#include "tsound.h"
#include "tsound_t.h"
#include "tconvert.h"
#define TRK_M8 9
#define TRK_S8 10
#define TRK_M16 17
#define TRK_S16 18
#define TRK_M24 25
#define TRK_S24 26
#define TRK_M32 33
#define TRK_S32 34
//==============================================================================
DEFINE_CLASS_CODE(TSoundTrack, 12)
//------------------------------------------------------------------------------
TSoundTrack::TSoundTrack()
: TSmartObject(m_classCode)
, m_parent(0)
, m_buffer(0)
, m_bufferOwner(false) {}
//------------------------------------------------------------------------------
TSoundTrack::TSoundTrack(TUINT32 sampleRate, int bitPerSample, int channelCount,
int sampleSize, TINT32 sampleCount, int sampleType)
: TSmartObject(m_classCode)
, m_sampleRate(sampleRate)
, m_sampleSize(sampleSize)
, m_bitPerSample(bitPerSample)
, m_sampleCount(sampleCount)
, m_channelCount(channelCount)
, m_parent(0)
, m_bufferOwner(true)
, m_sampleType(sampleType) {
m_buffer = (UCHAR *)malloc(sampleCount * m_sampleSize);
if (!m_buffer) return;
// m_buffer = new UCHAR[sampleCount*m_sampleSize];
if (sampleType != TSound::UINT)
memset(m_buffer, 0, sampleCount * sampleSize);
else
memset(m_buffer, 127, sampleCount * sampleSize);
}
//------------------------------------------------------------------------------
TSoundTrack::TSoundTrack(TUINT32 sampleRate, int bitPerSample, int channelCount,
int sampleSize, TINT32 sampleCount, int sampleType,
UCHAR *buffer, TSoundTrack *parent)
: TSmartObject(m_classCode)
, m_sampleRate(sampleRate)
, m_sampleSize(sampleSize)
, m_bitPerSample(bitPerSample)
, m_sampleCount(sampleCount)
, m_channelCount(channelCount)
, m_sampleType(sampleType)
, m_parent(parent)
, m_buffer(buffer)
, m_bufferOwner(false) {
if (m_parent) m_parent->addRef();
}
//------------------------------------------------------------------------------
TSoundTrack::~TSoundTrack() {
if (m_parent) m_parent->release();
// if (m_buffer && m_bufferOwner) delete [] m_buffer;
if (m_buffer && m_bufferOwner) free(m_buffer);
}
//------------------------------------------------------------------------------
TSoundTrackP TSoundTrack::create(TUINT32 sampleRate, int bitPerSample,
int channelCount, TINT32 sampleCount,
int sampleType) {
TSoundTrackP st = 0;
int type = bitPerSample + channelCount;
switch (type) {
case TRK_M8:
if (sampleType == TSound::INT)
st = new TSoundTrackMono8Signed(sampleRate, channelCount, sampleCount);
else if (sampleType == TSound::UINT)
st = new TSoundTrackMono8Unsigned(sampleRate, channelCount, sampleCount);
break;
case TRK_S8:
if (sampleType == TSound::INT)
st = new TSoundTrackStereo8Signed(sampleRate, channelCount, sampleCount);
else if (sampleType == TSound::UINT)
st =
new TSoundTrackStereo8Unsigned(sampleRate, channelCount, sampleCount);
break;
case TRK_M16:
if (sampleType == TSound::INT)
st = new TSoundTrackMono16(sampleRate, channelCount, sampleCount);
break;
case TRK_S16:
if (sampleType == TSound::INT)
st = new TSoundTrackStereo16(sampleRate, channelCount, sampleCount);
break;
case TRK_M24:
if (sampleType == TSound::INT)
st = new TSoundTrackMono24(sampleRate, channelCount, sampleCount);
break;
case TRK_S24:
if (sampleType == TSound::INT)
st = new TSoundTrackStereo24(sampleRate, channelCount, sampleCount);
break;
case TRK_M32:
if (sampleType == TSound::FLOAT)
st = new TSoundTrackMono32Float(sampleRate, channelCount, sampleCount);
break;
case TRK_S32:
if (sampleType == TSound::FLOAT)
st = new TSoundTrackStereo32Float(sampleRate, channelCount, sampleCount);
break;
}
if (!st) {
std::string s;
s = "Type " + std::to_string(sampleRate) + " Hz " +
std::to_string(bitPerSample) + " bits ";
if (channelCount == 1)
s += "mono: ";
else
s += "stereo: ";
s += "Unsupported\n";
throw TException(s);
}
if (!st->getRawData()) {
return 0;
}
return st;
}
//------------------------------------------------------------------------------
TSoundTrackP TSoundTrack::create(TUINT32 sampleRate, int bitPerSample,
int channelCount, TINT32 sampleCount,
int sampleType, void *buffer) {
TSoundTrackP st;
int type = bitPerSample + channelCount;
switch (type) {
case TRK_M8:
if (sampleType == TSound::INT)
st = new TSoundTrackMono8Signed(sampleRate, channelCount, sampleCount,
(TMono8SignedSample *)buffer, 0);
else if (sampleType == TSound::UINT)
st = new TSoundTrackMono8Unsigned(sampleRate, channelCount, sampleCount,
(TMono8UnsignedSample *)buffer, 0);
break;
case TRK_S8:
if (sampleType == TSound::INT)
st = new TSoundTrackStereo8Signed(sampleRate, channelCount, sampleCount,
(TStereo8SignedSample *)buffer, 0);
else
st = new TSoundTrackStereo8Unsigned(sampleRate, channelCount, sampleCount,
(TStereo8UnsignedSample *)buffer, 0);
break;
case TRK_M16:
if (sampleType == TSound::INT)
st = new TSoundTrackMono16(sampleRate, channelCount, sampleCount,
(TMono16Sample *)buffer, 0);
break;
case TRK_S16:
if (sampleType == TSound::INT)
st = new TSoundTrackStereo16(sampleRate, channelCount, sampleCount,
(TStereo16Sample *)buffer, 0);
break;
case TRK_M24:
if (sampleType == TSound::INT)
st = new TSoundTrackMono24(sampleRate, channelCount, sampleCount,
(TMono24Sample *)buffer, 0);
break;
case TRK_S24:
if (sampleType == TSound::INT)
st = new TSoundTrackStereo24(sampleRate, channelCount, sampleCount,
(TStereo24Sample *)buffer, 0);
break;
case TRK_M32:
if (sampleType == TSound::FLOAT)
st = new TSoundTrackMono32Float(sampleRate, channelCount, sampleCount,
(TMono32FloatSample *)buffer, 0);
break;
case TRK_S32:
if (sampleType == TSound::FLOAT)
st = new TSoundTrackStereo32Float(sampleRate, channelCount, sampleCount,
(TStereo32FloatSample *)buffer, 0);
break;
}
if (!st) {
std::string s;
s = "Type " + std::to_string(sampleRate) + " Hz " +
std::to_string(bitPerSample) + " bits ";
if (channelCount == 1)
s += "mono: ";
else
s += "stereo: ";
s += "Unsupported\n";
throw TException(s);
}
return st;
}
//------------------------------------------------------------------------------
TSoundTrackP TSoundTrack::create(const TSoundTrackFormat &format,
TINT32 sampleCount, void *buffer) {
return TSoundTrack::create((int)format.m_sampleRate, format.m_bitPerSample,
format.m_channelCount, sampleCount,
format.m_sampleType, buffer);
}
//------------------------------------------------------------------------------
TSoundTrackP TSoundTrack::create(const TSoundTrackFormat &format,
TINT32 sampleCount) {
return TSoundTrack::create((int)format.m_sampleRate, format.m_bitPerSample,
format.m_channelCount, sampleCount,
format.m_sampleType);
}
//------------------------------------------------------------------------------
TINT32 TSoundTrack::secondsToSamples(double s) const {
double dsamp = s * m_sampleRate;
TINT32 lsamp = (TINT32)dsamp;
if ((double)lsamp < dsamp - TConsts::epsilon) lsamp++;
return lsamp;
}
//------------------------------------------------------------------------------
double TSoundTrack::samplesToSeconds(TINT32 f) const {
return f / (double)m_sampleRate;
}
//==============================================================================
bool TSoundTrackFormat::operator==(const TSoundTrackFormat &rhs) {
return (m_sampleRate == rhs.m_sampleRate &&
m_bitPerSample == rhs.m_bitPerSample &&
m_channelCount == rhs.m_channelCount &&
m_sampleType == rhs.m_sampleType);
}
//------------------------------------------------------------------------------
bool TSoundTrackFormat::operator!=(const TSoundTrackFormat &rhs) {
return !operator==(rhs);
}
//==============================================================================
double TSoundTrack::getDuration() const {
return samplesToSeconds(m_sampleCount);
}
//------------------------------------------------------------------------------
TSoundTrackFormat TSoundTrack::getFormat() const {
return TSoundTrackFormat(getSampleRate(), getBitPerSample(),
getChannelCount(), getSampleType());
}
//------------------------------------------------------------------------------
TSoundTrackP TSoundTrack::extract(double t0, double t1) {
return extract(secondsToSamples(t0), secondsToSamples(t1));
}
//------------------------------------------------------------------------------
void TSoundTrack::copy(const TSoundTrackP &src, double dst_t0) {
copy(src, secondsToSamples(dst_t0));
}
//------------------------------------------------------------------------------
void TSoundTrack::blank(double t0, double t1) {
blank(secondsToSamples(t0), secondsToSamples(t1));
}
//------------------------------------------------------------------------------
double TSoundTrack::getPressure(double second, TSound::Channel chan) const {
return getPressure(secondsToSamples(second), chan);
}
//------------------------------------------------------------------------------
void TSoundTrack::getMinMaxPressure(double t0, double t1, TSound::Channel chan,
double &min, double &max) const {
getMinMaxPressure(secondsToSamples(t0), secondsToSamples(t1), chan, min, max);
}
//------------------------------------------------------------------------------
void TSoundTrack::getMinMaxPressure(TSound::Channel chan, double &min,
double &max) const {
getMinMaxPressure(0, (TINT32)(getSampleCount() - 1), chan, min, max);
}
//------------------------------------------------------------------------------
double TSoundTrack::getMaxPressure(double t0, double t1,
TSound::Channel chan) const {
return getMaxPressure(secondsToSamples(t0), secondsToSamples(t1), chan);
}
//------------------------------------------------------------------------------
double TSoundTrack::getMaxPressure(TSound::Channel chan) const {
return getMaxPressure(0, (TINT32)(getSampleCount() - 1), chan);
}
//------------------------------------------------------------------------------
double TSoundTrack::getMinPressure(double t0, double t1,
TSound::Channel chan) const {
return getMinPressure(secondsToSamples(t0), secondsToSamples(t1), chan);
}
//------------------------------------------------------------------------------
double TSoundTrack::getMinPressure(TSound::Channel chan) const {
return getMinPressure(0, (TINT32)(getSampleCount() - 1), chan);
}
//------------------------------------------------------------------------------