bool EffectDtmf::Init()
{
// dialog will be passed values from effect
// Effect retrieves values from saved config
// Dialog will take care of using them to initialize controls
// If there is a selection, use that duration, otherwise use
// value from saved config: this is useful is user wants to
// replace selection with dtmf sequence
if (mT1 > mT0) {
// there is a selection: let's fit in there...
// MJS: note that this is just for the TTC and is independent of the track rate
// but we do need to make sure we have the right number of samples at the project rate
AudacityProject *p = GetActiveProject();
double projRate = p->GetRate();
double quantMT0 = QUANTIZED_TIME(mT0, projRate);
double quantMT1 = QUANTIZED_TIME(mT1, projRate);
mDuration = quantMT1 - quantMT0;
mIsSelection = true;
} else {
// retrieve last used values
gPrefs->Read(wxT("/Effects/DtmfGen/SequenceDuration"), &mDuration, 1L);
mIsSelection = false;
}
gPrefs->Read(wxT("/Effects/DtmfGen/String"), &dtmfString, wxT("audacity"));
gPrefs->Read(wxT("/Effects/DtmfGen/DutyCycle"), &dtmfDutyCycle, 550L);
gPrefs->Read(wxT("/Effects/DtmfGen/Amplitude"), &dtmfAmplitude, 0.8f);
dtmfNTones = wxStrlen(dtmfString);
return true;
}
void Meter::StartMonitoring()
{
if (gAudioIO->IsMonitoring())
gAudioIO->StopStream();
else {
#if WANT_METER_MENU
if (mMeterDisabled){
wxCommandEvent dummy;
OnDisableMeter(dummy);
}
#endif
AudacityProject *p = GetActiveProject();
if (p) {
gAudioIO->StartMonitoring(p->GetRate());
MeterToolBar *bar = p->GetMeterToolBar();
if (bar) {
Meter *play, *record;
bar->GetMeters(&play, &record);
gAudioIO->SetMeters(record, play);
}
}
}
}
/* i18n-hint: WCAG2 is the 'Web Content Accessibility Guidelines (WCAG) 2.0', see http://www.w3.org/TR/WCAG20/ */
ContrastDialog::ContrastDialog(wxWindow * parent, wxWindowID id,
const wxString & title,
const wxPoint & pos):
wxDialogWrapper(parent, id, title, pos, wxDefaultSize,
wxDEFAULT_DIALOG_STYLE | wxRESIZE_BORDER | wxMAXIMIZE_BOX )
{
SetName(GetTitle());
mT0 = 0.0;
mT1 = 0.0;
foregrounddB = 0.0;
backgrounddB = 0.0;
mForegroundIsDefined = false;
mBackgroundIsDefined = false;
// NULL out the control members until the controls are created.
mForegroundStartT = NULL;
mForegroundEndT = NULL;
mBackgroundStartT = NULL;
mBackgroundEndT = NULL;
wxTextValidator vld(wxFILTER_NUMERIC);
wxString number;
AudacityProject *p = GetActiveProject();
mProjectRate = p->GetRate();
ShuttleGui S(this, eIsCreating);
S.SetBorder(5);
S.StartHorizontalLay(wxCENTER, false);
{
/* i18n-hint: RMS abbreviates root mean square, a certain averaging method */
S.AddTitle(_("Contrast Analyzer, for measuring RMS volume differences between two selections of audio."));
}
S.EndHorizontalLay();
S.StartStatic( _("Parameters") );
{
S.StartMultiColumn(5, wxEXPAND);
{
// Headings
S.AddFixedText( {} ); // spacer
S.AddFixedText(_("Start"));
S.AddFixedText(_("End"));
S.AddFixedText( {} ); // spacer
S.AddFixedText(_("Volume "));
const auto options = NumericTextCtrl::Options{}
.AutoPos(true)
.MenuEnabled(false)
.ReadOnly(true);
//Foreground
S.AddFixedText(_("&Foreground:"), false);
if (S.GetMode() == eIsCreating)
{
mForegroundStartT = safenew
NumericTextCtrl(this, ID_FOREGROUNDSTART_T,
NumericConverter::TIME,
_("hh:mm:ss + hundredths"),
0.0,
mProjectRate,
options);
mForegroundStartT->SetName(_("Foreground start time"));
}
S.AddWindow(mForegroundStartT);
if (S.GetMode() == eIsCreating)
{
mForegroundEndT = safenew
NumericTextCtrl(this, ID_FOREGROUNDEND_T,
NumericConverter::TIME,
_("hh:mm:ss + hundredths"),
0.0,
mProjectRate,
options);
mForegroundEndT->SetName(_("Foreground end time"));
}
S.AddWindow(mForegroundEndT);
m_pButton_UseCurrentF = S.Id(ID_BUTTON_USECURRENTF).AddButton(_("&Measure selection"));
mForegroundRMSText=S.Id(ID_FOREGROUNDDB_TEXT).AddTextBox( {}, wxT(""), 17);
mForegroundRMSText->Bind(wxEVT_KEY_DOWN, OnChar);
//Background
S.AddFixedText(_("&Background:"));
if (S.GetMode() == eIsCreating)
{
mBackgroundStartT = safenew
NumericTextCtrl(this, ID_BACKGROUNDSTART_T,
NumericConverter::TIME,
_("hh:mm:ss + hundredths"),
0.0,
mProjectRate,
options);
mBackgroundStartT->SetName(_("Background start time"));
}
S.AddWindow(mBackgroundStartT);
if (S.GetMode() == eIsCreating)
{
mBackgroundEndT = safenew
NumericTextCtrl(this, ID_BACKGROUNDEND_T,
NumericConverter::TIME,
_("hh:mm:ss + hundredths"),
0.0,
mProjectRate,
options);
mBackgroundEndT->SetName(_("Background end time"));
}
S.AddWindow(mBackgroundEndT);
m_pButton_UseCurrentB = S.Id(ID_BUTTON_USECURRENTB).AddButton(_("Mea&sure selection"));
mBackgroundRMSText = S.Id(ID_BACKGROUNDDB_TEXT).AddTextBox( {}, wxT(""), 17);
mBackgroundRMSText->Bind(wxEVT_KEY_DOWN, OnChar);
}
S.EndMultiColumn();
}
S.EndStatic();
//Result
S.StartStatic( _("Result") );
{
S.StartMultiColumn(3, wxCENTER);
{
S.AddFixedText(_("Co&ntrast Result:"));
mPassFailText = S.Id(ID_RESULTS_TEXT).AddTextBox( {}, wxT(""), 50);
mPassFailText->Bind(wxEVT_KEY_DOWN, OnChar);
m_pButton_Reset = S.Id(ID_BUTTON_RESET).AddButton(_("R&eset"));
S.AddFixedText(_("&Difference:"));
mDiffText = S.Id(ID_RESULTSDB_TEXT).AddTextBox( {}, wxT(""), 50);
mDiffText->Bind(wxEVT_KEY_DOWN, OnChar);
m_pButton_Export = S.Id(ID_BUTTON_EXPORT).AddButton(_("E&xport..."));
}
S.EndMultiColumn();
}
S.EndStatic();
S.AddStandardButtons(eCloseButton |eHelpButton);
#if 0
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol(1);
m_pButton_GetURL = S.Id(ID_BUTTON_GETURL).AddButton(_("&Help"));
S.AddFixedText(wxT(" ")); // spacer
m_pButton_Close = S.Id(ID_BUTTON_CLOSE).AddButton(_("&Close"));
}
S.EndMultiColumn();
#endif
Layout();
Fit();
SetMinSize(GetSize());
Center();
}
void ControlToolBar::OnRecord(wxCommandEvent &evt)
{
if (gAudioIO->IsBusy()) {
mRecord->PopUp();
return;
}
AudacityProject *p = GetActiveProject();
if( evt.GetInt() == 1 ) // used when called by keyboard shortcut. Default (0) ignored.
mRecord->SetShift(true);
if( evt.GetInt() == 2 )
mRecord->SetShift(false);
SetRecord(true, mRecord->WasShiftDown());
if (p) {
TrackList *t = p->GetTracks();
TrackListIterator it(t);
if(it.First() == NULL)
mRecord->SetShift(false);
double t0 = p->GetSel0();
double t1 = p->GetSel1();
if (t1 == t0)
t1 = 1000000000.0; // record for a long, long time (tens of years)
/* TODO: set up stereo tracks if that is how the user has set up
* their preferences, and choose sample format based on prefs */
WaveTrackArray newRecordingTracks, playbackTracks;
#ifdef EXPERIMENTAL_MIDI_OUT
NoteTrackArray midiTracks;
#endif
bool duplex;
gPrefs->Read(wxT("/AudioIO/Duplex"), &duplex, true);
if(duplex){
playbackTracks = t->GetWaveTrackArray(false);
#ifdef EXPERIMENTAL_MIDI_OUT
midiTracks = t->GetNoteTrackArray(false);
#endif
}
else {
playbackTracks = WaveTrackArray();
#ifdef EXPERIMENTAL_MIDI_OUT
midiTracks = NoteTrackArray();
#endif
}
// If SHIFT key was down, the user wants append to tracks
int recordingChannels = 0;
bool shifted = mRecord->WasShiftDown();
if (shifted) {
bool sel = false;
double allt0 = t0;
// Find the maximum end time of selected and all wave tracks
// Find whether any tracks were selected. (If any are selected,
// record only into them; else if tracks exist, record into all.)
for (Track *tt = it.First(); tt; tt = it.Next()) {
if (tt->GetKind() == Track::Wave) {
WaveTrack *wt = static_cast<WaveTrack *>(tt);
if (wt->GetEndTime() > allt0) {
allt0 = wt->GetEndTime();
}
if (tt->GetSelected()) {
sel = true;
if (wt->GetEndTime() > t0) {
t0 = wt->GetEndTime();
}
}
}
}
// Use end time of all wave tracks if none selected
if (!sel) {
t0 = allt0;
}
// Pad selected/all wave tracks to make them all the same length
// Remove recording tracks from the list of tracks for duplex ("overdub")
// playback.
for (Track *tt = it.First(); tt; tt = it.Next()) {
if (tt->GetKind() == Track::Wave && (tt->GetSelected() || !sel)) {
WaveTrack *wt = static_cast<WaveTrack *>(tt);
if (duplex)
playbackTracks.Remove(wt);
t1 = wt->GetEndTime();
if (t1 < t0) {
WaveTrack *newTrack = p->GetTrackFactory()->NewWaveTrack();
newTrack->InsertSilence(0.0, t0 - t1);
newTrack->Flush();
wt->Clear(t1, t0);
bool bResult = wt->Paste(t1, newTrack);
wxASSERT(bResult); // TO DO: Actually handle this.
delete newTrack;
}
newRecordingTracks.Add(wt);
}
}
t1 = 1000000000.0; // record for a long, long time (tens of years)
}
else {
recordingChannels = gPrefs->Read(wxT("/AudioIO/RecordChannels"), 2);
for (int c = 0; c < recordingChannels; c++) {
WaveTrack *newTrack = p->GetTrackFactory()->NewWaveTrack();
newTrack->SetOffset(t0);
if (recordingChannels > 2)
newTrack->SetMinimized(true);
if (recordingChannels == 2) {
if (c == 0) {
newTrack->SetChannel(Track::LeftChannel);
newTrack->SetLinked(true);
}
else {
newTrack->SetChannel(Track::RightChannel);
}
}
else {
newTrack->SetChannel( Track::MonoChannel );
}
newRecordingTracks.Add(newTrack);
}
// msmeyer: StartStream calls a callback which triggers auto-save, so
// we add the tracks where recording is done into now. We remove them
// later if starting the stream fails
for (unsigned int i = 0; i < newRecordingTracks.GetCount(); i++)
t->Add(newRecordingTracks[i]);
}
//Automated Input Level Adjustment Initialization
#ifdef AUTOMATED_INPUT_LEVEL_ADJUSTMENT
gAudioIO->AILAInitialize();
#endif
int token = gAudioIO->StartStream(playbackTracks,
newRecordingTracks,
#ifdef EXPERIMENTAL_MIDI_OUT
midiTracks,
#endif
t->GetTimeTrack(),
p->GetRate(), t0, t1, p);
bool success = (token != 0);
if (success) {
p->SetAudioIOToken(token);
mBusyProject = p;
}
else {
// msmeyer: Delete recently added tracks if opening stream fails
if (!shifted) {
for (unsigned int i = 0; i < newRecordingTracks.GetCount(); i++) {
t->Remove(newRecordingTracks[i]);
delete newRecordingTracks[i];
}
}
// msmeyer: Show error message if stream could not be opened
wxMessageBox(_("Error while opening sound device. Please check the recording device settings and the project sample rate."),
_("Error"), wxOK | wxICON_EXCLAMATION, this);
SetPlay(false);
SetStop(false);
SetRecord(false);
}
}
}
void ControlToolBar::PlayPlayRegion(double t0, double t1,
bool looped /* = false */,
bool cutpreview /* = false */,
TimeTrack *timetrack /* = NULL */,
const double *pStartTime /* = NULL */)
{
SetPlay(true, looped, cutpreview);
if (gAudioIO->IsBusy()) {
SetPlay(false);
return;
}
if (cutpreview && t0==t1) {
SetPlay(false);
return; /* msmeyer: makes no sense */
}
AudacityProject *p = GetActiveProject();
if (!p) {
SetPlay(false);
return; // Should never happen, but...
}
TrackList *t = p->GetTracks();
if (!t) {
mPlay->PopUp();
return; // Should never happen, but...
}
bool hasaudio = false;
TrackListIterator iter(t);
for (Track *trk = iter.First(); trk; trk = iter.Next()) {
if (trk->GetKind() == Track::Wave
#ifdef EXPERIMENTAL_MIDI_OUT
|| trk->GetKind() == Track::Note
#endif
) {
hasaudio = true;
break;
}
}
if (!hasaudio) {
SetPlay(false);
return; // No need to continue without audio tracks
}
double maxofmins,minofmaxs;
#if defined(EXPERIMENTAL_SEEK_BEHIND_CURSOR)
double init_seek = 0.0;
#endif
// JS: clarified how the final play region is computed;
if (t1 == t0) {
// msmeyer: When playing looped, we play the whole file, if
// no range is selected. Otherwise, we play from t0 to end
if (looped) {
// msmeyer: always play from start
t0 = t->GetStartTime();
} else {
// move t0 to valid range
if (t0 < 0) {
t0 = t->GetStartTime();
}
else if (t0 > t->GetEndTime()) {
t0 = t->GetEndTime();
}
#if defined(EXPERIMENTAL_SEEK_BEHIND_CURSOR)
else {
init_seek = t0; //AC: init_seek is where playback will 'start'
t0 = t->GetStartTime();
}
#endif
}
// always play to end
t1 = t->GetEndTime();
}
else {
// always t0 < t1 right?
// the set intersection between the play region and the
// valid range maximum of lower bounds
if (t0 < t->GetStartTime())
maxofmins = t->GetStartTime();
else
maxofmins = t0;
// minimum of upper bounds
if (t1 > t->GetEndTime())
minofmaxs = t->GetEndTime();
else
minofmaxs = t1;
// we test if the intersection has no volume
if (minofmaxs <= maxofmins) {
// no volume; play nothing
return;
}
else {
t0 = maxofmins;
t1 = minofmaxs;
}
}
// Can't play before 0...either shifted or latencey corrected tracks
if (t0 < 0.0) {
t0 = 0.0;
}
bool success = false;
if (t1 > t0) {
int token;
if (cutpreview) {
double beforeLen, afterLen;
gPrefs->Read(wxT("/AudioIO/CutPreviewBeforeLen"), &beforeLen, 2.0);
gPrefs->Read(wxT("/AudioIO/CutPreviewAfterLen"), &afterLen, 1.0);
double tcp0 = t0-beforeLen;
double tcp1 = (t1+afterLen) - (t1-t0);
SetupCutPreviewTracks(tcp0, t0, t1, tcp1);
if (mCutPreviewTracks)
{
token = gAudioIO->StartStream(
mCutPreviewTracks->GetWaveTrackArray(false),
WaveTrackArray(),
#ifdef EXPERIMENTAL_MIDI_OUT
NoteTrackArray(),
#endif
timetrack, p->GetRate(), tcp0, tcp1, p, false,
t0, t1-t0,
pStartTime);
} else
{
// Cannot create cut preview tracks, clean up and exit
SetPlay(false);
SetStop(false);
SetRecord(false);
return;
}
} else {
if (!timetrack) {
timetrack = t->GetTimeTrack();
}
token = gAudioIO->StartStream(t->GetWaveTrackArray(false),
WaveTrackArray(),
#ifdef EXPERIMENTAL_MIDI_OUT
t->GetNoteTrackArray(false),
#endif
timetrack,
p->GetRate(), t0, t1, p, looped,
0, 0,
pStartTime);
}
if (token != 0) {
success = true;
p->SetAudioIOToken(token);
mBusyProject = p;
#if defined(EXPERIMENTAL_SEEK_BEHIND_CURSOR)
//AC: If init_seek was set, now's the time to make it happen.
gAudioIO->SeekStream(init_seek);
#endif
}
else {
// msmeyer: Show error message if stream could not be opened
wxMessageBox(
#if wxCHECK_VERSION(3,0,0)
_("Error while opening sound device. "
"Please check the playback device settings and the project sample rate."),
#else
_("Error while opening sound device. "
wxT("Please check the playback device settings and the project sample rate.")),
#endif
_("Error"), wxOK | wxICON_EXCLAMATION, this);
}
}
if (!success) {
SetPlay(false);
SetStop(false);
SetRecord(false);
}
}
/* i18n-hint: WCAG2 is the 'Web Content Accessibility Guidelines (WCAG) 2.0', see http://www.w3.org/TR/WCAG20/ */
ContrastDialog::ContrastDialog(wxWindow * parent, wxWindowID id,
const wxString & title,
const wxPoint & pos):
wxDialog(parent, id, title, pos, wxDefaultSize,
wxDEFAULT_DIALOG_STYLE | wxRESIZE_BORDER | wxMAXIMIZE_BOX )
{
foregrounddB = 1234.0;
backgrounddB = 1234.0;
// NULL out the control members until the controls are created.
mForegroundStartT = NULL;
mForegroundEndT = NULL;
mBackgroundStartT = NULL;
mBackgroundEndT = NULL;
wxTextValidator vld(wxFILTER_NUMERIC);
wxString number;
AudacityProject *p = GetActiveProject();
mProjectRate = p->GetRate();
ShuttleGui S(this, eIsCreating);
S.SetBorder(5);
S.StartHorizontalLay(wxCENTER, false);
{
S.AddTitle(_("Contrast Analyzer, for measuring rms volume differences between two selections of audio."));
}
S.EndHorizontalLay();
S.StartStatic( _("Parameters") );
{
S.StartMultiColumn(5, wxEXPAND);
{
// Headings
S.AddFixedText(wxT("")); // spacer
S.AddFixedText(_("Start"));
S.AddFixedText(_("End"));
S.AddFixedText(wxT("")); // spacer
S.AddFixedText(_("Volume "));
//Foreground
S.AddFixedText(_("Foreground:"), false);
if (mForegroundStartT == NULL)
{
mForegroundStartT = new
TimeTextCtrl(this,
ID_FOREGROUNDSTART_T,
wxT(""),
0.0,
mProjectRate,
wxDefaultPosition,
wxDefaultSize,
true);
mForegroundStartT->SetName(_("Foreground start time"));
mForegroundStartT->SetFormatString(mForegroundStartT->GetBuiltinFormat(_("hh:mm:ss + hundredths")));
mForegroundStartT->EnableMenu(false);
}
S.AddWindow(mForegroundStartT);
if (mForegroundEndT == NULL)
{
mForegroundEndT = new
TimeTextCtrl(this,
ID_FOREGROUNDEND_T,
wxT(""),
0.0,
mProjectRate,
wxDefaultPosition,
wxDefaultSize,
true);
mForegroundEndT->SetName(_("Foreground end time"));
mForegroundEndT->SetFormatString(mForegroundEndT->GetBuiltinFormat(_("hh:mm:ss + hundredths")));
mForegroundEndT->EnableMenu(false);
}
S.AddWindow(mForegroundEndT);
m_pButton_UseCurrentF = S.Id(ID_BUTTON_USECURRENTF).AddButton(_("Measure selection"));
mForegroundRMSText=S.Id(ID_FOREGROUNDDB_TEXT).AddTextBox(wxT(""), wxT(""), 12);
mForegroundRMSText->Connect(wxEVT_KEY_DOWN, wxKeyEventHandler(ContrastDialog::OnChar));
//Background
S.AddFixedText(_("Background:"));
if (mBackgroundStartT == NULL)
{
mBackgroundStartT = new
TimeTextCtrl(this,
ID_BACKGROUNDSTART_T,
wxT(""),
0.0,
mProjectRate,
wxDefaultPosition,
wxDefaultSize,
true);
mBackgroundStartT->SetName(_("Background start time"));
mBackgroundStartT->SetFormatString(mBackgroundStartT->GetBuiltinFormat(_("hh:mm:ss + hundredths")));
mBackgroundStartT->EnableMenu(false);
}
S.AddWindow(mBackgroundStartT);
if (mBackgroundEndT == NULL)
{
mBackgroundEndT = new
TimeTextCtrl(this,
ID_BACKGROUNDEND_T,
wxT(""),
0.0,
mProjectRate,
wxDefaultPosition,
wxDefaultSize,
true);
mBackgroundEndT->SetName(_("Background end time"));
mBackgroundEndT->SetFormatString(mBackgroundEndT->GetBuiltinFormat(_("hh:mm:ss + hundredths")));
mBackgroundEndT->EnableMenu(false);
}
S.AddWindow(mBackgroundEndT);
m_pButton_UseCurrentB = S.Id(ID_BUTTON_USECURRENTB).AddButton(_("Measure selection"));
mBackgroundRMSText = S.Id(ID_BACKGROUNDDB_TEXT).AddTextBox(wxT(""), wxT(""), 12);
mBackgroundRMSText->Connect(wxEVT_KEY_DOWN, wxKeyEventHandler(ContrastDialog::OnChar));
}
S.EndMultiColumn();
}
S.EndStatic();
//Result
S.StartStatic( _("Result") );
{
S.StartMultiColumn(3, wxCENTER);
{
S.AddFixedText(_("Contrast Result:"));
mPassFailText = S.Id(ID_RESULTS_TEXT).AddTextBox(wxT(""), wxT(""), 40);
mPassFailText->Connect(wxEVT_KEY_DOWN, wxKeyEventHandler(ContrastDialog::OnChar));
m_pButton_Reset = S.Id(ID_BUTTON_RESET).AddButton(_("Reset"));
S.AddFixedText(_("Difference:"));
mDiffText = S.Id(ID_RESULTSDB_TEXT).AddTextBox(wxT(""), wxT(""), 30);
mDiffText->Connect(wxEVT_KEY_DOWN, wxKeyEventHandler(ContrastDialog::OnChar));
m_pButton_Export = S.Id(ID_BUTTON_EXPORT).AddButton(_("Export"));
}
S.EndMultiColumn();
}
S.EndStatic();
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol(1);
m_pButton_GetURL = S.Id(ID_BUTTON_GETURL).AddButton(_("WCAG 2 Help"));
S.AddFixedText(wxT(" ")); // spacer
m_pButton_Close = S.Id(ID_BUTTON_CLOSE).AddButton(_("Close"));
}
S.EndMultiColumn();
Layout();
Fit();
SetMinSize(GetSize());
Center();
}
void ControlToolBar::OnRecord(wxCommandEvent &evt)
{
if (gAudioIO->IsBusy()) {
mRecord->PopUp();
return;
}
AudacityProject *p = GetActiveProject();
if( evt.GetInt() == 1 ) // used when called by keyboard shortcut. Default (0) ignored.
mRecord->SetShift(true);
if( evt.GetInt() == 2 )
mRecord->SetShift(false);
SetRecord(true, mRecord->WasShiftDown());
if (p) {
TrackList *trackList = p->GetTracks();
TrackListIterator it(trackList);
if(it.First() == NULL)
mRecord->SetShift(false);
double t0 = p->GetSel0();
double t1 = p->GetSel1();
if (t1 == t0)
t1 = 1000000000.0; // record for a long, long time (tens of years)
/* TODO: set up stereo tracks if that is how the user has set up
* their preferences, and choose sample format based on prefs */
WaveTrackArray newRecordingTracks, playbackTracks;
#ifdef EXPERIMENTAL_MIDI_OUT
NoteTrackArray midiTracks;
#endif
bool duplex;
gPrefs->Read(wxT("/AudioIO/Duplex"), &duplex, true);
if(duplex){
playbackTracks = trackList->GetWaveTrackArray(false);
#ifdef EXPERIMENTAL_MIDI_OUT
midiTracks = trackList->GetNoteTrackArray(false);
#endif
}
else {
playbackTracks = WaveTrackArray();
#ifdef EXPERIMENTAL_MIDI_OUT
midiTracks = NoteTrackArray();
#endif
}
// If SHIFT key was down, the user wants append to tracks
int recordingChannels = 0;
TrackList tracksCopy{};
bool tracksCopied = false;
bool shifted = mRecord->WasShiftDown();
if (shifted) {
bool sel = false;
double allt0 = t0;
// Find the maximum end time of selected and all wave tracks
// Find whether any tracks were selected. (If any are selected,
// record only into them; else if tracks exist, record into all.)
for (Track *tt = it.First(); tt; tt = it.Next()) {
if (tt->GetKind() == Track::Wave) {
WaveTrack *wt = static_cast<WaveTrack *>(tt);
if (wt->GetEndTime() > allt0) {
allt0 = wt->GetEndTime();
}
if (tt->GetSelected()) {
sel = true;
if (wt->GetEndTime() > t0) {
t0 = wt->GetEndTime();
}
}
}
}
// Use end time of all wave tracks if none selected
if (!sel) {
t0 = allt0;
}
// Pad selected/all wave tracks to make them all the same length
// Remove recording tracks from the list of tracks for duplex ("overdub")
// playback.
for (Track *tt = it.First(); tt; tt = it.Next()) {
if (tt->GetKind() == Track::Wave && (tt->GetSelected() || !sel)) {
WaveTrack *wt = static_cast<WaveTrack *>(tt);
if (duplex) {
auto end = playbackTracks.end();
auto it = std::find(playbackTracks.begin(), end, wt);
if (it != end)
playbackTracks.erase(it);
}
t1 = wt->GetEndTime();
if (t1 < t0) {
if (!tracksCopied) {
tracksCopied = true;
tracksCopy = *trackList;
}
auto newTrack = p->GetTrackFactory()->NewWaveTrack();
newTrack->InsertSilence(0.0, t0 - t1);
newTrack->Flush();
wt->Clear(t1, t0);
bool bResult = wt->Paste(t1, newTrack.get());
wxASSERT(bResult); // TO DO: Actually handle this.
wxUnusedVar(bResult);
}
newRecordingTracks.push_back(wt);
}
}
t1 = 1000000000.0; // record for a long, long time (tens of years)
}
else {
bool recordingNameCustom, useTrackNumber, useDateStamp, useTimeStamp;
wxString defaultTrackName, defaultRecordingTrackName;
int numTracks = 0;
for (Track *tt = it.First(); tt; tt = it.Next()) {
if (tt->GetKind() == Track::Wave && !tt->GetLinked())
numTracks++;
}
numTracks++;
recordingChannels = gPrefs->Read(wxT("/AudioIO/RecordChannels"), 2);
gPrefs->Read(wxT("/GUI/TrackNames/RecordingNameCustom"), &recordingNameCustom, false);
gPrefs->Read(wxT("/GUI/TrackNames/TrackNumber"), &useTrackNumber, false);
gPrefs->Read(wxT("/GUI/TrackNames/DateStamp"), &useDateStamp, false);
gPrefs->Read(wxT("/GUI/TrackNames/TimeStamp"), &useTimeStamp, false);
/* i18n-hint: The default name for an audio track. */
gPrefs->Read(wxT("/GUI/TrackNames/DefaultTrackName"),&defaultTrackName, _("Audio Track"));
gPrefs->Read(wxT("/GUI/TrackNames/RecodingTrackName"), &defaultRecordingTrackName, defaultTrackName);
wxString baseTrackName = recordingNameCustom? defaultRecordingTrackName : defaultTrackName;
for (int c = 0; c < recordingChannels; c++) {
auto newTrack = p->GetTrackFactory()->NewWaveTrack();
newTrack->SetOffset(t0);
wxString nameSuffix = wxString(wxT(""));
if (useTrackNumber) {
nameSuffix += wxString::Format(wxT("%d"), numTracks + c);
}
if (useDateStamp) {
if (!nameSuffix.IsEmpty()) {
nameSuffix += wxT("_");
}
nameSuffix += wxDateTime::Now().FormatISODate();
}
if (useTimeStamp) {
if (!nameSuffix.IsEmpty()) {
nameSuffix += wxT("_");
}
nameSuffix += wxDateTime::Now().FormatISOTime();
}
// ISO standard would be nice, but ":" is unsafe for file name.
nameSuffix.Replace(wxT(":"), wxT("-"));
if (baseTrackName.IsEmpty()) {
newTrack->SetName(nameSuffix);
}
else if (nameSuffix.IsEmpty()) {
newTrack->SetName(baseTrackName);
}
else {
newTrack->SetName(baseTrackName + wxT("_") + nameSuffix);
}
if (recordingChannels > 2)
newTrack->SetMinimized(true);
if (recordingChannels == 2) {
if (c == 0) {
newTrack->SetChannel(Track::LeftChannel);
newTrack->SetLinked(true);
}
else {
newTrack->SetChannel(Track::RightChannel);
}
}
else {
newTrack->SetChannel( Track::MonoChannel );
}
// Let the list hold the track, and keep a pointer to it
newRecordingTracks.push_back(
static_cast<WaveTrack*>(
trackList->Add(
std::move(newTrack))));
}
}
//Automated Input Level Adjustment Initialization
#ifdef EXPERIMENTAL_AUTOMATED_INPUT_LEVEL_ADJUSTMENT
gAudioIO->AILAInitialize();
#endif
AudioIOStartStreamOptions options(p->GetDefaultPlayOptions());
int token = gAudioIO->StartStream(playbackTracks,
newRecordingTracks,
#ifdef EXPERIMENTAL_MIDI_OUT
midiTracks,
#endif
p->GetRate(), t0, t1, options);
bool success = (token != 0);
if (success) {
p->SetAudioIOToken(token);
mBusyProject = p;
}
else {
if (shifted) {
// Restore the tracks to remove any inserted silence
if (tracksCopied)
*trackList = std::move(tracksCopy);
}
else {
// msmeyer: Delete recently added tracks if opening stream fails
for (unsigned int i = 0; i < newRecordingTracks.size(); i++) {
trackList->Remove(newRecordingTracks[i]);
}
}
// msmeyer: Show error message if stream could not be opened
wxMessageBox(_("Error while opening sound device. Please check the recording device settings and the project sample rate."),
_("Error"), wxOK | wxICON_EXCLAMATION, this);
SetPlay(false);
SetStop(false);
SetRecord(false);
}
}
UpdateStatusBar(GetActiveProject());
}
int ControlToolBar::PlayPlayRegion(const SelectedRegion &selectedRegion,
const AudioIOStartStreamOptions &options,
PlayMode mode,
PlayAppearance appearance, /* = PlayOption::Straight */
bool backwards, /* = false */
bool playWhiteSpace /* = false */)
{
if (!CanStopAudioStream())
return -1;
// Uncomment this for laughs!
// backwards = true;
double t0 = selectedRegion.t0();
double t1 = selectedRegion.t1();
// SelectedRegion guarantees t0 <= t1, so we need another boolean argument
// to indicate backwards play.
const bool looped = options.playLooped;
if (backwards)
std::swap(t0, t1);
SetPlay(true, appearance);
if (gAudioIO->IsBusy()) {
SetPlay(false);
return -1;
}
const bool cutpreview = appearance == PlayAppearance::CutPreview;
if (cutpreview && t0==t1) {
SetPlay(false);
return -1; /* msmeyer: makes no sense */
}
AudacityProject *p = GetActiveProject();
if (!p) {
SetPlay(false);
return -1; // Should never happen, but...
}
TrackList *t = p->GetTracks();
if (!t) {
mPlay->PopUp();
return -1; // Should never happen, but...
}
p->mLastPlayMode = mode;
bool hasaudio = false;
TrackListIterator iter(t);
for (Track *trk = iter.First(); trk; trk = iter.Next()) {
if (trk->GetKind() == Track::Wave
#ifdef EXPERIMENTAL_MIDI_OUT
|| trk->GetKind() == Track::Note
#endif
) {
hasaudio = true;
break;
}
}
double latestEnd = (playWhiteSpace)? t1 : t->GetEndTime();
if (!hasaudio) {
SetPlay(false);
return -1; // No need to continue without audio tracks
}
#if defined(EXPERIMENTAL_SEEK_BEHIND_CURSOR)
double init_seek = 0.0;
#endif
if (t1 == t0) {
if (looped) {
// play selection if there is one, otherwise
// set start of play region to project start,
// and loop the project from current play position.
if ((t0 > p->GetSel0()) && (t0 < p->GetSel1())) {
t0 = p->GetSel0();
t1 = p->GetSel1();
}
else {
// loop the entire project
t0 = t->GetStartTime();
t1 = t->GetEndTime();
}
} else {
// move t0 to valid range
if (t0 < 0) {
t0 = t->GetStartTime();
}
else if (t0 > t->GetEndTime()) {
t0 = t->GetEndTime();
}
#if defined(EXPERIMENTAL_SEEK_BEHIND_CURSOR)
else {
init_seek = t0; //AC: init_seek is where playback will 'start'
t0 = t->GetStartTime();
}
#endif
}
t1 = t->GetEndTime();
}
else {
// maybe t1 < t0, with backwards scrubbing for instance
if (backwards)
std::swap(t0, t1);
t0 = std::max(0.0, std::min(t0, latestEnd));
t1 = std::max(0.0, std::min(t1, latestEnd));
if (backwards)
std::swap(t0, t1);
}
int token = -1;
bool success = false;
if (t1 != t0) {
if (cutpreview) {
const double tless = std::min(t0, t1);
const double tgreater = std::max(t0, t1);
double beforeLen, afterLen;
gPrefs->Read(wxT("/AudioIO/CutPreviewBeforeLen"), &beforeLen, 2.0);
gPrefs->Read(wxT("/AudioIO/CutPreviewAfterLen"), &afterLen, 1.0);
double tcp0 = tless-beforeLen;
double diff = tgreater - tless;
double tcp1 = (tgreater+afterLen) - diff;
SetupCutPreviewTracks(tcp0, tless, tgreater, tcp1);
if (backwards)
std::swap(tcp0, tcp1);
if (mCutPreviewTracks)
{
AudioIOStartStreamOptions myOptions = options;
myOptions.cutPreviewGapStart = t0;
myOptions.cutPreviewGapLen = t1 - t0;
token = gAudioIO->StartStream(
mCutPreviewTracks->GetWaveTrackArray(false),
WaveTrackArray(),
#ifdef EXPERIMENTAL_MIDI_OUT
NoteTrackArray(),
#endif
p->GetRate(), tcp0, tcp1, myOptions);
} else
{
// Cannot create cut preview tracks, clean up and exit
SetPlay(false);
SetStop(false);
SetRecord(false);
return -1;
}
} else {
// Lifted the following into AudacityProject::GetDefaultPlayOptions()
/*
if (!timetrack) {
timetrack = t->GetTimeTrack();
}
*/
token = gAudioIO->StartStream(t->GetWaveTrackArray(false),
WaveTrackArray(),
#ifdef EXPERIMENTAL_MIDI_OUT
t->GetNoteTrackArray(false),
#endif
p->GetRate(), t0, t1, options);
}
if (token != 0) {
success = true;
p->SetAudioIOToken(token);
mBusyProject = p;
#if defined(EXPERIMENTAL_SEEK_BEHIND_CURSOR)
//AC: If init_seek was set, now's the time to make it happen.
gAudioIO->SeekStream(init_seek);
#endif
}
else {
// msmeyer: Show error message if stream could not be opened
wxMessageBox(
_("Error while opening sound device. "
"Please check the playback device settings and the project sample rate."),
_("Error"), wxOK | wxICON_EXCLAMATION, this);
}
}
if (!success) {
SetPlay(false);
SetStop(false);
SetRecord(false);
return -1;
}
// Let other UI update appearance
if (p)
p->GetRulerPanel()->HideQuickPlayIndicator();
return token;
}
SnapManager::SnapManager(TrackList *tracks, TrackClipArray *exclusions,
double zoom, int pixelTolerance, bool noTimeSnap)
{
int i;
// Grab time-snapping prefs (unless otherwise requested)
mSnapToTime = false;
AudacityProject *p = GetActiveProject();
wxASSERT(p);
if (p)
{
// Look up the format string
if (p->GetSnapTo() && !noTimeSnap) {
mSnapToTime = true;
mConverter.SetSampleRate(p->GetRate());
mConverter.SetFormatName(p->GetSelectionFormat());
}
}
mSnapPoints = new SnapPointArray(CompareSnapPoints);
if (zoom > 0 && pixelTolerance > 0)
mTolerance = pixelTolerance / zoom;
else {
// This shouldn't happen, but we don't want to crash if we get
// illegal values. The net effect of this is to never snap.
mTolerance = 0.0;
}
// Two time points closer than this are considered the same
mEpsilon = 1 / 44100.0;
// Add a SnapPoint at t=0
mSnapPoints->Add(new SnapPoint(0.0, NULL));
TrackListIterator iter(tracks);
Track *track = iter.First();
while (track) {
if (track->GetKind() == Track::Label) {
LabelTrack *labelTrack = (LabelTrack *)track;
for(i = 0; i < labelTrack->GetNumLabels(); i++) {
const LabelStruct *label = labelTrack->GetLabel(i);
CondListAdd(label->t, labelTrack);
if (label->t1 != label->t) {
CondListAdd(label->t1, labelTrack);
}
}
}
else if (track->GetKind() == Track::Wave) {
WaveTrack *waveTrack = (WaveTrack *)track;
WaveClipList::compatibility_iterator it;
for (it=waveTrack->GetClipIterator(); it; it=it->GetNext()) {
WaveClip *clip = it->GetData();
if (exclusions) {
bool skip = false;
for(int j=0; j<(int)exclusions->GetCount(); j++) {
if ((*exclusions)[j].track == waveTrack &&
(*exclusions)[j].clip == clip)
skip = true;
}
if (skip)
continue;
}
CondListAdd(clip->GetStartTime(), waveTrack);
CondListAdd(clip->GetEndTime(), waveTrack);
}
}
#ifdef USE_MIDI
else if (track->GetKind() == Track::Note) {
CondListAdd(track->GetStartTime(), track);
CondListAdd(track->GetEndTime(), track);
}
#endif
track = iter.Next();
}
}
void ControlToolBar::PlayPlayRegion(double t0, double t1,
bool looped /* = false */)
{
if (gAudioIO->IsBusy()) {
mPlay->PopUp();
#if (AUDACITY_BRANDING == BRAND_THINKLABS)
mLoopPlay->PopUp();
#elif (AUDACITY_BRANDING == BRAND_AUDIOTOUCH)
mPlay->Show();
mPause->Hide();
this->EnablePauseCommand(false);
#endif
return;
}
mStop->Enable();
mRewind->Disable();
mRecord->Disable();
mFF->Disable();
mPause->Enable();
this->EnablePauseCommand(true);
AudacityProject *p = GetActiveProject();
if (p) {
TrackList *t = p->GetTracks();
double maxofmins,minofmaxs;
// JS: clarified how the final play region is computed;
if (t1 == t0) {
// msmeyer: When playing looped, we play the whole file, if
// no range is selected. Otherwise, we play from t0 to end
if (looped) {
// msmeyer: always play from start
t0 = t->GetStartTime();
} else {
// move t0 to valid range
if (t0 < 0)
t0 = t->GetStartTime();
if (t0 > t->GetEndTime())
t0 = t->GetEndTime();
}
// always play to end
t1 = t->GetEndTime();
}
else {
// always t0 < t1 right?
// the set intersection between the play region and the
// valid range maximum of lower bounds
if (t0 < t->GetStartTime())
maxofmins = t->GetStartTime();
else
maxofmins = t0;
// minimum of upper bounds
if (t1 > t->GetEndTime())
minofmaxs = t->GetEndTime();
else
minofmaxs = t1;
// we test if the intersection has no volume
if (minofmaxs <= maxofmins) {
// no volume; play nothing
return;
}
else {
t0 = maxofmins;
t1 = minofmaxs;
}
}
bool success = false;
if (t1 > t0) {
int token =
gAudioIO->StartStream(t->GetWaveTrackArray(false),
WaveTrackArray(), t->GetTimeTrack(),
p->GetRate(), t0, t1, looped);
if (token != 0) {
success = true;
p->SetAudioIOToken(token);
mBusyProject = p;
SetVUMeters(p);
}
else {
// msmeyer: Show error message if stream could not be opened
wxMessageBox(_("Error while opening sound device. Please check the output "
"device settings and the project sample rate."),
_("Error"), wxOK | wxICON_EXCLAMATION, this);
}
}
if (!success) {
SetPlay(false);
SetStop(false);
SetRecord(false);
}
#if (AUDACITY_BRANDING == BRAND_AUDIOTOUCH)
if (success)
{
mPlay->Hide();
mPause->Show();
this->EnablePauseCommand(true);
this->SetBackgroundColour(*wxGREEN); // green for Playing
this->Refresh();
}
#endif
}
}
void ControlToolBar::OnRecord(wxCommandEvent &evt)
{
if (gAudioIO->IsBusy()) {
#if (AUDACITY_BRANDING == BRAND_AUDIOTOUCH)
if (mIsLocked) // Stop only if in locked mode.
{
this->StopPlaying(); // Stop recording.
mRecord->PopUp();
}
else
{
//v evt.GetClassInfo();
}
#else
mRecord->PopUp();
#endif
return;
}
mPlay->Disable();
#if (AUDACITY_BRANDING == BRAND_THINKLABS)
mLoopPlay->Disable();
#endif
#if (AUDACITY_BRANDING == BRAND_AUDIOTOUCH)
mStop->SetEnabled(mIsLocked);
#else
mStop->Enable();
#endif
mRewind->Disable();
mFF->Disable();
#if (AUDACITY_BRANDING == BRAND_AUDIOTOUCH)
mPause->SetEnabled(mIsLocked);
this->EnablePauseCommand(mIsLocked);
this->SetRecord(mIsLocked); // If locked, push Record down, else up.
#else
mPause->Enable();
mRecord->PushDown();
#endif
AudacityProject *p = GetActiveProject();
if (p) {
TrackList *t = p->GetTracks();
// Don't do this for Audiotouch. Not necessary. The performance hit is in the track being recorded, below.
#if (AUDACITY_BRANDING == BRAND_THINKLABS)
// For versions that default to dual wave/spectrum display,
// switch all tracks to WaveformDisplay on Record, for performance.
TrackListIterator iter(t);
for (Track* pTrack = iter.First(); pTrack; pTrack = iter.Next())
if (pTrack->GetKind() == Track::Wave)
((WaveTrack*)pTrack)->SetDisplay(WaveTrack::WaveformDisplay);
#endif
double t0 = p->GetSel0();
double t1 = p->GetSel1();
if (t1 == t0)
t1 = 1000000000.0; // record for a long, long time (tens of years)
#if (AUDACITY_BRANDING == BRAND_AUDIOTOUCH)
if (p->m_bWantAppendRecording)
{
t0 = t->GetEndTime();
t1 = 1000000000.0; // record for a long, long time (tens of years)
}
gAudioIO->SetWantLatencyCorrection(!p->m_bWantAppendRecording);
#endif
/* TODO: set up stereo tracks if that is how the user has set up
* their preferences, and choose sample format based on prefs */
WaveTrackArray newRecordingTracks, playbackTracks;
bool duplex;
gPrefs->Read("/AudioIO/Duplex", &duplex, true);
int recordingChannels = gPrefs->Read("/AudioIO/RecordChannels", 1);
if( duplex )
playbackTracks = t->GetWaveTrackArray(false);
else
playbackTracks = WaveTrackArray();
for( int c = 0; c < recordingChannels; c++ )
{
WaveTrack *newTrack = p->GetTrackFactory()->NewWaveTrack();
newTrack->SetOffset(t0);
newTrack->SetRate(p->GetRate());
//v for performance newTrack->SetDisplay(WaveTrack::WaveformAndSpectrumDisplay);
newTrack->SetDisplay(WaveTrack::WaveformDisplay);
if( recordingChannels == 2 )
{
if( c == 0 )
{
newTrack->SetChannel(Track::LeftChannel);
newTrack->SetLinked(true);
}
else
newTrack->SetChannel(Track::RightChannel);
}
else
{
newTrack->SetChannel( Track::MonoChannel );
}
newRecordingTracks.Add(newTrack);
}
int token = gAudioIO->StartStream(playbackTracks,
newRecordingTracks, t->GetTimeTrack(),
p->GetRate(), t0, t1);
bool success = (token != 0);
for( unsigned int i = 0; i < newRecordingTracks.GetCount(); i++ )
if (success)
t->Add(newRecordingTracks[i]);
else
delete newRecordingTracks[i];
if (success) {
p->SetAudioIOToken(token);
mBusyProject = p;
SetVUMeters(p);
#if (AUDACITY_BRANDING == BRAND_AUDIOTOUCH)
this->SetBackgroundColour(*wxRED); // red for Recording
this->Refresh();
#endif
}
else {
// msmeyer: Show error message if stream could not be opened
wxMessageBox(_("Error while opening sound device. Please check the input "
"device settings and the project sample rate."),
_("Error"), wxOK | wxICON_EXCLAMATION, this);
SetPlay(false);
#if (AUDACITY_BRANDING == BRAND_AUDIOTOUCH)
mStop->Enable(); // In case it was disabled above, based on mIsLocked.
#endif
SetStop(false);
SetRecord(false);
}
#if (AUDACITY_BRANDING == BRAND_AUDIOTOUCH)
p->OnZoomFitV();
#endif
}
}
void ControlToolBar::OnRecord(wxCommandEvent &evt)
{
if (gAudioIO->IsBusy()) {
mRecord->PopUp();
return;
}
AudacityProject *p = GetActiveProject();
if (p && p->GetCleanSpeechMode()) {
size_t numProjects = gAudacityProjects.Count();
bool tracks = (p && !p->GetTracks()->IsEmpty());
if (tracks || (numProjects > 1)) {
wxMessageBox(_("Recording in CleanSpeech mode is not possible when a track, or more than one project, is already open."),
_("Recording not permitted"),
wxOK | wxICON_INFORMATION,
this);
mRecord->PopUp();
mRecord->Disable();
return;
}
}
if( evt.GetInt() == 1 ) // used when called by keyboard shortcut. Default (0) ignored.
mRecord->SetShift(true);
if( evt.GetInt() == 2 )
mRecord->SetShift(false);
SetRecord(true);
if (p) {
TrackList *t = p->GetTracks();
TrackListIterator it(t);
if(it.First() == NULL)
mRecord->SetShift(false);
double t0 = p->GetSel0();
double t1 = p->GetSel1();
if (t1 == t0)
t1 = 1000000000.0; // record for a long, long time (tens of years)
/* TODO: set up stereo tracks if that is how the user has set up
* their preferences, and choose sample format based on prefs */
WaveTrackArray newRecordingTracks, playbackTracks;
/* REQUIRES PORTMIDI */
// NoteTrackArray midiTracks;
bool duplex;
gPrefs->Read(wxT("/AudioIO/Duplex"), &duplex, true);
if(duplex){
playbackTracks = t->GetWaveTrackArray(false);
/* REQUIRES PORTMIDI */
// midiTracks = t->GetNoteTrackArray(false);
}
else {
playbackTracks = WaveTrackArray();
/* REQUIRES PORTMIDI */
// midiTracks = NoteTrackArray();
}
// If SHIFT key was down, the user wants append to tracks
int recordingChannels = 0;
bool shifted = mRecord->WasShiftDown();
if (shifted) {
TrackListIterator it(t);
WaveTrack *wt;
bool sel = false;
double allt0 = t0;
// Find the maximum end time of selected and all wave tracks
for (Track *tt = it.First(); tt; tt = it.Next()) {
if (tt->GetKind() == Track::Wave) {
wt = (WaveTrack *)tt;
if (wt->GetEndTime() > allt0) {
allt0 = wt->GetEndTime();
}
if (tt->GetSelected()) {
sel = true;
if (duplex)
playbackTracks.Remove(wt);
if (wt->GetEndTime() > t0) {
t0 = wt->GetEndTime();
}
}
}
}
// Use end time of all wave tracks if none selected
if (!sel) {
t0 = allt0;
}
// Pad selected/all wave tracks to make them all the same length
for (Track *tt = it.First(); tt; tt = it.Next()) {
if (tt->GetKind() == Track::Wave && (tt->GetSelected() || !sel)) {
wt = (WaveTrack *)tt;
t1 = wt->GetEndTime();
if (t1 < t0) {
WaveTrack *newTrack = p->GetTrackFactory()->NewWaveTrack();
newTrack->InsertSilence(0.0, t0 - t1);
newTrack->Flush();
wt->Clear(t1, t0);
wt->Paste(t1, newTrack);
delete newTrack;
}
newRecordingTracks.Add(wt);
}
}
t1 = 1000000000.0; // record for a long, long time (tens of years)
}
else {
recordingChannels = gPrefs->Read(wxT("/AudioIO/RecordChannels"), 2);
for (int c = 0; c < recordingChannels; c++) {
WaveTrack *newTrack = p->GetTrackFactory()->NewWaveTrack();
int initialheight = newTrack->GetHeight();
newTrack->SetOffset(t0);
if (recordingChannels <= 2) {
newTrack->SetHeight(initialheight/recordingChannels);
}
else {
newTrack->SetMinimized(true);
}
if (recordingChannels == 2) {
if (c == 0) {
newTrack->SetChannel(Track::LeftChannel);
newTrack->SetLinked(true);
}
else {
newTrack->SetChannel(Track::RightChannel);
newTrack->SetTeamed(true);
}
}
else {
newTrack->SetChannel( Track::MonoChannel );
}
newRecordingTracks.Add(newTrack);
}
// msmeyer: StartStream calls a callback which triggers auto-save, so
// we add the tracks where recording is done into now. We remove them
// later if starting the stream fails
for (unsigned int i = 0; i < newRecordingTracks.GetCount(); i++)
t->Add(newRecordingTracks[i]);
}
int token = gAudioIO->StartStream(playbackTracks,
newRecordingTracks,
/* REQUIRES PORTMIDI */
// midiTracks,
t->GetTimeTrack(),
p->GetRate(), t0, t1, p);
bool success = (token != 0);
if (success) {
p->SetAudioIOToken(token);
mBusyProject = p;
SetVUMeters(p);
}
else {
// msmeyer: Delete recently added tracks if opening stream fails
if (!shifted) {
for (unsigned int i = 0; i < newRecordingTracks.GetCount(); i++) {
t->Remove(newRecordingTracks[i]);
delete newRecordingTracks[i];
}
}
// msmeyer: Show error message if stream could not be opened
wxMessageBox(_("Error while opening sound device. "
wxT("Please check the input device settings and the project sample rate.")),
_("Error"), wxOK | wxICON_EXCLAMATION, this);
SetPlay(false);
SetStop(false);
SetRecord(false);
}
}
}
