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::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 } }
//TODO-MB: wouldn't it make more sense to delete the time track after 'mix and render'? bool MixAndRender(TrackList *tracks, TrackFactory *trackFactory, double rate, sampleFormat format, double startTime, double endTime, WaveTrack **newLeft, WaveTrack **newRight) { // This function was formerly known as "Quick Mix". WaveTrack **waveArray; Track *t; int numWaves = 0; /* number of wave tracks in the selection */ int numMono = 0; /* number of mono, centre-panned wave tracks in selection*/ bool mono = false; /* flag if output can be mono without loosing anything*/ bool oneinput = false; /* flag set to true if there is only one input track (mono or stereo) */ int w; TrackListIterator iter(tracks); SelectedTrackListOfKindIterator usefulIter(Track::Wave, tracks); // this only iterates tracks which are relevant to this function, i.e. // selected WaveTracks. The tracklist is (confusingly) the list of all // tracks in the project t = iter.First(); while (t) { if (t->GetSelected() && t->GetKind() == Track::Wave) { numWaves++; float pan = ((WaveTrack*)t)->GetPan(); if (t->GetChannel() == Track::MonoChannel && pan == 0) numMono++; } t = iter.Next(); } if (numMono == numWaves) mono = true; /* the next loop will do two things at once: * 1. build an array of all the wave tracks were are trying to process * 2. determine when the set of WaveTracks starts and ends, in case we * need to work out for ourselves when to start and stop rendering. */ double mixStartTime = 0.0; /* start time of first track to start */ bool gotstart = false; // flag indicates we have found a start time double mixEndTime = 0.0; /* end time of last track to end */ double tstart, tend; // start and end times for one track. waveArray = new WaveTrack *[numWaves]; w = 0; t = iter.First(); while (t) { if (t->GetSelected() && t->GetKind() == Track::Wave) { waveArray[w++] = (WaveTrack *) t; tstart = t->GetStartTime(); tend = t->GetEndTime(); if (tend > mixEndTime) mixEndTime = tend; // try and get the start time. If the track is empty we will get 0, // which is ambiguous because it could just mean the track starts at // the beginning of the project, as well as empty track. The give-away // is that an empty track also ends at zero. if (tstart != tend) { // we don't get empty tracks here if (!gotstart) { // no previous start, use this one unconditionally mixStartTime = tstart; gotstart = true; } else if (tstart < mixStartTime) mixStartTime = tstart; // have a start, only make it smaller } // end if start and end are different } // end if track is a selected WaveTrack. /** @TODO: could we not use a SelectedTrackListOfKindIterator here? */ t = iter.Next(); } /* create the destination track (new track) */ if ((numWaves == 1) || ((numWaves == 2) && (usefulIter.First()->GetLink() != NULL))) oneinput = true; // only one input track (either 1 mono or one linked stereo pair) WaveTrack *mixLeft = trackFactory->NewWaveTrack(format, rate); if (oneinput) mixLeft->SetName(usefulIter.First()->GetName()); /* set name of output track to be the same as the sole input track */ else mixLeft->SetName(_("Mix")); mixLeft->SetOffset(mixStartTime); WaveTrack *mixRight = 0; if (mono) { mixLeft->SetChannel(Track::MonoChannel); } else { mixRight = trackFactory->NewWaveTrack(format, rate); if (oneinput) { if (usefulIter.First()->GetLink() != NULL) // we have linked track mixLeft->SetName(usefulIter.First()->GetLink()->GetName()); /* set name to match input track's right channel!*/ else mixLeft->SetName(usefulIter.First()->GetName()); /* set name to that of sole input channel */ } else mixRight->SetName(_("Mix")); mixLeft->SetChannel(Track::LeftChannel); mixRight->SetChannel(Track::RightChannel); mixRight->SetOffset(mixStartTime); mixLeft->SetLinked(true); } int maxBlockLen = mixLeft->GetIdealBlockSize(); // If the caller didn't specify a time range, use the whole range in which // any input track had clips in it. if (startTime == endTime) { startTime = mixStartTime; endTime = mixEndTime; } Mixer *mixer = new Mixer(numWaves, waveArray, Mixer::WarpOptions(tracks->GetTimeTrack()), startTime, endTime, mono ? 1 : 2, maxBlockLen, false, rate, format); ::wxSafeYield(); ProgressDialog *progress = new ProgressDialog(_("Mix and Render"), _("Mixing and rendering tracks")); int updateResult = eProgressSuccess; while(updateResult == eProgressSuccess) { sampleCount blockLen = mixer->Process(maxBlockLen); if (blockLen == 0) break; if (mono) { samplePtr buffer = mixer->GetBuffer(); mixLeft->Append(buffer, format, blockLen); } else { samplePtr buffer; buffer = mixer->GetBuffer(0); mixLeft->Append(buffer, format, blockLen); buffer = mixer->GetBuffer(1); mixRight->Append(buffer, format, blockLen); } updateResult = progress->Update(mixer->MixGetCurrentTime() - startTime, endTime - startTime); } delete progress; mixLeft->Flush(); if (!mono) mixRight->Flush(); if (updateResult == eProgressCancelled || updateResult == eProgressFailed) { delete mixLeft; if (!mono) delete mixRight; } else { *newLeft = mixLeft; if (!mono) *newRight = mixRight; #if 0 int elapsedMS = wxGetElapsedTime(); double elapsedTime = elapsedMS * 0.001; double maxTracks = totalTime / (elapsedTime / numWaves); // Note: these shouldn't be translated - they're for debugging // and profiling only. printf(" Tracks: %d\n", numWaves); printf(" Mix length: %f sec\n", totalTime); printf("Elapsed time: %f sec\n", elapsedTime); printf("Max number of tracks to mix in real time: %f\n", maxTracks); #endif } delete[] waveArray; delete mixer; return (updateResult == eProgressSuccess || updateResult == eProgressStopped); }
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); } } }