Exemple #1
0
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();
}
Exemple #2
0
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();
}
Exemple #3
0
void EffectCompressor::PopulateOrExchange(ShuttleGui & S)
{
   S.SetBorder(5);

   S.StartHorizontalLay(wxEXPAND, true);
   {
      S.SetBorder(10);
      mPanel = safenew EffectCompressorPanel(S.GetParent(),
                                         mThresholdDB,
                                         mNoiseFloorDB,
                                         mRatio);
      mPanel->SetMinSize(wxSize(400, 200));
      S.Prop(true).AddWindow(mPanel, wxEXPAND | wxALL);
      S.SetBorder(5);
   }
   S.EndHorizontalLay();

   S.StartStatic(wxT(""));
   {
      S.StartMultiColumn(3, wxEXPAND);
      {
         S.SetStretchyCol(1);
         mThresholdLabel = S.AddVariableText(_("Threshold:"), true,
                                             wxALIGN_RIGHT | wxALIGN_CENTER_VERTICAL);
         S.SetStyle(wxSL_HORIZONTAL);
         mThresholdSlider = S.Id(ID_Threshold).AddSlider(wxT(""),
                                                         DEF_Threshold * SCL_Threshold,
                                                         MAX_Threshold * SCL_Threshold,
                                                         MIN_Threshold * SCL_Threshold);
         mThresholdSlider->SetName(_("Threshold"));
         mThresholdText = S.AddVariableText(wxT("XXX dB"), true,
                                            wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL);

         mNoiseFloorLabel = S.AddVariableText(_("Noise Floor:"), true,
                                             wxALIGN_RIGHT | wxALIGN_CENTER_VERTICAL);
         S.SetStyle(wxSL_HORIZONTAL);
         mNoiseFloorSlider = S.Id(ID_NoiseFloor).AddSlider(wxT(""),
                                                           DEF_NoiseFloor / SCL_NoiseFloor,
                                                           MAX_NoiseFloor / SCL_NoiseFloor,
                                                           MIN_NoiseFloor / SCL_NoiseFloor);
         mNoiseFloorSlider->SetName(_("Noise Floor"));
         mNoiseFloorText = S.AddVariableText(wxT("XXX dB"), true,
                                            wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL);

         mRatioLabel = S.AddVariableText(_("Ratio:"), true,
                                         wxALIGN_RIGHT | wxALIGN_CENTER_VERTICAL);
         S.SetStyle(wxSL_HORIZONTAL);
         mRatioSlider = S.Id(ID_Ratio).AddSlider(wxT(""),
                                                 DEF_Ratio * SCL_Ratio,
                                                 MAX_Ratio * SCL_Ratio,
                                                 MIN_Ratio * SCL_Ratio);
         mRatioSlider->SetName(_("Ratio"));
         mRatioSlider->SetPageSize(5);
         mRatioText = S.AddVariableText(wxT("XXXX:1"), true,
                                             wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL);

         /* i18n-hint: Particularly in percussion, sounds can be regarded as having
          * an 'attack' phase where the sound builds up and a 'decay' where the
          * sound dies away.  So this means 'onset duration'.  */
         mAttackLabel = S.AddVariableText(_("Attack Time:"), true,
                                         wxALIGN_RIGHT | wxALIGN_CENTER_VERTICAL);
         S.SetStyle(wxSL_HORIZONTAL);
         mAttackSlider = S.Id(ID_Attack).AddSlider(wxT(""),
                                                   DEF_AttackTime * SCL_AttackTime,
                                                   MAX_AttackTime * SCL_AttackTime,
                                                   MIN_AttackTime * SCL_AttackTime);
         mAttackSlider->SetName(_("Attack Time"));
         mAttackText = S.AddVariableText(wxT("XXXX secs"), true,
                                         wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL);

         mDecayLabel = S.AddVariableText(_("Release Time:"), true,
                                         wxALIGN_RIGHT | wxALIGN_CENTER_VERTICAL);
         S.SetStyle(wxSL_HORIZONTAL);
         mDecaySlider = S.Id(ID_Decay).AddSlider(wxT(""),
                                                 DEF_ReleaseTime * SCL_ReleaseTime,
                                                 MAX_ReleaseTime * SCL_ReleaseTime,
                                                 MIN_ReleaseTime * SCL_ReleaseTime);
         mDecaySlider->SetName(_("Release Time"));
         mDecayText = S.AddVariableText(wxT("XXXX secs"), true,
                                        wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL);
      }
      S.EndMultiColumn();
   }
   S.EndStatic();

   S.StartHorizontalLay(wxCENTER, false);
   {
      /* i18n-hint: Make-up, i.e. correct for any reduction, rather than fabricate it.*/
      mGainCheckBox = S.AddCheckBox(_("Make-up gain for 0 dB after compressing"),
                                    DEF_Normalize ? wxT("true") : wxT("false"));
      mPeakCheckBox = S.AddCheckBox(_("Compress based on Peaks"),
                                    DEF_UsePeak ? wxT("true") : wxT("false"));
   }
   S.EndHorizontalLay();
}
Exemple #4
0
void VampEffect::PopulateOrExchange(ShuttleGui & S)
{
   Vamp::Plugin::ProgramList programs = mPlugin->getPrograms();

   mParameters = mPlugin->getParameterDescriptors();

   auto count = mParameters.size();

   mToggles.reinit( count );
   mSliders.reinit( count );
   mFields.reinit( count );
   mLabels.reinit( count );
   mChoices.reinit( count );
   mValues.reinit( count );

   S.SetStyle(wxVSCROLL | wxTAB_TRAVERSAL);
   wxScrolledWindow *scroller = S.StartScroller(2);
   {
      S.StartStatic(_("Plugin Settings"));
      {
         S.StartMultiColumn(5, wxEXPAND);
         {
            S.SetStretchyCol(3);

            if (!programs.empty())
            {
               wxString currentProgram =  wxString::FromUTF8(mPlugin->getCurrentProgram().c_str());

               wxArrayStringEx choices;
               for (size_t i = 0, cnt = programs.size(); i < cnt; i++)
               {
                  choices.push_back(wxString::FromUTF8(programs[i].c_str()));
               }

               S.AddPrompt(_("Program"));

               S.Id(ID_Program);
               mProgram = S.AddChoice(
                  {},
                  choices,
                  choices.Index( currentProgram )
               );
               mProgram->SetName(_("Program"));
               mProgram->SetSizeHints(-1, -1);
               wxSizer *s = mProgram->GetContainingSizer();
               s->GetItem(mProgram)->SetFlag(wxEXPAND | wxALIGN_CENTER_VERTICAL | wxALL);

               S.AddSpace(1, 1);
               S.AddSpace(1, 1);
               S.AddSpace(1, 1);
            }

            for (size_t p = 0; p < count; p++)
            {
               wxString tip = wxString::FromUTF8(mParameters[p].description.c_str());
               wxString unit = wxString::FromUTF8(mParameters[p].unit.c_str());

               float value = mPlugin->getParameter(mParameters[p].identifier);

               mToggles[p] = NULL;
               mChoices[p] = NULL;
               mSliders[p] = NULL;
               mFields[p] = NULL;
               mValues[p] = 0.0;

               wxString labelText = wxString::FromUTF8(mParameters[p].name.c_str());
               if (!unit.empty())
               {
                  labelText += wxT(" (") + unit + wxT(")");
               }
               S.AddPrompt(labelText + wxT(":"));

               if (mParameters[p].isQuantized &&
                   mParameters[p].quantizeStep == 1.0 &&
                   mParameters[p].minValue == 0.0 &&
                   mParameters[p].maxValue == 1.0)
               {
                  S.Id(ID_Toggles + p);
                  mToggles[p] = S.AddCheckBox( {},
                                              value > 0.5);
                  mToggles[p]->SetName(labelText);
                  if (!tip.empty())
                  {
                     mToggles[p]->SetToolTip(tip);
                  }
                  wxSizer *s = mToggles[p]->GetContainingSizer();
                  s->GetItem(mToggles[p])->SetFlag(wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL | wxALL);

                  S.AddSpace(1, 1);
                  S.AddSpace(1, 1);
                  S.AddSpace(1, 1);

               }
               else if (mParameters[p].isQuantized &&
                        mParameters[p].quantizeStep == 1.0 &&
                        !mParameters[p].valueNames.empty())
               {
                  wxArrayStringEx choices;
                  int selected = -1;

                  for (size_t i = 0, cnt = mParameters[p].valueNames.size(); i < cnt; i++)
                  {
                     wxString choice = wxString::FromUTF8(mParameters[p].valueNames[i].c_str());
                     if (size_t(value - mParameters[p].minValue + 0.5) == i)
                     {
                        selected = i;
                     }
                     choices.push_back(choice);
                  }

                  S.Id(ID_Choices + p);
                  mChoices[p] = S.AddChoice( {}, choices, selected );
                  mChoices[p]->SetName(labelText);
                  mChoices[p]->SetSizeHints(-1, -1);
                  if (!tip.empty())
                  {
                     mChoices[p]->SetToolTip(tip);
                  }
                  wxSizer *s = mChoices[p]->GetContainingSizer();
                  s->GetItem(mChoices[p])->SetFlag(wxEXPAND | wxALIGN_CENTER_VERTICAL | wxALL);

                  S.AddSpace(1, 1);
                  S.AddSpace(1, 1);
                  S.AddSpace(1, 1);
               }
               else
               {
                  mValues[p] = value;
                  FloatingPointValidator<float> vld(6, &mValues[p]);
                  vld.SetRange(mParameters[p].minValue, mParameters[p].maxValue);

                  float range = mParameters[p].maxValue - mParameters[p].minValue;
                  auto style = range < 10 ? NumValidatorStyle::THREE_TRAILING_ZEROES :
                              range < 100 ? NumValidatorStyle::TWO_TRAILING_ZEROES :
                              NumValidatorStyle::ONE_TRAILING_ZERO;
                  vld.SetStyle(style);

                  S.Id(ID_Texts + p);
                  mFields[p] = S.AddTextBox( {}, wxT(""), 12);
                  mFields[p]->SetName(labelText);
                  mFields[p]->SetValidator(vld);
                  if (!tip.empty())
                  {
                     mFields[p]->SetToolTip(tip);
                  }
                  wxSizer *s = mFields[p]->GetContainingSizer();
                  s->GetItem(mFields[p])->SetFlag(wxALIGN_CENTER_VERTICAL | wxALL);

                  wxString str = Internat::ToDisplayString(mParameters[p].minValue);
                  S.AddPrompt(str);

                  S.SetStyle(wxSL_HORIZONTAL);
                  S.Id(ID_Sliders + p);
                  mSliders[p] = S.AddSlider( {}, 0, 1000, 0);
                  mSliders[p]->SetName(labelText);
                  mSliders[p]->SetSizeHints(150, -1);
                  if (!tip.empty())
                  {
                     mSliders[p]->SetToolTip(tip);
                  }
                  
                  str = Internat::ToDisplayString(mParameters[p].maxValue);
                  S.AddUnits(str);
               }
            }
         }
         S.EndMultiColumn();
      }
      S.EndStatic();
   }
   S.EndScroller();

   scroller->SetScrollRate(0, 20);

   return;
}
Exemple #5
0
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;
}
Exemple #6
0
void EffectTruncSilence::PopulateOrExchange(ShuttleGui & S)
{
   wxASSERT(nActions == WXSIZEOF(kActionStrings));

   S.AddSpace(0, 5);

   S.StartStatic(_("Detect Silence"));
   {
      S.StartMultiColumn(3, wxALIGN_CENTER_HORIZONTAL);
      {
         // Threshold
         FloatingPointValidator<double> vldThreshold(3, &mThresholdDB,
            NumValidatorStyle::NO_TRAILING_ZEROES);
         vldThreshold.SetRange(MIN_Threshold, MAX_Threshold);
         mThresholdText = S.AddTextBox(_("Threshold:"), wxT(""), 0);
         mThresholdText->SetValidator(vldThreshold);
         S.AddUnits(_("dB"));

         // Ignored silence
         FloatingPointValidator<double> vldDur(3, &mInitialAllowedSilence, NumValidatorStyle::NO_TRAILING_ZEROES);
         vldDur.SetRange(MIN_Minimum, MAX_Minimum);
         mInitialAllowedSilenceT = S.AddTextBox(_("Duration:"), wxT(""), 12);
         mInitialAllowedSilenceT->SetValidator(vldDur);
         S.AddUnits(_("seconds"));
      }
      S.EndMultiColumn();
   }
   S.EndStatic();

   S.StartStatic(_("Action"));
   {
      S.StartHorizontalLay();
      {
         // Action choices
         auto actionChoices = LocalizedStrings(kActionStrings, nActions);
         mActionChoice = S.AddChoice( {}, 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, NumValidatorStyle::NO_TRAILING_ZEROES);
         vldTrunc.SetRange(MIN_Truncate, MAX_Truncate);
         mTruncLongestAllowedSilenceT = S.AddTextBox(_("Truncate to:"), wxT(""), 12);
         mTruncLongestAllowedSilenceT->SetValidator(vldTrunc);
         S.AddUnits(_("seconds"));

         FloatingPointValidator<double> vldComp(3, &mSilenceCompressPercent, NumValidatorStyle::NO_TRAILING_ZEROES);
         vldComp.SetRange(MIN_Compress, MAX_Compress);
         mSilenceCompressPercentT = S.AddTextBox(_("Compress to:"), wxT(""), 12);
         mSilenceCompressPercentT->SetValidator(vldComp);
         S.AddUnits(_("%"));
      }
      S.EndMultiColumn();

      S.StartMultiColumn(2, wxALIGN_CENTER_HORIZONTAL);
      {
         mIndependent = S.AddCheckBox(_("Truncate tracks independently"),
            mbIndependent ? wxT("true") : wxT("false"));
      }
   S.EndMultiColumn();
}
   S.EndStatic();

   UpdateUI();
}