void EffectChangePitch::PopulateOrExchange(ShuttleGui & S)
{
DeduceFrequencies(); // Set frequency-related control values based on sample.
wxArrayString pitch;
pitch.Add(wxT("C"));
pitch.Add(wxT("C#/Db"));
pitch.Add(wxT("D"));
pitch.Add(wxT("D#/Eb"));
pitch.Add(wxT("E"));
pitch.Add(wxT("F"));
pitch.Add(wxT("F#/Gb"));
pitch.Add(wxT("G"));
pitch.Add(wxT("G#/Ab"));
pitch.Add(wxT("A"));
pitch.Add(wxT("A#/Bb"));
pitch.Add(wxT("B"));
S.SetBorder(5);
S.StartVerticalLay(0);
{
S.StartVerticalLay();
{
S.AddTitle(_("Change Pitch without Changing Tempo"));
S.AddTitle(
wxString::Format(_("Estimated Start Pitch: %s%d (%.3f Hz)"),
pitch[m_nFromPitch].c_str(), m_nFromOctave, m_FromFrequency));
}
S.EndVerticalLay();
/* i18n-hint: (noun) Musical pitch.*/
S.StartStatic(_("Pitch"));
{
S.StartMultiColumn(6, wxALIGN_CENTER); // 6 controls, because each AddChoice adds a wxStaticText and a wxChoice.
{
m_pChoice_FromPitch = S.Id(ID_FromPitch).AddChoice(_("from"), wxT(""), &pitch);
m_pChoice_FromPitch->SetName(_("from"));
m_pChoice_FromPitch->SetSizeHints(80, -1);
m_pSpin_FromOctave = S.Id(ID_FromOctave).AddSpinCtrl(wxT(""), m_nFromOctave, INT_MAX, INT_MIN);
m_pSpin_FromOctave->SetName(_("from Octave"));
m_pSpin_FromOctave->SetSizeHints(50, -1);
m_pChoice_ToPitch = S.Id(ID_ToPitch).AddChoice(_("to"), wxT(""), &pitch);
m_pChoice_ToPitch->SetName(_("to"));
m_pChoice_ToPitch->SetSizeHints(80, -1);
m_pSpin_ToOctave =
S.Id(ID_ToOctave).AddSpinCtrl(wxT(""), m_nToOctave, INT_MAX, INT_MIN);
m_pSpin_ToOctave->SetName(_("to Octave"));
m_pSpin_ToOctave->SetSizeHints(50, -1);
}
S.EndMultiColumn();
S.StartHorizontalLay(wxALIGN_CENTER);
{
FloatingPointValidator<double> vldSemitones(2, &m_dSemitonesChange, NUM_VAL_TWO_TRAILING_ZEROES);
m_pTextCtrl_SemitonesChange =
S.Id(ID_SemitonesChange).AddTextBox(_("Semitones (half-steps):"), wxT(""), 12);
m_pTextCtrl_SemitonesChange->SetName(_("Semitones (half-steps)"));
m_pTextCtrl_SemitonesChange->SetValidator(vldSemitones);
}
S.EndHorizontalLay();
}
S.EndStatic();
S.StartStatic(_("Frequency"));
{
S.StartMultiColumn(5, wxALIGN_CENTER); // 5, because AddTextBox adds a wxStaticText and a wxTextCtrl.
{
FloatingPointValidator<double> vldFromFrequency(3, &m_FromFrequency, NUM_VAL_THREE_TRAILING_ZEROES);
vldFromFrequency.SetMin(0.0);
m_pTextCtrl_FromFrequency = S.Id(ID_FromFrequency).AddTextBox(_("from"), wxT(""), 12);
m_pTextCtrl_FromFrequency->SetName(_("from (Hz)"));
m_pTextCtrl_FromFrequency->SetValidator(vldFromFrequency);
FloatingPointValidator<double> vldToFrequency(3, &m_ToFrequency, NUM_VAL_THREE_TRAILING_ZEROES);
vldToFrequency.SetMin(0.0);
m_pTextCtrl_ToFrequency = S.Id(ID_ToFrequency).AddTextBox(_("to"), wxT(""), 12);
m_pTextCtrl_ToFrequency->SetName(_("to (Hz)"));
m_pTextCtrl_ToFrequency->SetValidator(vldToFrequency);
S.AddUnits(_("Hz"));
}
S.EndMultiColumn();
S.StartHorizontalLay(wxALIGN_CENTER);
{
FloatingPointValidator<double> vldPercentage(3, &m_dPercentChange, NUM_VAL_THREE_TRAILING_ZEROES);
vldPercentage.SetRange(MIN_Percentage, MAX_Percentage);
m_pTextCtrl_PercentChange = S.Id(ID_PercentChange).AddTextBox(_("Percent Change:"), wxT(""), 12);
m_pTextCtrl_PercentChange->SetValidator(vldPercentage);
}
S.EndHorizontalLay();
S.StartHorizontalLay(wxEXPAND);
{
S.SetStyle(wxSL_HORIZONTAL);
m_pSlider_PercentChange = S.Id(ID_PercentChange)
.AddSlider(wxT(""), 0, (int)kSliderMax, (int)MIN_Percentage);
m_pSlider_PercentChange->SetName(_("Percent Change"));
}
S.EndHorizontalLay();
}
S.EndStatic();
}
S.EndVerticalLay();
return;
}
void EffectChangePitch::PopulateOrExchange(ShuttleGui & S)
{
DeduceFrequencies(); // Set frequency-related control values based on sample.
wxArrayString pitch;
for (int ii = 0; ii < 12; ++ii)
pitch.Add( PitchName( ii, PitchNameChoice::Both ) );
S.SetBorder(5);
S.StartVerticalLay(0);
{
S.StartVerticalLay();
{
S.AddTitle(_("Change Pitch without Changing Tempo"));
S.AddTitle(
wxString::Format(_("Estimated Start Pitch: %s%d (%.3f Hz)"),
pitch[m_nFromPitch], m_nFromOctave, m_FromFrequency));
}
S.EndVerticalLay();
/* i18n-hint: (noun) Musical pitch.*/
S.StartStatic(_("Pitch"));
{
S.StartMultiColumn(6, wxALIGN_CENTER); // 6 controls, because each AddChoice adds a wxStaticText and a wxChoice.
{
m_pChoice_FromPitch = S.Id(ID_FromPitch).AddChoice(_("from"), wxT(""), &pitch);
m_pChoice_FromPitch->SetName(_("from"));
m_pChoice_FromPitch->SetSizeHints(80, -1);
m_pSpin_FromOctave = S.Id(ID_FromOctave).AddSpinCtrl( {}, m_nFromOctave, INT_MAX, INT_MIN);
m_pSpin_FromOctave->SetName(_("from Octave"));
m_pSpin_FromOctave->SetSizeHints(50, -1);
m_pChoice_ToPitch = S.Id(ID_ToPitch).AddChoice(_("to"), wxT(""), &pitch);
m_pChoice_ToPitch->SetName(_("to"));
m_pChoice_ToPitch->SetSizeHints(80, -1);
m_pSpin_ToOctave =
S.Id(ID_ToOctave).AddSpinCtrl( {}, m_nToOctave, INT_MAX, INT_MIN);
m_pSpin_ToOctave->SetName(_("to Octave"));
m_pSpin_ToOctave->SetSizeHints(50, -1);
}
S.EndMultiColumn();
S.StartHorizontalLay(wxALIGN_CENTER);
{
FloatingPointValidator<double> vldSemitones(2, &m_dSemitonesChange, NumValidatorStyle::TWO_TRAILING_ZEROES);
m_pTextCtrl_SemitonesChange =
S.Id(ID_SemitonesChange).AddTextBox(_("Semitones (half-steps):"), wxT(""), 12);
m_pTextCtrl_SemitonesChange->SetName(_("Semitones (half-steps)"));
m_pTextCtrl_SemitonesChange->SetValidator(vldSemitones);
}
S.EndHorizontalLay();
}
S.EndStatic();
S.StartStatic(_("Frequency"));
{
S.StartMultiColumn(5, wxALIGN_CENTER); // 5, because AddTextBox adds a wxStaticText and a wxTextCtrl.
{
FloatingPointValidator<double> vldFromFrequency(3, &m_FromFrequency, NumValidatorStyle::THREE_TRAILING_ZEROES);
vldFromFrequency.SetMin(0.0);
m_pTextCtrl_FromFrequency = S.Id(ID_FromFrequency).AddTextBox(_("from"), wxT(""), 12);
m_pTextCtrl_FromFrequency->SetName(_("from (Hz)"));
m_pTextCtrl_FromFrequency->SetValidator(vldFromFrequency);
FloatingPointValidator<double> vldToFrequency(3, &m_ToFrequency, NumValidatorStyle::THREE_TRAILING_ZEROES);
vldToFrequency.SetMin(0.0);
m_pTextCtrl_ToFrequency = S.Id(ID_ToFrequency).AddTextBox(_("to"), wxT(""), 12);
m_pTextCtrl_ToFrequency->SetName(_("to (Hz)"));
m_pTextCtrl_ToFrequency->SetValidator(vldToFrequency);
S.AddUnits(_("Hz"));
}
S.EndMultiColumn();
S.StartHorizontalLay(wxALIGN_CENTER);
{
FloatingPointValidator<double> vldPercentage(3, &m_dPercentChange, NumValidatorStyle::THREE_TRAILING_ZEROES);
vldPercentage.SetRange(MIN_Percentage, MAX_Percentage);
m_pTextCtrl_PercentChange = S.Id(ID_PercentChange).AddTextBox(_("Percent Change:"), wxT(""), 12);
m_pTextCtrl_PercentChange->SetValidator(vldPercentage);
}
S.EndHorizontalLay();
S.StartHorizontalLay(wxEXPAND);
{
S.SetStyle(wxSL_HORIZONTAL);
m_pSlider_PercentChange = S.Id(ID_PercentChange)
.AddSlider( {}, 0, (int)kSliderMax, (int)MIN_Percentage);
m_pSlider_PercentChange->SetName(_("Percent Change"));
}
S.EndHorizontalLay();
}
S.EndStatic();
#if USE_SBSMS
S.StartMultiColumn(2);
{
mUseSBSMSCheckBox = S.AddCheckBox(_("Use high quality stretching (slow)"),
mUseSBSMS? wxT("true") : wxT("false"));
mUseSBSMSCheckBox->SetValidator(wxGenericValidator(&mUseSBSMS));
}
S.EndMultiColumn();
#endif
}
S.EndVerticalLay();
return;
}