402 lines
9.0 KiB
C++
402 lines
9.0 KiB
C++
/**********************************************************************
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Audacity: A Digital Audio Editor
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Amplify.cpp
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Dominic Mazzoni
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Vaughan Johnson (Preview)
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*******************************************************************//**
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\class EffectAmplify
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\brief An Effect that makes a sound louder or softer.
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This rewritten class supports a smart Amplify effect - it calculates
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the maximum amount of gain that can be applied to all tracks without
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causing clipping and selects this as the default parameter.
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*//*******************************************************************/
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#include "../Audacity.h"
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#include "Amplify.h"
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#include <math.h>
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#include <float.h>
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#include <wx/button.h>
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#include <wx/checkbox.h>
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#include <wx/intl.h>
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#include <wx/sizer.h>
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#include <wx/slider.h>
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#include <wx/stattext.h>
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#include <wx/textctrl.h>
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#include <wx/valtext.h>
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#include <wx/log.h>
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#include "../Shuttle.h"
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#include "../ShuttleGui.h"
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#include "../WaveTrack.h"
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#include "../widgets/valnum.h"
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enum
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{
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ID_Amp = 10000,
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ID_Peak,
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ID_Clip
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};
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// Define keys, defaults, minimums, and maximums for the effect parameters
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//
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// Name Type Key Def Min Max Scale
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Param( Ratio, float, wxT("Ratio"), 0.9f, 0.003162f, 316.227766f, 1.0f );
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Param( Amp, float, wxT(""), -0.91515f, -50.0f, 50.0f, 10.0f );
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Param( Clipping, bool, wxT("AllowClipping"), false, false, true, 1 );
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//
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// EffectAmplify
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//
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BEGIN_EVENT_TABLE(EffectAmplify, wxEvtHandler)
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EVT_SLIDER(ID_Amp, EffectAmplify::OnAmpSlider)
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EVT_TEXT(ID_Amp, EffectAmplify::OnAmpText)
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EVT_TEXT(ID_Peak, EffectAmplify::OnPeakText)
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EVT_CHECKBOX(ID_Clip, EffectAmplify::OnClipCheckBox)
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END_EVENT_TABLE()
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EffectAmplify::EffectAmplify()
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{
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mAmp = DEF_Amp;
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mRatio = DB_TO_LINEAR(mAmp);
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mRatioClip = 0.0;
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mCanClip = false;
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mPeak = 0.0;
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SetLinearEffectFlag(true);
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}
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EffectAmplify::~EffectAmplify()
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{
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}
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// ComponentInterface implementation
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ComponentInterfaceSymbol EffectAmplify::GetSymbol()
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{
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return AMPLIFY_PLUGIN_SYMBOL;
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}
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TranslatableString EffectAmplify::GetDescription()
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{
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// Note: This is useful only after ratio has been set.
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return XO("Increases or decreases the volume of the audio you have selected");
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}
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wxString EffectAmplify::ManualPage()
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{
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return wxT("Amplify");
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}
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// EffectDefinitionInterface implementation
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EffectType EffectAmplify::GetType()
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{
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return EffectTypeProcess;
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}
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// EffectClientInterface implementation
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unsigned EffectAmplify::GetAudioInCount()
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{
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return 1;
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}
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unsigned EffectAmplify::GetAudioOutCount()
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{
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return 1;
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}
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size_t EffectAmplify::ProcessBlock(float **inBlock, float **outBlock, size_t blockLen)
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{
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for (decltype(blockLen) i = 0; i < blockLen; i++)
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{
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outBlock[0][i] = inBlock[0][i] * mRatio;
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}
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return blockLen;
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}
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bool EffectAmplify::DefineParams( ShuttleParams & S ){
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S.SHUTTLE_PARAM( mRatio, Ratio );
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if (!IsBatchProcessing())
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S.SHUTTLE_PARAM( mCanClip, Clipping );
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return true;
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}
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bool EffectAmplify::GetAutomationParameters(CommandParameters & parms)
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{
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parms.WriteFloat(KEY_Ratio, mRatio);
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if (!IsBatchProcessing())
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parms.WriteFloat(KEY_Clipping, mCanClip);
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return true;
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}
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bool EffectAmplify::SetAutomationParameters(CommandParameters & parms)
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{
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ReadAndVerifyFloat(Ratio);
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mRatio = Ratio;
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if (!IsBatchProcessing()){
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ReadAndVerifyBool(Clipping);
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mCanClip = Clipping;
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} else {
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mCanClip = true;
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}
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return true;
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}
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bool EffectAmplify::LoadFactoryDefaults()
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{
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Init();
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mRatioClip = 0.0;
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if (mPeak > 0.0)
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{
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mRatio = 1.0 / mPeak;
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mRatioClip = mRatio;
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}
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else
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{
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mRatio = 1.0;
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}
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mCanClip = false;
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return TransferDataToWindow();
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}
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// Effect implementation
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bool EffectAmplify::Init()
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{
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mPeak = 0.0;
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for (auto t : inputTracks()->Selected< const WaveTrack >())
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{
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auto pair = t->GetMinMax(mT0, mT1); // may throw
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const float min = pair.first, max = pair.second;
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float newpeak = (fabs(min) > fabs(max) ? fabs(min) : fabs(max));
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if (newpeak > mPeak)
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{
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mPeak = newpeak;
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}
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}
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return true;
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}
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void EffectAmplify::Preview(bool dryOnly)
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{
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auto cleanup1 = valueRestorer( mRatio );
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auto cleanup2 = valueRestorer( mPeak );
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Effect::Preview(dryOnly);
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}
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void EffectAmplify::PopulateOrExchange(ShuttleGui & S)
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{
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enum{ precision = 3 }; // allow (a generous) 3 decimal places for Amplification (dB)
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if (IsBatchProcessing())
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{
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mPeak = 1.0;
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}
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else
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{
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if (mPeak > 0.0)
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{
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mRatio = 1.0 / mPeak;
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mRatioClip = mRatio;
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}
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else
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{
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mRatio = 1.0;
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}
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}
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S.AddSpace(0, 5);
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S.StartVerticalLay(0);
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{
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// Amplitude
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S.StartMultiColumn(2, wxCENTER);
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{
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mAmpT = S.Id(ID_Amp)
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.Validator<FloatingPointValidator<double>>(
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precision, &mAmp, NumValidatorStyle::ONE_TRAILING_ZERO, MIN_Amp, MAX_Amp
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)
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.AddTextBox(_("Amplification (dB):"), wxT(""), 12);
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}
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S.EndMultiColumn();
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// Amplitude
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S.StartHorizontalLay(wxEXPAND);
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{
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mAmpS = S.Id(ID_Amp)
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.Style(wxSL_HORIZONTAL)
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.Name(XO("Amplification dB"))
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.AddSlider( {}, 0, MAX_Amp * SCL_Amp, MIN_Amp * SCL_Amp);
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}
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S.EndHorizontalLay();
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// Peak
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S.StartMultiColumn(2, wxCENTER);
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{
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mNewPeakT = S.Id(ID_Peak)
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.Validator<FloatingPointValidator<double>>(
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// One extra decimal place so that rounding is visible to user
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// (see: bug 958)
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precision + 1,
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&mNewPeak, NumValidatorStyle::ONE_TRAILING_ZERO,
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// min and max need same precision as what we're validating (bug 963)
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RoundValue( precision + 1, MIN_Amp + LINEAR_TO_DB(mPeak) ),
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RoundValue( precision + 1, MAX_Amp + LINEAR_TO_DB(mPeak) )
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)
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.AddTextBox(_("New Peak Amplitude (dB):"), wxT(""), 12);
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}
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S.EndMultiColumn();
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// Clipping
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S.StartHorizontalLay(wxCENTER);
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{
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mClip = S.Id(ID_Clip).Disable( mCanClip = IsBatchProcessing() )
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.AddCheckBox(_("Allow clipping"), false);
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}
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S.EndHorizontalLay();
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}
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S.EndVerticalLay();
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return;
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}
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bool EffectAmplify::TransferDataToWindow()
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{
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// limit range of gain
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double dBInit = LINEAR_TO_DB(mRatio);
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double dB = TrapDouble(dBInit, MIN_Amp, MAX_Amp);
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if (dB != dBInit)
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mRatio = DB_TO_LINEAR(dB);
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mAmp = LINEAR_TO_DB(mRatio);
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mAmpT->GetValidator()->TransferToWindow();
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mAmpS->SetValue((int) (mAmp * SCL_Amp + 0.5f));
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mNewPeak = LINEAR_TO_DB(mRatio * mPeak);
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mNewPeakT->GetValidator()->TransferToWindow();
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mClip->SetValue(mCanClip);
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CheckClip();
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return true;
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}
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bool EffectAmplify::TransferDataFromWindow()
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{
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if (!mUIParent->Validate() || !mUIParent->TransferDataFromWindow())
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{
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return false;
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}
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mRatio = DB_TO_LINEAR(TrapDouble(mAmp * SCL_Amp, MIN_Amp * SCL_Amp, MAX_Amp * SCL_Amp) / SCL_Amp);
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mCanClip = mClip->GetValue();
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if (!mCanClip && mRatio * mPeak > 1.0)
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{
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mRatio = 1.0 / mPeak;
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}
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return true;
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}
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// EffectAmplify implementation
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void EffectAmplify::CheckClip()
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{
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EnableApply(mClip->GetValue() || (mPeak > 0.0 && mRatio <= mRatioClip));
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}
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void EffectAmplify::OnAmpText(wxCommandEvent & WXUNUSED(evt))
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{
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if (!mAmpT->GetValidator()->TransferFromWindow())
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{
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EnableApply(false);
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return;
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}
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mRatio = DB_TO_LINEAR(TrapDouble(mAmp * SCL_Amp, MIN_Amp * SCL_Amp, MAX_Amp * SCL_Amp) / SCL_Amp);
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mAmpS->SetValue((int) (LINEAR_TO_DB(mRatio) * SCL_Amp + 0.5));
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mNewPeak = LINEAR_TO_DB(mRatio * mPeak);
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mNewPeakT->GetValidator()->TransferToWindow();
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CheckClip();
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}
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void EffectAmplify::OnPeakText(wxCommandEvent & WXUNUSED(evt))
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{
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if (!mNewPeakT->GetValidator()->TransferFromWindow())
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{
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EnableApply(false);
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return;
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}
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if (mNewPeak == 0.0)
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mRatio = mRatioClip;
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else
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mRatio = DB_TO_LINEAR(mNewPeak) / mPeak;
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double ampInit = LINEAR_TO_DB(mRatio);
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mAmp = TrapDouble(ampInit, MIN_Amp, MAX_Amp);
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if (mAmp != ampInit)
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mRatio = DB_TO_LINEAR(mAmp);
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mAmpT->GetValidator()->TransferToWindow();
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mAmpS->SetValue((int) (mAmp * SCL_Amp + 0.5f));
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CheckClip();
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}
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void EffectAmplify::OnAmpSlider(wxCommandEvent & evt)
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{
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double dB = evt.GetInt() / SCL_Amp;
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mRatio = DB_TO_LINEAR(TrapDouble(dB, MIN_Amp, MAX_Amp));
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double dB2 = (evt.GetInt() - 1) / SCL_Amp;
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double ratio2 = DB_TO_LINEAR(TrapDouble(dB2, MIN_Amp, MAX_Amp));
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if (!mClip->GetValue() && mRatio * mPeak > 1.0 && ratio2 * mPeak < 1.0)
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{
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mRatio = 1.0 / mPeak;
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}
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mAmp = LINEAR_TO_DB(mRatio);
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mAmpT->GetValidator()->TransferToWindow();
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mNewPeak = LINEAR_TO_DB(mRatio * mPeak);
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mNewPeakT->GetValidator()->TransferToWindow();
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CheckClip();
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}
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void EffectAmplify::OnClipCheckBox(wxCommandEvent & WXUNUSED(evt))
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{
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CheckClip();
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}
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