void TranscriptionToolBar::EnableDisableButtons() { #ifdef EXPERIMENTAL_VOICE_DETECTION AudacityProject *p = GetActiveProject(); if (!p) return; // Is anything selected? auto selection = p->GetSel0() < p->GetSel1() && p->GetTracks()->Selected(); mButtons[TTB_Calibrate]->SetEnabled(selection); #endif }
void ControlToolBar::PlayCurrentRegion(bool looped /* = false */) { mPlay->SetAlternate(looped); AudacityProject *p = GetActiveProject(); if (p) { if (looped) p->mLastPlayMode = loopedPlay; else p->mLastPlayMode = normalPlay; PlayPlayRegion(p->GetSel0(), p->GetSel1(), looped); } }
void EditToolBar::EnableDisableButtons() { AudacityProject *p = GetActiveProject(); if (!p) return; // Is anything selected? bool selection = false; TrackListIterator iter(p->GetTracks()); for (Track *t = iter.First(); t; t = iter.Next()) if (t->GetSelected()) { selection = true; break; } selection &= (p->GetSel0() < p->GetSel1()); mButtons[ETBCutID]->SetEnabled(selection); mButtons[ETBCopyID]->SetEnabled(selection); mButtons[ETBTrimID]->SetEnabled(selection); mButtons[ETBSilenceID]->SetEnabled(selection); mButtons[ETBUndoID]->SetEnabled(p->GetUndoManager()->UndoAvailable()); mButtons[ETBRedoID]->SetEnabled(p->GetUndoManager()->RedoAvailable()); bool tracks = (!p->GetTracks()->IsEmpty()); mButtons[ETBZoomInID]->SetEnabled(tracks && (p->ZoomInAvailable())); mButtons[ETBZoomOutID]->SetEnabled(tracks && (p->ZoomOutAvailable()) ); #if 0 // Disabled for version 1.2.0 since it doesn't work quite right... mButtons[ETBZoomToggleID]->SetEnabled(tracks); #endif mButtons[ETBZoomSelID]->SetEnabled(selection); mButtons[ETBZoomFitID]->SetEnabled(tracks); mButtons[ETBPasteID]->SetEnabled(p->Clipboard()); #ifdef EXPERIMENTAL_SYNC_LOCK bool bSyncLockTracks; gPrefs->Read(wxT("/GUI/SyncLockTracks"), &bSyncLockTracks, false); if (bSyncLockTracks) mButtons[ETBSyncLockID]->PushDown(); else mButtons[ETBSyncLockID]->PopUp(); #endif }
void TranscriptionToolBar::EnableDisableButtons() { #ifdef EXPERIMENTAL_VOICE_DETECTION AudacityProject *p = GetActiveProject(); if (!p) return; // Is anything selected? bool selection = false; TrackListIterator iter(p->GetTracks()); for (Track *t = iter.First(); t; t = iter.Next()) if (t->GetSelected()) { selection = true; break; } selection &= (p->GetSel0() < p->GetSel1()); mButtons[TTB_Calibrate]->SetEnabled(selection); #endif }
void APalette::OnRecord() { if (gAudioIO->IsBusy()) return; AudacityProject *p = GetActiveProject(); if (p) { TrackList *t = p->GetTracks(); double t0 = p->GetSel0(); double t1 = p->GetSel1(); if (t1 == t0) t1 = 1000000000.0; // record for a long, long time (tens of years) bool success = gAudioIO->StartRecord(p, t, t0, t1); if (!success) { SetPlay(false); SetStop(false); SetRecord(false); } } }
void APalette::OnPlay() { if (gAudioIO->IsBusy()) return; AudacityProject *p = GetActiveProject(); if (p) { TrackList *t = p->GetTracks(); double t0 = p->GetSel0(); double t1 = p->GetSel1(); if (t1 == t0) t1 = t->GetMaxLen(); bool success = gAudioIO->StartPlay(p, t, t0, t1); if (!success) { SetPlay(false); SetStop(false); SetRecord(false); } } }
void Lyrics::Update(double t) { if (t < 0.0) { // TrackPanel::OnTimer passes gAudioIO->GetStreamTime(), which is -1000000000 if !IsStreamActive(). // In that case, use the selection start time. AudacityProject* pProj = GetActiveProject(); mT = pProj->GetSel0(); } else mT = t; if (mLyricsStyle == kBouncingBallLyrics) { wxRect karaokeRect(0, 0, mWidth, mKaraokeHeight); this->Refresh(false, &karaokeRect); } int i = FindSyllable(mT); if (i == mCurrentSyllable) return; mCurrentSyllable = i; if (mLyricsStyle == kHighlightLyrics) { mHighlightTextCtrl->SetSelection(mSyllables[i].char0, mSyllables[i].char1); //v No trail for now. //// Leave a trail behind the selection, by highlighting. //if (i == I_FIRST_REAL_SYLLABLE) // // Reset the trail to zero. // mHighlightTextCtrl->SetStyle(0, mHighlightTextCtrl->GetLastPosition(), wxTextAttr(wxNullColour, *wxWHITE)); //// Mark the trail for mSyllables[i]. //mHighlightTextCtrl->SetStyle(mSyllables[i].char0, mSyllables[i].char1, wxTextAttr(wxNullColour, *wxLIGHT_GREY)); //v Too much flicker: mHighlightTextCtrl->ShowPosition(mSyllables[i].char0); } }
void TranscriptionToolBar::GetSamples( const WaveTrack *t, sampleCount *s0, sampleCount *slen) { // GetSamples attempts to translate the start and end selection markers into sample indices // These selection numbers are doubles. AudacityProject *p = GetActiveProject(); if (!p) { return; } //First, get the current selection. It is part of the mViewInfo, which is //part of the project double start = p->GetSel0(); double end = p->GetSel1(); auto ss0 = sampleCount( (start - t->GetOffset()) * t->GetRate() ); auto ss1 = sampleCount( (end - t->GetOffset()) * t->GetRate() ); if (start < t->GetOffset()) { ss0 = 0; } #if 0 //This adjusts the right samplecount to the maximum sample. if (ss1 >= t->GetNumSamples()) { ss1 = t->GetNumSamples(); } #endif if (ss1 < ss0) { ss1 = ss0; } *s0 = ss0; *slen = ss1 - ss0; }
void EditToolBar::EnableDisableButtons() { AudacityProject *p = GetActiveProject(); if (!p) return; // Is anything selected? bool selection = false; TrackListIterator iter(p->GetTracks()); for (Track *t = iter.First(); t; t = iter.Next()) if (t->GetSelected()) { selection = true; break; } selection &= (p->GetSel0() < p->GetSel1()); mButtons[ETBCutID]->SetEnabled(selection); mButtons[ETBCopyID]->SetEnabled(selection); mButtons[ETBTrimID]->SetEnabled(selection); mButtons[ETBSilenceID]->SetEnabled(selection); mButtons[ETBUndoID]->SetEnabled(p->GetUndoManager()->UndoAvailable()); mButtons[ETBRedoID]->SetEnabled(p->GetUndoManager()->RedoAvailable()); bool tracks = (!p->GetTracks()->IsEmpty()); mButtons[ETBZoomInID]->SetEnabled(tracks && (p->GetZoom() < gMaxZoom)); mButtons[ETBZoomOutID]->SetEnabled(tracks && (p->GetZoom() > gMinZoom) ); #if 0 // Disabled for version 1.2.0 since it doesn't work quite right... mButtons[ETBZoomToggleID]->SetEnabled(tracks); #endif mButtons[ETBZoomSelID]->SetEnabled(selection); mButtons[ETBZoomFitID]->SetEnabled(tracks); mButtons[ETBPasteID]->SetEnabled(p->Clipboard()); }
bool Generator::Process() { if (GetDuration() < 0.0) return false; // Set up mOutputTracks. // This effect needs Track::All for sync-lock grouping. this->CopyInputTracks(Track::All); // Iterate over the tracks bool bGoodResult = true; int ntrack = 0; TrackListIterator iter(mOutputTracks); Track* t = iter.First(); while (t != NULL) { if (t->GetKind() == Track::Wave && t->GetSelected()) { WaveTrack* track = (WaveTrack*)t; bool editClipCanMove; gPrefs->Read(wxT("/GUI/EditClipCanMove"), &editClipCanMove, true); //if we can't move clips, and we're generating into an empty space, //make sure there's room. if (!editClipCanMove && track->IsEmpty(mT0, mT1+1.0/track->GetRate()) && !track->IsEmpty(mT0, mT0+GetDuration()-(mT1-mT0)-1.0/track->GetRate())) { wxMessageBox( _("There is not enough room available to generate the audio"), _("Error"), wxICON_STOP); Failure(); return false; } if (GetDuration() > 0.0) { AudacityProject *p = GetActiveProject(); // Create a temporary track std::unique_ptr<WaveTrack> tmp( mFactory->NewWaveTrack(track->GetSampleFormat(), track->GetRate()) ); BeforeTrack(*track); BeforeGenerate(); // Fill it with data if (!GenerateTrack(&*tmp, *track, ntrack)) bGoodResult = false; else { // Transfer the data from the temporary track to the actual one tmp->Flush(); SetTimeWarper(new StepTimeWarper(mT0+GetDuration(), GetDuration()-(mT1-mT0))); bGoodResult = track->ClearAndPaste(p->GetSel0(), p->GetSel1(), &*tmp, true, false, GetTimeWarper()); } if (!bGoodResult) { Failure(); return false; } } else { // If the duration is zero, there's no need to actually // generate anything track->Clear(mT0, mT1); } ntrack++; } else if (t->IsSyncLockSelected()) { t->SyncLockAdjust(mT1, mT0 + GetDuration()); } // Move on to the next track t = iter.Next(); } Success(); this->ReplaceProcessedTracks(bGoodResult); mT1 = mT0 + GetDuration(); // Update selection. return true; }
void TranscriptionToolBar::OnMakeLabel(wxCommandEvent & WXUNUSED(event)) { AudacityProject *p = GetActiveProject(); SetButton(false, mButtons[TTB_MakeLabel]); p->DoAddLabel(SelectedRegion(p->GetSel0(), p->GetSel1())); }
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) { auto doubleClicked = mRecord->IsDoubleClicked(); mRecord->ClearDoubleClicked(); if (doubleClicked) { // Display a fixed recording head while scrolling the waves continuously. // If you overdub, you may want to anticipate some context in existing tracks, // so center the head. If not, put it rightmost to display as much wave as we can. const auto project = GetActiveProject(); bool duplex; gPrefs->Read(wxT("/AudioIO/Duplex"), &duplex, true); if (duplex) { // See if there is really anything being overdubbed if (gAudioIO->GetNumPlaybackChannels() == 0) // No. duplex = false; } using Mode = AudacityProject::PlaybackScroller::Mode; project->GetPlaybackScroller().Activate(duplex ? Mode::Centered : Mode::Right); return; } if (gAudioIO->IsBusy()) { if (!CanStopAudioStream() || 0 == gAudioIO->GetNumCaptureChannels()) mRecord->PopUp(); else mRecord->PushDown(); 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 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 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 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; }
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); } } }