[sampleId];
entry = MakeObj<Entry>();
entry->loadLooseData(basePath);
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}
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}
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}
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std::pair<std::vector<uint8_t>, std::vector<uint8_t>>
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AudioGroupSampleDirectory::toGCNData(const AudioGroupDatabase& group) const {
constexpr athena::Endian DNAE = athena::Endian::Big;
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athena::io::VectorWriter fo;
athena::io::VectorWriter sfo;
std::vector<std::pair<EntryDNA<DNAE>, ADPCMParms>> entries;
entries.reserve(m_entries.size());
size_t sampleOffset = 0;
size_t adpcmOffset = 0;
for (const auto& ent : SortUnorderedMap(m_entries)) {
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std::string path = group.getSampleBasePath(ent.first);
path += ".dsp";
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SampleFileState state = group.getSampleFileState(ent.first, ent.second.get().get(), &path);
switch (state) {
case SampleFileState::MemoryOnlyWAV:
case SampleFileState::MemoryOnlyCompressed:
case SampleFileState::WAVRecent:
case SampleFileState::WAVNoCompressed:
group.makeCompressedVersion(ent.first, ent.second.get().get());
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break;
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default:
break;
}
athena::io::FileReader r(path);
if (!r.hasError()) {
EntryDNA<DNAE> entryDNA = ent.second.get()->toDNA<DNAE>(ent.first);
DSPADPCMHeader header;
header.read(r);
entryDNA.m_pitch = header.m_pitch;
entryDNA.m_sampleRate = atUint16(header.x8_sample_rate);
entryDNA.m_numSamples = header.x0_num_samples;
if (header.xc_loop_flag) {
entryDNA._setLoopStartSample(DSPNibbleToSample(header.x10_loop_start_nibble));
entryDNA.setLoopEndSample(DSPNibbleToSample(header.x14_loop_end_nibble));
}
ADPCMParms adpcmParms;
adpcmParms.dsp.m_bytesPerFrame = 8;
adpcmParms.dsp.m_ps = uint8_t(header.x3e_ps);
adpcmParms.dsp.m_lps = uint8_t(header.x44_loop_ps);
adpcmParms.dsp.m_hist1 = header.x40_hist1;
adpcmParms.dsp.m_hist2 = header.x42_hist2;
for (int i = 0; i < 8; ++i)
for (int j = 0; j < 2; ++j)
adpcmParms.dsp.m_coefs[i][j] = header.x1c_coef[i][j];
uint32_t dataLen = (header.x4_num_nibbles + 1) / 2;
auto dspData = r.readUBytes(dataLen);
sfo.writeUBytes(dspData.get(), dataLen);
sfo.seekAlign32();
entryDNA.m_sampleOff = sampleOffset;
sampleOffset += ROUND_UP_32(dataLen);
entryDNA.binarySize(adpcmOffset);
entries.emplace_back(entryDNA, adpcmParms);
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}
}
adpcmOffset += 4;
for (auto& p : entries) {
p.first.m_adpcmParmOffset = adpcmOffset;
p.first.write(fo);
adpcmOffset += sizeof(ADPCMParms::DSPParms);
}
const uint32_t term = 0xffffffff;
athena::io::Write<athena::io::PropType::None>::Do<decltype(term), DNAE>({}, term, fo);
for (auto& p : entries) {
p.second.swapBigDSP();
fo.writeUBytes((uint8_t*)&p.second, sizeof(ADPCMParms::DSPParms));
}
return {fo.data(), sfo.data()};
}
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} // namespace amuse