242 regels
5.3 KiB
C
242 regels
5.3 KiB
C
#ifdef cmProcTemplateCode_h
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//-----------------------------------------------------------------------------------------------------------
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// FFT
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//
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CLASS(Fft)* MEMBER(FftAlloc)( cmCtx* c, CLASS(Fft)* ap, T0* inPtr, unsigned wndSmpCnt, unsigned flags )
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{
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CLASS(Fft)* p = cmObjAlloc( CLASS(Fft), c, ap );
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if( wndSmpCnt > 0 )
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if( MEMBER(FftInit)( p,inPtr,wndSmpCnt,flags) != cmOkRC )
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MEMBER(FftFree)(&p);
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return p;
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}
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cmRC_t MEMBER(FftFree)( CLASS(Fft)** pp )
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{
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if( pp != NULL && *pp != NULL )
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{
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CLASS(Fft)* p = *pp;
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if( MEMBER(FftFinal)( *pp ) == cmOkRC )
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{
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cmMemPtrFree( &p->complexV );
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cmMemPtrFree( &p->magV );
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cmMemPtrFree( &p->phsV);
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if( p->copyFl )
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cmMemPtrFree( &p->inPtr );
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cmObjFree(pp);
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}
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}
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return cmOkRC;
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}
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cmRC_t MEMBER(FftInit)( CLASS(Fft)* p, T0* inPtr, unsigned wndSmpCnt, unsigned flags )
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{
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cmRC_t rc;
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if( cmIsPowerOfTwo(wndSmpCnt) == false )
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return cmCtxRtAssertFailed(&p->obj,cmArgAssertRC,"The FFT window sample count (%i) is not a power of two.",wndSmpCnt);
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if((rc = MEMBER(FftFinal)(p)) != cmOkRC )
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return rc;
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p->wndSmpCnt = wndSmpCnt;
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p->binCnt = wndSmpCnt / 2 + 1;
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p->flags = flags;
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p->magV = cmMemResize( T1, p->magV, p->binCnt );
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p->phsV = cmMemResize( T1, p->phsV, p->binCnt );
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p->copyFl = inPtr == NULL;
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p->complexV = cmMemResize( COMPLEX_T0, p->complexV, p->wndSmpCnt );
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p->inPtr = p->copyFl ? cmMemResizeZ( T0, p->inPtr, p->wndSmpCnt ) : inPtr;
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p->plan = FFT_FUNC_T0(FftPlanAlloc)( p->wndSmpCnt, p->inPtr, p->complexV, FFTW_ESTIMATE );
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//p->mfp = cmCtxAllocDebugFile( p->obj.ctx,"fft");
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return cmOkRC;
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}
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cmRC_t MEMBER(FftFinal)( CLASS(Fft)* p )
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{
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if( p != NULL )
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{
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//cmCtxFreeDebugFile(p->obj.ctx, &p->mfp);
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if( p->plan != NULL )
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{
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FFT_FUNC_T0(FftPlanFree)( p->plan );
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p->plan = NULL;
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}
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}
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return cmOkRC;
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}
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cmRC_t MEMBER(FftExec)( CLASS(Fft)* p, const T0* sp, unsigned sn )
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{
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// if a fixed input buffer is not being used then copy in the source samples
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if( sp != NULL && p->copyFl == true )
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{
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assert( p->inPtr != NULL );
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unsigned n = cmMin(sn,p->wndSmpCnt);
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VOP_T0(Copy)( p->inPtr,n, sp );
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if( n < p->wndSmpCnt )
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VOP_T0(Fill)( p->inPtr+n, p->wndSmpCnt-n, 0 );
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}
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// perform the Fourier transform
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FFT_FUNC_T0(FftExecute)(p->plan);
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COMPLEX_T0* cp = p->complexV;
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T1* mp = p->magV;
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T1* pp = p->phsV;
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T1* ep = mp + p->binCnt;
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// if polar conversion was requested
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if( cmIsFlag(p->flags, kToPolarFftFl ) )
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{
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while( mp < ep )
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{
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*mp++ = cmCabsR(*cp);
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*pp++ = cmCargR(*cp++);
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}
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}
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else
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// if rectangular splitting was requested
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if( cmIsFlag(p->flags, kToRectFftFl ) )
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{
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while( mp < ep )
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{
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*mp++ = cmCrealR(*cp);
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*pp++ = cmCimagR(*cp++);
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}
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}
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/*
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if( p->mfp != NULL )
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{
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cmMtxFileRealExec( p->mfp, p->magV, p->binCnt );
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cmMtxFileRealExec( p->mfp, p->phsV, p->binCnt );
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}
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*/
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return cmOkRC;
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}
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//-----------------------------------------------------------------------------------------------------------
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// IFft
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//
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CLASS(IFft)* MEMBER(IFftAlloc)( cmCtx* c, CLASS(IFft)* ap, unsigned binCnt )
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{
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CLASS(IFft)* p = cmObjAlloc( CLASS(IFft), c, ap );
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if( binCnt > 0 )
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if( MEMBER(IFftInit)( p,binCnt) != cmOkRC )
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MEMBER(IFftFree)(&p);
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return p;
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}
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cmRC_t MEMBER(IFftFree)( CLASS(IFft)** pp )
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{
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if( pp != NULL && pp != NULL)
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{
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CLASS(IFft)* p = *pp;
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if( MEMBER(IFftFinal)(p) == cmOkRC )
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{
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cmMemPtrFree(&p->complexV);
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cmMemPtrFree(&p->outV);
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cmObjFree(pp);
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}
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}
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return cmOkRC;
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}
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cmRC_t MEMBER(IFftInit)( CLASS(IFft)* p, unsigned binCnt )
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{
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cmRC_t rc;
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if((rc = MEMBER(IFftFinal)(p)) != cmOkRC )
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return rc;
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p->outN = (binCnt-1)*2;
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p->outV = cmMemResizeZ(T1, p->outV, p->outN);
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p->complexV = cmMemResizeZ(COMPLEX_T1, p->complexV,p->outN);
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if( p->binCnt != binCnt )
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{
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p->binCnt = binCnt;
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p->plan = FFT_FUNC_T1(IFftPlanAlloc)( p->outN, p->complexV, p->outV, FFTW_ESTIMATE );
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}
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return cmOkRC;
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}
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cmRC_t MEMBER(IFftFinal)( CLASS(IFft)* p )
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{ return cmOkRC; }
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// x must contain 'binCnt' elements.
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cmRC_t MEMBER(IFftExec)( CLASS(IFft)* p, COMPLEX_T0* x )
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{
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unsigned i,j;
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if( x != NULL )
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for(i=0; i<p->binCnt; ++i)
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p->complexV[i] = x[i];
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for(i=p->outN-1,j=1; j<p->binCnt-1; --i,++j)
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p->complexV[i] = (COMPLEX_T1)conj(p->complexV[j]);
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FFT_FUNC_T1(FftExecute)(p->plan);
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return cmOkRC;
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}
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cmRC_t MEMBER(IFftExecPolar)( CLASS(IFft)* p, const T0* magV, const T0* phsV )
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{
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unsigned i,j;
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for(i=0; i<p->binCnt; ++i)
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p->complexV[i] = (COMPLEX_T1)(magV[i] * cos(phsV[i])) + (magV[i] * I * sin(phsV[i]));
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for(i=p->outN-1,j=1; j<p->binCnt-1; --i,++j)
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p->complexV[i] = (COMPLEX_T1)(magV[j] * cos(phsV[j])) + (magV[j] * I * sin(phsV[j]));
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FFT_FUNC_T1(FftExecute)(p->plan);
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return cmOkRC;
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}
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cmRC_t MEMBER(IFftExecRect)( CLASS(IFft)* p, const T0* rV, const T0* iV )
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{
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unsigned i,j;
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for(i=0; i<p->binCnt; ++i)
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p->complexV[i] = rV[i] + (I * iV[i]);
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for(i=p->outN-1,j=1; j<p->binCnt-1; --i,++j)
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p->complexV[i] = rV[j] + (I * iV[j]);
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FFT_FUNC_T1(FftExecute)(p->plan);
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return cmOkRC;
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}
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#endif
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