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65c7e8051a
audacia/src/effects/FindClipping.cpp
James Crook 65c7e8051a ThomasFeher - Unused parameters clean up.
2016-09-11 20:31:49 +01:00

272 lines
6.3 KiB
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/**********************************************************************
Audacity: A Digital Audio Editor
FindClipping.cpp
Leland Lucius
*******************************************************************//**
\class EffectFindClipping
\brief Locates clipping and inserts labels when found
*//****************************************************************//**
\class FindClippingDialog
\brief FindClippingDialog used with EffectFindClipping
*//*******************************************************************/
#include "../Audacity.h"
#include "FindClipping.h"
#include <math.h>
#include <wx/intl.h>
#include "../AudacityApp.h"
#include "../ShuttleGui.h"
#include "../widgets/valnum.h"
#include "../LabelTrack.h"
#include "../WaveTrack.h"
#include "../MemoryX.h"
// Define keys, defaults, minimums, and maximums for the effect parameters
//
// Name Type Key Def Min Max Scale
Param( Start, int, XO("Duty Cycle"), 3, 1, INT_MAX, 1 );
Param( Stop, int, XO("Duty Cycle"), 3, 1, INT_MAX, 1 );
EffectFindClipping::EffectFindClipping()
{
mStart = DEF_Start;
mStop = DEF_Stop;
}
EffectFindClipping::~EffectFindClipping()
{
}
// IdentInterface implementation
wxString EffectFindClipping::GetSymbol()
{
return FINDCLIPPING_PLUGIN_SYMBOL;
}
wxString EffectFindClipping::GetDescription()
{
return XO("Creates labels where clipping is detected");
}
// EffectIdentInterface implementation
EffectType EffectFindClipping::GetType()
{
return EffectTypeAnalyze;
}
// EffectClientInterface implementation
bool EffectFindClipping::GetAutomationParameters(EffectAutomationParameters & parms)
{
parms.Write(KEY_Start, mStart);
parms.Write(KEY_Stop, mStop);
return true;
}
bool EffectFindClipping::SetAutomationParameters(EffectAutomationParameters & parms)
{
ReadAndVerifyInt(Start);
ReadAndVerifyInt(Stop);
mStart = Start;
mStop = Stop;
return true;
}
// Effect implementation
bool EffectFindClipping::Process()
{
std::shared_ptr<AddedAnalysisTrack> addedTrack;
Maybe<ModifiedAnalysisTrack> modifiedTrack;
//Track *original = NULL;
const wxString name{ _("Clipping") };
LabelTrack *lt = NULL;
TrackListOfKindIterator iter(Track::Label, mTracks);
for (Track *t = iter.First(); t; t = iter.Next()) {
if (t->GetName() == name) {
lt = (LabelTrack *)t;
break;
}
}
if (!lt)
addedTrack = (AddAnalysisTrack(name)), lt = addedTrack->get();
else
modifiedTrack.create(ModifyAnalysisTrack(lt, name)), lt = modifiedTrack->get();
int count = 0;
// JC: Only process selected tracks.
SelectedTrackListOfKindIterator waves(Track::Wave, mTracks);
WaveTrack *t = (WaveTrack *) waves.First();
while (t) {
double trackStart = t->GetStartTime();
double trackEnd = t->GetEndTime();
double t0 = mT0 < trackStart ? trackStart : mT0;
double t1 = mT1 > trackEnd ? trackEnd : mT1;
if (t1 > t0) {
auto start = t->TimeToLongSamples(t0);
auto end = t->TimeToLongSamples(t1);
auto len = end - start;
if (!ProcessOne(lt, count, t, start, len)) {
return false;
}
}
count++;
t = (WaveTrack *) waves.Next();
}
// No cancellation, so commit the addition of the track.
if (addedTrack)
addedTrack->Commit();
if (modifiedTrack)
modifiedTrack->Commit();
return true;
}
bool EffectFindClipping::ProcessOne(LabelTrack * lt,
int count,
const WaveTrack * wt,
sampleCount start,
sampleCount len)
{
bool bGoodResult = true;
auto blockSize = (sampleCount) (mStart * 1000);
if (len < mStart) {
return true;
}
float *buffer;
try {
if (blockSize < mStart)
// overflow
throw std::bad_alloc{};
buffer = new float[blockSize];
}
catch( const std::bad_alloc & ) {
wxMessageBox(_("Requested value exceeds memory capacity."));
return false;
}
float *ptr = buffer;
decltype(len) s = 0, startrun = 0, stoprun = 0, samps = 0;
decltype(blockSize) block = 0;
double startTime = -1.0;
while (s < len) {
if (block == 0) {
if (TrackProgress(count, s / (double) len)) {
bGoodResult = false;
break;
}
block = limitSampleBufferSize( blockSize, len - s );
wt->Get((samplePtr)buffer, floatSample, start + s, block);
ptr = buffer;
}
float v = fabs(*ptr++);
if (v >= MAX_AUDIO) {
if (startrun == 0) {
startTime = wt->LongSamplesToTime(start + s);
samps = 0;
}
else {
stoprun = 0;
}
startrun++;
samps++;
}
else {
if (startrun >= mStart) {
stoprun++;
samps++;
if (stoprun >= mStop) {
lt->AddLabel(SelectedRegion(startTime,
wt->LongSamplesToTime(start + s - mStop)),
wxString::Format(wxT("%lld of %lld"), (long long) startrun, (long long) (samps - mStop)));
startrun = 0;
stoprun = 0;
samps = 0;
}
}
else {
startrun = 0;
}
}
s++;
block--;
}
delete [] buffer;
return bGoodResult;
}
void EffectFindClipping::PopulateOrExchange(ShuttleGui & S)
{
S.StartMultiColumn(2, wxALIGN_CENTER);
{
IntegerValidator<int> vldStart(&mStart);
vldStart.SetMin(MIN_Start);
S.TieTextBox(_("Start threshold (samples):"),
mStart,
10)->SetValidator(vldStart);
IntegerValidator<int> vldStop(&mStop);
vldStop.SetMin(MIN_Stop);
S.TieTextBox(_("Stop threshold (samples):"),
mStop,
10)->SetValidator(vldStop);
}
S.EndMultiColumn();
}
bool EffectFindClipping::TransferDataToWindow()
{
ShuttleGui S(mUIParent, eIsSettingToDialog);
PopulateOrExchange(S);
return true;
}
bool EffectFindClipping::TransferDataFromWindow()
{
if (!mUIParent->Validate())
{
return false;
}
ShuttleGui S(mUIParent, eIsGettingFromDialog);
PopulateOrExchange(S);
return true;
}
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