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https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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ac87bfc370
Original commit message from CVS: adding modplug
2277 lines
64 KiB
C++
2277 lines
64 KiB
C++
/*
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* This source code is public domain.
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*
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* Authors: Olivier Lapicque <olivierl@jps.net>
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* Markus Fick <webmaster@mark-f.de> spline + fir-resampler
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*/
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#include "stdafx.h"
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#include "sndfile.h"
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#include <math.h>
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#ifdef MSC_VER
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#pragma bss_seg(".modplug")
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#endif
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// Front Mix Buffer (Also room for interleaved rear mix)
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int MixSoundBuffer[MIXBUFFERSIZE*4];
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// Reverb Mix Buffer
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#ifndef NO_REVERB
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int MixReverbBuffer[MIXBUFFERSIZE*2];
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extern UINT gnReverbSend;
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#endif
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#ifndef FASTSOUNDLIB
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int MixRearBuffer[MIXBUFFERSIZE*2];
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float MixFloatBuffer[MIXBUFFERSIZE*2];
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#endif
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#ifdef MSC_VER
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#pragma bss_seg()
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#endif
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extern LONG gnDryROfsVol;
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extern LONG gnDryLOfsVol;
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extern LONG gnRvbROfsVol;
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extern LONG gnRvbLOfsVol;
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// 4x256 taps polyphase FIR resampling filter
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extern short int gFastSinc[];
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extern short int gKaiserSinc[]; // 8-taps polyphase
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/*
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------------------------------------------------------------------------------------------------
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cubic spline interpolation doc,
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(derived from "digital image warping", g. wolberg)
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interpolation polynomial: f(x) = A3*(x-floor(x))**3 + A2*(x-floor(x))**2 + A1*(x-floor(x)) + A0
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with Y = equispaced data points (dist=1), YD = first derivates of data points and IP = floor(x)
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the A[0..3] can be found by solving
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A0 = Y[IP]
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A1 = YD[IP]
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A2 = 3*(Y[IP+1]-Y[IP])-2.0*YD[IP]-YD[IP+1]
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A3 = -2.0 * (Y[IP+1]-Y[IP]) + YD[IP] - YD[IP+1]
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with the first derivates as
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YD[IP] = 0.5 * (Y[IP+1] - Y[IP-1]);
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YD[IP+1] = 0.5 * (Y[IP+2] - Y[IP])
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the coefs becomes
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A0 = Y[IP]
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A1 = YD[IP]
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= 0.5 * (Y[IP+1] - Y[IP-1]);
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A2 = 3.0 * (Y[IP+1]-Y[IP])-2.0*YD[IP]-YD[IP+1]
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= 3.0 * (Y[IP+1] - Y[IP]) - 0.5 * 2.0 * (Y[IP+1] - Y[IP-1]) - 0.5 * (Y[IP+2] - Y[IP])
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= 3.0 * Y[IP+1] - 3.0 * Y[IP] - Y[IP+1] + Y[IP-1] - 0.5 * Y[IP+2] + 0.5 * Y[IP]
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= -0.5 * Y[IP+2] + 2.0 * Y[IP+1] - 2.5 * Y[IP] + Y[IP-1]
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= Y[IP-1] + 2 * Y[IP+1] - 0.5 * (5.0 * Y[IP] + Y[IP+2])
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A3 = -2.0 * (Y[IP+1]-Y[IP]) + YD[IP] + YD[IP+1]
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= -2.0 * Y[IP+1] + 2.0 * Y[IP] + 0.5 * (Y[IP+1] - Y[IP-1]) + 0.5 * (Y[IP+2] - Y[IP])
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= -2.0 * Y[IP+1] + 2.0 * Y[IP] + 0.5 * Y[IP+1] - 0.5 * Y[IP-1] + 0.5 * Y[IP+2] - 0.5 * Y[IP]
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= 0.5 * Y[IP+2] - 1.5 * Y[IP+1] + 1.5 * Y[IP] - 0.5 * Y[IP-1]
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= 0.5 * (3.0 * (Y[IP] - Y[IP+1]) - Y[IP-1] + YP[IP+2])
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then interpolated data value is (horner rule)
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out = (((A3*x)+A2)*x+A1)*x+A0
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this gives parts of data points Y[IP-1] to Y[IP+2] of
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part x**3 x**2 x**1 x**0
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Y[IP-1] -0.5 1 -0.5 0
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Y[IP] 1.5 -2.5 0 1
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Y[IP+1] -1.5 2 0.5 0
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Y[IP+2] 0.5 -0.5 0 0
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--------------------------------------------------------------------------------------------------
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*/
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// number of bits used to scale spline coefs
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#define SPLINE_QUANTBITS 14
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#define SPLINE_QUANTSCALE (1L<<SPLINE_QUANTBITS)
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#define SPLINE_8SHIFT (SPLINE_QUANTBITS-8)
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#define SPLINE_16SHIFT (SPLINE_QUANTBITS)
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// forces coefsset to unity gain
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#define SPLINE_CLAMPFORUNITY
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// log2(number) of precalculated splines (range is [4..14])
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#define SPLINE_FRACBITS 10
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#define SPLINE_LUTLEN (1L<<SPLINE_FRACBITS)
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class CzCUBICSPLINE
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{ public:
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CzCUBICSPLINE( );
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~CzCUBICSPLINE( );
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static signed short lut[4*(1L<<SPLINE_FRACBITS)];
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};
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signed short CzCUBICSPLINE::lut[4*(1L<<SPLINE_FRACBITS)];
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CzCUBICSPLINE::CzCUBICSPLINE( )
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{ int _LIi;
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int _LLen = (1L<<SPLINE_FRACBITS);
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float _LFlen = 1.0f / (float)_LLen;
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float _LScale = (float)SPLINE_QUANTSCALE;
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for(_LIi=0;_LIi<_LLen;_LIi++)
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{ float _LCm1, _LC0, _LC1, _LC2;
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float _LX = ((float)_LIi)*_LFlen;
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int _LSum,_LIdx = _LIi<<2;
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_LCm1 = (float)floor( 0.5 + _LScale * (-0.5*_LX*_LX*_LX + 1.0 * _LX*_LX - 0.5 * _LX ) );
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_LC0 = (float)floor( 0.5 + _LScale * ( 1.5*_LX*_LX*_LX - 2.5 * _LX*_LX + 1.0 ) );
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_LC1 = (float)floor( 0.5 + _LScale * (-1.5*_LX*_LX*_LX + 2.0 * _LX*_LX + 0.5 * _LX ) );
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_LC2 = (float)floor( 0.5 + _LScale * ( 0.5*_LX*_LX*_LX - 0.5 * _LX*_LX ) );
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lut[_LIdx+0] = (signed short)( (_LCm1 < -_LScale) ? -_LScale : ((_LCm1 > _LScale) ? _LScale : _LCm1) );
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lut[_LIdx+1] = (signed short)( (_LC0 < -_LScale) ? -_LScale : ((_LC0 > _LScale) ? _LScale : _LC0 ) );
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lut[_LIdx+2] = (signed short)( (_LC1 < -_LScale) ? -_LScale : ((_LC1 > _LScale) ? _LScale : _LC1 ) );
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lut[_LIdx+3] = (signed short)( (_LC2 < -_LScale) ? -_LScale : ((_LC2 > _LScale) ? _LScale : _LC2 ) );
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#ifdef SPLINE_CLAMPFORUNITY
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_LSum = lut[_LIdx+0]+lut[_LIdx+1]+lut[_LIdx+2]+lut[_LIdx+3];
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if( _LSum != SPLINE_QUANTSCALE )
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{ int _LMax = _LIdx;
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if( lut[_LIdx+1]>lut[_LMax] ) _LMax = _LIdx+1;
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if( lut[_LIdx+2]>lut[_LMax] ) _LMax = _LIdx+2;
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if( lut[_LIdx+3]>lut[_LMax] ) _LMax = _LIdx+3;
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lut[_LMax] += (SPLINE_QUANTSCALE-_LSum);
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}
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#endif
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}
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}
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CzCUBICSPLINE::~CzCUBICSPLINE( )
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{ // nothing todo
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}
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CzCUBICSPLINE sspline;
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/*
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------------------------------------------------------------------------------------------------
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fir interpolation doc,
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(derived from "an engineer's guide to fir digital filters", n.j. loy)
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calculate coefficients for ideal lowpass filter (with cutoff = fc in 0..1 (mapped to 0..nyquist))
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c[-N..N] = (i==0) ? fc : sin(fc*pi*i)/(pi*i)
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then apply selected window to coefficients
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c[-N..N] *= w(0..N)
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with n in 2*N and w(n) being a window function (see loy)
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then calculate gain and scale filter coefs to have unity gain.
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------------------------------------------------------------------------------------------------
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*/
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// quantizer scale of window coefs
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#define WFIR_QUANTBITS 15
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#define WFIR_QUANTSCALE (1L<<WFIR_QUANTBITS)
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#define WFIR_8SHIFT (WFIR_QUANTBITS-8)
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#define WFIR_16BITSHIFT (WFIR_QUANTBITS)
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// log2(number)-1 of precalculated taps range is [4..12]
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#define WFIR_FRACBITS 10
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#define WFIR_LUTLEN ((1L<<(WFIR_FRACBITS+1))+1)
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// number of samples in window
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#define WFIR_LOG2WIDTH 3
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#define WFIR_WIDTH (1L<<WFIR_LOG2WIDTH)
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#define WFIR_SMPSPERWING ((WFIR_WIDTH-1)>>1)
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// cutoff (1.0 == pi/2)
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#define WFIR_CUTOFF 0.90f
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// wfir type
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#define WFIR_HANN 0
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#define WFIR_HAMMING 1
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#define WFIR_BLACKMANEXACT 2
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#define WFIR_BLACKMAN3T61 3
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#define WFIR_BLACKMAN3T67 4
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#define WFIR_BLACKMAN4T92 5
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#define WFIR_BLACKMAN4T74 6
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#define WFIR_KAISER4T 7
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#define WFIR_TYPE WFIR_BLACKMANEXACT
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// wfir help
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#ifndef M_zPI
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#define M_zPI 3.1415926535897932384626433832795
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#endif
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#define M_zEPS 1e-8
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#define M_zBESSELEPS 1e-21
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class CzWINDOWEDFIR
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{ public:
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CzWINDOWEDFIR( );
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~CzWINDOWEDFIR( );
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float coef( int _PCnr, float _POfs, float _PCut, int _PWidth, int _PType ) //float _PPos, float _PFc, int _PLen )
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{ double _LWidthM1 = _PWidth-1;
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double _LWidthM1Half = 0.5*_LWidthM1;
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double _LPosU = ((double)_PCnr - _POfs);
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double _LPos = _LPosU-_LWidthM1Half;
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double _LPIdl = 2.0*M_zPI/_LWidthM1;
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double _LWc,_LSi;
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if( fabs(_LPos)<M_zEPS )
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{ _LWc = 1.0;
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_LSi = _PCut;
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}
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else
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{ switch( _PType )
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{ case WFIR_HANN:
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_LWc = 0.50 - 0.50 * cos(_LPIdl*_LPosU);
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break;
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case WFIR_HAMMING:
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_LWc = 0.54 - 0.46 * cos(_LPIdl*_LPosU);
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break;
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case WFIR_BLACKMANEXACT:
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_LWc = 0.42 - 0.50 * cos(_LPIdl*_LPosU) + 0.08 * cos(2.0*_LPIdl*_LPosU);
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break;
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case WFIR_BLACKMAN3T61:
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_LWc = 0.44959 - 0.49364 * cos(_LPIdl*_LPosU) + 0.05677 * cos(2.0*_LPIdl*_LPosU);
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break;
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case WFIR_BLACKMAN3T67:
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_LWc = 0.42323 - 0.49755 * cos(_LPIdl*_LPosU) + 0.07922 * cos(2.0*_LPIdl*_LPosU);
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break;
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case WFIR_BLACKMAN4T92:
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_LWc = 0.35875 - 0.48829 * cos(_LPIdl*_LPosU) + 0.14128 * cos(2.0*_LPIdl*_LPosU) - 0.01168 * cos(3.0*_LPIdl*_LPosU);
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break;
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case WFIR_BLACKMAN4T74:
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_LWc = 0.40217 - 0.49703 * cos(_LPIdl*_LPosU) + 0.09392 * cos(2.0*_LPIdl*_LPosU) - 0.00183 * cos(3.0*_LPIdl*_LPosU);
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break;
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case WFIR_KAISER4T:
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_LWc = 0.40243 - 0.49804 * cos(_LPIdl*_LPosU) + 0.09831 * cos(2.0*_LPIdl*_LPosU) - 0.00122 * cos(3.0*_LPIdl*_LPosU);
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break;
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default:
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_LWc = 1.0;
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break;
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}
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_LPos *= M_zPI;
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_LSi = sin(_PCut*_LPos)/_LPos;
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}
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return (float)(_LWc*_LSi);
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}
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static signed short lut[WFIR_LUTLEN*WFIR_WIDTH];
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};
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signed short CzWINDOWEDFIR::lut[WFIR_LUTLEN*WFIR_WIDTH];
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CzWINDOWEDFIR::CzWINDOWEDFIR()
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{ int _LPcl;
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float _LPcllen = (float)(1L<<WFIR_FRACBITS); // number of precalculated lines for 0..1 (-1..0)
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float _LNorm = 1.0f / (float)(2.0f * _LPcllen);
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float _LCut = WFIR_CUTOFF;
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float _LScale = (float)WFIR_QUANTSCALE;
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for( _LPcl=0;_LPcl<WFIR_LUTLEN;_LPcl++ )
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{ float _LGain,_LCoefs[WFIR_WIDTH];
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float _LOfs = ((float)_LPcl-_LPcllen)*_LNorm;
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int _LCc,_LIdx = _LPcl<<WFIR_LOG2WIDTH;
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for( _LCc=0,_LGain=0.0f;_LCc<WFIR_WIDTH;_LCc++ )
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{ _LGain += (_LCoefs[_LCc] = coef( _LCc, _LOfs, _LCut, WFIR_WIDTH, WFIR_TYPE ));
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}
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_LGain = 1.0f/_LGain;
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for( _LCc=0;_LCc<WFIR_WIDTH;_LCc++ )
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{ float _LCoef = (float)floor( 0.5 + _LScale*_LCoefs[_LCc]*_LGain );
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lut[_LIdx+_LCc] = (signed short)( (_LCoef<-_LScale)?-_LScale:((_LCoef>_LScale)?_LScale:_LCoef) );
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}
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}
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}
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CzWINDOWEDFIR::~CzWINDOWEDFIR()
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{ // nothing todo
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}
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CzWINDOWEDFIR sfir;
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// ------------------------------------------------------------------------------------------------
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// MIXING MACROS
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// ------------------------------------------------------------------------------------------------
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/////////////////////////////////////////////////////
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// Mixing Macros
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#define SNDMIX_BEGINSAMPLELOOP8\
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register MODCHANNEL * const pChn = pChannel;\
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nPos = pChn->nPosLo;\
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const signed char *p = (signed char *)(pChn->pCurrentSample+pChn->nPos);\
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if (pChn->dwFlags & CHN_STEREO) p += pChn->nPos;\
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int *pvol = pbuffer;\
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do {
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#define SNDMIX_BEGINSAMPLELOOP16\
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register MODCHANNEL * const pChn = pChannel;\
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nPos = pChn->nPosLo;\
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const signed short *p = (signed short *)(pChn->pCurrentSample+(pChn->nPos*2));\
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if (pChn->dwFlags & CHN_STEREO) p += pChn->nPos;\
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int *pvol = pbuffer;\
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do {
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#define SNDMIX_ENDSAMPLELOOP\
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nPos += pChn->nInc;\
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} while (pvol < pbufmax);\
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pChn->nPos += nPos >> 16;\
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pChn->nPosLo = nPos & 0xFFFF;
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#define SNDMIX_ENDSAMPLELOOP8 SNDMIX_ENDSAMPLELOOP
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#define SNDMIX_ENDSAMPLELOOP16 SNDMIX_ENDSAMPLELOOP
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//////////////////////////////////////////////////////////////////////////////
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// Mono
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// No interpolation
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#define SNDMIX_GETMONOVOL8NOIDO\
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int vol = p[nPos >> 16] << 8;
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#define SNDMIX_GETMONOVOL16NOIDO\
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int vol = p[nPos >> 16];
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// Linear Interpolation
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#define SNDMIX_GETMONOVOL8LINEAR\
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int poshi = nPos >> 16;\
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int poslo = (nPos >> 8) & 0xFF;\
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int srcvol = p[poshi];\
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int destvol = p[poshi+1];\
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int vol = (srcvol<<8) + ((int)(poslo * (destvol - srcvol)));
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#define SNDMIX_GETMONOVOL16LINEAR\
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int poshi = nPos >> 16;\
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int poslo = (nPos >> 8) & 0xFF;\
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int srcvol = p[poshi];\
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int destvol = p[poshi+1];\
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int vol = srcvol + ((int)(poslo * (destvol - srcvol)) >> 8);
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// spline interpolation (2 guard bits should be enough???)
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#define SPLINE_FRACSHIFT ((16-SPLINE_FRACBITS)-2)
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#define SPLINE_FRACMASK (((1L<<(16-SPLINE_FRACSHIFT))-1)&~3)
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#define SNDMIX_GETMONOVOL8SPLINE \
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int poshi = nPos >> 16; \
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int poslo = (nPos >> SPLINE_FRACSHIFT) & SPLINE_FRACMASK; \
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int vol = (CzCUBICSPLINE::lut[poslo ]*(int)p[poshi-1] + \
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CzCUBICSPLINE::lut[poslo+1]*(int)p[poshi ] + \
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CzCUBICSPLINE::lut[poslo+3]*(int)p[poshi+2] + \
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CzCUBICSPLINE::lut[poslo+2]*(int)p[poshi+1]) >> SPLINE_8SHIFT;
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#define SNDMIX_GETMONOVOL16SPLINE \
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int poshi = nPos >> 16; \
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int poslo = (nPos >> SPLINE_FRACSHIFT) & SPLINE_FRACMASK; \
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int vol = (CzCUBICSPLINE::lut[poslo ]*(int)p[poshi-1] + \
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CzCUBICSPLINE::lut[poslo+1]*(int)p[poshi ] + \
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CzCUBICSPLINE::lut[poslo+3]*(int)p[poshi+2] + \
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CzCUBICSPLINE::lut[poslo+2]*(int)p[poshi+1]) >> SPLINE_16SHIFT;
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// fir interpolation
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#define WFIR_FRACSHIFT (16-(WFIR_FRACBITS+1+WFIR_LOG2WIDTH))
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#define WFIR_FRACMASK ((((1L<<(17-WFIR_FRACSHIFT))-1)&~((1L<<WFIR_LOG2WIDTH)-1)))
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#define WFIR_FRACHALVE (1L<<(16-(WFIR_FRACBITS+2)))
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#define SNDMIX_GETMONOVOL8FIRFILTER \
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int poshi = nPos >> 16;\
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int poslo = (nPos & 0xFFFF);\
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int firidx = ((poslo+WFIR_FRACHALVE)>>WFIR_FRACSHIFT) & WFIR_FRACMASK; \
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int vol = (CzWINDOWEDFIR::lut[firidx+0]*(int)p[poshi+1-4]); \
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vol += (CzWINDOWEDFIR::lut[firidx+1]*(int)p[poshi+2-4]); \
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vol += (CzWINDOWEDFIR::lut[firidx+2]*(int)p[poshi+3-4]); \
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vol += (CzWINDOWEDFIR::lut[firidx+3]*(int)p[poshi+4-4]); \
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vol += (CzWINDOWEDFIR::lut[firidx+4]*(int)p[poshi+5-4]); \
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vol += (CzWINDOWEDFIR::lut[firidx+5]*(int)p[poshi+6-4]); \
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vol += (CzWINDOWEDFIR::lut[firidx+6]*(int)p[poshi+7-4]); \
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vol += (CzWINDOWEDFIR::lut[firidx+7]*(int)p[poshi+8-4]); \
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vol >>= WFIR_8SHIFT;
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#define SNDMIX_GETMONOVOL16FIRFILTER \
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int poshi = nPos >> 16;\
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int poslo = (nPos & 0xFFFF);\
|
|
int firidx = ((poslo+WFIR_FRACHALVE)>>WFIR_FRACSHIFT) & WFIR_FRACMASK; \
|
|
int vol1 = (CzWINDOWEDFIR::lut[firidx+0]*(int)p[poshi+1-4]); \
|
|
vol1 += (CzWINDOWEDFIR::lut[firidx+1]*(int)p[poshi+2-4]); \
|
|
vol1 += (CzWINDOWEDFIR::lut[firidx+2]*(int)p[poshi+3-4]); \
|
|
vol1 += (CzWINDOWEDFIR::lut[firidx+3]*(int)p[poshi+4-4]); \
|
|
int vol2 = (CzWINDOWEDFIR::lut[firidx+4]*(int)p[poshi+5-4]); \
|
|
vol2 += (CzWINDOWEDFIR::lut[firidx+5]*(int)p[poshi+6-4]); \
|
|
vol2 += (CzWINDOWEDFIR::lut[firidx+6]*(int)p[poshi+7-4]); \
|
|
vol2 += (CzWINDOWEDFIR::lut[firidx+7]*(int)p[poshi+8-4]); \
|
|
int vol = ((vol1>>1)+(vol2>>1)) >> (WFIR_16BITSHIFT-1);
|
|
|
|
/////////////////////////////////////////////////////////////////////////////
|
|
// Stereo
|
|
|
|
// No interpolation
|
|
#define SNDMIX_GETSTEREOVOL8NOIDO\
|
|
int vol_l = p[(nPos>>16)*2] << 8;\
|
|
int vol_r = p[(nPos>>16)*2+1] << 8;
|
|
|
|
#define SNDMIX_GETSTEREOVOL16NOIDO\
|
|
int vol_l = p[(nPos>>16)*2];\
|
|
int vol_r = p[(nPos>>16)*2+1];
|
|
|
|
// Linear Interpolation
|
|
#define SNDMIX_GETSTEREOVOL8LINEAR\
|
|
int poshi = nPos >> 16;\
|
|
int poslo = (nPos >> 8) & 0xFF;\
|
|
int srcvol_l = p[poshi*2];\
|
|
int vol_l = (srcvol_l<<8) + ((int)(poslo * (p[poshi*2+2] - srcvol_l)));\
|
|
int srcvol_r = p[poshi*2+1];\
|
|
int vol_r = (srcvol_r<<8) + ((int)(poslo * (p[poshi*2+3] - srcvol_r)));
|
|
|
|
#define SNDMIX_GETSTEREOVOL16LINEAR\
|
|
int poshi = nPos >> 16;\
|
|
int poslo = (nPos >> 8) & 0xFF;\
|
|
int srcvol_l = p[poshi*2];\
|
|
int vol_l = srcvol_l + ((int)(poslo * (p[poshi*2+2] - srcvol_l)) >> 8);\
|
|
int srcvol_r = p[poshi*2+1];\
|
|
int vol_r = srcvol_r + ((int)(poslo * (p[poshi*2+3] - srcvol_r)) >> 8);\
|
|
|
|
// Spline Interpolation
|
|
#define SNDMIX_GETSTEREOVOL8SPLINE \
|
|
int poshi = nPos >> 16; \
|
|
int poslo = (nPos >> SPLINE_FRACSHIFT) & SPLINE_FRACMASK; \
|
|
int vol_l = (CzCUBICSPLINE::lut[poslo ]*(int)p[(poshi-1)*2 ] + \
|
|
CzCUBICSPLINE::lut[poslo+1]*(int)p[(poshi )*2 ] + \
|
|
CzCUBICSPLINE::lut[poslo+2]*(int)p[(poshi+1)*2 ] + \
|
|
CzCUBICSPLINE::lut[poslo+3]*(int)p[(poshi+2)*2 ]) >> SPLINE_8SHIFT; \
|
|
int vol_r = (CzCUBICSPLINE::lut[poslo ]*(int)p[(poshi-1)*2+1] + \
|
|
CzCUBICSPLINE::lut[poslo+1]*(int)p[(poshi )*2+1] + \
|
|
CzCUBICSPLINE::lut[poslo+2]*(int)p[(poshi+1)*2+1] + \
|
|
CzCUBICSPLINE::lut[poslo+3]*(int)p[(poshi+2)*2+1]) >> SPLINE_8SHIFT;
|
|
|
|
#define SNDMIX_GETSTEREOVOL16SPLINE \
|
|
int poshi = nPos >> 16; \
|
|
int poslo = (nPos >> SPLINE_FRACSHIFT) & SPLINE_FRACMASK; \
|
|
int vol_l = (CzCUBICSPLINE::lut[poslo ]*(int)p[(poshi-1)*2 ] + \
|
|
CzCUBICSPLINE::lut[poslo+1]*(int)p[(poshi )*2 ] + \
|
|
CzCUBICSPLINE::lut[poslo+2]*(int)p[(poshi+1)*2 ] + \
|
|
CzCUBICSPLINE::lut[poslo+3]*(int)p[(poshi+2)*2 ]) >> SPLINE_16SHIFT; \
|
|
int vol_r = (CzCUBICSPLINE::lut[poslo ]*(int)p[(poshi-1)*2+1] + \
|
|
CzCUBICSPLINE::lut[poslo+1]*(int)p[(poshi )*2+1] + \
|
|
CzCUBICSPLINE::lut[poslo+2]*(int)p[(poshi+1)*2+1] + \
|
|
CzCUBICSPLINE::lut[poslo+3]*(int)p[(poshi+2)*2+1]) >> SPLINE_16SHIFT;
|
|
|
|
// fir interpolation
|
|
#define SNDMIX_GETSTEREOVOL8FIRFILTER \
|
|
int poshi = nPos >> 16;\
|
|
int poslo = (nPos & 0xFFFF);\
|
|
int firidx = ((poslo+WFIR_FRACHALVE)>>WFIR_FRACSHIFT) & WFIR_FRACMASK; \
|
|
int vol_l = (CzWINDOWEDFIR::lut[firidx+0]*(int)p[(poshi+1-4)*2 ]); \
|
|
vol_l += (CzWINDOWEDFIR::lut[firidx+1]*(int)p[(poshi+2-4)*2 ]); \
|
|
vol_l += (CzWINDOWEDFIR::lut[firidx+2]*(int)p[(poshi+3-4)*2 ]); \
|
|
vol_l += (CzWINDOWEDFIR::lut[firidx+3]*(int)p[(poshi+4-4)*2 ]); \
|
|
vol_l += (CzWINDOWEDFIR::lut[firidx+4]*(int)p[(poshi+5-4)*2 ]); \
|
|
vol_l += (CzWINDOWEDFIR::lut[firidx+5]*(int)p[(poshi+6-4)*2 ]); \
|
|
vol_l += (CzWINDOWEDFIR::lut[firidx+6]*(int)p[(poshi+7-4)*2 ]); \
|
|
vol_l += (CzWINDOWEDFIR::lut[firidx+7]*(int)p[(poshi+8-4)*2 ]); \
|
|
vol_l >>= WFIR_8SHIFT; \
|
|
int vol_r = (CzWINDOWEDFIR::lut[firidx+0]*(int)p[(poshi+1-4)*2+1]); \
|
|
vol_r += (CzWINDOWEDFIR::lut[firidx+1]*(int)p[(poshi+2-4)*2+1]); \
|
|
vol_r += (CzWINDOWEDFIR::lut[firidx+2]*(int)p[(poshi+3-4)*2+1]); \
|
|
vol_r += (CzWINDOWEDFIR::lut[firidx+3]*(int)p[(poshi+4-4)*2+1]); \
|
|
vol_r += (CzWINDOWEDFIR::lut[firidx+4]*(int)p[(poshi+5-4)*2+1]); \
|
|
vol_r += (CzWINDOWEDFIR::lut[firidx+5]*(int)p[(poshi+6-4)*2+1]); \
|
|
vol_r += (CzWINDOWEDFIR::lut[firidx+6]*(int)p[(poshi+7-4)*2+1]); \
|
|
vol_r += (CzWINDOWEDFIR::lut[firidx+7]*(int)p[(poshi+8-4)*2+1]); \
|
|
vol_r >>= WFIR_8SHIFT;
|
|
|
|
#define SNDMIX_GETSTEREOVOL16FIRFILTER \
|
|
int poshi = nPos >> 16;\
|
|
int poslo = (nPos & 0xFFFF);\
|
|
int firidx = ((poslo+WFIR_FRACHALVE)>>WFIR_FRACSHIFT) & WFIR_FRACMASK; \
|
|
int vol1_l = (CzWINDOWEDFIR::lut[firidx+0]*(int)p[(poshi+1-4)*2 ]); \
|
|
vol1_l += (CzWINDOWEDFIR::lut[firidx+1]*(int)p[(poshi+2-4)*2 ]); \
|
|
vol1_l += (CzWINDOWEDFIR::lut[firidx+2]*(int)p[(poshi+3-4)*2 ]); \
|
|
vol1_l += (CzWINDOWEDFIR::lut[firidx+3]*(int)p[(poshi+4-4)*2 ]); \
|
|
int vol2_l = (CzWINDOWEDFIR::lut[firidx+4]*(int)p[(poshi+5-4)*2 ]); \
|
|
vol2_l += (CzWINDOWEDFIR::lut[firidx+5]*(int)p[(poshi+6-4)*2 ]); \
|
|
vol2_l += (CzWINDOWEDFIR::lut[firidx+6]*(int)p[(poshi+7-4)*2 ]); \
|
|
vol2_l += (CzWINDOWEDFIR::lut[firidx+7]*(int)p[(poshi+8-4)*2 ]); \
|
|
int vol_l = ((vol1_l>>1)+(vol2_l>>1)) >> (WFIR_16BITSHIFT-1); \
|
|
int vol1_r = (CzWINDOWEDFIR::lut[firidx+0]*(int)p[(poshi+1-4)*2+1]); \
|
|
vol1_r += (CzWINDOWEDFIR::lut[firidx+1]*(int)p[(poshi+2-4)*2+1]); \
|
|
vol1_r += (CzWINDOWEDFIR::lut[firidx+2]*(int)p[(poshi+3-4)*2+1]); \
|
|
vol1_r += (CzWINDOWEDFIR::lut[firidx+3]*(int)p[(poshi+4-4)*2+1]); \
|
|
int vol2_r = (CzWINDOWEDFIR::lut[firidx+4]*(int)p[(poshi+5-4)*2+1]); \
|
|
vol2_r += (CzWINDOWEDFIR::lut[firidx+5]*(int)p[(poshi+6-4)*2+1]); \
|
|
vol2_r += (CzWINDOWEDFIR::lut[firidx+6]*(int)p[(poshi+7-4)*2+1]); \
|
|
vol2_r += (CzWINDOWEDFIR::lut[firidx+7]*(int)p[(poshi+8-4)*2+1]); \
|
|
int vol_r = ((vol1_r>>1)+(vol2_r>>1)) >> (WFIR_16BITSHIFT-1);
|
|
|
|
|
|
/////////////////////////////////////////////////////////////////////////////
|
|
|
|
#define SNDMIX_STOREMONOVOL\
|
|
pvol[0] += vol * pChn->nRightVol;\
|
|
pvol[1] += vol * pChn->nLeftVol;\
|
|
pvol += 2;
|
|
|
|
#define SNDMIX_STORESTEREOVOL\
|
|
pvol[0] += vol_l * pChn->nRightVol;\
|
|
pvol[1] += vol_r * pChn->nLeftVol;\
|
|
pvol += 2;
|
|
|
|
#define SNDMIX_STOREFASTMONOVOL\
|
|
int v = vol * pChn->nRightVol;\
|
|
pvol[0] += v;\
|
|
pvol[1] += v;\
|
|
pvol += 2;
|
|
|
|
#define SNDMIX_RAMPMONOVOL\
|
|
nRampLeftVol += pChn->nLeftRamp;\
|
|
nRampRightVol += pChn->nRightRamp;\
|
|
pvol[0] += vol * (nRampRightVol >> VOLUMERAMPPRECISION);\
|
|
pvol[1] += vol * (nRampLeftVol >> VOLUMERAMPPRECISION);\
|
|
pvol += 2;
|
|
|
|
#define SNDMIX_RAMPFASTMONOVOL\
|
|
nRampRightVol += pChn->nRightRamp;\
|
|
int fastvol = vol * (nRampRightVol >> VOLUMERAMPPRECISION);\
|
|
pvol[0] += fastvol;\
|
|
pvol[1] += fastvol;\
|
|
pvol += 2;
|
|
|
|
#define SNDMIX_RAMPSTEREOVOL\
|
|
nRampLeftVol += pChn->nLeftRamp;\
|
|
nRampRightVol += pChn->nRightRamp;\
|
|
pvol[0] += vol_l * (nRampRightVol >> VOLUMERAMPPRECISION);\
|
|
pvol[1] += vol_r * (nRampLeftVol >> VOLUMERAMPPRECISION);\
|
|
pvol += 2;
|
|
|
|
|
|
///////////////////////////////////////////////////
|
|
// Resonant Filters
|
|
|
|
// Mono
|
|
#define MIX_BEGIN_FILTER\
|
|
int fy1 = pChannel->nFilter_Y1;\
|
|
int fy2 = pChannel->nFilter_Y2;\
|
|
|
|
#define MIX_END_FILTER\
|
|
pChannel->nFilter_Y1 = fy1;\
|
|
pChannel->nFilter_Y2 = fy2;
|
|
|
|
#define SNDMIX_PROCESSFILTER\
|
|
vol = (vol * pChn->nFilter_A0 + fy1 * pChn->nFilter_B0 + fy2 * pChn->nFilter_B1 + 4096) >> 13;\
|
|
fy2 = fy1;\
|
|
fy1 = vol;\
|
|
|
|
// Stereo
|
|
#define MIX_BEGIN_STEREO_FILTER\
|
|
int fy1 = pChannel->nFilter_Y1;\
|
|
int fy2 = pChannel->nFilter_Y2;\
|
|
int fy3 = pChannel->nFilter_Y3;\
|
|
int fy4 = pChannel->nFilter_Y4;\
|
|
|
|
#define MIX_END_STEREO_FILTER\
|
|
pChannel->nFilter_Y1 = fy1;\
|
|
pChannel->nFilter_Y2 = fy2;\
|
|
pChannel->nFilter_Y3 = fy3;\
|
|
pChannel->nFilter_Y4 = fy4;\
|
|
|
|
#define SNDMIX_PROCESSSTEREOFILTER\
|
|
vol_l = (vol_l * pChn->nFilter_A0 + fy1 * pChn->nFilter_B0 + fy2 * pChn->nFilter_B1 + 4096) >> 13;\
|
|
vol_r = (vol_r * pChn->nFilter_A0 + fy3 * pChn->nFilter_B0 + fy4 * pChn->nFilter_B1 + 4096) >> 13;\
|
|
fy2 = fy1; fy1 = vol_l;\
|
|
fy4 = fy3; fy3 = vol_r;\
|
|
|
|
//////////////////////////////////////////////////////////
|
|
// Interfaces
|
|
|
|
typedef VOID (MPPASMCALL * LPMIXINTERFACE)(MODCHANNEL *, int *, int *);
|
|
|
|
#define BEGIN_MIX_INTERFACE(func)\
|
|
VOID MPPASMCALL func(MODCHANNEL *pChannel, int *pbuffer, int *pbufmax)\
|
|
{\
|
|
LONG nPos;
|
|
|
|
#define END_MIX_INTERFACE()\
|
|
SNDMIX_ENDSAMPLELOOP\
|
|
}
|
|
|
|
// Volume Ramps
|
|
#define BEGIN_RAMPMIX_INTERFACE(func)\
|
|
BEGIN_MIX_INTERFACE(func)\
|
|
LONG nRampRightVol = pChannel->nRampRightVol;\
|
|
LONG nRampLeftVol = pChannel->nRampLeftVol;
|
|
|
|
#define END_RAMPMIX_INTERFACE()\
|
|
SNDMIX_ENDSAMPLELOOP\
|
|
pChannel->nRampRightVol = nRampRightVol;\
|
|
pChannel->nRightVol = nRampRightVol >> VOLUMERAMPPRECISION;\
|
|
pChannel->nRampLeftVol = nRampLeftVol;\
|
|
pChannel->nLeftVol = nRampLeftVol >> VOLUMERAMPPRECISION;\
|
|
}
|
|
|
|
#define BEGIN_FASTRAMPMIX_INTERFACE(func)\
|
|
BEGIN_MIX_INTERFACE(func)\
|
|
LONG nRampRightVol = pChannel->nRampRightVol;
|
|
|
|
#define END_FASTRAMPMIX_INTERFACE()\
|
|
SNDMIX_ENDSAMPLELOOP\
|
|
pChannel->nRampRightVol = nRampRightVol;\
|
|
pChannel->nRampLeftVol = nRampRightVol;\
|
|
pChannel->nRightVol = nRampRightVol >> VOLUMERAMPPRECISION;\
|
|
pChannel->nLeftVol = pChannel->nRightVol;\
|
|
}
|
|
|
|
|
|
// Mono Resonant Filters
|
|
#define BEGIN_MIX_FLT_INTERFACE(func)\
|
|
BEGIN_MIX_INTERFACE(func)\
|
|
MIX_BEGIN_FILTER
|
|
|
|
|
|
#define END_MIX_FLT_INTERFACE()\
|
|
SNDMIX_ENDSAMPLELOOP\
|
|
MIX_END_FILTER\
|
|
}
|
|
|
|
#define BEGIN_RAMPMIX_FLT_INTERFACE(func)\
|
|
BEGIN_MIX_INTERFACE(func)\
|
|
LONG nRampRightVol = pChannel->nRampRightVol;\
|
|
LONG nRampLeftVol = pChannel->nRampLeftVol;\
|
|
MIX_BEGIN_FILTER
|
|
|
|
#define END_RAMPMIX_FLT_INTERFACE()\
|
|
SNDMIX_ENDSAMPLELOOP\
|
|
MIX_END_FILTER\
|
|
pChannel->nRampRightVol = nRampRightVol;\
|
|
pChannel->nRightVol = nRampRightVol >> VOLUMERAMPPRECISION;\
|
|
pChannel->nRampLeftVol = nRampLeftVol;\
|
|
pChannel->nLeftVol = nRampLeftVol >> VOLUMERAMPPRECISION;\
|
|
}
|
|
|
|
// Stereo Resonant Filters
|
|
#define BEGIN_MIX_STFLT_INTERFACE(func)\
|
|
BEGIN_MIX_INTERFACE(func)\
|
|
MIX_BEGIN_STEREO_FILTER
|
|
|
|
|
|
#define END_MIX_STFLT_INTERFACE()\
|
|
SNDMIX_ENDSAMPLELOOP\
|
|
MIX_END_STEREO_FILTER\
|
|
}
|
|
|
|
#define BEGIN_RAMPMIX_STFLT_INTERFACE(func)\
|
|
BEGIN_MIX_INTERFACE(func)\
|
|
LONG nRampRightVol = pChannel->nRampRightVol;\
|
|
LONG nRampLeftVol = pChannel->nRampLeftVol;\
|
|
MIX_BEGIN_STEREO_FILTER
|
|
|
|
#define END_RAMPMIX_STFLT_INTERFACE()\
|
|
SNDMIX_ENDSAMPLELOOP\
|
|
MIX_END_STEREO_FILTER\
|
|
pChannel->nRampRightVol = nRampRightVol;\
|
|
pChannel->nRightVol = nRampRightVol >> VOLUMERAMPPRECISION;\
|
|
pChannel->nRampLeftVol = nRampLeftVol;\
|
|
pChannel->nLeftVol = nRampLeftVol >> VOLUMERAMPPRECISION;\
|
|
}
|
|
|
|
|
|
/////////////////////////////////////////////////////
|
|
//
|
|
|
|
void MPPASMCALL X86_InitMixBuffer(int *pBuffer, UINT nSamples);
|
|
void MPPASMCALL X86_EndChannelOfs(MODCHANNEL *pChannel, int *pBuffer, UINT nSamples);
|
|
void MPPASMCALL X86_StereoFill(int *pBuffer, UINT nSamples, LPLONG lpROfs, LPLONG lpLOfs);
|
|
void X86_StereoMixToFloat(const int *, float *, float *, UINT nCount);
|
|
void X86_FloatToStereoMix(const float *pIn1, const float *pIn2, int *pOut, UINT nCount);
|
|
|
|
/////////////////////////////////////////////////////
|
|
// Mono samples functions
|
|
|
|
BEGIN_MIX_INTERFACE(Mono8BitMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8NOIDO
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Mono16BitMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16NOIDO
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Mono8BitLinearMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8LINEAR
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Mono16BitLinearMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16LINEAR
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Mono8BitSplineMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8SPLINE
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Mono16BitSplineMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16SPLINE
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Mono8BitFirFilterMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8FIRFILTER
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Mono16BitFirFilterMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16FIRFILTER
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
|
|
// Volume Ramps
|
|
BEGIN_RAMPMIX_INTERFACE(Mono8BitRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8NOIDO
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Mono16BitRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16NOIDO
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Mono8BitLinearRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8LINEAR
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Mono16BitLinearRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16LINEAR
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Mono8BitSplineRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8SPLINE
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Mono16BitSplineRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16SPLINE
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Mono8BitFirFilterRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8FIRFILTER
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Mono16BitFirFilterRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16FIRFILTER
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
|
|
//////////////////////////////////////////////////////
|
|
// Fast mono mix for leftvol=rightvol (1 less imul)
|
|
|
|
BEGIN_MIX_INTERFACE(FastMono8BitMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8NOIDO
|
|
SNDMIX_STOREFASTMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(FastMono16BitMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16NOIDO
|
|
SNDMIX_STOREFASTMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(FastMono8BitLinearMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8LINEAR
|
|
SNDMIX_STOREFASTMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(FastMono16BitLinearMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16LINEAR
|
|
SNDMIX_STOREFASTMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(FastMono8BitSplineMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8SPLINE
|
|
SNDMIX_STOREFASTMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(FastMono16BitSplineMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16SPLINE
|
|
SNDMIX_STOREFASTMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(FastMono8BitFirFilterMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8FIRFILTER
|
|
SNDMIX_STOREFASTMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(FastMono16BitFirFilterMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16FIRFILTER
|
|
SNDMIX_STOREFASTMONOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
|
|
// Fast Ramps
|
|
BEGIN_FASTRAMPMIX_INTERFACE(FastMono8BitRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8NOIDO
|
|
SNDMIX_RAMPFASTMONOVOL
|
|
END_FASTRAMPMIX_INTERFACE()
|
|
|
|
BEGIN_FASTRAMPMIX_INTERFACE(FastMono16BitRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16NOIDO
|
|
SNDMIX_RAMPFASTMONOVOL
|
|
END_FASTRAMPMIX_INTERFACE()
|
|
|
|
BEGIN_FASTRAMPMIX_INTERFACE(FastMono8BitLinearRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8LINEAR
|
|
SNDMIX_RAMPFASTMONOVOL
|
|
END_FASTRAMPMIX_INTERFACE()
|
|
|
|
BEGIN_FASTRAMPMIX_INTERFACE(FastMono16BitLinearRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16LINEAR
|
|
SNDMIX_RAMPFASTMONOVOL
|
|
END_FASTRAMPMIX_INTERFACE()
|
|
|
|
BEGIN_FASTRAMPMIX_INTERFACE(FastMono8BitSplineRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8SPLINE
|
|
SNDMIX_RAMPFASTMONOVOL
|
|
END_FASTRAMPMIX_INTERFACE()
|
|
|
|
BEGIN_FASTRAMPMIX_INTERFACE(FastMono16BitSplineRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16SPLINE
|
|
SNDMIX_RAMPFASTMONOVOL
|
|
END_FASTRAMPMIX_INTERFACE()
|
|
|
|
BEGIN_FASTRAMPMIX_INTERFACE(FastMono8BitFirFilterRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8FIRFILTER
|
|
SNDMIX_RAMPFASTMONOVOL
|
|
END_FASTRAMPMIX_INTERFACE()
|
|
|
|
BEGIN_FASTRAMPMIX_INTERFACE(FastMono16BitFirFilterRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16FIRFILTER
|
|
SNDMIX_RAMPFASTMONOVOL
|
|
END_FASTRAMPMIX_INTERFACE()
|
|
|
|
|
|
//////////////////////////////////////////////////////
|
|
// Stereo samples
|
|
|
|
BEGIN_MIX_INTERFACE(Stereo8BitMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8NOIDO
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Stereo16BitMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16NOIDO
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Stereo8BitLinearMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8LINEAR
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Stereo16BitLinearMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16LINEAR
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Stereo8BitSplineMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8SPLINE
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Stereo16BitSplineMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16SPLINE
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Stereo8BitFirFilterMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8FIRFILTER
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
BEGIN_MIX_INTERFACE(Stereo16BitFirFilterMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16FIRFILTER
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_INTERFACE()
|
|
|
|
|
|
// Volume Ramps
|
|
BEGIN_RAMPMIX_INTERFACE(Stereo8BitRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8NOIDO
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Stereo16BitRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16NOIDO
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Stereo8BitLinearRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8LINEAR
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Stereo16BitLinearRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16LINEAR
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Stereo8BitSplineRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8SPLINE
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Stereo16BitSplineRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16SPLINE
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Stereo8BitFirFilterRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8FIRFILTER
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_INTERFACE(Stereo16BitFirFilterRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16FIRFILTER
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_INTERFACE()
|
|
|
|
|
|
|
|
//////////////////////////////////////////////////////
|
|
// Resonant Filter Mix
|
|
|
|
#ifndef NO_FILTER
|
|
|
|
// Mono Filter Mix
|
|
BEGIN_MIX_FLT_INTERFACE(FilterMono8BitMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8NOIDO
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_FLT_INTERFACE()
|
|
|
|
BEGIN_MIX_FLT_INTERFACE(FilterMono16BitMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16NOIDO
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_FLT_INTERFACE()
|
|
|
|
BEGIN_MIX_FLT_INTERFACE(FilterMono8BitLinearMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8LINEAR
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_FLT_INTERFACE()
|
|
|
|
BEGIN_MIX_FLT_INTERFACE(FilterMono16BitLinearMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16LINEAR
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_FLT_INTERFACE()
|
|
|
|
BEGIN_MIX_FLT_INTERFACE(FilterMono8BitSplineMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8SPLINE
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_FLT_INTERFACE()
|
|
|
|
BEGIN_MIX_FLT_INTERFACE(FilterMono16BitSplineMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16SPLINE
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_FLT_INTERFACE()
|
|
|
|
BEGIN_MIX_FLT_INTERFACE(FilterMono8BitFirFilterMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8FIRFILTER
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_FLT_INTERFACE()
|
|
|
|
BEGIN_MIX_FLT_INTERFACE(FilterMono16BitFirFilterMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16FIRFILTER
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_STOREMONOVOL
|
|
END_MIX_FLT_INTERFACE()
|
|
|
|
// Filter + Ramp
|
|
BEGIN_RAMPMIX_FLT_INTERFACE(FilterMono8BitRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8NOIDO
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_FLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_FLT_INTERFACE(FilterMono16BitRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16NOIDO
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_FLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_FLT_INTERFACE(FilterMono8BitLinearRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8LINEAR
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_FLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_FLT_INTERFACE(FilterMono16BitLinearRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16LINEAR
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_FLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_FLT_INTERFACE(FilterMono8BitSplineRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8SPLINE
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_FLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_FLT_INTERFACE(FilterMono16BitSplineRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16SPLINE
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_FLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_FLT_INTERFACE(FilterMono8BitFirFilterRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETMONOVOL8FIRFILTER
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_FLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_FLT_INTERFACE(FilterMono16BitFirFilterRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETMONOVOL16FIRFILTER
|
|
SNDMIX_PROCESSFILTER
|
|
SNDMIX_RAMPMONOVOL
|
|
END_RAMPMIX_FLT_INTERFACE()
|
|
|
|
|
|
// Stereo Filter Mix
|
|
BEGIN_MIX_STFLT_INTERFACE(FilterStereo8BitMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8NOIDO
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_MIX_STFLT_INTERFACE(FilterStereo16BitMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16NOIDO
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_MIX_STFLT_INTERFACE(FilterStereo8BitLinearMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8LINEAR
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_MIX_STFLT_INTERFACE(FilterStereo16BitLinearMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16LINEAR
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_MIX_STFLT_INTERFACE(FilterStereo8BitSplineMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8SPLINE
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_MIX_STFLT_INTERFACE(FilterStereo16BitSplineMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16SPLINE
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_MIX_STFLT_INTERFACE(FilterStereo8BitFirFilterMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8FIRFILTER
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_MIX_STFLT_INTERFACE(FilterStereo16BitFirFilterMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16FIRFILTER
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_STORESTEREOVOL
|
|
END_MIX_STFLT_INTERFACE()
|
|
|
|
// Stereo Filter + Ramp
|
|
BEGIN_RAMPMIX_STFLT_INTERFACE(FilterStereo8BitRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8NOIDO
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_STFLT_INTERFACE(FilterStereo16BitRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16NOIDO
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_STFLT_INTERFACE(FilterStereo8BitLinearRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8LINEAR
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_STFLT_INTERFACE(FilterStereo16BitLinearRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16LINEAR
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_STFLT_INTERFACE(FilterStereo8BitSplineRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8SPLINE
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_STFLT_INTERFACE(FilterStereo16BitSplineRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16SPLINE
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_STFLT_INTERFACE(FilterStereo8BitFirFilterRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP8
|
|
SNDMIX_GETSTEREOVOL8FIRFILTER
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_STFLT_INTERFACE()
|
|
|
|
BEGIN_RAMPMIX_STFLT_INTERFACE(FilterStereo16BitFirFilterRampMix)
|
|
SNDMIX_BEGINSAMPLELOOP16
|
|
SNDMIX_GETSTEREOVOL16FIRFILTER
|
|
SNDMIX_PROCESSSTEREOFILTER
|
|
SNDMIX_RAMPSTEREOVOL
|
|
END_RAMPMIX_STFLT_INTERFACE()
|
|
|
|
|
|
#else
|
|
// Mono
|
|
#define FilterMono8BitMix Mono8BitMix
|
|
#define FilterMono16BitMix Mono16BitMix
|
|
#define FilterMono8BitLinearMix Mono8BitLinearMix
|
|
#define FilterMono16BitLinearMix Mono16BitLinearMix
|
|
#define FilterMono8BitSplineMix Mono8BitSplineMix
|
|
#define FilterMono16BitSplineMix Mono16BitSplineMix
|
|
#define FilterMono8BitFirFilterMix Mono8BitFirFilterMix
|
|
#define FilterMono16BitFirFilterMix Mono16BitFirFilterMix
|
|
#define FilterMono8BitRampMix Mono8BitRampMix
|
|
#define FilterMono16BitRampMix Mono16BitRampMix
|
|
#define FilterMono8BitLinearRampMix Mono8BitLinearRampMix
|
|
#define FilterMono16BitLinearRampMix Mono16BitLinearRampMix
|
|
#define FilterMono8BitSplineRampMix Mono8BitSplineRampMix
|
|
#define FilterMono16BitSplineRampMix Mono16BitSplineRampMix
|
|
#define FilterMono8BitFirFilterRampMix Mono8BitFirFilterRampMix
|
|
#define FilterMono16BitFirFilterRampMix Mono16BitFirFilterRampMix
|
|
// Stereo
|
|
#define FilterStereo8BitMix Stereo8BitMix
|
|
#define FilterStereo16BitMix Stereo16BitMix
|
|
#define FilterStereo8BitLinearMix Stereo8BitLinearMix
|
|
#define FilterStereo16BitLinearMix Stereo16BitLinearMix
|
|
#define FilterStereo8BitSplineMix Stereo8BitSplineMix
|
|
#define FilterStereo16BitSplineMix Stereo16BitSplineMix
|
|
#define FilterStereo8BitFirFilterMix Stereo8BitFirFilterMix
|
|
#define FilterStereo16BitFirFilterMix Stereo16BitFirFilterMix
|
|
#define FilterStereo8BitRampMix Stereo8BitRampMix
|
|
#define FilterStereo16BitRampMix Stereo16BitRampMix
|
|
#define FilterStereo8BitLinearRampMix Stereo8BitLinearRampMix
|
|
#define FilterStereo16BitLinearRampMix Stereo16BitLinearRampMix
|
|
#define FilterStereo8BitSplineRampMix Stereo8BitSplineRampMix
|
|
#define FilterStereo16BitSplineRampMix Stereo16BitSplineRampMix
|
|
#define FilterStereo8BitFirFilterRampMix Stereo8BitFirFilterRampMix
|
|
#define FilterStereo16BitFirFilterRampMix Stereo16BitFirFilterRampMix
|
|
|
|
#endif
|
|
|
|
/////////////////////////////////////////////////////////////////////////////////////
|
|
//
|
|
// Mix function tables
|
|
//
|
|
//
|
|
// Index is as follow:
|
|
// [b1-b0] format (8-bit-mono, 16-bit-mono, 8-bit-stereo, 16-bit-stereo)
|
|
// [b2] ramp
|
|
// [b3] filter
|
|
// [b5-b4] src type
|
|
//
|
|
|
|
#define MIXNDX_16BIT 0x01
|
|
#define MIXNDX_STEREO 0x02
|
|
#define MIXNDX_RAMP 0x04
|
|
#define MIXNDX_FILTER 0x08
|
|
#define MIXNDX_LINEARSRC 0x10
|
|
#define MIXNDX_SPLINESRC 0x20
|
|
#define MIXNDX_FIRSRC 0x30
|
|
|
|
const LPMIXINTERFACE gpMixFunctionTable[2*2*16] =
|
|
{
|
|
// No SRC
|
|
Mono8BitMix, Mono16BitMix, Stereo8BitMix, Stereo16BitMix,
|
|
Mono8BitRampMix, Mono16BitRampMix, Stereo8BitRampMix, Stereo16BitRampMix,
|
|
// No SRC, Filter
|
|
FilterMono8BitMix, FilterMono16BitMix, FilterStereo8BitMix, FilterStereo16BitMix,
|
|
FilterMono8BitRampMix, FilterMono16BitRampMix, FilterStereo8BitRampMix,FilterStereo16BitRampMix,
|
|
// Linear SRC
|
|
Mono8BitLinearMix, Mono16BitLinearMix, Stereo8BitLinearMix, Stereo16BitLinearMix,
|
|
Mono8BitLinearRampMix, Mono16BitLinearRampMix, Stereo8BitLinearRampMix,Stereo16BitLinearRampMix,
|
|
// Linear SRC, Filter
|
|
FilterMono8BitLinearMix, FilterMono16BitLinearMix, FilterStereo8BitLinearMix, FilterStereo16BitLinearMix,
|
|
FilterMono8BitLinearRampMix,FilterMono16BitLinearRampMix,FilterStereo8BitLinearRampMix,FilterStereo16BitLinearRampMix,
|
|
|
|
// FirFilter SRC
|
|
Mono8BitSplineMix, Mono16BitSplineMix, Stereo8BitSplineMix, Stereo16BitSplineMix,
|
|
Mono8BitSplineRampMix, Mono16BitSplineRampMix, Stereo8BitSplineRampMix,Stereo16BitSplineRampMix,
|
|
// Spline SRC, Filter
|
|
FilterMono8BitSplineMix, FilterMono16BitSplineMix, FilterStereo8BitSplineMix, FilterStereo16BitSplineMix,
|
|
FilterMono8BitSplineRampMix,FilterMono16BitSplineRampMix,FilterStereo8BitSplineRampMix,FilterStereo16BitSplineRampMix,
|
|
|
|
// FirFilter SRC
|
|
Mono8BitFirFilterMix, Mono16BitFirFilterMix, Stereo8BitFirFilterMix, Stereo16BitFirFilterMix,
|
|
Mono8BitFirFilterRampMix, Mono16BitFirFilterRampMix, Stereo8BitFirFilterRampMix,Stereo16BitFirFilterRampMix,
|
|
// FirFilter SRC, Filter
|
|
FilterMono8BitFirFilterMix, FilterMono16BitFirFilterMix, FilterStereo8BitFirFilterMix, FilterStereo16BitFirFilterMix,
|
|
FilterMono8BitFirFilterRampMix,FilterMono16BitFirFilterRampMix,FilterStereo8BitFirFilterRampMix,FilterStereo16BitFirFilterRampMix
|
|
};
|
|
|
|
const LPMIXINTERFACE gpFastMixFunctionTable[2*2*16] =
|
|
{
|
|
// No SRC
|
|
FastMono8BitMix, FastMono16BitMix, Stereo8BitMix, Stereo16BitMix,
|
|
FastMono8BitRampMix, FastMono16BitRampMix, Stereo8BitRampMix, Stereo16BitRampMix,
|
|
// No SRC, Filter
|
|
FilterMono8BitMix, FilterMono16BitMix, FilterStereo8BitMix, FilterStereo16BitMix,
|
|
FilterMono8BitRampMix, FilterMono16BitRampMix, FilterStereo8BitRampMix,FilterStereo16BitRampMix,
|
|
// Linear SRC
|
|
FastMono8BitLinearMix, FastMono16BitLinearMix, Stereo8BitLinearMix, Stereo16BitLinearMix,
|
|
FastMono8BitLinearRampMix, FastMono16BitLinearRampMix, Stereo8BitLinearRampMix,Stereo16BitLinearRampMix,
|
|
// Linear SRC, Filter
|
|
FilterMono8BitLinearMix, FilterMono16BitLinearMix, FilterStereo8BitLinearMix, FilterStereo16BitLinearMix,
|
|
FilterMono8BitLinearRampMix,FilterMono16BitLinearRampMix,FilterStereo8BitLinearRampMix,FilterStereo16BitLinearRampMix,
|
|
|
|
// Spline SRC
|
|
Mono8BitSplineMix, Mono16BitSplineMix, Stereo8BitSplineMix, Stereo16BitSplineMix,
|
|
Mono8BitSplineRampMix, Mono16BitSplineRampMix, Stereo8BitSplineRampMix,Stereo16BitSplineRampMix,
|
|
// Spline SRC, Filter
|
|
FilterMono8BitSplineMix, FilterMono16BitSplineMix, FilterStereo8BitSplineMix, FilterStereo16BitSplineMix,
|
|
FilterMono8BitSplineRampMix,FilterMono16BitSplineRampMix,FilterStereo8BitSplineRampMix,FilterStereo16BitSplineRampMix,
|
|
|
|
// FirFilter SRC
|
|
Mono8BitFirFilterMix, Mono16BitFirFilterMix, Stereo8BitFirFilterMix, Stereo16BitFirFilterMix,
|
|
Mono8BitFirFilterRampMix, Mono16BitFirFilterRampMix, Stereo8BitFirFilterRampMix,Stereo16BitFirFilterRampMix,
|
|
// FirFilter SRC, Filter
|
|
FilterMono8BitFirFilterMix, FilterMono16BitFirFilterMix, FilterStereo8BitFirFilterMix, FilterStereo16BitFirFilterMix,
|
|
FilterMono8BitFirFilterRampMix,FilterMono16BitFirFilterRampMix,FilterStereo8BitFirFilterRampMix,FilterStereo16BitFirFilterRampMix,
|
|
};
|
|
|
|
|
|
/////////////////////////////////////////////////////////////////////////
|
|
|
|
static LONG MPPFASTCALL GetSampleCount(MODCHANNEL *pChn, LONG nSamples)
|
|
//---------------------------------------------------------------------
|
|
{
|
|
LONG nLoopStart = (pChn->dwFlags & CHN_LOOP) ? pChn->nLoopStart : 0;
|
|
LONG nInc = pChn->nInc;
|
|
|
|
if ((nSamples <= 0) || (!nInc) || (!pChn->nLength)) return 0;
|
|
// Under zero ?
|
|
if ((LONG)pChn->nPos < nLoopStart)
|
|
{
|
|
if (nInc < 0)
|
|
{
|
|
// Invert loop for bidi loops
|
|
LONG nDelta = ((nLoopStart - pChn->nPos) << 16) - (pChn->nPosLo & 0xffff);
|
|
pChn->nPos = nLoopStart | (nDelta>>16);
|
|
pChn->nPosLo = nDelta & 0xffff;
|
|
if (((LONG)pChn->nPos < nLoopStart) || (pChn->nPos >= (nLoopStart+pChn->nLength)/2))
|
|
{
|
|
pChn->nPos = nLoopStart; pChn->nPosLo = 0;
|
|
}
|
|
nInc = -nInc;
|
|
pChn->nInc = nInc;
|
|
pChn->dwFlags &= ~(CHN_PINGPONGFLAG); // go forward
|
|
if ((!(pChn->dwFlags & CHN_LOOP)) || (pChn->nPos >= pChn->nLength))
|
|
{
|
|
pChn->nPos = pChn->nLength;
|
|
pChn->nPosLo = 0;
|
|
return 0;
|
|
}
|
|
} else
|
|
{
|
|
// We probably didn't hit the loop end yet (first loop), so we do nothing
|
|
if ((LONG)pChn->nPos < 0) pChn->nPos = 0;
|
|
}
|
|
} else
|
|
// Past the end
|
|
if (pChn->nPos >= pChn->nLength)
|
|
{
|
|
if (!(pChn->dwFlags & CHN_LOOP)) return 0; // not looping -> stop this channel
|
|
if (pChn->dwFlags & CHN_PINGPONGLOOP)
|
|
{
|
|
// Invert loop
|
|
if (nInc > 0)
|
|
{
|
|
nInc = -nInc;
|
|
pChn->nInc = nInc;
|
|
}
|
|
pChn->dwFlags |= CHN_PINGPONGFLAG;
|
|
// adjust loop position
|
|
LONG nDeltaHi = (pChn->nPos - pChn->nLength);
|
|
LONG nDeltaLo = 0x10000 - (pChn->nPosLo & 0xffff);
|
|
pChn->nPos = pChn->nLength - nDeltaHi - (nDeltaLo>>16);
|
|
pChn->nPosLo = nDeltaLo & 0xffff;
|
|
if ((pChn->nPos <= pChn->nLoopStart) || (pChn->nPos >= pChn->nLength)) pChn->nPos = pChn->nLength-1;
|
|
} else
|
|
{
|
|
if (nInc < 0) // This is a bug
|
|
{
|
|
nInc = -nInc;
|
|
pChn->nInc = nInc;
|
|
}
|
|
// Restart at loop start
|
|
pChn->nPos += nLoopStart - pChn->nLength;
|
|
if ((LONG)pChn->nPos < nLoopStart) pChn->nPos = pChn->nLoopStart;
|
|
}
|
|
}
|
|
LONG nPos = pChn->nPos;
|
|
// too big increment, and/or too small loop length
|
|
if (nPos < nLoopStart)
|
|
{
|
|
if ((nPos < 0) || (nInc < 0)) return 0;
|
|
}
|
|
if ((nPos < 0) || (nPos >= (LONG)pChn->nLength)) return 0;
|
|
LONG nPosLo = (USHORT)pChn->nPosLo, nSmpCount = nSamples;
|
|
if (nInc < 0)
|
|
{
|
|
LONG nInv = -nInc;
|
|
LONG maxsamples = 16384 / ((nInv>>16)+1);
|
|
if (maxsamples < 2) maxsamples = 2;
|
|
if (nSamples > maxsamples) nSamples = maxsamples;
|
|
LONG nDeltaHi = (nInv>>16) * (nSamples - 1);
|
|
LONG nDeltaLo = (nInv&0xffff) * (nSamples - 1);
|
|
LONG nPosDest = nPos - nDeltaHi + ((nPosLo - nDeltaLo) >> 16);
|
|
if (nPosDest < nLoopStart)
|
|
{
|
|
nSmpCount = (ULONG)(((((LONGLONG)nPos - nLoopStart) << 16) + nPosLo - 1) / nInv) + 1;
|
|
}
|
|
} else
|
|
{
|
|
LONG maxsamples = 16384 / ((nInc>>16)+1);
|
|
if (maxsamples < 2) maxsamples = 2;
|
|
if (nSamples > maxsamples) nSamples = maxsamples;
|
|
LONG nDeltaHi = (nInc>>16) * (nSamples - 1);
|
|
LONG nDeltaLo = (nInc&0xffff) * (nSamples - 1);
|
|
LONG nPosDest = nPos + nDeltaHi + ((nPosLo + nDeltaLo)>>16);
|
|
if (nPosDest >= (LONG)pChn->nLength)
|
|
{
|
|
nSmpCount = (ULONG)(((((LONGLONG)pChn->nLength - nPos) << 16) - nPosLo - 1) / nInc) + 1;
|
|
}
|
|
}
|
|
if (nSmpCount <= 1) return 1;
|
|
if (nSmpCount > nSamples) return nSamples;
|
|
return nSmpCount;
|
|
}
|
|
|
|
|
|
UINT CSoundFile::CreateStereoMix(int count)
|
|
//-----------------------------------------
|
|
{
|
|
LPLONG pOfsL, pOfsR;
|
|
DWORD nchused, nchmixed;
|
|
|
|
if (!count) return 0;
|
|
#ifndef FASTSOUNDLIB
|
|
if (gnChannels > 2) X86_InitMixBuffer(MixRearBuffer, count*2);
|
|
#endif
|
|
nchused = nchmixed = 0;
|
|
for (UINT nChn=0; nChn<m_nMixChannels; nChn++)
|
|
{
|
|
const LPMIXINTERFACE *pMixFuncTable;
|
|
MODCHANNEL * const pChannel = &Chn[ChnMix[nChn]];
|
|
UINT nFlags, nMasterCh;
|
|
LONG nSmpCount;
|
|
int nsamples;
|
|
int *pbuffer;
|
|
|
|
if (!pChannel->pCurrentSample) continue;
|
|
nMasterCh = (ChnMix[nChn] < m_nChannels) ? ChnMix[nChn]+1 : pChannel->nMasterChn;
|
|
pOfsR = &gnDryROfsVol;
|
|
pOfsL = &gnDryLOfsVol;
|
|
nFlags = 0;
|
|
if (pChannel->dwFlags & CHN_16BIT) nFlags |= MIXNDX_16BIT;
|
|
if (pChannel->dwFlags & CHN_STEREO) nFlags |= MIXNDX_STEREO;
|
|
#ifndef NO_FILTER
|
|
if (pChannel->dwFlags & CHN_FILTER) nFlags |= MIXNDX_FILTER;
|
|
#endif
|
|
if (!(pChannel->dwFlags & CHN_NOIDO))
|
|
{
|
|
// use hq-fir mixer?
|
|
if( (gdwSoundSetup & (SNDMIX_HQRESAMPLER|SNDMIX_ULTRAHQSRCMODE)) == (SNDMIX_HQRESAMPLER|SNDMIX_ULTRAHQSRCMODE) )
|
|
nFlags += MIXNDX_FIRSRC;
|
|
else if( (gdwSoundSetup & (SNDMIX_HQRESAMPLER)) == SNDMIX_HQRESAMPLER )
|
|
nFlags += MIXNDX_SPLINESRC;
|
|
else
|
|
nFlags += MIXNDX_LINEARSRC; // use
|
|
}
|
|
if ((nFlags < 0x40) && (pChannel->nLeftVol == pChannel->nRightVol)
|
|
&& ((!pChannel->nRampLength) || (pChannel->nLeftRamp == pChannel->nRightRamp)))
|
|
{
|
|
pMixFuncTable = gpFastMixFunctionTable;
|
|
} else
|
|
{
|
|
pMixFuncTable = gpMixFunctionTable;
|
|
}
|
|
nsamples = count;
|
|
#ifndef NO_REVERB
|
|
pbuffer = (gdwSoundSetup & SNDMIX_REVERB) ? MixReverbBuffer : MixSoundBuffer;
|
|
if (pChannel->dwFlags & CHN_NOREVERB) pbuffer = MixSoundBuffer;
|
|
if (pChannel->dwFlags & CHN_REVERB) pbuffer = MixReverbBuffer;
|
|
if (pbuffer == MixReverbBuffer)
|
|
{
|
|
if (!gnReverbSend) memset(MixReverbBuffer, 0, count * 8);
|
|
gnReverbSend += count;
|
|
}
|
|
#else
|
|
pbuffer = MixSoundBuffer;
|
|
#endif
|
|
nchused++;
|
|
////////////////////////////////////////////////////
|
|
SampleLooping:
|
|
UINT nrampsamples = nsamples;
|
|
if (pChannel->nRampLength > 0)
|
|
{
|
|
if ((LONG)nrampsamples > pChannel->nRampLength) nrampsamples = pChannel->nRampLength;
|
|
}
|
|
if ((nSmpCount = GetSampleCount(pChannel, nrampsamples)) <= 0)
|
|
{
|
|
// Stopping the channel
|
|
pChannel->pCurrentSample = NULL;
|
|
pChannel->nLength = 0;
|
|
pChannel->nPos = 0;
|
|
pChannel->nPosLo = 0;
|
|
pChannel->nRampLength = 0;
|
|
X86_EndChannelOfs(pChannel, pbuffer, nsamples);
|
|
*pOfsR += pChannel->nROfs;
|
|
*pOfsL += pChannel->nLOfs;
|
|
pChannel->nROfs = pChannel->nLOfs = 0;
|
|
pChannel->dwFlags &= ~CHN_PINGPONGFLAG;
|
|
continue;
|
|
}
|
|
// Should we mix this channel ?
|
|
UINT naddmix;
|
|
if (((nchmixed >= m_nMaxMixChannels) && (!(gdwSoundSetup & SNDMIX_DIRECTTODISK)))
|
|
|| ((!pChannel->nRampLength) && (!(pChannel->nLeftVol|pChannel->nRightVol))))
|
|
{
|
|
LONG delta = (pChannel->nInc * (LONG)nSmpCount) + (LONG)pChannel->nPosLo;
|
|
pChannel->nPosLo = delta & 0xFFFF;
|
|
pChannel->nPos += (delta >> 16);
|
|
pChannel->nROfs = pChannel->nLOfs = 0;
|
|
pbuffer += nSmpCount*2;
|
|
naddmix = 0;
|
|
} else
|
|
// Do mixing
|
|
{
|
|
// Choose function for mixing
|
|
LPMIXINTERFACE pMixFunc;
|
|
pMixFunc = (pChannel->nRampLength) ? pMixFuncTable[nFlags|MIXNDX_RAMP] : pMixFuncTable[nFlags];
|
|
int *pbufmax = pbuffer + (nSmpCount*2);
|
|
pChannel->nROfs = - *(pbufmax-2);
|
|
pChannel->nLOfs = - *(pbufmax-1);
|
|
pMixFunc(pChannel, pbuffer, pbufmax);
|
|
pChannel->nROfs += *(pbufmax-2);
|
|
pChannel->nLOfs += *(pbufmax-1);
|
|
pbuffer = pbufmax;
|
|
naddmix = 1;
|
|
|
|
}
|
|
nsamples -= nSmpCount;
|
|
if (pChannel->nRampLength)
|
|
{
|
|
pChannel->nRampLength -= nSmpCount;
|
|
if (pChannel->nRampLength <= 0)
|
|
{
|
|
pChannel->nRampLength = 0;
|
|
pChannel->nRightVol = pChannel->nNewRightVol;
|
|
pChannel->nLeftVol = pChannel->nNewLeftVol;
|
|
pChannel->nRightRamp = pChannel->nLeftRamp = 0;
|
|
if ((pChannel->dwFlags & CHN_NOTEFADE) && (!(pChannel->nFadeOutVol)))
|
|
{
|
|
pChannel->nLength = 0;
|
|
pChannel->pCurrentSample = NULL;
|
|
}
|
|
}
|
|
}
|
|
if (nsamples > 0) goto SampleLooping;
|
|
nchmixed += naddmix;
|
|
}
|
|
return nchused;
|
|
}
|
|
|
|
|
|
#ifdef MSC_VER
|
|
#pragma warning (disable:4100)
|
|
#endif
|
|
|
|
// Clip and convert to 8 bit
|
|
#ifdef MSC_VER
|
|
__declspec(naked) DWORD MPPASMCALL X86_Convert32To8(LPVOID lp16, int *pBuffer, DWORD lSampleCount, LPLONG lpMin, LPLONG lpMax)
|
|
//----------------------------------------------------------------------------------------------------------------------------
|
|
{
|
|
_asm {
|
|
push ebx
|
|
push esi
|
|
push edi
|
|
mov ebx, 16[esp] // ebx = 8-bit buffer
|
|
mov esi, 20[esp] // esi = pBuffer
|
|
mov edi, 24[esp] // edi = lSampleCount
|
|
mov eax, 28[esp]
|
|
mov ecx, dword ptr [eax] // ecx = clipmin
|
|
mov eax, 32[esp]
|
|
mov edx, dword ptr [eax] // edx = clipmax
|
|
cliploop:
|
|
mov eax, dword ptr [esi]
|
|
inc ebx
|
|
cdq
|
|
and edx, (1 << (24-MIXING_ATTENUATION)) - 1
|
|
add eax, edx
|
|
cmp eax, MIXING_CLIPMIN
|
|
jl cliplow
|
|
cmp eax, MIXING_CLIPMAX
|
|
jg cliphigh
|
|
cmp eax, ecx
|
|
jl updatemin
|
|
cmp eax, edx
|
|
jg updatemax
|
|
cliprecover:
|
|
add esi, 4
|
|
sar eax, 24-MIXING_ATTENUATION
|
|
xor eax, 0x80
|
|
dec edi
|
|
mov byte ptr [ebx-1], al
|
|
jnz cliploop
|
|
mov eax, 28[esp]
|
|
mov dword ptr [eax], ecx
|
|
mov eax, 32[esp]
|
|
mov dword ptr [eax], edx
|
|
mov eax, 24[esp]
|
|
pop edi
|
|
pop esi
|
|
pop ebx
|
|
ret
|
|
updatemin:
|
|
mov ecx, eax
|
|
jmp cliprecover
|
|
updatemax:
|
|
mov edx, eax
|
|
jmp cliprecover
|
|
cliplow:
|
|
mov ecx, MIXING_CLIPMIN
|
|
mov edx, MIXING_CLIPMAX
|
|
mov eax, MIXING_CLIPMIN
|
|
jmp cliprecover
|
|
cliphigh:
|
|
mov ecx, MIXING_CLIPMIN
|
|
mov edx, MIXING_CLIPMAX
|
|
mov eax, MIXING_CLIPMAX
|
|
jmp cliprecover
|
|
}
|
|
}
|
|
#else //MSC_VER
|
|
//---GCCFIX: Asm replaced with C function
|
|
// The C version was written by Rani Assaf <rani@magic.metawire.com>, I believe
|
|
DWORD MPPASMCALL X86_Convert32To8(LPVOID lp8, int *pBuffer, DWORD lSampleCount, LPLONG lpMin, LPLONG lpMax)
|
|
{
|
|
int vumin = *lpMin, vumax = *lpMax;
|
|
unsigned char *p = (unsigned char *)lp8;
|
|
for (UINT i=0; i<lSampleCount; i++)
|
|
{
|
|
int n = pBuffer[i];
|
|
if (n < MIXING_CLIPMIN)
|
|
n = MIXING_CLIPMIN;
|
|
else if (n > MIXING_CLIPMAX)
|
|
n = MIXING_CLIPMAX;
|
|
if (n < vumin)
|
|
vumin = n;
|
|
else if (n > vumax)
|
|
vumax = n;
|
|
p[i] = (n >> (24-MIXING_ATTENUATION)) ^ 0x80; // 8-bit unsigned
|
|
}
|
|
*lpMin = vumin;
|
|
*lpMax = vumax;
|
|
return lSampleCount;
|
|
}
|
|
#endif //MSC_VER, else
|
|
|
|
|
|
#ifdef MSC_VER
|
|
// Clip and convert to 16 bit
|
|
__declspec(naked) DWORD MPPASMCALL X86_Convert32To16(LPVOID lp16, int *pBuffer, DWORD lSampleCount, LPLONG lpMin, LPLONG lpMax)
|
|
//-----------------------------------------------------------------------------------------------------------------------------
|
|
{
|
|
_asm {
|
|
push ebx
|
|
push esi
|
|
push edi
|
|
mov ebx, 16[esp] // ebx = 16-bit buffer
|
|
mov eax, 28[esp]
|
|
mov esi, 20[esp] // esi = pBuffer
|
|
mov ecx, dword ptr [eax] // ecx = clipmin
|
|
mov edi, 24[esp] // edi = lSampleCount
|
|
mov eax, 32[esp]
|
|
push ebp
|
|
mov ebp, dword ptr [eax] // edx = clipmax
|
|
cliploop:
|
|
mov eax, dword ptr [esi]
|
|
add ebx, 2
|
|
cdq
|
|
and edx, (1 << (16-MIXING_ATTENUATION)) - 1
|
|
add esi, 4
|
|
add eax, edx
|
|
cmp eax, MIXING_CLIPMIN
|
|
jl cliplow
|
|
cmp eax, MIXING_CLIPMAX
|
|
jg cliphigh
|
|
cmp eax, ecx
|
|
jl updatemin
|
|
cmp eax, ebp
|
|
jg updatemax
|
|
cliprecover:
|
|
sar eax, 16-MIXING_ATTENUATION
|
|
dec edi
|
|
mov word ptr [ebx-2], ax
|
|
jnz cliploop
|
|
mov edx, ebp
|
|
pop ebp
|
|
mov eax, 28[esp]
|
|
mov dword ptr [eax], ecx
|
|
mov eax, 32[esp]
|
|
mov dword ptr [eax], edx
|
|
mov eax, 24[esp]
|
|
pop edi
|
|
shl eax, 1
|
|
pop esi
|
|
pop ebx
|
|
ret
|
|
updatemin:
|
|
mov ecx, eax
|
|
jmp cliprecover
|
|
updatemax:
|
|
mov ebp, eax
|
|
jmp cliprecover
|
|
cliplow:
|
|
mov ecx, MIXING_CLIPMIN
|
|
mov ebp, MIXING_CLIPMAX
|
|
mov eax, MIXING_CLIPMIN
|
|
jmp cliprecover
|
|
cliphigh:
|
|
mov ecx, MIXING_CLIPMIN
|
|
mov ebp, MIXING_CLIPMAX
|
|
mov eax, MIXING_CLIPMAX
|
|
jmp cliprecover
|
|
}
|
|
}
|
|
#else //MSC_VER
|
|
//---GCCFIX: Asm replaced with C function
|
|
// The C version was written by Rani Assaf <rani@magic.metawire.com>, I believe
|
|
DWORD MPPASMCALL X86_Convert32To16(LPVOID lp16, int *pBuffer, DWORD lSampleCount, LPLONG lpMin, LPLONG lpMax)
|
|
{
|
|
int vumin = *lpMin, vumax = *lpMax;
|
|
signed short *p = (signed short *)lp16;
|
|
for (UINT i=0; i<lSampleCount; i++)
|
|
{
|
|
int n = pBuffer[i];
|
|
if (n < MIXING_CLIPMIN)
|
|
n = MIXING_CLIPMIN;
|
|
else if (n > MIXING_CLIPMAX)
|
|
n = MIXING_CLIPMAX;
|
|
if (n < vumin)
|
|
vumin = n;
|
|
else if (n > vumax)
|
|
vumax = n;
|
|
p[i] = n >> (16-MIXING_ATTENUATION); // 16-bit signed
|
|
}
|
|
*lpMin = vumin;
|
|
*lpMax = vumax;
|
|
return lSampleCount * 2;
|
|
}
|
|
#endif //MSC_VER, else
|
|
|
|
#ifdef MSC_VER
|
|
// Clip and convert to 24 bit
|
|
__declspec(naked) DWORD MPPASMCALL X86_Convert32To24(LPVOID lp16, int *pBuffer, DWORD lSampleCount, LPLONG lpMin, LPLONG lpMax)
|
|
//-----------------------------------------------------------------------------------------------------------------------------
|
|
{
|
|
_asm {
|
|
push ebx
|
|
push esi
|
|
push edi
|
|
mov ebx, 16[esp] // ebx = 8-bit buffer
|
|
mov esi, 20[esp] // esi = pBuffer
|
|
mov edi, 24[esp] // edi = lSampleCount
|
|
mov eax, 28[esp]
|
|
mov ecx, dword ptr [eax] // ecx = clipmin
|
|
mov eax, 32[esp]
|
|
push ebp
|
|
mov edx, dword ptr [eax] // edx = clipmax
|
|
cliploop:
|
|
mov eax, dword ptr [esi]
|
|
mov ebp, eax
|
|
sar ebp, 31
|
|
and ebp, (1 << (8-MIXING_ATTENUATION)) - 1
|
|
add eax, ebp
|
|
cmp eax, MIXING_CLIPMIN
|
|
jl cliplow
|
|
cmp eax, MIXING_CLIPMAX
|
|
jg cliphigh
|
|
cmp eax, ecx
|
|
jl updatemin
|
|
cmp eax, edx
|
|
jg updatemax
|
|
cliprecover:
|
|
add ebx, 3
|
|
sar eax, 8-MIXING_ATTENUATION
|
|
add esi, 4
|
|
mov word ptr [ebx-3], ax
|
|
shr eax, 16
|
|
dec edi
|
|
mov byte ptr [ebx-1], al
|
|
jnz cliploop
|
|
pop ebp
|
|
mov eax, 28[esp]
|
|
mov dword ptr [eax], ecx
|
|
mov eax, 32[esp]
|
|
mov dword ptr [eax], edx
|
|
mov edx, 24[esp]
|
|
mov eax, edx
|
|
pop edi
|
|
shl eax, 1
|
|
pop esi
|
|
add eax, edx
|
|
pop ebx
|
|
ret
|
|
updatemin:
|
|
mov ecx, eax
|
|
jmp cliprecover
|
|
updatemax:
|
|
mov edx, eax
|
|
jmp cliprecover
|
|
cliplow:
|
|
mov ecx, MIXING_CLIPMIN
|
|
mov edx, MIXING_CLIPMAX
|
|
mov eax, MIXING_CLIPMIN
|
|
jmp cliprecover
|
|
cliphigh:
|
|
mov ecx, MIXING_CLIPMIN
|
|
mov edx, MIXING_CLIPMAX
|
|
mov eax, MIXING_CLIPMAX
|
|
jmp cliprecover
|
|
}
|
|
}
|
|
#else //MSC_VER
|
|
//---GCCFIX: Asm replaced with C function
|
|
// 24-bit audio not supported.
|
|
DWORD MPPASMCALL X86_Convert32To24(LPVOID lp16, int *pBuffer, DWORD lSampleCount, LPLONG lpMin, LPLONG lpMax)
|
|
{
|
|
return 0;
|
|
}
|
|
#endif
|
|
|
|
#ifdef MSC_VER
|
|
// Clip and convert to 32 bit
|
|
__declspec(naked) DWORD MPPASMCALL X86_Convert32To32(LPVOID lp16, int *pBuffer, DWORD lSampleCount, LPLONG lpMin, LPLONG lpMax)
|
|
//-----------------------------------------------------------------------------------------------------------------------------
|
|
{
|
|
_asm {
|
|
push ebx
|
|
push esi
|
|
push edi
|
|
mov ebx, 16[esp] // ebx = 32-bit buffer
|
|
mov esi, 20[esp] // esi = pBuffer
|
|
mov edi, 24[esp] // edi = lSampleCount
|
|
mov eax, 28[esp]
|
|
mov ecx, dword ptr [eax] // ecx = clipmin
|
|
mov eax, 32[esp]
|
|
mov edx, dword ptr [eax] // edx = clipmax
|
|
cliploop:
|
|
mov eax, dword ptr [esi]
|
|
add ebx, 4
|
|
add esi, 4
|
|
cmp eax, MIXING_CLIPMIN
|
|
jl cliplow
|
|
cmp eax, MIXING_CLIPMAX
|
|
jg cliphigh
|
|
cmp eax, ecx
|
|
jl updatemin
|
|
cmp eax, edx
|
|
jg updatemax
|
|
cliprecover:
|
|
shl eax, MIXING_ATTENUATION
|
|
dec edi
|
|
mov dword ptr [ebx-4], eax
|
|
jnz cliploop
|
|
mov eax, 28[esp]
|
|
mov dword ptr [eax], ecx
|
|
mov eax, 32[esp]
|
|
mov dword ptr [eax], edx
|
|
mov edx, 24[esp]
|
|
pop edi
|
|
mov eax, edx
|
|
pop esi
|
|
shl eax, 2
|
|
pop ebx
|
|
ret
|
|
updatemin:
|
|
mov ecx, eax
|
|
jmp cliprecover
|
|
updatemax:
|
|
mov edx, eax
|
|
jmp cliprecover
|
|
cliplow:
|
|
mov ecx, MIXING_CLIPMIN
|
|
mov edx, MIXING_CLIPMAX
|
|
mov eax, MIXING_CLIPMIN
|
|
jmp cliprecover
|
|
cliphigh:
|
|
mov ecx, MIXING_CLIPMIN
|
|
mov edx, MIXING_CLIPMAX
|
|
mov eax, MIXING_CLIPMAX
|
|
jmp cliprecover
|
|
}
|
|
}
|
|
#else
|
|
//---GCCFIX: Asm replaced with C function
|
|
// 32-bit audio not supported
|
|
DWORD MPPASMCALL X86_Convert32To32(LPVOID lp16, int *pBuffer, DWORD lSampleCount, LPLONG lpMin, LPLONG lpMax)
|
|
{
|
|
return 0;
|
|
}
|
|
#endif
|
|
|
|
|
|
#ifdef MSC_VER
|
|
void MPPASMCALL X86_InitMixBuffer(int *pBuffer, UINT nSamples)
|
|
//------------------------------------------------------------
|
|
{
|
|
_asm {
|
|
mov ecx, nSamples
|
|
mov esi, pBuffer
|
|
xor eax, eax
|
|
mov edx, ecx
|
|
shr ecx, 2
|
|
and edx, 3
|
|
jz unroll4x
|
|
loop1x:
|
|
add esi, 4
|
|
dec edx
|
|
mov dword ptr [esi-4], eax
|
|
jnz loop1x
|
|
unroll4x:
|
|
or ecx, ecx
|
|
jnz loop4x
|
|
jmp done
|
|
loop4x:
|
|
add esi, 16
|
|
dec ecx
|
|
mov dword ptr [esi-16], eax
|
|
mov dword ptr [esi-12], eax
|
|
mov dword ptr [esi-8], eax
|
|
mov dword ptr [esi-4], eax
|
|
jnz loop4x
|
|
done:;
|
|
}
|
|
}
|
|
#else
|
|
//---GCCFIX: Asm replaced with C function
|
|
// Will fill in later.
|
|
void MPPASMCALL X86_InitMixBuffer(int *pBuffer, UINT nSamples)
|
|
{
|
|
memset(pBuffer, 0, nSamples * sizeof(int));
|
|
}
|
|
#endif
|
|
|
|
|
|
#ifdef MSC_VER
|
|
__declspec(naked) void MPPASMCALL X86_InterleaveFrontRear(int *pFrontBuf, int *pRearBuf, DWORD nSamples)
|
|
//------------------------------------------------------------------------------------------------------
|
|
{
|
|
_asm {
|
|
push ebx
|
|
push ebp
|
|
push esi
|
|
push edi
|
|
mov ecx, 28[esp] // ecx = samplecount
|
|
mov esi, 20[esp] // esi = front buffer
|
|
mov edi, 24[esp] // edi = rear buffer
|
|
lea esi, [esi+ecx*4] // esi = &front[N]
|
|
lea edi, [edi+ecx*4] // edi = &rear[N]
|
|
lea ebx, [esi+ecx*4] // ebx = &front[N*2]
|
|
interleaveloop:
|
|
mov eax, dword ptr [esi-8]
|
|
mov edx, dword ptr [esi-4]
|
|
sub ebx, 16
|
|
mov ebp, dword ptr [edi-8]
|
|
mov dword ptr [ebx], eax
|
|
mov dword ptr [ebx+4], edx
|
|
mov eax, dword ptr [edi-4]
|
|
sub esi, 8
|
|
sub edi, 8
|
|
dec ecx
|
|
mov dword ptr [ebx+8], ebp
|
|
mov dword ptr [ebx+12], eax
|
|
jnz interleaveloop
|
|
pop edi
|
|
pop esi
|
|
pop ebp
|
|
pop ebx
|
|
ret
|
|
}
|
|
}
|
|
#else
|
|
//---GCCFIX: Asm replaced with C function
|
|
// Multichannel not supported.
|
|
void MPPASMCALL X86_InterleaveFrontRear(int *pFrontBuf, int *pRearBuf, DWORD nSamples)
|
|
{
|
|
}
|
|
#endif
|
|
|
|
|
|
#ifdef MSC_VER
|
|
VOID MPPASMCALL X86_MonoFromStereo(int *pMixBuf, UINT nSamples)
|
|
//-------------------------------------------------------------
|
|
{
|
|
_asm {
|
|
mov ecx, nSamples
|
|
mov esi, pMixBuf
|
|
mov edi, esi
|
|
stloop:
|
|
mov eax, dword ptr [esi]
|
|
mov edx, dword ptr [esi+4]
|
|
add edi, 4
|
|
add esi, 8
|
|
add eax, edx
|
|
sar eax, 1
|
|
dec ecx
|
|
mov dword ptr [edi-4], eax
|
|
jnz stloop
|
|
}
|
|
}
|
|
#else
|
|
//---GCCFIX: Asm replaced with C function
|
|
VOID MPPASMCALL X86_MonoFromStereo(int *pMixBuf, UINT nSamples)
|
|
{
|
|
UINT j;
|
|
for(UINT i = 0; i < nSamples; i++)
|
|
{
|
|
j = i << 1;
|
|
pMixBuf[i] = (pMixBuf[j] + pMixBuf[j + 1]) >> 1;
|
|
}
|
|
}
|
|
#endif
|
|
|
|
#define OFSDECAYSHIFT 8
|
|
#define OFSDECAYMASK 0xFF
|
|
|
|
|
|
#ifdef MSC_VER
|
|
void MPPASMCALL X86_StereoFill(int *pBuffer, UINT nSamples, LPLONG lpROfs, LPLONG lpLOfs)
|
|
//---------------------------------------------------------------------------------------
|
|
{
|
|
_asm {
|
|
mov edi, pBuffer
|
|
mov ecx, nSamples
|
|
mov eax, lpROfs
|
|
mov edx, lpLOfs
|
|
mov eax, [eax]
|
|
mov edx, [edx]
|
|
or ecx, ecx
|
|
jz fill_loop
|
|
mov ebx, eax
|
|
or ebx, edx
|
|
jz fill_loop
|
|
ofsloop:
|
|
mov ebx, eax
|
|
mov esi, edx
|
|
neg ebx
|
|
neg esi
|
|
sar ebx, 31
|
|
sar esi, 31
|
|
and ebx, OFSDECAYMASK
|
|
and esi, OFSDECAYMASK
|
|
add ebx, eax
|
|
add esi, edx
|
|
sar ebx, OFSDECAYSHIFT
|
|
sar esi, OFSDECAYSHIFT
|
|
sub eax, ebx
|
|
sub edx, esi
|
|
mov ebx, eax
|
|
or ebx, edx
|
|
jz fill_loop
|
|
add edi, 8
|
|
dec ecx
|
|
mov [edi-8], eax
|
|
mov [edi-4], edx
|
|
jnz ofsloop
|
|
fill_loop:
|
|
mov ebx, ecx
|
|
and ebx, 3
|
|
jz fill4x
|
|
fill1x:
|
|
mov [edi], eax
|
|
mov [edi+4], edx
|
|
add edi, 8
|
|
dec ebx
|
|
jnz fill1x
|
|
fill4x:
|
|
shr ecx, 2
|
|
or ecx, ecx
|
|
jz done
|
|
fill4xloop:
|
|
mov [edi], eax
|
|
mov [edi+4], edx
|
|
mov [edi+8], eax
|
|
mov [edi+12], edx
|
|
add edi, 8*4
|
|
dec ecx
|
|
mov [edi-16], eax
|
|
mov [edi-12], edx
|
|
mov [edi-8], eax
|
|
mov [edi-4], edx
|
|
jnz fill4xloop
|
|
done:
|
|
mov esi, lpROfs
|
|
mov edi, lpLOfs
|
|
mov [esi], eax
|
|
mov [edi], edx
|
|
}
|
|
}
|
|
#else
|
|
//---GCCFIX: Asm replaced with C function
|
|
#define OFSDECAYSHIFT 8
|
|
#define OFSDECAYMASK 0xFF
|
|
void MPPASMCALL X86_StereoFill(int *pBuffer, UINT nSamples, LPLONG lpROfs, LPLONG lpLOfs)
|
|
//---------------------------------------------------------------------------------------------------------
|
|
{
|
|
int rofs = *lpROfs;
|
|
int lofs = *lpLOfs;
|
|
|
|
if ((!rofs) && (!lofs))
|
|
{
|
|
X86_InitMixBuffer(pBuffer, nSamples*2);
|
|
return;
|
|
}
|
|
for (UINT i=0; i<nSamples; i++)
|
|
{
|
|
int x_r = (rofs + (((-rofs)>>31) & OFSDECAYMASK)) >> OFSDECAYSHIFT;
|
|
int x_l = (lofs + (((-lofs)>>31) & OFSDECAYMASK)) >> OFSDECAYSHIFT;
|
|
rofs -= x_r;
|
|
lofs -= x_l;
|
|
pBuffer[i*2] = x_r;
|
|
pBuffer[i*2+1] = x_l;
|
|
}
|
|
*lpROfs = rofs;
|
|
*lpLOfs = lofs;
|
|
}
|
|
#endif
|
|
|
|
#ifdef MSC_VER
|
|
void MPPASMCALL X86_EndChannelOfs(MODCHANNEL *pChannel, int *pBuffer, UINT nSamples)
|
|
//----------------------------------------------------------------------------------
|
|
{
|
|
_asm {
|
|
mov esi, pChannel
|
|
mov edi, pBuffer
|
|
mov ecx, nSamples
|
|
mov eax, dword ptr [esi+MODCHANNEL.nROfs]
|
|
mov edx, dword ptr [esi+MODCHANNEL.nLOfs]
|
|
or ecx, ecx
|
|
jz brkloop
|
|
ofsloop:
|
|
mov ebx, eax
|
|
mov esi, edx
|
|
neg ebx
|
|
neg esi
|
|
sar ebx, 31
|
|
sar esi, 31
|
|
and ebx, OFSDECAYMASK
|
|
and esi, OFSDECAYMASK
|
|
add ebx, eax
|
|
add esi, edx
|
|
sar ebx, OFSDECAYSHIFT
|
|
sar esi, OFSDECAYSHIFT
|
|
sub eax, ebx
|
|
sub edx, esi
|
|
mov ebx, eax
|
|
add dword ptr [edi], eax
|
|
add dword ptr [edi+4], edx
|
|
or ebx, edx
|
|
jz brkloop
|
|
add edi, 8
|
|
dec ecx
|
|
jnz ofsloop
|
|
brkloop:
|
|
mov esi, pChannel
|
|
mov dword ptr [esi+MODCHANNEL.nROfs], eax
|
|
mov dword ptr [esi+MODCHANNEL.nLOfs], edx
|
|
}
|
|
}
|
|
#else
|
|
//---GCCFIX: Asm replaced with C function
|
|
// Will fill in later.
|
|
void MPPASMCALL X86_EndChannelOfs(MODCHANNEL *pChannel, int *pBuffer, UINT nSamples)
|
|
{
|
|
int rofs = pChannel->nROfs;
|
|
int lofs = pChannel->nLOfs;
|
|
|
|
if ((!rofs) && (!lofs)) return;
|
|
for (UINT i=0; i<nSamples; i++)
|
|
{
|
|
int x_r = (rofs + (((-rofs)>>31) & OFSDECAYMASK)) >> OFSDECAYSHIFT;
|
|
int x_l = (lofs + (((-lofs)>>31) & OFSDECAYMASK)) >> OFSDECAYSHIFT;
|
|
rofs -= x_r;
|
|
lofs -= x_l;
|
|
pBuffer[i*2] += x_r;
|
|
pBuffer[i*2+1] += x_l;
|
|
}
|
|
pChannel->nROfs = rofs;
|
|
pChannel->nLOfs = lofs;
|
|
}
|
|
#endif
|
|
|
|
|
|
//////////////////////////////////////////////////////////////////////////////////
|
|
// Automatic Gain Control
|
|
|
|
#ifndef NO_AGC
|
|
|
|
// Limiter
|
|
#define MIXING_LIMITMAX (0x08100000)
|
|
#define MIXING_LIMITMIN (-MIXING_LIMITMAX)
|
|
|
|
__declspec(naked) UINT MPPASMCALL X86_AGC(int *pBuffer, UINT nSamples, UINT nAGC)
|
|
//-------------------------------------------------------------------------------
|
|
{
|
|
__asm {
|
|
push ebx
|
|
push ebp
|
|
push esi
|
|
push edi
|
|
mov esi, 20[esp] // esi = pBuffer+i
|
|
mov ecx, 24[esp] // ecx = i
|
|
mov edi, 28[esp] // edi = AGC (0..256)
|
|
agcloop:
|
|
mov eax, dword ptr [esi]
|
|
imul edi
|
|
shrd eax, edx, AGC_PRECISION
|
|
add esi, 4
|
|
cmp eax, MIXING_LIMITMIN
|
|
jl agcupdate
|
|
cmp eax, MIXING_LIMITMAX
|
|
jg agcupdate
|
|
agcrecover:
|
|
dec ecx
|
|
mov dword ptr [esi-4], eax
|
|
jnz agcloop
|
|
mov eax, edi
|
|
pop edi
|
|
pop esi
|
|
pop ebp
|
|
pop ebx
|
|
ret
|
|
agcupdate:
|
|
dec edi
|
|
jmp agcrecover
|
|
}
|
|
}
|
|
|
|
#pragma warning (default:4100)
|
|
|
|
void CSoundFile::ProcessAGC(int count)
|
|
//------------------------------------
|
|
{
|
|
static DWORD gAGCRecoverCount = 0;
|
|
UINT agc = X86_AGC(MixSoundBuffer, count, gnAGC);
|
|
// Some kind custom law, so that the AGC stays quite stable, but slowly
|
|
// goes back up if the sound level stays below a level inversely proportional
|
|
// to the AGC level. (J'me comprends)
|
|
if ((agc >= gnAGC) && (gnAGC < AGC_UNITY) && (gnVUMeter < (0xFF - (gnAGC >> (AGC_PRECISION-7))) ))
|
|
{
|
|
gAGCRecoverCount += count;
|
|
UINT agctimeout = gdwMixingFreq + gnAGC;
|
|
if (gnChannels >= 2) agctimeout <<= 1;
|
|
if (gAGCRecoverCount >= agctimeout)
|
|
{
|
|
gAGCRecoverCount = 0;
|
|
gnAGC++;
|
|
}
|
|
} else
|
|
{
|
|
gnAGC = agc;
|
|
gAGCRecoverCount = 0;
|
|
}
|
|
}
|
|
|
|
|
|
|
|
void CSoundFile::ResetAGC()
|
|
//-------------------------
|
|
{
|
|
gnAGC = AGC_UNITY;
|
|
}
|
|
|
|
#endif // NO_AGC
|
|
|