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220 lines
5.4 KiB
C
220 lines
5.4 KiB
C
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/* Viterbi decoder for arbitrary convolutional code
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* viterbi27 and viterbi37 for the r=1/2 and r=1/3 K=7 codes are faster
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* Copyright 1999 Phil Karn, KA9Q
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* May be used under the terms of the GNU Public License
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*/
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/* Select code here */
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#define V216
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#ifdef V216
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#define K 16 /* Constraint length */
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#define N 2 /* Number of symbols per data bit */
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#define Polys Poly216 /* Select polynomials here */
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#endif
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/* Rate 1/2 codes */
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unsigned int Poly216[] = {0126723, 0152711}; /* k = 16 */
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#include <memory.h>
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#define NULL ((void *)0)
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#define LONGBITS 32
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#define LOGLONGBITS 5
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#undef max
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#define max(x,y) ((x) > (y) ? (x) : (y))
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#define D (1 << max(0,K-LOGLONGBITS-1))
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#define MAXNBITS 200 /* Maximum frame size (user bits) */
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extern unsigned char Partab[]; /* Parity lookup table */
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int Syms[1 << K];
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int VDInit = 0;
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int parity(int x)
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{
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x ^= (x >> 16);
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x ^= (x >> 8);
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return Partab[x & 0xff];
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}
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// Wrapper for calling "encode" from Fortran:
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//void __stdcall ENCODE(
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void enc216_(
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unsigned char data[], // User data, 8 bits per byte
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int *nbits, // Number of user bits
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unsigned char symbols[], // Encoded one-bit symbols, 8 per byte
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int *nsymbols, // Number of symbols
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int *kk, // K
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int *nn) // N
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{
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int nbytes;
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nbytes=(*nbits+7)/8; // Always encode multiple of 8 information bits
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enc216(symbols,data,nbytes,0,0); // Do the encoding
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*nsymbols=(*nbits+K-1)*N; // Return number of encoded symbols
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*kk=K;
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*nn=N;
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}
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/* Convolutionally encode data into binary symbols */
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enc216(unsigned char symbols[], unsigned char data[],
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unsigned int nbytes, unsigned int startstate,
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unsigned int endstate)
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{
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int i,j,k,n=-1;
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unsigned int encstate = startstate;
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for(k=0; k<nbytes; k++) {
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for(i=7;i>=0;i--){
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encstate = (encstate + encstate) + ((data[k] >> i) & 1);
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for(j=0;j<N;j++) {
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n=n+1;
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symbols[n] = parity(encstate & Polys[j]);
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}
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}
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}
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// Flush out with zero tail. (No need, if tail-biting code.)
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for(i=0; i<K-1;i++){
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encstate = (encstate << 1) | ((endstate >> i) & 1);
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for(j=0;j<N;j++) {
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n=n+1;
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symbols[n] = parity(encstate & Polys[j]);
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}
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}
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return 0;
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}
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// Wrapper for calling "viterbi" from Fortran:
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//void __stdcall VITERBI(
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void vit216_(
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unsigned char symbols[], /* Raw deinterleaved input symbols */
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unsigned int *Nbits, /* Number of decoded information bits */
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int mettab[2][256], /* Metric table, [sent sym][rx symbol] */
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unsigned char ddec[], /* Decoded output data */
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long *Metric /* Final path metric (bigger is better) */
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){
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long metric;
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vit216(&metric,ddec,symbols,*Nbits,mettab,0,0);
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*Metric=metric;
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}
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/* Viterbi decoder */
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int vit216(
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long *metric, /* Final path metric (returned value) */
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unsigned char *data, /* Decoded output data */
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unsigned char *symbols, /* Raw deinterleaved input symbols */
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unsigned int nbits, /* Number of output bits */
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int mettab[2][256], /* Metric table, [sent sym][rx symbol] */
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unsigned int startstate, /* Encoder starting state */
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unsigned int endstate /* Encoder ending state */
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){
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int bitcnt = -(K-1);
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long m0,m1;
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int i,j,sym,ipp;
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int mets[1 << N];
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unsigned long paths[(MAXNBITS+K-1)*D];
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unsigned long *pp,mask;
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long cmetric[1 << (K-1)],nmetric[1 << (K-1)];
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memset(paths,0,sizeof(paths));
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// Initialize on first time through:
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if(!VDInit){
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for(i=0;i<(1<<K);i++){
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sym = 0;
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for(j=0;j<N;j++)
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sym = (sym << 1) + parity(i & Polys[j]);
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Syms[i] = sym;
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}
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VDInit++;
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}
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// Keep only lower K-1 bits of specified startstate and endstate
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startstate &= ~((1<<(K-1)) - 1);
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endstate &= ~((1<<(K-1)) - 1);
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/* Initialize starting metrics */
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for(i=0;i< 1<<(K-1);i++)
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cmetric[i] = -999999;
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cmetric[startstate] = 0;
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pp = paths;
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ipp=0;
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for(;;){ /* For each data bit */
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/* Read input symbols and compute branch metrics */
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for(i=0;i< 1<<N;i++){
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mets[i] = 0;
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for(j=0;j<N;j++){
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mets[i] += mettab[(i >> (N-j-1)) & 1][symbols[j]];
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}
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}
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symbols += N;
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/* Run the add-compare-select operations */
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mask = 1;
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for(i=0;i< 1 << (K-1);i+=2){
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int b1,b2;
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b1 = mets[Syms[i]];
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nmetric[i] = m0 = cmetric[i/2] + b1;
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b2 = mets[Syms[i+1]];
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b1 -= b2;
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m1 = cmetric[(i/2) + (1<<(K-2))] + b2;
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if(m1 > m0){
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nmetric[i] = m1;
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*pp |= mask;
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}
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m0 -= b1;
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nmetric[i+1] = m0;
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m1 += b1;
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if(m1 > m0){
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nmetric[i+1] = m1;
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*pp |= mask << 1;
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}
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mask <<= 2;
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if(mask == 0){
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mask = 1;
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pp++;
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ipp++;
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}
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}
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if(mask != 1){
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pp++;
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ipp++;
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}
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if(++bitcnt == nbits){
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*metric = nmetric[endstate];
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break;
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}
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memcpy(cmetric,nmetric,sizeof(cmetric));
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}
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/* Chain back from terminal state to produce decoded data */
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if(data == NULL)
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return 0;/* Discard output */
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memset(data,0,(nbits+7)/8); /* round up in case nbits % 8 != 0 */
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for(i=nbits-1;i >= 0;i--){
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// int a0,a1;
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pp -= D;
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ipp -= D;
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m0=endstate >> LOGLONGBITS;
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m1=1L << (endstate & (LONGBITS-1));
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if(pp[m0] & m1) {
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// a0=nmetric[endstate];
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endstate |= (1 << (K-1));
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// a1=nmetric[endstate];
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data[i>>3] |= 0x80 >> (i&7);
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// printf("B %d %d %d %d\n",*metric,i,a0,a1);
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}
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endstate >>= 1;
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}
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return 0;
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}
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