262 lines
7.4 KiB
C++
262 lines
7.4 KiB
C++
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/*
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* WavesReverb.cpp
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* ---------------
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* Purpose: Implementation of the DMO WavesReverb DSP (for non-Windows platforms)
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* Notes : (currently none)
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* Authors: OpenMPT Devs
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* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
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*/
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#include "stdafx.h"
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#ifndef NO_PLUGINS
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#include "../../Sndfile.h"
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#include "WavesReverb.h"
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#endif // !NO_PLUGINS
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OPENMPT_NAMESPACE_BEGIN
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#ifndef NO_PLUGINS
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namespace DMO
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{
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IMixPlugin* WavesReverb::Create(VSTPluginLib &factory, CSoundFile &sndFile, SNDMIXPLUGIN *mixStruct)
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{
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return new (std::nothrow) WavesReverb(factory, sndFile, mixStruct);
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}
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WavesReverb::WavesReverb(VSTPluginLib &factory, CSoundFile &sndFile, SNDMIXPLUGIN *mixStruct)
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: IMixPlugin(factory, sndFile, mixStruct)
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{
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m_param[kRvbInGain] = 1.0f;
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m_param[kRvbReverbMix] = 1.0f;
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m_param[kRvbReverbTime] = 1.0f / 3.0f;
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m_param[kRvbHighFreqRTRatio] = 0.0f;
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m_mixBuffer.Initialize(2, 2);
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InsertIntoFactoryList();
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}
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void WavesReverb::Process(float *pOutL, float *pOutR, uint32 numFrames)
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{
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if(!m_mixBuffer.Ok())
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return;
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const float *in[2] = { m_mixBuffer.GetInputBuffer(0), m_mixBuffer.GetInputBuffer(1) };
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float *out[2] = { m_mixBuffer.GetOutputBuffer(0), m_mixBuffer.GetOutputBuffer(1) };
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uint32 combPos = m_state.combPos, allpassPos = m_state.allpassPos;
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uint32 delay0 = (m_delay[0] + combPos + 1) & 0xFFF;
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uint32 delay1 = (m_delay[1] + combPos + 1) & 0xFFF;
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uint32 delay2 = (m_delay[2] + combPos + 1) & 0xFFF;
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uint32 delay3 = (m_delay[3] + combPos + 1) & 0xFFF;
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uint32 delay4 = (m_delay[4] + allpassPos) & 0x3FF;
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uint32 delay5 = (m_delay[5] + allpassPos) & 0x3FF;
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float delay0old = m_state.comb[delay0][0];
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float delay1old = m_state.comb[delay1][1];
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float delay2old = m_state.comb[delay2][2];
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float delay3old = m_state.comb[delay3][3];
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for(uint32 i = numFrames; i != 0; i--)
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{
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const float leftIn = *(in[0])++ + 1e-30f; // Prevent denormals
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const float rightIn = *(in[1])++ + 1e-30f; // Prevent denormals
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// Advance buffer index for the four comb filters
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delay0 = (delay0 - 1) & 0xFFF;
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delay1 = (delay1 - 1) & 0xFFF;
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delay2 = (delay2 - 1) & 0xFFF;
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delay3 = (delay3 - 1) & 0xFFF;
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float &delay0new = m_state.comb[delay0][0];
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float &delay1new = m_state.comb[delay1][1];
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float &delay2new = m_state.comb[delay2][2];
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float &delay3new = m_state.comb[delay3][3];
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float r1, r2;
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r1 = delay1new * 0.61803401f + m_state.allpass1[delay4][0] * m_coeffs[0];
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r2 = m_state.allpass1[delay4][1] * m_coeffs[0] - delay0new * 0.61803401f;
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m_state.allpass1[allpassPos][0] = r2 * 0.61803401f + delay0new;
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m_state.allpass1[allpassPos][1] = delay1new - r1 * 0.61803401f;
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delay0new = r1;
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delay1new = r2;
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r1 = delay3new * 0.61803401f + m_state.allpass2[delay5][0] * m_coeffs[1];
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r2 = m_state.allpass2[delay5][1] * m_coeffs[1] - delay2new * 0.61803401f;
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m_state.allpass2[allpassPos][0] = r2 * 0.61803401f + delay2new;
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m_state.allpass2[allpassPos][1] = delay3new - r1 * 0.61803401f;
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delay2new = r1;
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delay3new = r2;
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*(out[0])++ = (leftIn * m_dryFactor) + delay0new + delay2new;
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*(out[1])++ = (rightIn * m_dryFactor) + delay1new + delay3new;
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const float leftWet = leftIn * m_wetFactor;
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const float rightWet = rightIn * m_wetFactor;
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m_state.comb[combPos][0] = (delay0new * m_coeffs[2]) + (delay0old * m_coeffs[3]) + leftWet;
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m_state.comb[combPos][1] = (delay1new * m_coeffs[4]) + (delay1old * m_coeffs[5]) + rightWet;
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m_state.comb[combPos][2] = (delay2new * m_coeffs[6]) + (delay2old * m_coeffs[7]) - rightWet;
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m_state.comb[combPos][3] = (delay3new * m_coeffs[8]) + (delay3old * m_coeffs[9]) + leftWet;
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delay0old = delay0new;
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delay1old = delay1new;
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delay2old = delay2new;
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delay3old = delay3new;
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// Advance buffer index
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combPos = (combPos - 1) & 0xFFF;
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allpassPos = (allpassPos - 1) & 0x3FF;
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delay4 = (delay4 - 1) & 0x3FF;
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delay5 = (delay5 - 1) & 0x3FF;
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}
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m_state.combPos = combPos;
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m_state.allpassPos = allpassPos;
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ProcessMixOps(pOutL, pOutR, m_mixBuffer.GetOutputBuffer(0), m_mixBuffer.GetOutputBuffer(1), numFrames);
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}
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PlugParamValue WavesReverb::GetParameter(PlugParamIndex index)
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{
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if(index < kDistNumParameters)
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{
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return m_param[index];
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}
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return 0;
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}
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void WavesReverb::SetParameter(PlugParamIndex index, PlugParamValue value)
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{
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if(index < kDistNumParameters)
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{
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Limit(value, 0.0f, 1.0f);
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m_param[index] = value;
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RecalculateWavesReverbParams();
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}
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}
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void WavesReverb::Resume()
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{
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m_isResumed = true;
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// Recalculate delays
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uint32 delay0 = mpt::saturate_round<uint32>(m_SndFile.GetSampleRate() * 0.045f);
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uint32 delay1 = mpt::saturate_round<uint32>(delay0 * 1.18920707f); // 2^0.25
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uint32 delay2 = mpt::saturate_round<uint32>(delay1 * 1.18920707f);
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uint32 delay3 = mpt::saturate_round<uint32>(delay2 * 1.18920707f);
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uint32 delay4 = mpt::saturate_round<uint32>((delay0 + delay2) * 0.11546667f);
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uint32 delay5 = mpt::saturate_round<uint32>((delay1 + delay3) * 0.11546667f);
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// Comb delays
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m_delay[0] = delay0 - delay4;
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m_delay[1] = delay2 - delay4;
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m_delay[2] = delay1 - delay5;
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m_delay[3] = delay3 - delay5;
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// Allpass delays
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m_delay[4] = delay4;
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m_delay[5] = delay5;
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RecalculateWavesReverbParams();
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PositionChanged();
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}
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void WavesReverb::PositionChanged()
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{
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MemsetZero(m_state);
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}
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#ifdef MODPLUG_TRACKER
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CString WavesReverb::GetParamName(PlugParamIndex param)
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{
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switch(param)
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{
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case kRvbInGain: return _T("InGain");
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case kRvbReverbMix: return _T("ReverbMix");
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case kRvbReverbTime: return _T("ReverbTime");
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case kRvbHighFreqRTRatio: return _T("HighFreqRTRatio");
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}
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return CString();
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}
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CString WavesReverb::GetParamLabel(PlugParamIndex param)
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{
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switch(param)
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{
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case kRvbInGain:
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case kRvbReverbMix:
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return _T("dB");
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case kRvbReverbTime:
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return _T("ms");
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}
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return CString();
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}
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CString WavesReverb::GetParamDisplay(PlugParamIndex param)
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{
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float value = m_param[param];
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switch(param)
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{
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case kRvbInGain:
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case kRvbReverbMix:
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value = GainInDecibel(value);
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break;
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case kRvbReverbTime:
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value = ReverbTime();
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break;
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case kRvbHighFreqRTRatio:
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value = HighFreqRTRatio();
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break;
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}
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CString s;
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s.Format(_T("%.2f"), value);
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return s;
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}
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#endif // MODPLUG_TRACKER
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void WavesReverb::RecalculateWavesReverbParams()
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{
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// Recalculate filters
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const double ReverbTimeSmp = -3000.0 / (m_SndFile.GetSampleRate() * ReverbTime());
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const double ReverbTimeSmpHF = ReverbTimeSmp * (1.0 / HighFreqRTRatio() - 1.0);
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m_coeffs[0] = static_cast<float>(std::pow(10.0, m_delay[4] * ReverbTimeSmp));
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m_coeffs[1] = static_cast<float>(std::pow(10.0, m_delay[5] * ReverbTimeSmp));
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double sum = 0.0;
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for(uint32 pair = 0; pair < 4; pair++)
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{
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double gain1 = std::pow(10.0, m_delay[pair] * ReverbTimeSmp);
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double gain2 = (1.0 - std::pow(10.0, (m_delay[pair] + m_delay[4 + pair / 2]) * ReverbTimeSmpHF)) * 0.5;
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double gain3 = gain1 * m_coeffs[pair / 2];
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double gain4 = gain3 * (((gain3 + 1.0) * gain3 + 1.0) * gain3 + 1.0) + 1.0;
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m_coeffs[2 + pair * 2] = static_cast<float>(gain1 * (1.0 - gain2));
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m_coeffs[3 + pair * 2] = static_cast<float>(gain1 * gain2);
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sum += gain4 * gain4;
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}
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double inGain = std::pow(10.0, GainInDecibel(m_param[kRvbInGain]) * 0.05);
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double reverbMix = std::pow(10.0, GainInDecibel(m_param[kRvbReverbMix]) * 0.1);
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m_dryFactor = static_cast<float>(std::sqrt(1.0 - reverbMix) * inGain);
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m_wetFactor = static_cast<float>(std::sqrt(reverbMix) * (4.0 / std::sqrt(sum) * inGain));
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}
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} // namespace DMO
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#else
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MPT_MSVC_WORKAROUND_LNK4221(WavesReverb)
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#endif // !NO_PLUGINS
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OPENMPT_NAMESPACE_END
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