void ExportFFmpegWMAOptions::PopulateOrExchange(ShuttleGui & S) { S.StartHorizontalLay(wxEXPAND, 0); { S.StartStatic(_("WMA Export Setup"), 0); { S.StartTwoColumn(); { S.TieChoice(_("Bit Rate:"), wxT("/FileFormats/WMABitRate"), 180189, mBitRateNames, mBitRateLabels); } S.EndTwoColumn(); } S.EndStatic(); } S.EndHorizontalLay(); S.AddStandardButtons(); Layout(); Fit(); SetMinSize(GetSize()); Center(); return; }
void TruncSilenceDialog::PopulateOrExchange(ShuttleGui & S) { S.StartHorizontalLay(wxCENTER, false); { S.AddTitle(_("by Lynn Allan")); } S.EndHorizontalLay(); S.StartHorizontalLay(wxCENTER, false); { // Add a little space } S.EndHorizontalLay(); S.StartThreeColumn(); { wxArrayString choices(Enums::NumDbChoices, Enums::GetDbChoices()); S.Id( ID_LONGEST_SILENCE_TEXT ).TieTextBox(_("Max silence duration:"), mEffect->mTruncLongestAllowedSilentMs, 10); S.AddUnits( _("milliseconds") ); //S.AddUnits(_("(9999999 or greater is off)")); S.TieChoice(_("Threshold for silence:"), mEffect->mTruncDbChoiceIndex, &choices); } S.EndTwoColumn(); pWarning = S.AddVariableText( wxT("") ); }
void DirectoriesPrefs::PopulateOrExchange(ShuttleGui & S) { S.SetBorder(2); S.StartStatic(_("Temporary files directory")); { S.StartMultiColumn(3, wxEXPAND); { S.SetStretchyCol(1); S.Id(TempDirID); mTempDir = S.TieTextBox(_("&Location:"), wxT("/Directories/TempDir"), wxT(""), 30); S.Id(ChooseButtonID); S.AddButton(_("C&hoose...")); S.AddFixedText(_("Free Space:")); mFreeSpace = S.AddVariableText(wxT("")); } S.EndMultiColumn(); } S.EndStatic(); #ifdef DEPRECATED_AUDIO_CACHE // See http://bugzilla.audacityteam.org/show_bug.cgi?id=545. S.StartStatic(_("Audio cache")); { S.TieCheckBox(_("Play and/or record using &RAM (useful for slow drives)"), wxT("/Directories/CacheBlockFiles"), false); S.StartTwoColumn(); { S.TieNumericTextBox(_("Mi&nimum Free Memory (MB):"), wxT("/Directories/CacheLowMem"), 16, 9); } S.EndTwoColumn(); S.AddVariableText(_("If the available system memory falls below this value, audio will no longer\nbe cached in memory and will be written to disk."))->Wrap(600); } S.EndStatic(); #endif // DEPRECATED_AUDIO_CACHE }
void WaveformPrefs::PopulateOrExchange(ShuttleGui & S) { mPopulating = true; S.SetBorder(2); // S.StartStatic(_("Track Settings")); { mDefaultsCheckbox = 0; if (mWt) { /* i18n-hint: use is a verb */ mDefaultsCheckbox = S.Id(ID_DEFAULTS).TieCheckBox(_("&Use Preferences"), mDefaulted); } S.StartStatic(_("Display")); { S.StartTwoColumn(); { mScaleChoice = S.Id(ID_SCALE).TieChoice(_("S&cale") + wxString(wxT(":")), *(int*)&mTempSettings.scaleType, &mScaleChoices); mRangeChoice = S.Id(ID_RANGE).TieChoice(_("Waveform dB &range") + wxString(wxT(":")), *(int*)&mTempSettings.dBRange, &mRangeChoices); S.SetSizeHints(mRangeChoices); } S.EndTwoColumn(); } S.EndStatic(); } // S.EndStatic(); /* S.StartStatic(_("Global settings")); { } S.EndStatic(); */ EnableDisableRange(); mPopulating = false; }
void NormalizeDialog::PopulateOrExchange(ShuttleGui & S) { wxTextValidator vld(wxFILTER_NUMERIC); S.StartHorizontalLay(wxCENTER, false); { S.AddTitle(_("by Dominic Mazzoni")); } S.EndHorizontalLay(); S.StartHorizontalLay(wxCENTER, false); { // Add a little space } S.EndHorizontalLay(); S.StartTwoColumn(); { S.StartVerticalLay(false); { mDCCheckBox = S.Id(ID_DC_REMOVE).AddCheckBox(_("Remove any DC offset (center on 0.0 vertically)"), mDC ? wxT("true") : wxT("false")); mGainCheckBox = S.Id(ID_NORMALIZE_AMPLITUDE).AddCheckBox(_("Normalize maximum amplitude to:"), mGain ? wxT("true") : wxT("false")); S.StartHorizontalLay(wxALIGN_CENTER, false); { mLevelTextCtrl = S.Id(ID_LEVEL_TEXT).AddTextBox(wxT(""), wxT(""), 10); mLevelTextCtrl->SetValidator(vld); mLevelTextCtrl->SetName(_("Maximum amplitude dB")); mLeveldB = S.AddVariableText(_("dB"), false, wxALIGN_CENTER_VERTICAL | wxALIGN_LEFT); mWarning = S.AddVariableText( wxT(""), false, wxALIGN_CENTER_VERTICAL | wxALIGN_LEFT); } S.EndHorizontalLay(); mStereoIndCheckBox = S.AddCheckBox(_("Normalize stereo channels independently"), mStereoInd ? wxT("true") : wxT("false")); } S.EndVerticalLay(); } S.EndTwoColumn(); }
void DirectoriesPrefs::PopulateOrExchange(ShuttleGui & S) { S.SetBorder(2); S.StartStatic(_("Temporary files directory")); { S.StartMultiColumn(3, wxEXPAND); { S.SetStretchyCol(1); S.Id(TempDirID); mTempDir = S.TieTextBox(_("Location:"), wxT("/Directories/TempDir"), wxT(""), 30); S.Id(ChooseButtonID); S.AddButton(_("Choose...")); S.AddFixedText(_("Free Space:")); mFreeSpace = S.AddVariableText(wxT("")); } S.EndMultiColumn(); } S.EndStatic(); S.StartStatic(_("Audio cache")); { S.TieCheckBox(_("Play and/or record using RAM (useful for slow drives)"), wxT("/Directories/CacheBlockFiles"), false); S.StartTwoColumn(); { S.TieTextBox(_("Minimum Free Memory (MB):"), wxT("/Directories/CacheLowMem"), 16, 9); } S.EndTwoColumn(); S.AddVariableText(_("If the available system memory falls below this value, audio will no longer\nbe cached in memory and will be written to disk."))->Wrap(600); } S.EndStatic(); }
void WaveformPrefs::PopulateOrExchange(ShuttleGui & S) { mPopulating = true; S.SetBorder(2); // S.StartStatic(_("Track Settings")); { mDefaultsCheckbox = 0; if (mWt) { /* i18n-hint: use is a verb */ mDefaultsCheckbox = S.Id(ID_DEFAULTS).TieCheckBox(_("Use Preferences"), mDefaulted); } S.StartStatic(_("Display")); { S.StartTwoColumn(); { S.Id(ID_SCALE).TieChoice(_("S&cale") + wxString(wxT(":")), *(int*)&mTempSettings.scaleType, &mScaleChoices); } S.EndTwoColumn(); } S.EndStatic(); } // S.EndStatic(); /* S.StartStatic(_("Global settings")); { } S.EndStatic(); */ S.StartMultiColumn(2, wxALIGN_RIGHT); { S.Id(ID_APPLY).AddButton(_("Appl&y")); } S.EndMultiColumn(); mPopulating = false; }
void SpectrumPrefs::PopulateOrExchange(ShuttleGui & S) { mPopulating = true; S.SetBorder(2); // S.StartStatic(_("Track Settings")); // { mDefaultsCheckbox = 0; if (mWt) { /* i18n-hint: use is a verb */ mDefaultsCheckbox = S.Id(ID_DEFAULTS).TieCheckBox(_("Use Preferences"), mDefaulted); } S.StartStatic(_("Scale")); { S.StartTwoColumn(); { S.Id(ID_SCALE).TieChoice(_("S&cale") + wxString(wxT(":")), *(int*)&mTempSettings.scaleType, &mScaleChoices); mMinFreq = S.Id(ID_MINIMUM).TieNumericTextBox(_("Mi&nimum Frequency (Hz):"), mTempSettings.minFreq, 12); mMaxFreq = S.Id(ID_MAXIMUM).TieNumericTextBox(_("Ma&ximum Frequency (Hz):"), mTempSettings.maxFreq, 12); } S.EndTwoColumn(); } S.EndStatic(); S.StartStatic(_("Colors")); { S.StartTwoColumn(); { mGain = S.Id(ID_GAIN).TieNumericTextBox(_("&Gain (dB):"), mTempSettings.gain, 8); mRange = S.Id(ID_RANGE).TieNumericTextBox(_("&Range (dB):"), mTempSettings.range, 8); mFrequencyGain = S.Id(ID_FREQUENCY_GAIN).TieNumericTextBox(_("Frequency g&ain (dB/dec):"), mTempSettings.frequencyGain, 4); } S.Id(ID_GRAYSCALE).TieCheckBox(_("S&how the spectrum using grayscale colors"), mTempSettings.isGrayscale); S.EndTwoColumn(); } S.EndStatic(); S.StartStatic(_("Algorithm")); { S.StartMultiColumn(2); { mAlgorithmChoice = S.Id(ID_ALGORITHM).TieChoice(_("A&lgorithm") + wxString(wxT(":")), *(int*)&mTempSettings.algorithm, &mAlgorithmChoices); S.Id(ID_WINDOW_SIZE).TieChoice(_("Window &size:"), mTempSettings.windowSize, &mSizeChoices); S.SetSizeHints(mSizeChoices); S.Id(ID_WINDOW_TYPE).TieChoice(_("Window &type:"), mTempSettings.windowType, &mTypeChoices); S.SetSizeHints(mTypeChoices); #ifdef EXPERIMENTAL_ZERO_PADDED_SPECTROGRAMS mZeroPaddingChoiceCtrl = S.Id(ID_PADDING_SIZE).TieChoice(_("&Zero padding factor") + wxString(wxT(":")), mTempSettings.zeroPaddingFactor, &mZeroPaddingChoices); S.SetSizeHints(mZeroPaddingChoices); #endif } S.EndMultiColumn(); } S.EndStatic(); #ifndef SPECTRAL_SELECTION_GLOBAL_SWITCH S.Id(ID_SPECTRAL_SELECTION).TieCheckBox(_("Ena&ble Spectral Selection"), mTempSettings.spectralSelection); #endif #ifdef EXPERIMENTAL_FFT_Y_GRID S.TieCheckBox(_("Show a grid along the &Y-axis"), mTempSettings.fftYGrid); #endif //EXPERIMENTAL_FFT_Y_GRID #ifdef EXPERIMENTAL_FIND_NOTES /* i18n-hint: FFT stands for Fast Fourier Transform and probably shouldn't be translated*/ S.StartStatic(_("FFT Find Notes")); { S.StartTwoColumn(); { mFindNotesMinA = S.TieNumericTextBox(_("Minimum Amplitude (dB):"), mTempSettings.fftFindNotes, 8); mFindNotesN = S.TieNumericTextBox(_("Max. Number of Notes (1..128):"), mTempSettings.findNotesMinA, 8); } S.EndTwoColumn(); S.TieCheckBox(_("&Find Notes"), mTempSettings.numberOfMaxima); S.TieCheckBox(_("&Quantize Notes"), mTempSettings.findNotesQuantize); } S.EndStatic(); #endif //EXPERIMENTAL_FIND_NOTES // S.EndStatic(); #ifdef SPECTRAL_SELECTION_GLOBAL_SWITCH S.StartStatic(_("Global settings")); { S.TieCheckBox(_("Ena&ble spectral selection"), SpectrogramSettings::Globals::Get().spectralSelection); } S.EndStatic(); #endif EnableDisableSTFTOnlyControls(); mPopulating = false; }
void QualityPrefs::PopulateOrExchange( ShuttleGui & S ) { S.SetBorder( 2 ); S.StartStatic(_("Sampling"),0 ); { S.StartTwoColumn(); S.AddPrompt( _("Default Sample Rate:") ); DefineSampleRateControl( S ); // A tricky control. S.TieChoice(_("Default Sample Format:"), wxT("/SamplingRate/DefaultProjectSampleFormat"), floatSample, mmSampleFormatNames, mmSampleFormatLabels ); // JKC For the old style of layout, uncomment the next line. // #define OLD_STYLE_LAYOUT // Once we've chosen which layout to use we'll remove the // other one. (June/2006). #ifdef OLD_STYLE_LAYOUT S.TieChoice(_("Real-time sample rate converter:"), wxT("/Quality/LibresampleSampleRateConverter"), (int)0, mConverterNames, mConverterLabels), S.TieChoice(_("High-quality sample rate converter:"), wxT("/Quality/LibresampleHQSampleRateConverter"), (int)1, mConverterNames, mConverterLabels), S.TieChoice(_("Real-time dither:"), wxT("/Quality/DitherAlgorithm"), Dither::none, mmDitherNames, mmDitherLabels ); S.TieChoice(_("High-quality dither:"), wxT("/Quality/HQDitherAlgorithm"), Dither::shaped, mmDitherNames, mmDitherLabels ); #endif S.EndTwoColumn(); } S.EndStatic(); // The new style of layout has // - columns for converter and dither. // - rows for Real-time and High-quality. #ifndef OLD_STYLE_LAYOUT S.StartStatic( _("Conversion") ); { // We use blank labels here and there to end up with // a three column layout. S.StartMultiColumn(3); S.AddFixedText(wxT("")); S.AddTitle(_("Sample Rate Converter" )); S.AddTitle(_("Dither")); S.TieChoice(_("Real-time:"), wxT("/Quality/LibresampleSampleRateConverter"), (int)0, mConverterNames, mConverterLabels), S.TieChoice(wxT(""), wxT("/Quality/DitherAlgorithm"), Dither::none, mmDitherNames, mmDitherLabels ); S.TieChoice(_("High-quality:"), wxT("/Quality/LibresampleHQSampleRateConverter"), (int)1, mConverterNames, mConverterLabels), S.TieChoice(wxT(""), wxT("/Quality/HQDitherAlgorithm"), Dither::shaped, mmDitherNames, mmDitherLabels ); S.EndMultiColumn(); } S.EndStatic(); #endif }
/// This PopulateOrExchange function is a good example of mixing the fully /// automatic style of reading/writing from GUI to prefs with the partial form. /// /// You'll notice that some of the Tie functions have Prefs identifiers in them /// and others don't. void LibraryPrefs::PopulateOrExchange(ShuttleGui & S) { S.SetBorder(2); S.StartStatic(_("MP3 Export Library")); { S.StartTwoColumn(); { S.AddVariableText(_("MP3 Library Version:"), true, wxALL | wxALIGN_RIGHT | wxALIGN_CENTRE_VERTICAL); mMP3Version = S.AddVariableText(wxT("9.99"), true, wxALL | wxALIGN_LEFT | wxALIGN_CENTRE_VERTICAL); S.AddVariableText(_("MP3 Library:"), true, wxALL | wxALIGN_RIGHT | wxALIGN_CENTRE_VERTICAL); wxButton *locate_button = S.Id(ID_MP3_FIND_BUTTON).AddButton(_("&Locate..."), wxALL | wxALIGN_LEFT | wxALIGN_CENTRE_VERTICAL); S.AddVariableText(_("LAME MP3 Library:"), true, wxALL | wxALIGN_RIGHT | wxALIGN_CENTRE_VERTICAL); wxButton *download_button = S.Id(ID_MP3_DOWN_BUTTON).AddButton(_("&Download"), wxALL | wxALIGN_LEFT | wxALIGN_CENTRE_VERTICAL); #ifdef DISABLE_DYNAMIC_LOADING_LAME locate_button->Enable(FALSE); download_button->Enable(FALSE); #else (void)locate_button; (void)download_button; #endif // DISABLE_DYNAMIC_LOADING_LAME } S.EndTwoColumn(); } S.EndStatic(); S.StartStatic(_("FFmpeg Import/Export Library")); { S.StartTwoColumn(); { S.AddVariableText(_("FFmpeg Library Version:"), true, wxALL | wxALIGN_RIGHT | wxALIGN_CENTRE_VERTICAL); #if defined(USE_FFMPEG) mFFmpegVersion = S.AddVariableText(_("No compatible FFmpeg library was found"), true, wxALL | wxALIGN_LEFT | wxALIGN_CENTRE_VERTICAL); #else mFFmpegVersion = S.AddVariableText(wxT("FFmpeg support is not compiled in"), true, wxALL | wxALIGN_LEFT | wxALIGN_CENTRE_VERTICAL); #endif S.AddVariableText(_("FFmpeg Library:"), true, wxALL | wxALIGN_RIGHT | wxALIGN_CENTRE_VERTICAL); S.Id(ID_FFMPEG_FIND_BUTTON); wxButton *bfnd = S.AddButton(_("Loca&te..."), wxALL | wxALIGN_LEFT | wxALIGN_CENTRE_VERTICAL); S.AddVariableText(_("FFmpeg Library:"), true, wxALL | wxALIGN_RIGHT | wxALIGN_CENTRE_VERTICAL); S.Id(ID_FFMPEG_DOWN_BUTTON); wxButton *bdwn = S.AddButton(_("Dow&nload"), wxALL | wxALIGN_LEFT | wxALIGN_CENTRE_VERTICAL); #if !defined(USE_FFMPEG) || defined(DISABLE_DYNAMIC_LOADING_FFMPEG) bdwn->Enable(FALSE); bfnd->Enable(FALSE); #else // fix compilation warnings about unused variables bfnd, bdwn; #endif } S.EndTwoColumn(); #ifdef EXPERIMENTAL_OD_FFMPEG wxCheckBox* checkbox = S.TieCheckBox(_("Allow &background on-demand loading"), wxT("/Library/FFmpegOnDemand"), false); #if !defined(USE_FFMPEG) checkbox->Enable(FALSE); #endif #endif } S.EndStatic(); }
void SpectrumPrefs::PopulateOrExchange(ShuttleGui & S) { S.SetBorder(2); S.StartStatic(_("FFT Window")); { S.StartMultiColumn(2); { S.TieChoice(_("Window size") + wxString(wxT(":")), wxT("/Spectrum/FFTSize"), 256, mSizeChoices, mSizeCodes); S.SetSizeHints(mSizeChoices); S.TieChoice(_("Window type") + wxString(wxT(":")), wxT("/Spectrum/WindowType"), 3, mTypeChoices, mTypeCodes); S.SetSizeHints(mTypeChoices); } S.EndMultiColumn(); } S.EndStatic(); #ifdef EXPERIMENTAL_FFT_SKIP_POINTS wxArrayString wskipn; wxArrayInt wskipv; for (size_t i = 0; i < 7; i++) { wskipn.Add(wxString::Format(wxT("%d"), (1 << i) - 1)); wskipv.Add((1 << i) - 1); } S.StartStatic(_("FFT Skip Points")); { S.StartMultiColumn(2); { S.TieChoice(_("Skip Points") + wxString(wxT(":")), wxT("/Spectrum/FFTSkipPoints"), 0, wskipn, wskipv); S.SetSizeHints(wskipn); } S.EndMultiColumn(); } S.EndStatic(); #endif //EXPERIMENTAL_FFT_SKIP_POINTS S.StartStatic(_("Display")); { S.StartTwoColumn(); { mMinFreq = S.TieTextBox(_("Minimum Frequency (Hz):"), wxT("/Spectrum/MinFreq"), 0, 12); mMaxFreq = S.TieTextBox(_("Maximum Frequency (Hz):"), wxT("/Spectrum/MaxFreq"), 8000, 12); mGain = S.TieTextBox(_("Gain (dB):"), wxT("/Spectrum/Gain"), 20, 8); mRange = S.TieTextBox(_("Range (dB):"), wxT("/Spectrum/Range"), 80, 8); mFrequencyGain = S.TieTextBox(_("Frequency gain: (dB/dec)"), wxT("/Spectrum/FrequencyGain"), 0, 4); } S.EndTwoColumn(); S.TieCheckBox(_("Show the spectrum using &grayscale colors"), wxT("/Spectrum/Grayscale"), false); #ifdef EXPERIMENTAL_FFT_Y_GRID S.TieCheckBox(_("Show a grid along the &Y-axis"), wxT("/Spectrum/FFTYGrid"), false); #endif //EXPERIMENTAL_FFT_Y_GRID } S.EndStatic(); #ifdef EXPERIMENTAL_FIND_NOTES S.StartStatic(_("FFT Find Notes")); { S.StartTwoColumn(); { mFindNotesMinA = S.TieTextBox(_("Minimum Amplitude (dB):"), wxT("/Spectrum/FindNotesMinA"), -30L, 8); mFindNotesN = S.TieTextBox(_("Max. Number of Notes (1..128):"), wxT("/Spectrum/FindNotesN"), 5L, 8); } S.EndTwoColumn(); S.TieCheckBox(_("&Find Notes"), wxT("/Spectrum/FFTFindNotes"), false); S.TieCheckBox(_("&Quantize Notes"), wxT("/Spectrum/FindNotesQuantize"), false); } S.EndStatic(); #endif //EXPERIMENTAL_FIND_NOTES }
void SpectrumPrefs::PopulateOrExchange( ShuttleGui & S ) { wxArrayString windowTypeList; for(int i=0; i<NumWindowFuncs(); i++) windowTypeList.Add(WindowFuncName(i)); S.SetBorder( 2 ); S.StartHorizontalLay(wxEXPAND, 0 ); S.StartStatic( _("FFT Size"), 0 ); { S.StartRadioButtonGroup( wxT("/Spectrum/FFTSize"), 256 ); S.TieRadioButton( _("8 - most wideband"), 8); S.TieRadioButton( wxT("16"), 16); S.TieRadioButton( wxT("32"), 32); S.TieRadioButton( wxT("64"), 64); S.TieRadioButton( wxT("128"), 128); S.TieRadioButton( _("256 - default"), 256); S.TieRadioButton( wxT("512"), 512); S.TieRadioButton( wxT("1024"), 1024); S.TieRadioButton( wxT("2048"), 2048); #ifdef EXPERIMENTAL_FIND_NOTES S.TieRadioButton( wxT("4096"), 4096); S.TieRadioButton( wxT("8192"), 8192); S.TieRadioButton( wxT("16384"), 16384); S.TieRadioButton( _("32768 - most narrowband"),32768); #else S.TieRadioButton( _("4096 - most narrowband"),4096); #endif //LOGARITHMIC_SPECTRUM S.EndRadioButtonGroup(); // add choice for windowtype S.StartMultiColumn(2, wxCENTER); { S.TieChoice( _("Window type:"), windowType, &windowTypeList); S.SetSizeHints(-1,-1); } S.EndMultiColumn(); } S.EndStatic(); #ifdef EXPERIMENTAL_FFT_SKIP_POINTS S.StartHorizontalLay(wxEXPAND, 0 ); S.StartStatic( _("FFT Skip Points"), 0 ); { S.StartRadioButtonGroup(wxT("/Spectrum/FFTSkipPoints"), 0); S.TieRadioButton(wxT("0"), 0); S.TieRadioButton(wxT("1"), 1); S.TieRadioButton(wxT("3"), 3); S.TieRadioButton(wxT("7"), 7); S.TieRadioButton(wxT("15"), 15); S.TieRadioButton(wxT("31"), 31); S.TieRadioButton(wxT("63"), 63); S.EndRadioButtonGroup(); } S.EndStatic(); #endif //EXPERIMENTAL_FFT_SKIP_POINTS S.StartStatic( _("Display"),1 ); { // JC: For layout of mixtures of controls I prefer checkboxes on the right, // with everything in two columns over what we have here. S.TieCheckBox( _("&Grayscale"), wxT("/Spectrum/Grayscale"), false); S.StartTwoColumn(); // 2 cols because we have a control with a separate label. S.Id(ID_MINFREQUENCY).TieTextBox( _("Minimum Frequency (Hz):"), // prompt minFreqStr, // String to exchange with 12 // max number of characters (used to size the control). ); S.Id(ID_MAXFREQUENCY).TieTextBox( _("Maximum Frequency (Hz):"), // prompt maxFreqStr, // String to exchange with 12 // max number of characters (used to size the control). ); S.EndTwoColumn(); #ifdef EXPERIMENTAL_FFT_Y_GRID S.TieCheckBox( _("&Y-Grid"), wxT("/Spectrum/FFTYGrid"), false); #endif //EXPERIMENTAL_FFT_Y_GRID #ifdef EXPERIMENTAL_FIND_NOTES S.TieCheckBox( _("&Find Notes"), wxT("/Spectrum/FFTFindNotes"), false); S.TieCheckBox( _("&Quantize Notes"), wxT("/Spectrum/FindNotesQuantize"), false); S.StartTwoColumn(); // 2 cols because we have a control with a separate label. S.Id(ID_FIND_NOTES_MIN_A).TieTextBox( _("Minimum Amplitude (dB):"), // prompt findNotesMinAStr, // String to exchange with 8 // max number of characters (used to size the control). ); S.Id(ID_FIND_NOTES_N).TieTextBox( _("Max. Number of Notes (1..128):"), // prompt findNotesNStr, // String to exchange with 8 // max number of characters (used to size the control). ); S.EndTwoColumn(); #endif //EXPERIMENTAL_FIND_NOTES } S.EndStatic(); S.EndHorizontalLay(); }
void ExportFFmpegOptions::PopulateOrExchange(ShuttleGui & S) { S.StartVerticalLay(1); S.StartMultiColumn(7, wxEXPAND); { S.SetStretchyCol(1); mPresetCombo = S.Id(FEPresetID).AddCombo(_("Preset:"), gPrefs->Read(wxT("/FileFormats/FFmpegPreset"),wxEmptyString), mPresetNames); mLoadPreset = S.Id(FELoadPresetID).AddButton(_("Load Preset")); mSavePreset = S.Id(FESavePresetID).AddButton(_("Save Preset")); mDeletePreset = S.Id(FEDeletePresetID).AddButton(_("Delete Preset")); mImportPresets = S.Id(FEImportPresetsID).AddButton(_("Import Presets")); mExportPresets = S.Id(FEExportPresetsID).AddButton(_("Export Presets")); } S.EndMultiColumn(); S.StartTwoColumn(); { S.Id(FEFormatLabelID).AddVariableText(_("Format:")); mFormatName = S.Id(FEFormatNameID).AddVariableText(wxT("")); S.Id(FECodecLabelID).AddVariableText(_("Codec:")); mCodecName = S.Id(FECodecNameID).AddVariableText(wxT("")); } S.EndTwoColumn(); S.AddVariableText(_("Not all formats and codecs are compatible. Some parameters (such as bitrate and samplerate) combinations are not compatible with some codecs too."),false); S.StartMultiColumn(3,wxEXPAND); { S.AddVariableText(_("Format selector:"),true); S.AddVariableText(_("Codec selector:"),true); S.AddVariableText(wxEmptyString); S.Id(FEAllFormatsID).AddButton(_("Show All Formats")); S.Id(FEAllCodecsID).AddButton(_("Show All Codecs")); S.AddVariableText(wxEmptyString); mFormatList = S.Id(FEFormatID).AddListBox(&mFormatNames); mCodecList = S.Id(FECodecID).AddListBox(&mCodecNames); mFormatList->DeselectAll(); mCodecList->DeselectAll(); S.StartStatic(wxT("Options"),0); { S.StartMultiColumn(4,wxALIGN_LEFT); { mLanguageText = S.Id(FELanguageID).TieTextBox(_("Language:"), wxT("/FileFormats/FFmpegLanguage"), wxEmptyString, 0); mLanguageText->SetToolTip(_("ISO 639 3-letter language code\nOptional\nempty - automatic")); mTag = S.Id(FETagID).TieTextBox(_("Tag:"), wxT("/FileFormats/FFmpegTag"), wxEmptyString, 0); mTag->SetToolTip(_("Codec tag (FOURCC)\nOptional\nempty - automatic")); mBitrateSpin = S.Id(FEBitrateID).TieSpinCtrl(_("Bit Rate:"), wxT("/FileFormats/FFmpegBitRate"), 0,1000000,0); mBitrateSpin->SetToolTip(_("Bit Rate (bits/second) - influences the resulting file size and quality\nSome codecs may only accept specific values (128k, 192k, 256k etc)\n0 - automatic\nRecommended - 192000")); mQualitySpin = S.Id(FEQualityID).TieSpinCtrl(_("Quality:"), wxT("/FileFormats/FFmpegQuality"), 0,500,-1); mQualitySpin->SetToolTip(_("Overral quality, used differently by different codecs\nRequired for vorbis\n0 - automatic\n-1 - off (use bitrate instead)")); mSampleRateSpin = S.Id(FESampleRateID).TieSpinCtrl(_("Sample Rate:"), wxT("/FileFormats/FFmpegSampleRate"), 0,200000,0); mSampleRateSpin->SetToolTip(_("Sample rate (Hz)\n0 - don't change sample rate")); mCutoffSpin = S.Id(FECutoffID).TieSpinCtrl(_("Cutoff Bandwidth:"), wxT("/FileFormats/FFmpegCutOff"), 0,10000000,0); mCutoffSpin->SetToolTip(_("Audio cutoff bandwidth (Hz)\nOptional\n0 - automatic\n")); S.AddVariableText(wxT("Use Bit Reservoir")); S.Id(FEBitReservoirID).TieCheckBox(wxEmptyString, wxT("/FileFormats/FFmpegBitReservoir"), true); mProfileChoice = S.Id(FEProfileID).TieChoice(_("Profile:"), wxT("/FileFormats/FFmpegAACProfile"), mProfileLabels[0], mProfileNames, mProfileLabels); mProfileChoice->SetToolTip(_("AAC Profile\nLow Complexity -default\nMost players won't play anything other than LC")); } S.EndMultiColumn(); S.StartStatic(wxT("FLAC options"),0); { S.StartMultiColumn(4); { mCompressionLevelSpin = S.Id(FECompLevelID).TieSpinCtrl(_("Compression Level:"), wxT("/FileFormats/FFmpegCompLevel"), 0,10,-1); mCompressionLevelSpin->SetToolTip(_("Compression level\nRequired for FLAC\n-1 - automatic\nmin - 0 (fast encoding, large output file)\nmax - 10 (slow encoding, small output file)")); mFrameSizeSpin = S.Id(FEFrameSizeID).TieSpinCtrl(_("Frame Size:"), wxT("/FileFormats/FFmpegFrameSize"), 0,65535,0); mFrameSizeSpin->SetToolTip(_("Frame size\nOptional\n0 - default\nmin - 16\nmax - 65535")); mLPCCoeffsPrecisionSpin = S.Id(FELPCCoeffsID).TieSpinCtrl(_("LPC coefficients precision"), wxT("/FileFormats/FFmpegLPCCoefPrec"), 0,15,0); mLPCCoeffsPrecisionSpin->SetToolTip(_("LPC coefficients precision\nOptional\n0 - default\nmin - 1\nmax - 15")); mMinPredictionOrderSpin = S.Id(FEMinPredID).TieSpinCtrl(_("Minimal prediction order"), wxT("/FileFormats/FFmpegMinPredOrder"), -1,32,-1); mMinPredictionOrderSpin->SetToolTip(_("Minimal prediction order\nOptional\n-1 - default\nmin - 0\nmax - 32 (with LPC) or 4 (without LPC)")); mMaxPredictionOrderSpin = S.Id(FEMaxPredID).TieSpinCtrl(_("Maximal prediction order"), wxT("/FileFormats/FFmpegMaxPredOrder"), -1,32,-1); mMaxPredictionOrderSpin->SetToolTip(_("Maximal prediction order\nOptional\n-1 - default\nmin - 0\nmax - 32 (with LPC) or 4 (without LPC)")); mPredictionOrderMethodChoice = S.Id(FEPredOrderID).TieChoice(_("Prediction Order Method:"), wxT("/FileFormats/FFmpegPredOrderMethod"), mPredictionOrderMethodLabels[4], mPredictionOrderMethodNames, mPredictionOrderMethodLabels); mProfileChoice->SetToolTip(_("Prediction Order Method\nEstimate - fastest, lower compression\nLog search - slowest, best compression\nFull search - default")); mMinPartitionOrderSpin = S.Id(FEMinPartOrderID).TieSpinCtrl(_("Minimal partition order"), wxT("/FileFormats/FFmpegMinPartOrder"), -1,8,-1); mMinPartitionOrderSpin->SetToolTip(_("Minimal partition order\nOptional\n-1 - default\nmin - 0\nmax - 8")); mMaxPartitionOrderSpin = S.Id(FEMaxPartOrderID).TieSpinCtrl(_("Maximal partition order"), wxT("/FileFormats/FFmpegMaxPredOrder"), -1,8,-1); mMaxPartitionOrderSpin->SetToolTip(_("Maximal partition order\nOptional\n-1 - default\nmin - 0\nmax - 8")); S.AddVariableText(wxT("Use LPC")); S.Id(FEUseLPCID).TieCheckBox(wxEmptyString, wxT("/FileFormats/FFmpegUseLPC"), true); } S.EndMultiColumn(); } S.EndStatic(); S.StartStatic(wxT("MPEG container options"),0); { S.StartMultiColumn(4); { mMuxRate = S.Id(FEMuxRateID).TieSpinCtrl(_("Mux Rate:"), wxT("/FileFormats/FFmpegMuxRate"), 0,10000000,0); mMuxRate->SetToolTip(_("Maximum bit rate of the multiplexed stream\nOptional\n0 - default")); mPacketSize = S.Id(FEPacketSizeID).TieSpinCtrl(_("Packet Size:"), wxT("/FileFormats/FFmpegPacketSize"), 0,10000000,0); mPacketSize->SetToolTip(_("Packet size\nOptional\n0 - default")); } S.EndMultiColumn(); } S.EndStatic(); } S.EndStatic(); } S.EndTwoColumn(); S.EndVerticalLay(); S.AddStandardButtons(); Layout(); Fit(); SetMinSize(GetSize()); Center(); return; }