void TruncSilenceDialog::PopulateOrExchange(ShuttleGui & S)
{
S.AddSpace(0, 5);
S.StartHorizontalLay();
{
// Action choices
wxArrayString processChoices;
processChoices.Add(_("Truncate Detected Silence"));
processChoices.Add(_("Compress Excess Silence"));
S.Id(ID_PROCESS_CHOICE).TieChoice(wxT(""),
mEffect->mProcessIndex,
&processChoices);
S.SetSizeHints(-1, -1);
}
S.EndHorizontalLay();
S.StartStatic(_("Detect Silence"));
{
S.StartMultiColumn(3, wxALIGN_CENTER_HORIZONTAL);
{
// Threshold
wxArrayString choices(Enums::NumDbChoices, Enums::GetDbChoices());
S.TieChoice(_("Level:"),
mEffect->mTruncDbChoiceIndex,
&choices);
S.SetSizeHints(-1, -1);
S.AddSpace(0); // 'choices' aleady includes units.
// Ignored silence
S.Id(ID_DETECT_SILENCE).TieNumericTextBox(_("Duration:"),
mEffect->mInitialAllowedSilence,
12);
S.AddUnits(wxT("seconds"));
}
S.EndMultiColumn();
}
S.EndStatic();
S.StartMultiColumn(3, wxALIGN_CENTER_HORIZONTAL);
{
// Truncation / Compression factor
S.Id( ID_TRUNCATION_DURATION ).TieNumericTextBox(_("Truncate to:"),
mEffect->mTruncLongestAllowedSilence,
12);
S.AddUnits(wxT("seconds"));
S.Id( ID_COMPRESS_FACTOR ).TieNumericTextBox(_("Compress to:"),
mEffect->mSilenceCompressPercent,
12);
S.AddUnits(wxT("percent"));
}
S.EndMultiColumn();
// Warnings
pWarning = S.AddVariableText( wxT("") );
UpdateUI();
}
void EffectLeveller::PopulateOrExchange(ShuttleGui & S)
{
wxASSERT(kNumPasses == WXSIZEOF(kPassStrings));
wxArrayString passChoices;
for (int i = 0; i < kNumPasses; i++)
{
passChoices.Add(wxGetTranslation(kPassStrings[i]));
}
wxArrayString dBChoices(Enums::NumDbChoices,Enums::GetDbChoices());
S.SetBorder(5);
S.StartVerticalLay();
{
S.AddSpace(5);
S.StartMultiColumn(2, wxALIGN_CENTER);
{
S.AddChoice(_("Degree of Leveling:"),
wxT(""),
&passChoices)->SetValidator(wxGenericValidator(&mPassIndex));
S.AddChoice(_("Noise Threshold:"),
wxT(""),
&dBChoices)->SetValidator(wxGenericValidator(&mDbIndex));
}
S.EndMultiColumn();
}
S.EndVerticalLay();
return;
}
void GUIPrefs::PopulateOrExchange(ShuttleGui & S)
{
S.SetBorder(2);
S.StartStatic(_("Display"));
{
S.TieCheckBox(_("&Ergonomic order of Transport Toolbar buttons"),
wxT("/GUI/ErgonomicTransportButtons"),
true);
S.TieCheckBox(_("S&how 'How to Get Help' dialog box at program start up"),
wxT("/GUI/ShowSplashScreen"),
true);
S.AddSpace(10);
S.StartMultiColumn(2);
{
const wxString defaultRange = wxString::Format(wxT("%d"), ENV_DB_RANGE);
S.TieChoice(_("Meter dB &range:"),
ENV_DB_KEY,
defaultRange,
mRangeChoices,
mRangeCodes);
S.SetSizeHints(mRangeChoices);
S.TieChoice(_("&Language:"),
wxT("/Locale/Language"),
wxT(""),
mLangNames,
mLangCodes);
S.SetSizeHints(mLangNames);
S.TieChoice(_("Location of &Manual:"),
wxT("/GUI/Help"),
wxT("Local"),
mHtmlHelpChoices,
mHtmlHelpCodes);
S.SetSizeHints(mHtmlHelpChoices);
}
S.EndMultiColumn();
}
S.EndStatic();
S.StartStatic(_("Behaviors"));
{
S.TieCheckBox(_("&Beep on completion of longer activities"),
wxT("/GUI/BeepOnCompletion"),
false);
S.TieCheckBox(_("Re&tain labels if selection snaps to a label edge"),
wxT("/GUI/RetainLabels"),
false);
#ifdef EXPERIMENTAL_OUTPUT_DISPLAY
S.TieCheckBox(_("&Display a mono channel as virtual stereo"),
wxT("/GUI/MonoAsVirtualStereo"),
false);
#endif
}
S.EndStatic();
}
void EffectDtmf::PopulateOrExchange(ShuttleGui & S)
{
// 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
S.AddSpace(0, 5);
S.StartMultiColumn(2, wxCENTER);
{
wxTextValidator vldDtmf(wxFILTER_INCLUDE_CHAR_LIST, &dtmfSequence);
vldDtmf.SetIncludes(wxArrayString(WXSIZEOF(kSymbols), kSymbols));
mDtmfSequenceT = S.Id(ID_Sequence).AddTextBox(_("DTMF sequence:"), wxT(""), 10);
mDtmfSequenceT->SetValidator(vldDtmf);
FloatingPointValidator<double> vldAmp(3, &dtmfAmplitude, NUM_VAL_NO_TRAILING_ZEROES);
vldAmp.SetRange(MIN_Amplitude, MAX_Amplitude);
S.Id(ID_Amplitude).AddTextBox(_("Amplitude (0-1):"), wxT(""), 10)->SetValidator(vldAmp);
S.AddPrompt(_("Duration:"));
mDtmfDurationT = safenew
NumericTextCtrl(NumericConverter::TIME,
S.GetParent(),
ID_Duration,
GetDurationFormat(),
GetDuration(),
mProjectRate,
wxDefaultPosition,
wxDefaultSize,
true);
mDtmfDurationT->SetName(_("Duration"));
mDtmfDurationT->EnableMenu();
S.AddWindow(mDtmfDurationT);
S.AddFixedText(_("Tone/silence ratio:"), false);
S.SetStyle(wxSL_HORIZONTAL | wxEXPAND);
mDtmfDutyCycleS = S.Id(ID_DutyCycle).AddSlider( {},
dtmfDutyCycle * SCL_DutyCycle,
MAX_DutyCycle * SCL_DutyCycle,
MIN_DutyCycle * SCL_DutyCycle);
S.SetSizeHints(-1,-1);
}
S.EndMultiColumn();
S.StartMultiColumn(2, wxCENTER);
{
S.AddFixedText(_("Duty cycle:"), false);
mDtmfDutyT = S.AddVariableText(wxString::Format(wxT("%.1f %%"), dtmfDutyCycle), false);
S.AddFixedText(_("Tone duration:"), false);
mDtmfSilenceT = S.AddVariableText(wxString::Format(wxString(wxT("%.0f ")) + _("ms"), dtmfTone * 1000.0), false);
S.AddFixedText(_("Silence duration:"), false);
mDtmfToneT = S.AddVariableText(wxString::Format(wxString(wxT("%0.f ")) + _("ms"), dtmfSilence * 1000.0), false);
}
S.EndMultiColumn();
}
void WahwahDialog::PopulateOrExchange(ShuttleGui & S)
{
wxTextValidator vld(wxFILTER_NUMERIC);
S.SetBorder(5);
S.AddSpace(0, 5);
S.StartMultiColumn(3, wxCENTER);
{
wxSlider *s;
wxTextCtrl * tempTC;
tempTC = S.Id(ID_FREQTEXT).AddTextBox(_("LFO Frequency (Hz):"), wxT(""), 12);
S.SetStyle(wxSL_HORIZONTAL);
tempTC->SetValidator(vld);
s = S.Id(ID_FREQSLIDER).AddSlider(wxT(""), 100, FREQ_MAX, FREQ_MIN);
s->SetName(_("LFO frequency in hertz"));
#if defined(__WXGTK__)
s->SetMinSize(wxSize(100, -1));
#endif
tempTC = S.Id(ID_PHASETEXT).AddTextBox(_("LFO Start Phase (deg.):"), wxT(""), 12);
S.SetStyle(wxSL_HORIZONTAL);
tempTC->SetValidator(vld);
s = S.Id(ID_PHASESLIDER).AddSlider(wxT(""), 0, PHASE_MAX, PHASE_MIN);
s->SetName(_("LFO start phase in degrees"));
s->SetLineSize(10);
#if defined(__WXGTK__)
s->SetMinSize(wxSize(100, -1));
#endif
tempTC = S.Id(ID_DEPTHTEXT).AddTextBox(_("Depth (%):"), wxT(""), 12);
S.SetStyle(wxSL_HORIZONTAL);
tempTC->SetValidator(vld);
s = S.Id(ID_DEPTHSLIDER).AddSlider(wxT(""), 0, DEPTH_MAX, DEPTH_MIN);
s->SetName(_("Depth in percent"));
#if defined(__WXGTK__)
s->SetMinSize(wxSize(100, -1));
#endif
tempTC = S.Id(ID_RESONANCETEXT).AddTextBox(_("Resonance:"), wxT(""), 12);
S.SetStyle(wxSL_HORIZONTAL);
tempTC->SetValidator(vld);
s = S.Id(ID_RESONANCESLIDER).AddSlider(wxT(""), 0, RES_MAX, RES_MIN);
s->SetName(_("Resonance"));
#if defined(__WXGTK__)
s->SetMinSize(wxSize(100, -1));
#endif
tempTC = S.Id(ID_FREQOFFTEXT).AddTextBox(_("Wah Frequency Offset (%):"), wxT(""), 12);
S.SetStyle(wxSL_HORIZONTAL);
tempTC->SetValidator(vld);
s =S.Id(ID_FREQOFFSLIDER).AddSlider(wxT(""), 0, FREQOFF_MAX, FREQOFF_MIN);
s->SetName(_("Wah frequency offset in percent"));
#if defined(__WXGTK__)
s->SetMinSize(wxSize(100, -1));
#endif
}
S.EndMultiColumn();
}
void DtmfDialog::PopulateOrExchange( ShuttleGui & S )
{
wxTextValidator vldDtmf(wxFILTER_INCLUDE_CHAR_LIST);
vldDtmf.SetIncludes(wxArrayString(42, dtmfSymbols));
S.AddSpace(0, 5);
S.StartMultiColumn(2, wxEXPAND);
{
mDtmfStringT = S.Id(ID_DTMF_STRING_TEXT).AddTextBox(_("DTMF sequence:"), wxT(""), 10);
mDtmfStringT->SetValidator(vldDtmf);
// The added colon to improve visual consistency was placed outside
// the translatable strings to avoid breaking translations close to 2.0.
// TODO: Make colon part of the translatable string after 2.0.
S.TieNumericTextBox(_("Amplitude (0-1)") + wxString(wxT(":")), dAmplitude, 10);
S.AddPrompt(_("Duration:"));
if (mDtmfDurationT == NULL)
{
mDtmfDurationT = new
TimeTextCtrl(this,
ID_DTMF_DURATION_TEXT,
wxT(""),
dDuration,
mEffect->mProjectRate,
wxDefaultPosition,
wxDefaultSize,
true);
/* use this instead of "seconds" because if a selection is passed to the
* effect, I want it (dDuration) to be used as the duration, and with
* "seconds" this does not always work properly. For example, it rounds
* down to zero... */
mDtmfDurationT->SetName(_("Duration"));
mDtmfDurationT->SetFormatString(mDtmfDurationT->GetBuiltinFormat(dIsSelection==true?(_("hh:mm:ss + samples")):(_("hh:mm:ss + milliseconds"))));
mDtmfDurationT->EnableMenu();
}
S.AddWindow(mDtmfDurationT);
S.AddFixedText(_("Tone/silence ratio:"), false);
S.SetStyle(wxSL_HORIZONTAL | wxEXPAND);
mDtmfDutyS = S.Id(ID_DTMF_DUTYCYCLE_SLIDER).AddSlider(wxT(""), (int)dDutyCycle, DUTY_MAX, DUTY_MIN);
S.SetSizeHints(-1,-1);
}
S.EndMultiColumn();
S.StartMultiColumn(2, wxCENTER);
{
S.AddFixedText(_("Duty cycle:"), false);
mDtmfDutyT = S.Id(ID_DTMF_DUTYCYCLE_TEXT).AddVariableText(wxString::Format(wxT("%.1f %%"), (float) dDutyCycle/DUTY_SCALE), false);
S.AddFixedText(_("Tone duration:"), false);
mDtmfSilenceT = S.Id(ID_DTMF_TONELEN_TEXT).AddVariableText(wxString::Format(wxString(wxT("%d ")) + _("ms"), (int) dTone * 1000), false);
S.AddFixedText(_("Silence duration:"), false);
mDtmfToneT = S.Id(ID_DTMF_SILENCE_TEXT).AddVariableText(wxString::Format(wxString(wxT("%d ")) + _("ms"), (int) dSilence * 1000), false);
}
S.EndMultiColumn();
}
void GetTrackInfoCommand::PopulateOrExchange(ShuttleGui & S)
{
wxArrayString types( nTypes, kTypes );
S.AddSpace(0, 5);
S.StartMultiColumn(2, wxALIGN_CENTER);
{
S.TieChoice( _("Types:"), mInfoType, &types);
}
S.EndMultiColumn();
}
void TracksBehaviorsPrefs::PopulateOrExchange(ShuttleGui & S)
{
S.SetBorder(2);
S.StartScroller();
S.StartStatic(_("Behaviors"));
{
S.TieCheckBox(_("A&uto-select, if selection required"),
wxT("/GUI/SelectAllOnNone"),
false);
/* i18n-hint: Cut-lines are lines that can expand to show the cut audio.*/
S.TieCheckBox(_("Enable cut &lines"),
wxT("/GUI/EnableCutLines"),
false);
S.TieCheckBox(_("Enable &dragging selection edges"),
wxT("/GUI/AdjustSelectionEdges"),
true);
S.TieCheckBox(_("Editing a clip can &move other clips"),
wxT("/GUI/EditClipCanMove"),
true);
S.TieCheckBox(_("\"Move track focus\" c&ycles repeatedly through tracks"),
wxT("/GUI/CircularTrackNavigation"),
false);
S.TieCheckBox(_("&Type to create a label"),
wxT("/GUI/TypeToCreateLabel"),
true);
S.TieCheckBox(_("Use dialog for the &name of a new label"),
wxT("/GUI/DialogForNameNewLabel"),
false);
#ifdef EXPERIMENTAL_SCROLLING_LIMITS
S.TieCheckBox(_("Enable scrolling left of &zero"),
ScrollingPreferenceKey(),
ScrollingPreferenceDefault());
#endif
S.TieCheckBox(_("Advanced &vertical zooming"),
wxT("/GUI/VerticalZooming"),
false);
S.AddSpace(10);
S.StartMultiColumn(2);
{
S.TieChoice(_("Solo &Button:"),
wxT("/GUI/Solo"),
wxT("Standard"),
mSoloChoices,
mSoloCodes);
}
S.EndMultiColumn();
}
S.EndStatic();
S.EndScroller();
}
void SelectFrequenciesCommand::PopulateOrExchange(ShuttleGui & S)
{
S.AddSpace(0, 5);
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol( 2 );
S.Optional( bHasTop ).TieTextBox(_("High:"), mTop);
S.Optional( bHasBottom ).TieTextBox(_("Low:"), mBottom);
}
S.EndMultiColumn();
}
void SetClipCommand::PopulateOrExchange(ShuttleGui & S)
{
S.AddSpace(0, 5);
S.StartMultiColumn(3, wxALIGN_CENTER);
{
S.Optional( bHasContainsTime).TieNumericTextBox( _("At:"), mContainsTime );
S.Optional( bHasColour ).TieChoice( _("Colour:"), mColour,
LocalizedStrings( kColourStrings, nColours ) );
S.Optional( bHasT0 ).TieNumericTextBox( _("Start:"), mT0 );
}
S.EndMultiColumn();
}
void ChangeSpeedDialog::PopulateOrExchange(ShuttleGui & S)
{
S.SetBorder(5);
S.AddSpace(0, 5);
S.AddTitle(_("Change Speed, affecting both Tempo and Pitch"));
//
S.StartMultiColumn(2, wxCENTER);
{
mpTextCtrl_PercentChange =
S.Id(ID_TEXT_PERCENTCHANGE).AddTextBox(_("Percent Change:"), wxT(""), 12);
wxTextValidator validator(wxFILTER_NUMERIC);
mpTextCtrl_PercentChange->SetValidator(validator);
}
S.EndMultiColumn();
//
S.StartHorizontalLay(wxEXPAND);
{
S.SetStyle(wxSL_HORIZONTAL);
mpSlider_PercentChange =
S.Id(ID_SLIDER_PERCENTCHANGE).AddSlider(wxT(""), 0, (int)PERCENTCHANGE_MAX, (int)PERCENTCHANGE_MIN);
mpSlider_PercentChange->SetName(_("Percent Change"));
}
S.EndHorizontalLay();
//
S.StartMultiColumn(5, wxCENTER);
{
S.AddUnits(_("Standard Vinyl RPM:"));
wxArrayString rpmStrings;
rpmStrings.Add(wxT("33 1/3"));
rpmStrings.Add(wxT("45"));
rpmStrings.Add(wxT("78"));
/* i18n-hint: n/a is an English abbreviation meaning "not applicable". */
rpmStrings.Add(_("n/a"));
mpChoice_FromVinyl =
S.Id(ID_CHOICE_FROMVINYL).AddChoice(_("from"), wxT(""), &rpmStrings);
mpChoice_FromVinyl->SetName(_("From RPM"));
mpChoice_FromVinyl->SetSizeHints(100, -1);
mpChoice_ToVinyl =
S.Id(ID_CHOICE_TOVINYL).AddChoice(_("to"), wxT(""), &rpmStrings);
mpChoice_ToVinyl->SetName(_("To RPM"));
mpChoice_ToVinyl->SetSizeHints(100, -1);
}
S.EndMultiColumn();
}
void AmplifyDialog::PopulateOrExchange(ShuttleGui & S)
{
wxTextValidator vld(wxFILTER_NUMERIC);
S.AddSpace(0, 5);
// Amplitude
S.StartMultiColumn(2, wxCENTER);
{
mAmpT = S.Id(ID_AMP_TEXT).AddTextBox(_("Amplification (dB):"),
wxT(""),
12);
mAmpT->SetValidator(vld);
}
S.EndMultiColumn();
// Amplitude
S.StartHorizontalLay(wxEXPAND);
{
S.SetStyle(wxSL_HORIZONTAL);
mAmpS = S.Id(ID_AMP_SLIDER).AddSlider(wxT(""),
0,
AMP_MAX,
AMP_MIN);
mAmpS->SetName(_("Amplification dB"));
}
S.EndHorizontalLay();
// Peek
S.StartMultiColumn(2, wxCENTER);
{
mPeakT = S.Id(ID_PEAK_TEXT).AddTextBox(_("New Peak Amplitude (dB):"),
wxT(""),
12);
mPeakT->SetValidator(vld);
}
S.EndMultiColumn();
// Clipping
S.StartHorizontalLay(wxCENTER);
{
mClip = S.Id(ID_CLIP_CHECKBOX).AddCheckBox(_("Allow clipping"),
wxT("false"));
}
S.EndHorizontalLay();
return;
}
void SelectTimeCommand::PopulateOrExchange(ShuttleGui & S)
{
S.AddSpace(0, 5);
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol( 2 );
S.Optional( bHasT0 ).TieTextBox(_("Start Time:"), mT0);
S.Optional( bHasT1 ).TieTextBox(_("End Time:"), mT1);
// Chooses what time is relative to.
S.Optional( bHasRelativeSpec ).TieChoice(
_("Relative To:"),
mRelativeTo, LocalizedStrings( kRelativeTo, nRelativeTos ));
}
S.EndMultiColumn();
}
void SetTrackBase::PopulateOrExchange(ShuttleGui & S)
{
static_cast<void>(S);
#ifdef USE_OWN_TRACK_SELECTION
if( !mbPromptForTracks )
return;
S.AddSpace(0, 5);
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol( 2 );
S.Optional( bHasTrackIndex ).TieNumericTextBox( _("Track Index:"), mTrackIndex );
S.Optional( bHasChannelIndex).TieNumericTextBox( _("Channel Index:"), mChannelIndex );
}
S.EndMultiColumn();
#endif
}
void EffectEcho::PopulateOrExchange(ShuttleGui & S)
{
S.AddSpace(0, 5);
S.StartMultiColumn(2, wxALIGN_CENTER);
{
FloatingPointValidator<double> vldDelay(3, &delay, NUM_VAL_NO_TRAILING_ZEROES);
vldDelay.SetRange(MIN_Delay, MAX_Delay);
S.AddTextBox(_("Delay time (seconds):"), wxT(""), 10)->SetValidator(vldDelay);
FloatingPointValidator<double> vldDecay(3, &decay, NUM_VAL_NO_TRAILING_ZEROES);
vldDecay.SetRange(MIN_Decay, MAX_Decay);
S.AddTextBox(_("Decay factor:"), wxT(""), 10)->SetValidator(vldDecay);
}
S.EndMultiColumn();
}
void EchoDialog::PopulateOrExchange(ShuttleGui & S)
{
S.AddSpace(0, 5);
S.StartMultiColumn(2, wxALIGN_CENTER);
{
m_pTextCtrl_Delay = S.AddTextBox(_("Delay time (seconds):"),
wxT("1.0"),
10);
m_pTextCtrl_Delay->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
m_pTextCtrl_Decay = S.AddTextBox(_("Decay factor:"),
wxT("0.5"),
10);
m_pTextCtrl_Decay->SetValidator(wxTextValidator(wxFILTER_NUMERIC));
}
S.EndMultiColumn();
}
void SelectTracksCommand::PopulateOrExchange(ShuttleGui & S)
{
S.AddSpace(0, 5);
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol( 2 );
S.Optional( bHasFirstTrack).TieTextBox(_("First Track:"),mFirstTrack);
S.Optional( bHasNumTracks).TieTextBox(_("Track Count:"),mNumTracks);
}
S.EndMultiColumn();
S.StartMultiColumn(2, wxALIGN_CENTER);
{
// Always used, so no check box.
S.TieChoice( _("Mode:"), mMode, LocalizedStrings( kModes, nModes ));
}
S.EndMultiColumn();
}
void EffectReverb::PopulateOrExchange(ShuttleGui & S)
{
S.AddSpace(0, 5);
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol(2);
#define SpinSlider(n, p) \
m ## n ## T = S.Id(ID_ ## n). \
AddSpinCtrl( p, DEF_ ## n, MAX_ ## n, MIN_ ## n); \
S.SetStyle(wxSL_HORIZONTAL); \
m ## n ## S = S.Id(ID_ ## n). \
AddSlider(wxT(""), DEF_ ## n, MAX_ ## n, MIN_ ## n);
SpinSlider(RoomSize, _("&Room Size (%):"));
SpinSlider(PreDelay, _("&Pre-delay (ms):"));
SpinSlider(Reverberance, _("Rever&berance (%):"));
SpinSlider(HfDamping, _("Da&mping (%):"));
SpinSlider(ToneLow, _("Tone &Low (%):"));
SpinSlider(ToneHigh, _("Tone &High (%):"));
SpinSlider(WetGain, _("Wet &Gain (dB):"));
SpinSlider(DryGain, _("Dr&y Gain (dB):"));
SpinSlider(StereoWidth, _("Stereo Wid&th (%):"));
#undef SpinSlider
}
S.EndMultiColumn();
S.StartHorizontalLay(wxCENTER, false);
{
mWetOnlyC = S.Id(ID_WetOnly).
AddCheckBox(_("Wet O&nly"), DEF_WetOnly ? wxT("true") : wxT("false"));
}
S.EndHorizontalLay();
return;
}
void EffectChangeSpeed::PopulateOrExchange(ShuttleGui & S)
{
GetPrivateConfig(GetCurrentSettingsGroup(), wxT("TimeFormat"), mFormat, mFormat);
GetPrivateConfig(GetCurrentSettingsGroup(), wxT("VinylChoice"), mFromVinyl, mFromVinyl);
S.SetBorder(5);
S.StartVerticalLay(0);
{
S.AddSpace(0, 5);
S.AddTitle(_("Change Speed, affecting both Tempo and Pitch"));
S.AddSpace(0, 10);
// Speed multiplier and percent change controls.
S.StartMultiColumn(4, wxCENTER);
{
FloatingPointValidator<double> vldMultiplier(3, &mMultiplier, NUM_VAL_THREE_TRAILING_ZEROES);
vldMultiplier.SetRange(MIN_Percentage / 100.0, ((MAX_Percentage / 100.0) + 1));
mpTextCtrl_Multiplier =
S.Id(ID_Multiplier).AddTextBox(_("Speed Multiplier:"), wxT(""), 12);
mpTextCtrl_Multiplier->SetValidator(vldMultiplier);
FloatingPointValidator<double> vldPercentage(3, &m_PercentChange, NUM_VAL_THREE_TRAILING_ZEROES);
vldPercentage.SetRange(MIN_Percentage, MAX_Percentage);
mpTextCtrl_PercentChange =
S.Id(ID_PercentChange).AddTextBox(_("Percent Change:"), wxT(""), 12);
mpTextCtrl_PercentChange->SetValidator(vldPercentage);
}
S.EndMultiColumn();
// Percent change slider.
S.StartHorizontalLay(wxEXPAND);
{
S.SetStyle(wxSL_HORIZONTAL);
mpSlider_PercentChange =
S.Id(ID_PercentChange).AddSlider(wxT(""), 0, (int)kSliderMax, (int)MIN_Percentage);
mpSlider_PercentChange->SetName(_("Percent Change"));
}
S.EndHorizontalLay();
// Vinyl rpm controls.
S.StartMultiColumn(5, wxCENTER);
{
/* i18n-hint: "rpm" is an English abbreviation meaning "revolutions per minute". */
S.AddUnits(_("Standard Vinyl rpm:"));
wxASSERT(kNumVinyl == WXSIZEOF(kVinylStrings));
wxArrayString vinylChoices;
for (int i = 0; i < kNumVinyl; i++)
{
if (i == kVinyl_NA)
{
vinylChoices.Add(wxGetTranslation(kVinylStrings[i]));
}
else
{
vinylChoices.Add(kVinylStrings[i]);
}
}
mpChoice_FromVinyl =
S.Id(ID_FromVinyl).AddChoice(_("from"), wxT(""), &vinylChoices);
mpChoice_FromVinyl->SetName(_("From rpm"));
mpChoice_FromVinyl->SetSizeHints(100, -1);
mpChoice_ToVinyl =
S.Id(ID_ToVinyl).AddChoice(_("to"), wxT(""), &vinylChoices);
mpChoice_ToVinyl->SetName(_("To rpm"));
mpChoice_ToVinyl->SetSizeHints(100, -1);
}
S.EndMultiColumn();
// From/To time controls.
S.StartStatic(_("Selection Length"), 0);
{
S.StartMultiColumn(2, wxALIGN_LEFT);
{
S.AddPrompt(_("Current Length:"));
mpFromLengthCtrl = safenew
NumericTextCtrl(NumericConverter::TIME,
S.GetParent(),
wxID_ANY,
mFormat,
mFromLength,
mProjectRate);
mpFromLengthCtrl->SetName(_("from"));
mpFromLengthCtrl->SetToolTip(_("Current length of selection."));
mpFromLengthCtrl->SetReadOnly(true);
mpFromLengthCtrl->EnableMenu(false);
S.AddWindow(mpFromLengthCtrl, wxALIGN_LEFT);
S.AddPrompt(_("New Length:"));
mpToLengthCtrl = safenew
NumericTextCtrl(NumericConverter::TIME,
S.GetParent(),
ID_ToLength,
mFormat,
mToLength,
mProjectRate);
mpToLengthCtrl->SetName(_("to"));
mpToLengthCtrl->EnableMenu();
S.AddWindow(mpToLengthCtrl, wxALIGN_LEFT);
}
S.EndMultiColumn();
}
S.EndStatic();
}
S.EndVerticalLay();
}
void EffectWahwah::PopulateOrExchange(ShuttleGui & S)
{
S.SetBorder(5);
S.AddSpace(0, 5);
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol(2);
FloatingPointValidator<double> vldfreq(5, &mFreq, NumValidatorStyle::ONE_TRAILING_ZERO);
vldfreq.SetRange(MIN_Freq, MAX_Freq);
mFreqT = S.Id(ID_Freq).AddTextBox(_("LFO Freq&uency (Hz):"), wxT(""), 12);
mFreqT->SetValidator(vldfreq);
S.SetStyle(wxSL_HORIZONTAL);
mFreqS = S.Id(ID_Freq).AddSlider( {}, DEF_Freq * SCL_Freq, MAX_Freq * SCL_Freq, MIN_Freq * SCL_Freq);
mFreqS->SetName(_("LFO frequency in hertz"));
mFreqS->SetMinSize(wxSize(100, -1));
FloatingPointValidator<double> vldphase(1, &mPhase);
vldphase.SetRange(MIN_Phase, MAX_Phase);
mPhaseT = S.Id(ID_Phase).AddTextBox(_("LFO Sta&rt Phase (deg.):"), wxT(""), 12);
mPhaseT->SetValidator(vldphase);
S.SetStyle(wxSL_HORIZONTAL);
mPhaseS = S.Id(ID_Phase).AddSlider( {}, DEF_Phase * SCL_Phase, MAX_Phase * SCL_Phase, MIN_Phase * SCL_Phase);
mPhaseS->SetName(_("LFO start phase in degrees"));
mPhaseS->SetLineSize(10);
mPhaseS->SetMinSize(wxSize(100, -1));
IntegerValidator<int> vlddepth(&mDepth);
vlddepth.SetRange(MIN_Depth, MAX_Depth);
mDepthT = S.Id(ID_Depth).AddTextBox(_("Dept&h (%):"), wxT(""), 12);
mDepthT->SetValidator(vlddepth);
S.SetStyle(wxSL_HORIZONTAL);
mDepthS = S.Id(ID_Depth).AddSlider( {}, DEF_Depth * SCL_Depth, MAX_Depth * SCL_Depth, MIN_Depth * SCL_Depth);
mDepthS->SetName(_("Depth in percent"));
mDepthS->SetMinSize(wxSize(100, -1));
FloatingPointValidator<double> vldres(1, &mRes);
vldres.SetRange(MIN_Res, MAX_Res);
mResT = S.Id(ID_Res).AddTextBox(_("Reso&nance:"), wxT(""), 12);
mResT->SetValidator(vldres);
S.SetStyle(wxSL_HORIZONTAL);
mResS = S.Id(ID_Res).AddSlider( {}, DEF_Res * SCL_Res, MAX_Res * SCL_Res, MIN_Res * SCL_Res);
mResS->SetName(_("Resonance"));
mResS->SetMinSize(wxSize(100, -1));
IntegerValidator<int> vldfreqoffset(&mFreqOfs);
vldfreqoffset.SetRange(MIN_FreqOfs, MAX_FreqOfs);
mFreqOfsT = S.Id(ID_FreqOfs).AddTextBox(_("Wah Frequency Offse&t (%):"), wxT(""), 12);
mFreqOfsT->SetValidator(vldfreqoffset);
S.SetStyle(wxSL_HORIZONTAL);
mFreqOfsS = S.Id(ID_FreqOfs).AddSlider( {}, DEF_FreqOfs * SCL_FreqOfs, MAX_FreqOfs * SCL_FreqOfs, MIN_FreqOfs * SCL_FreqOfs);
mFreqOfsT->SetName(_("Wah frequency offset in percent"));
mFreqOfsT->SetMinSize(wxSize(100, -1));
FloatingPointValidator<double> vldoutgain(1, &mOutGain);
vldoutgain.SetRange(MIN_OutGain, MAX_OutGain);
mOutGainT = S.Id(ID_OutGain).AddTextBox(_("&Output gain (dB):"), wxT(""), 12);
mOutGainT->SetValidator(vldoutgain);
S.SetStyle(wxSL_HORIZONTAL);
mOutGainS = S.Id(ID_OutGain).AddSlider( {}, DEF_OutGain * SCL_OutGain, MAX_OutGain * SCL_OutGain, MIN_OutGain * SCL_OutGain);
mOutGainS->SetName(_("Output gain (dB)"));
mOutGainS->SetMinSize(wxSize(100, -1));
}
S.EndMultiColumn();
}
void EffectBassTreble::PopulateOrExchange(ShuttleGui & S)
{
S.SetBorder(5);
S.AddSpace(0, 5);
S.StartStatic(_("Tone controls"));
{
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol(2);
// Bass control
FloatingPointValidator<double> vldBass(1, &mBass);
vldBass.SetRange(MIN_Bass, MAX_Bass);
mBassT = S.Id(ID_Bass).AddTextBox(_("Ba&ss (dB):"), wxT(""), 10);
mBassT->SetName(_("Bass (dB):"));
mBassT->SetValidator(vldBass);
S.SetStyle(wxSL_HORIZONTAL);
mBassS = S.Id(ID_Bass).AddSlider( {}, 0, MAX_Bass * SCL_Bass, MIN_Bass * SCL_Bass);
mBassS->SetName(_("Bass"));
// Treble control
FloatingPointValidator<double> vldTreble(1, &mTreble);
vldTreble.SetRange(MIN_Treble, MAX_Treble);
mTrebleT = S.Id(ID_Treble).AddTextBox(_("&Treble (dB):"), wxT(""), 10);
mTrebleT->SetValidator(vldTreble);
S.SetStyle(wxSL_HORIZONTAL);
mTrebleS = S.Id(ID_Treble).AddSlider( {}, 0, MAX_Treble * SCL_Treble, MIN_Treble * SCL_Treble);
mTrebleS->SetName(_("Treble"));
}
S.EndMultiColumn();
}
S.EndStatic();
S.StartStatic(_("Output"));
{
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol(2);
// Gain control
FloatingPointValidator<double> vldGain(1, &mGain);
vldGain.SetRange(MIN_Gain, MAX_Gain);
mGainT = S.Id(ID_Gain).AddTextBox(_("&Volume (dB):"), wxT(""), 10);
mGainT->SetValidator(vldGain);
S.SetStyle(wxSL_HORIZONTAL);
mGainS = S.Id(ID_Gain).AddSlider( {}, 0, MAX_Gain * SCL_Gain, MIN_Gain * SCL_Gain);
mGainS->SetName(_("Level"));
}
S.EndMultiColumn();
S.StartMultiColumn(2, wxCENTER);
{
// Link checkbox
mLinkCheckBox = S.Id(ID_Link).AddCheckBox(_("&Link Volume control to Tone controls"),
DEF_Link ? wxT("true") : wxT("false"));
}
S.EndMultiColumn();
}
S.EndStatic();
}
void EffectAutoDuck::PopulateOrExchange(ShuttleGui & S)
{
S.SetBorder(5);
S.StartVerticalLay(true);
{
S.AddSpace(0, 5);
mPanel = safenew EffectAutoDuckPanel(S.GetParent(), this);
S.AddWindow(mPanel);
S.AddSpace(0, 5);
S.StartMultiColumn(6, wxCENTER);
{
FloatingPointValidator<double> vldDuckAmountDb(1, &mDuckAmountDb, NUM_VAL_NO_TRAILING_ZEROES);
vldDuckAmountDb.SetRange(MIN_DuckAmountDb, MAX_DuckAmountDb);
mDuckAmountDbBox = S.AddTextBox(_("Duck amount:"), wxT(""), 10);
mDuckAmountDbBox->SetValidator(vldDuckAmountDb);
S.AddUnits(_("dB"));
FloatingPointValidator<double> vldMaximumPause(2, &mMaximumPause, NUM_VAL_NO_TRAILING_ZEROES);
vldMaximumPause.SetRange(MIN_MaximumPause, MAX_MaximumPause);
mMaximumPauseBox = S.AddTextBox(_("Maximum pause:"), wxT(""), 10);
mMaximumPauseBox->SetValidator(vldMaximumPause);
S.AddUnits(_("seconds"));
FloatingPointValidator<double> vldOuterFadeDownLen(2, &mOuterFadeDownLen, NUM_VAL_NO_TRAILING_ZEROES);
vldOuterFadeDownLen.SetRange(MIN_OuterFadeDownLen, MAX_OuterFadeDownLen);
mOuterFadeDownLenBox = S.AddTextBox(_("Outer fade down length:"), wxT(""), 10);
mOuterFadeDownLenBox->SetValidator(vldOuterFadeDownLen);
S.AddUnits(_("seconds"));
FloatingPointValidator<double> vldOuterFadeUpLen(2, &mOuterFadeUpLen, NUM_VAL_NO_TRAILING_ZEROES);
vldOuterFadeUpLen.SetRange(MIN_OuterFadeUpLen, MAX_OuterFadeUpLen);
mOuterFadeUpLenBox = S.AddTextBox(_("Outer fade up length:"), wxT(""), 10);
mOuterFadeUpLenBox->SetValidator(vldOuterFadeUpLen);
S.AddUnits(_("seconds"));
FloatingPointValidator<double> vldInnerFadeDownLen(2, &mInnerFadeDownLen, NUM_VAL_NO_TRAILING_ZEROES);
vldInnerFadeDownLen.SetRange(MIN_InnerFadeDownLen, MAX_InnerFadeDownLen);
mInnerFadeDownLenBox = S.AddTextBox(_("Inner fade down length:"), wxT(""), 10);
mInnerFadeDownLenBox->SetValidator(vldInnerFadeDownLen);
S.AddUnits(_("seconds"));
FloatingPointValidator<double> vldInnerFadeUpLen(2, &mInnerFadeUpLen, NUM_VAL_NO_TRAILING_ZEROES);
vldInnerFadeUpLen.SetRange(MIN_InnerFadeUpLen, MAX_InnerFadeUpLen);
mInnerFadeUpLenBox = S.AddTextBox(_("Inner fade up length:"), wxT(""), 10);
mInnerFadeUpLenBox->SetValidator(vldInnerFadeUpLen);
S.AddUnits(_("seconds"));
}
S.EndMultiColumn();
S.StartMultiColumn(3, wxCENTER);
{
FloatingPointValidator<double> vldThresholdDb(2, &mThresholdDb, NUM_VAL_NO_TRAILING_ZEROES);
vldThresholdDb.SetRange(MIN_ThresholdDb, MAX_ThresholdDb);
mThresholdDbBox = S.AddTextBox(_("Threshold:"), wxT(""), 10);
mThresholdDbBox->SetValidator(vldThresholdDb);
S.AddUnits(_("dB"));
}
S.EndMultiColumn();
}
S.EndVerticalLay();
return;
}
void EffectPhaser::PopulateOrExchange(ShuttleGui & S)
{
S.SetBorder(5);
S.AddSpace(0, 5);
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol(2);
IntegerValidator<int> vldStages(&mStages);
vldStages.SetRange(MIN_Stages, MAX_Stages);
mStagesT = S.Id(ID_Stages).AddTextBox(_("&Stages:"), wxT(""), 15);
mStagesT->SetValidator(vldStages);
S.SetStyle(wxSL_HORIZONTAL);
mStagesS = S.Id(ID_Stages).AddSlider(wxT(""), DEF_Stages * SCL_Stages, MAX_Stages * SCL_Stages, MIN_Stages * SCL_Stages);
mStagesS->SetName(_("Stages"));
mStagesS->SetLineSize(2);
mStagesS->SetMinSize(wxSize(100, -1));
IntegerValidator<int> vldDryWet(&mDryWet);
vldDryWet.SetRange(MIN_DryWet, MAX_DryWet);
mDryWetT = S.Id(ID_DryWet).AddTextBox(_("&Dry/Wet:"), wxT(""), 15);
mDryWetT->SetValidator(vldDryWet);
S.SetStyle(wxSL_HORIZONTAL);
mDryWetS = S.Id(ID_DryWet).AddSlider(wxT(""), DEF_DryWet * SCL_DryWet, MAX_DryWet * SCL_DryWet, MIN_DryWet * SCL_DryWet);
mDryWetS->SetName(_("Dry Wet"));
mDryWetS->SetMinSize(wxSize(100, -1));
FloatingPointValidator<double> vldFreq(5, &mFreq, NUM_VAL_ONE_TRAILING_ZERO);
vldFreq.SetRange(MIN_Freq, MAX_Freq);
mFreqT = S.Id(ID_Freq).AddTextBox(_("LFO Freq&uency (Hz):"), wxT(""), 15);
mFreqT->SetValidator(vldFreq);
S.SetStyle(wxSL_HORIZONTAL);
mFreqS = S.Id(ID_Freq).AddSlider(wxT(""), DEF_Freq * SCL_Freq, MAX_Freq * SCL_Freq, 0.0);
mFreqS ->SetName(_("LFO frequency in hertz"));
mFreqS ->SetMinSize(wxSize(100, -1));
FloatingPointValidator<double> vldPhase(1, &mPhase);
vldPhase.SetRange(MIN_Phase, MAX_Phase);
mPhaseT = S.Id(ID_Phase).AddTextBox(_("LFO Sta&rt Phase (deg.):"), wxT(""), 15);
mPhaseT->SetValidator(vldPhase);
S.SetStyle(wxSL_HORIZONTAL);
mPhaseS = S.Id(ID_Phase).AddSlider(wxT(""), DEF_Phase * SCL_Phase, MAX_Phase * SCL_Phase, MIN_Phase * SCL_Phase);
mPhaseS->SetName(_("LFO start phase in degrees"));
mPhaseS->SetLineSize(10);
mPhaseS->SetMinSize(wxSize(100, -1));
IntegerValidator<int> vldDepth(&mDepth);
vldDepth.SetRange(MIN_Depth, MAX_Depth);
mDepthT = S.Id(ID_Depth).AddTextBox(_("Dept&h:"), wxT(""), 15);
mDepthT->SetValidator(vldDepth);
S.SetStyle(wxSL_HORIZONTAL);
mDepthS = S.Id(ID_Depth).AddSlider(wxT(""), DEF_Depth * SCL_Depth, MAX_Depth * SCL_Depth, MIN_Depth * SCL_Depth);
mDepthS->SetName(_("Depth in percent"));
mDepthS->SetMinSize(wxSize(100, -1));
IntegerValidator<int> vldFeedback(&mFeedback);
vldFeedback.SetRange(MIN_Feedback, MAX_Feedback);
mFeedbackT = S.Id(ID_Feedback).AddTextBox(_("Feedbac&k (%):"), wxT(""), 15);
mFeedbackT->SetValidator(vldFeedback);
S.SetStyle(wxSL_HORIZONTAL);
mFeedbackS = S.Id(ID_Feedback).AddSlider(wxT(""), DEF_Feedback * SCL_Feedback, MAX_Feedback * SCL_Feedback, MIN_Feedback * SCL_Feedback);
mFeedbackS->SetName(_("Feedback in percent"));
mFeedbackS->SetLineSize(10);
mFeedbackS->SetMinSize(wxSize(100, -1));
FloatingPointValidator<double> vldoutgain(1, &mOutGain);
vldoutgain.SetRange(MIN_OutGain, MAX_OutGain);
mOutGainT = S.Id(ID_OutGain).AddTextBox(_("&Output gain (dB):"), wxT(""), 12);
mOutGainT->SetValidator(vldoutgain);
S.SetStyle(wxSL_HORIZONTAL);
mOutGainS = S.Id(ID_OutGain).AddSlider(wxT(""), DEF_OutGain * SCL_OutGain, MAX_OutGain * SCL_OutGain, MIN_OutGain * SCL_OutGain);
mOutGainS->SetName(_("Output gain (dB)"));
mOutGainS->SetMinSize(wxSize(100, -1));
}
S.EndMultiColumn();
}
void EffectAmplify::PopulateOrExchange(ShuttleGui & S)
{
if (IsBatchProcessing())
{
mPeak = 1.0;
}
else
{
if (mPeak > 0.0)
{
mRatio = 1.0 / mPeak;
mRatioClip = mRatio;
}
else
{
mRatio = 1.0;
}
}
S.AddSpace(0, 5);
S.StartVerticalLay(0);
{
int precission = 3; // allow (a generous) 3 decimal places for Amplification (dB)
// Amplitude
S.StartMultiColumn(2, wxCENTER);
{
FloatingPointValidator<double> vldAmp(precission, &mAmp, NumValidatorStyle::ONE_TRAILING_ZERO);
vldAmp.SetRange(MIN_Amp, MAX_Amp);
mAmpT = S.Id(ID_Amp).AddTextBox(_("Amplification (dB):"), wxT(""), 12);
mAmpT->SetValidator(vldAmp);
}
S.EndMultiColumn();
// Amplitude
S.StartHorizontalLay(wxEXPAND);
{
S.SetStyle(wxSL_HORIZONTAL);
mAmpS = S.Id(ID_Amp).AddSlider( {}, 0, MAX_Amp * SCL_Amp, MIN_Amp * SCL_Amp);
mAmpS->SetName(_("Amplification dB"));
}
S.EndHorizontalLay();
// Peak
S.StartMultiColumn(2, wxCENTER);
{
// One extra decimal place so that rounding is visible to user (see: bug 958)
FloatingPointValidator<double> vldNewPeak(precission + 1, &mNewPeak, NumValidatorStyle::ONE_TRAILING_ZERO);
double minAmp = MIN_Amp + LINEAR_TO_DB(mPeak);
double maxAmp = MAX_Amp + LINEAR_TO_DB(mPeak);
// min and max need same precision as what we're validating (bug 963)
minAmp = Internat::CompatibleToDouble(Internat::ToString(minAmp, precission +1));
maxAmp = Internat::CompatibleToDouble(Internat::ToString(maxAmp, precission +1));
vldNewPeak.SetRange(minAmp, maxAmp);
mNewPeakT = S.Id(ID_Peak).AddTextBox(_("New Peak Amplitude (dB):"), wxT(""), 12);
mNewPeakT->SetValidator(vldNewPeak);
}
S.EndMultiColumn();
// Clipping
S.StartHorizontalLay(wxCENTER);
{
mClip = S.Id(ID_Clip).AddCheckBox(_("Allow clipping"), wxT("false"));
if (IsBatchProcessing())
{
mClip->Enable(false);
mCanClip = true;
}
}
S.EndHorizontalLay();
}
S.EndVerticalLay();
return;
}
void TracksPrefs::PopulateOrExchange(ShuttleGui & S)
{
S.SetBorder(2);
S.StartStatic(_("Display"));
{
S.TieCheckBox(_("&Update display while playing"),
wxT("/GUI/AutoScroll"),
true);
S.TieCheckBox(_("Automatically &fit tracks vertically zoomed"),
wxT("/GUI/TracksFitVerticallyZoomed"),
false);
S.AddSpace(10);
S.StartMultiColumn(2);
{
S.TieChoice(_("Default &view mode:"),
wxT("/GUI/DefaultViewModeNew"),
0,
mViewChoices,
mViewCodes);
S.SetSizeHints(mViewChoices);
S.TieTextBox(_("Default audio track &name:"),
wxT("/GUI/TrackNames/DefaultTrackName"),
_("Audio Track"),
30);
}
S.EndMultiColumn();
S.TieCheckBox(_("Sho&w audio track name as overlay"),
wxT("/GUI/ShowTrackNameInWaveform"),
false);
}
S.EndStatic();
S.StartStatic(_("Behaviors"));
{
S.TieCheckBox(_("&Select all audio in project, if none selected"),
wxT("/GUI/SelectAllOnNone"),
true);
/* i18n-hint: cut-lines are a lines indicating where to cut.*/
S.TieCheckBox(_("Enable cu&t lines"),
wxT("/GUI/EnableCutLines"),
false);
S.TieCheckBox(_("Enable &dragging of left and right selection edges"),
wxT("/GUI/AdjustSelectionEdges"),
true);
S.TieCheckBox(_("\"Move track focus\" c&ycles repeatedly through tracks"),
wxT("/GUI/CircularTrackNavigation"),
false);
S.TieCheckBox(_("Editing a clip can &move other clips"),
wxT("/GUI/EditClipCanMove"),
true);
#ifdef EXPERIMENTAL_SCROLLING_LIMITS
S.TieCheckBox(_("Enable scrolling left of &zero"),
wxT("/GUI/ScrollBeyondZero"),
false);
#endif
S.AddSpace(10);
S.StartMultiColumn(2);
{
S.TieChoice(_("Solo &Button:"),
wxT("/GUI/Solo"),
wxT("Standard"),
mSoloChoices,
mSoloCodes);
S.SetSizeHints(mSoloChoices);
}
S.EndMultiColumn();
}
S.EndStatic();
}
/// Normally in classes derived from PrefsPanel this function
/// is used both to populate the panel and to exchange data with it.
/// With KeyConfigPrefs all the exchanges are handled specially,
/// so this is only used in populating the panel.
void KeyConfigPrefs::PopulateOrExchange(ShuttleGui & S)
{
S.SetBorder(2);
S.StartStatic(_("Key Bindings"), 1);
{
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol(1);
S.StartHorizontalLay(wxALIGN_LEFT|wxALIGN_CENTER_VERTICAL, 0);
{
S.AddTitle(_("View by:"));
S.StartRadioButtonGroup(wxT("/Prefs/KeyConfig/ViewBy"), wxT("tree"));
{
mViewByTree = S.Id(ViewByTreeID).TieRadioButton(_("&Tree"), wxT("tree"));
mViewByTree->SetName(_("View by tree"));
mViewByName = S.Id(ViewByNameID).TieRadioButton(_("&Name"), wxT("name"));
mViewByName->SetName(_("View by name"));
mViewByKey = S.Id(ViewByKeyID).TieRadioButton(_("&Key"), wxT("key"));
mViewByKey->SetName(_("View by key"));
}
S.EndRadioButtonGroup();
}
S.EndHorizontalLay();
S.StartHorizontalLay(wxALIGN_CENTER|wxALIGN_CENTER_VERTICAL, 0);
{
// just a spacer
}
S.EndHorizontalLay();
S.StartHorizontalLay(wxALIGN_RIGHT|wxALIGN_CENTER_VERTICAL, 0);
{
mFilterLabel = S.AddVariableText(_("Searc&h:"));
if (!mFilter) {
mFilter = safenew wxTextCtrl(this,
FilterID,
wxT(""),
wxDefaultPosition,
#if defined(__WXMAC__)
wxSize(300, -1),
#else
wxSize(210, -1),
#endif
wxTE_PROCESS_ENTER);
mFilter->SetName(wxStripMenuCodes(mFilterLabel->GetLabel()));
mFilter->Connect(wxEVT_KEY_DOWN,
wxKeyEventHandler(KeyConfigPrefs::OnFilterKeyDown),
NULL,
this);
mFilter->Connect(wxEVT_CHAR,
wxKeyEventHandler(KeyConfigPrefs::OnFilterChar),
NULL,
this);
}
S.AddWindow(mFilter, wxALIGN_NOT | wxALIGN_LEFT);
}
S.EndHorizontalLay();
}
S.EndThreeColumn();
S.AddSpace(-1, 2);
S.StartHorizontalLay(wxEXPAND, 1);
{
if (!mView) {
mView = safenew KeyView(this, CommandsListID);
mView->SetName(_("Bindings"));
}
S.Prop(true);
S.AddWindow(mView, wxEXPAND);
}
S.EndHorizontalLay();
S.StartThreeColumn();
{
if (!mKey) {
mKey = safenew wxTextCtrl(this,
CurrentComboID,
wxT(""),
wxDefaultPosition,
#if defined(__WXMAC__)
wxSize(300, -1),
#else
wxSize(210, -1),
#endif
wxTE_PROCESS_ENTER);
mKey->SetName(_("Short cut"));
mKey->Connect(wxEVT_KEY_DOWN,
wxKeyEventHandler(KeyConfigPrefs::OnHotkeyKeyDown),
NULL,
this);
mKey->Connect(wxEVT_CHAR,
wxKeyEventHandler(KeyConfigPrefs::OnHotkeyChar),
NULL,
this);
mKey->Connect(wxEVT_KILL_FOCUS,
wxFocusEventHandler(KeyConfigPrefs::OnHotkeyKillFocus),
NULL,
this);
}
S.AddWindow(mKey);
/* i18n-hint: (verb)*/
mSet = S.Id(SetButtonID).AddButton(_("&Set"));
mClear = S.Id(ClearButtonID).AddButton(_("Cl&ear"));
}
S.EndThreeColumn();
#if defined(__WXMAC__)
S.AddFixedText(_("Note: Pressing Cmd+Q will quit. All other keys are valid."));
#endif
S.StartThreeColumn();
{
S.Id(ImportButtonID).AddButton(_("&Import..."));
S.Id(ExportButtonID).AddButton(_("&Export..."));
S.Id(AssignDefaultsButtonID).AddButton(_("&Defaults"));
}
S.EndThreeColumn();
}
S.EndStatic();
// Need to layout so that the KeyView is properly sized before populating.
// Otherwise, the initial selection is not scrolled into view.
Layout();
}
void EffectScienFilter::PopulateOrExchange(ShuttleGui & S)
{
wxWindow *parent = S.GetParent();
S.AddSpace(5);
S.SetSizerProportion(1);
S.StartMultiColumn(3, wxEXPAND);
{
S.SetStretchyCol(1);
S.SetStretchyRow(0);
// -------------------------------------------------------------------
// ROW 1: Freq response panel and sliders for vertical scale
// -------------------------------------------------------------------
S.StartVerticalLay();
{
mdBRuler = new RulerPanel(parent, wxID_ANY);
mdBRuler->ruler.SetBounds(0, 0, 100, 100); // Ruler can't handle small sizes
mdBRuler->ruler.SetOrientation(wxVERTICAL);
mdBRuler->ruler.SetRange(30.0, -120.0);
mdBRuler->ruler.SetFormat(Ruler::LinearDBFormat);
mdBRuler->ruler.SetUnits(_("dB"));
mdBRuler->ruler.SetLabelEdges(true);
int w;
mdBRuler->ruler.GetMaxSize(&w, NULL);
mdBRuler->SetSize(wxSize(w, 150)); // height needed for wxGTK
S.SetBorder(1);
S.AddSpace(1, 1);
S.Prop(1);
S.AddWindow(mdBRuler, wxALIGN_RIGHT | wxTOP);
S.AddSpace(1, 1);
}
S.EndVerticalLay();
mPanel = new EffectScienFilterPanel(this, parent);
mPanel->SetFreqRange(mLoFreq, mNyquist);
S.SetBorder(5);
S.Prop(1);
S.AddWindow(mPanel, wxEXPAND | wxRIGHT);
S.SetSizeHints(-1, -1);
S.StartVerticalLay();
{
S.AddVariableText(_("+ dB"), false, wxCENTER);
S.SetStyle(wxSL_VERTICAL | wxSL_INVERSE);
mdBMaxSlider = S.Id(ID_dBMax).AddSlider(wxT(""), 10, 20, 0);
#if wxUSE_ACCESSIBILITY
mdBMaxSlider->SetName(_("Max dB"));
mdBMaxSlider->SetAccessible(new SliderAx(mdBMaxSlider, wxString(wxT("%d ")) + _("dB")));
#endif
S.SetStyle(wxSL_VERTICAL | wxSL_INVERSE);
mdBMinSlider = S.Id(ID_dBMin).AddSlider(wxT(""), -10, -10, -120);
S.AddVariableText(_("- dB"), false, wxCENTER);
#if wxUSE_ACCESSIBILITY
mdBMinSlider->SetName(_("Min dB"));
mdBMinSlider->SetAccessible(new SliderAx(mdBMinSlider, wxString(wxT("%d ")) + _("dB")));
#endif
}
S.EndVerticalLay();
// -------------------------------------------------------------------
// ROW 2: Frequency ruler
// -------------------------------------------------------------------
S.AddSpace(1, 1);
mfreqRuler = new RulerPanel(parent, wxID_ANY);
mfreqRuler->ruler.SetBounds(0, 0, 100, 100); // Ruler can't handle small sizes
mfreqRuler->ruler.SetOrientation(wxHORIZONTAL);
mfreqRuler->ruler.SetLog(true);
mfreqRuler->ruler.SetRange(mLoFreq, mNyquist);
mfreqRuler->ruler.SetFormat(Ruler::IntFormat);
mfreqRuler->ruler.SetUnits(wxT(""));
mfreqRuler->ruler.SetFlip(true);
mfreqRuler->ruler.SetLabelEdges(true);
int h;
mfreqRuler->ruler.GetMaxSize(NULL, &h);
mfreqRuler->SetMinSize(wxSize(-1, h));
S.Prop(1);
S.AddWindow(mfreqRuler, wxEXPAND | wxALIGN_LEFT | wxRIGHT);
S.AddSpace(1, 1);
// -------------------------------------------------------------------
// ROW 3 and 4: Type, Order, Ripple, Subtype, Cutoff
// -------------------------------------------------------------------
S.AddSpace(1, 1);
S.SetSizerProportion(0);
S.StartMultiColumn(8, wxALIGN_CENTER);
{
wxASSERT(kNumTypes == WXSIZEOF(kTypeStrings));
wxArrayString typeChoices;
for (int i = 0; i < kNumTypes; i++)
{
typeChoices.Add(wxGetTranslation(kTypeStrings[i]));
}
mFilterTypeCtl = S.Id(ID_Type).AddChoice(_("&Filter Type:"), wxT(""), &typeChoices);
mFilterTypeCtl->SetValidator(wxGenericValidator(&mFilterType));
S.SetSizeHints(-1, -1);
wxArrayString orders;
for (int i = 1; i <= 10; i++)
{
orders.Add(wxString::Format(wxT("%d"), i));
}
/*i18n-hint: 'Order' means the complexity of the filter, and is a number between 1 and 10.*/
mFilterOrderCtl = S.Id(ID_Order).AddChoice(_("O&rder:"), wxT(""), &orders);
mFilterOrderCtl->SetValidator(wxGenericValidator(&mOrderIndex));
S.SetSizeHints(-1, -1);
S.AddSpace(1, 1);
FloatingPointValidator<float> vldRipple(1, &mRipple);
vldRipple.SetRange(MIN_Passband, MAX_Passband);
mRippleCtlP = S.AddVariableText(_("&Passband Ripple:"), false, wxALL | wxALIGN_RIGHT | wxALIGN_CENTER_VERTICAL);
mRippleCtl = S.Id(ID_Ripple).AddTextBox(wxT(""), wxT(""), 10);
mRippleCtl->SetName(_("Passband Ripple (dB)"));
mRippleCtl->SetValidator(vldRipple);
mRippleCtlU = S.AddVariableText(_("dB"), false, wxALL | wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL);
wxASSERT(kNumSubTypes == WXSIZEOF(kSubTypeStrings));
wxArrayString subTypeChoices;
for (int i = 0; i < kNumSubTypes; i++)
{
subTypeChoices.Add(wxGetTranslation(kSubTypeStrings[i]));
}
mFilterSubTypeCtl = S.Id(ID_SubType).AddChoice(_("&Subtype:"), wxT(""), &subTypeChoices);
mFilterSubTypeCtl->SetValidator(wxGenericValidator(&mFilterSubtype));
S.SetSizeHints(-1, -1);
FloatingPointValidator<float> vldCutoff(1, &mCutoff);
vldCutoff.SetRange(MIN_Cutoff, mNyquist - 1);
mCutoffCtl = S.Id(ID_Cutoff).AddTextBox(_("C&utoff:"), wxT(""), 10);
mCutoffCtl->SetName(_("Cutoff (Hz)"));
mCutoffCtl->SetValidator(vldCutoff);
S.AddUnits(_("Hz"));
FloatingPointValidator<float> vldStopbandRipple(1, &mStopbandRipple);
vldStopbandRipple.SetRange(MIN_Stopband, MAX_Stopband);
mStopbandRippleCtlP = S.AddVariableText(_("Minimum S&topband Attenuation:"), false, wxALL | wxALIGN_RIGHT | wxALIGN_CENTER_VERTICAL);
mStopbandRippleCtl = S.Id(ID_StopbandRipple).AddTextBox(wxT(""), wxT(""), 10);
mStopbandRippleCtl->SetName(_("Minimum S&topband Attenuation (dB)"));
mStopbandRippleCtl->SetValidator(vldStopbandRipple);
mStopbandRippleCtlU = S.AddVariableText(_("dB"), false, wxALL | wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL);
}
S.EndMultiColumn();
S.AddSpace(1, 1);
}
S.EndMultiColumn();
mFilterTypeCtl->SetFocus();
return;
}
void TimeScaleDialog::PopulateOrExchange(ShuttleGui & S)
{
wxTextValidator nullvld(wxFILTER_INCLUDE_CHAR_LIST);
wxTextValidator numvld(wxFILTER_NUMERIC);
S.SetBorder(5);
S.AddSpace(0, 5);
S.StartMultiColumn(2, 0);
// Rate Start
S.StartStatic(_("Initial Tempo Change (%)"));
{
S.StartMultiColumn(1, wxCENTER);
{
m_pTextCtrl_RatePercentChangeStart = S.Id(ID_TEXT_RATE_PERCENTCHANGE_START)
.AddTextBox(wxT(""), wxT(""), 12);
m_pTextCtrl_RatePercentChangeStart->SetValidator(numvld);
}
S.EndMultiColumn();
S.StartHorizontalLay(wxEXPAND,0);
{
S.SetStyle(wxSL_HORIZONTAL);
m_pSlider_RatePercentChangeStart = S.Id(ID_SLIDER_RATE_PERCENTCHANGE_START)
.AddSlider(wxT(""), (int)RATE_PERCENTCHANGE_DEFAULT, (int)RATE_PERCENTCHANGE_MAX_SLIDER, (int)RATE_PERCENTCHANGE_MIN_SLIDER);
}
S.EndHorizontalLay();
}
S.EndStatic();
S.StartStatic(_("Final Tempo Change (%)"));
{
S.StartMultiColumn(1, wxCENTER);
{
m_pTextCtrl_RatePercentChangeEnd = S.Id(ID_TEXT_RATE_PERCENTCHANGE_END)
.AddTextBox(wxT(""), wxT(""), 12);
m_pTextCtrl_RatePercentChangeEnd->SetValidator(numvld);
}
S.EndMultiColumn();
S.StartHorizontalLay(wxEXPAND,0);
{
S.SetStyle(wxSL_HORIZONTAL);
m_pSlider_RatePercentChangeEnd = S.Id(ID_SLIDER_RATE_PERCENTCHANGE_END)
.AddSlider(wxT(""), (int)RATE_PERCENTCHANGE_DEFAULT, (int)RATE_PERCENTCHANGE_MAX_SLIDER, (int)RATE_PERCENTCHANGE_MIN_SLIDER);
}
S.EndHorizontalLay();
}
S.EndStatic();
// Pitch Start
S.StartStatic(_("Initial Pitch Shift"));
{
S.StartMultiColumn(2, wxCENTER);
{
m_pTextCtrl_PitchHalfStepsStart = S.Id(ID_TEXT_PITCH_HALFSTEPS_START)
.AddTextBox(_("(semitones) [-12 to 12]:"), wxT(""), 12);
m_pTextCtrl_PitchHalfStepsStart->SetValidator(numvld);
m_pTextCtrl_PitchPercentChangeStart = S.Id(ID_TEXT_PITCH_PERCENTCHANGE_START)
.AddTextBox(_("(%) [-50 to 100]:"), wxT(""), 12);
m_pTextCtrl_PitchPercentChangeStart->SetValidator(numvld);
}
S.EndMultiColumn();
}
S.EndStatic();
// Pitch End
S.StartStatic(_("Final Pitch Shift"));
{
S.StartMultiColumn(2, wxCENTER);
{
m_pTextCtrl_PitchHalfStepsEnd = S.Id(ID_TEXT_PITCH_HALFSTEPS_END)
.AddTextBox(_("(semitones) [-12 to 12]:"), wxT(""), 12);
m_pTextCtrl_PitchHalfStepsEnd->SetValidator(numvld);
m_pTextCtrl_PitchPercentChangeEnd = S.Id(ID_TEXT_PITCH_PERCENTCHANGE_END)
.AddTextBox(_("(%) [-50 to 100]:"), wxT(""), 12);
m_pTextCtrl_PitchPercentChangeEnd->SetValidator(numvld);
}
S.EndMultiColumn();
}
S.EndStatic();
S.EndMultiColumn();
return;
}
void EffectTruncSilence::PopulateOrExchange(ShuttleGui & S)
{
wxASSERT(kNumActions == WXSIZEOF(kActionStrings));
wxArrayString actionChoices;
for (int i = 0; i < kNumActions; i++)
{
actionChoices.Add(wxGetTranslation(kActionStrings[i]));
}
S.AddSpace(0, 5);
S.StartStatic(_("Detect Silence"));
{
S.StartMultiColumn(3, wxALIGN_CENTER_HORIZONTAL);
{
// Threshold
mTruncDbChoice = S.AddChoice(_("Level:"), wxT(""), &mDbChoices);
mTruncDbChoice->SetValidator(wxGenericValidator(&mTruncDbChoiceIndex));
S.SetSizeHints(-1, -1);
S.AddSpace(0); // 'choices' already includes units.
// Ignored silence
FloatingPointValidator<double> vldDur(3, &mInitialAllowedSilence, NUM_VAL_NO_TRAILING_ZEROES);
vldDur.SetRange(MIN_Minimum, MAX_Minimum);
mInitialAllowedSilenceT = S.AddTextBox(_("Duration:"), wxT(""), 12);
mInitialAllowedSilenceT->SetValidator(vldDur);
S.AddUnits(wxT("seconds"));
}
S.EndMultiColumn();
}
S.EndStatic();
S.StartStatic(_("Action"));
{
S.StartHorizontalLay();
{
// Action choices
mActionChoice = S.AddChoice(wxT(""), wxT(""), &actionChoices);
mActionChoice->SetValidator(wxGenericValidator(&mActionIndex));
S.SetSizeHints(-1, -1);
}
S.EndHorizontalLay();
S.StartMultiColumn(3, wxALIGN_CENTER_HORIZONTAL);
{
// Truncation / Compression factor
FloatingPointValidator<double> vldTrunc(3, &mTruncLongestAllowedSilence, NUM_VAL_NO_TRAILING_ZEROES);
vldTrunc.SetRange(MIN_Truncate, MAX_Truncate);
mTruncLongestAllowedSilenceT = S.AddTextBox(_("Truncate to:"), wxT(""), 12);
mTruncLongestAllowedSilenceT->SetValidator(vldTrunc);
S.AddUnits(wxT("seconds"));
FloatingPointValidator<double> vldComp(3, &mSilenceCompressPercent, NUM_VAL_NO_TRAILING_ZEROES);
vldComp.SetRange(MIN_Compress, MAX_Compress);
mSilenceCompressPercentT = S.AddTextBox(_("Compress to:"), wxT(""), 12);
mSilenceCompressPercentT->SetValidator(vldComp);
S.AddUnits(wxT("percent"));
}
S.EndMultiColumn();
S.StartMultiColumn(2, wxALIGN_CENTER_HORIZONTAL);
{
mIndependent = S.AddCheckBox(_("Truncate tracks independently"),
mbIndependent ? wxT("true") : wxT("false"));
}
S.EndMultiColumn();
}
S.EndStatic();
UpdateUI();
}
void NyqBench::PopulateOrExchange(ShuttleGui & S)
{
S.StartHorizontalLay(wxEXPAND, true);
{
wxPanel *scriptp;
wxPanel *outputp;
wxStaticBoxSizer *scripts;
wxStaticBoxSizer *outputs;
wxBoxSizer *bs;
mSplitter = new wxSplitterWindow(this,
wxID_ANY,
wxDefaultPosition,
wxDefaultSize,
wxSP_LIVE_UPDATE |
wxSP_3DSASH |
wxSP_NOBORDER);
scriptp = new wxPanel(mSplitter,
wxID_ANY,
wxDefaultPosition,
wxDefaultSize,
wxNO_FULL_REPAINT_ON_RESIZE |
wxCLIP_CHILDREN);
bs = new wxBoxSizer(wxVERTICAL);
scriptp->SetSizer(bs);
mScriptBox = new wxStaticBox(scriptp,
wxID_ANY,
_("Script"));
scripts = new wxStaticBoxSizer(mScriptBox,
wxVERTICAL);
bs->Add(scripts, true, wxEXPAND);
mScript = new NyqTextCtrl(scriptp,
ID_SCRIPT,
wxEmptyString,
wxDefaultPosition,
wxDefaultSize,
wxTE_RICH2 | wxTE_RICH |
(mAutoWrap ? wxTE_BESTWRAP : wxTE_DONTWRAP) |
wxTE_NOHIDESEL |
wxTE_MULTILINE);
scripts->Add(mScript, true, wxEXPAND);
outputp = new wxPanel(mSplitter,
wxID_ANY,
wxDefaultPosition,
wxDefaultSize,
wxNO_FULL_REPAINT_ON_RESIZE |
wxCLIP_CHILDREN);
bs = new wxBoxSizer(wxVERTICAL);
outputp->SetSizer(bs);
mOutputBox = new wxStaticBox(outputp,
wxID_ANY,
_("Output"));
outputs = new wxStaticBoxSizer(mOutputBox,
wxVERTICAL);
bs->Add(outputs, true, wxEXPAND);
mOutput = new NyqTextCtrl(outputp,
ID_OUTPUT,
wxEmptyString,
wxDefaultPosition,
wxDefaultSize,
wxTE_READONLY |
#if !defined(__WXMAC__)
// I could not get the bloody horizontal scroll bar to appear on
// wxMac, so we can't use wxTE_DONTWRAP as you can't easily scroll
// left and right.
wxTE_DONTWRAP |
#endif
wxTE_NOHIDESEL |
wxTE_MULTILINE);
outputs->Add(mOutput, true, wxEXPAND);
switch (mSplitMode)
{
case wxSPLIT_VERTICAL:
mSplitter->SplitVertically(scriptp, outputp, 300);
break;
case wxSPLIT_HORIZONTAL:
mSplitter->SplitHorizontally(scriptp, outputp, 300);
break;
default:
mSplitter->Initialize((mShowCode ? scriptp : outputp));
break;
}
mSplitter->SetMinimumPaneSize(50);
S.AddSpace(5, 1);
S.Prop(true);
S.AddWindow(mSplitter, wxEXPAND);
S.AddSpace(5, 1);
mSplitter->SetMinSize(wxSize(600, 400));
}
S.EndHorizontalLay();
S.AddSpace(1, 5);
return;
}