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Diff for /OpenXM/src/kan96xx/plugin/cmo-gmp.c between version 1.2 and 1.6

version 1.2, 1999/10/25 01:39:03 version 1.6, 2001/05/04 01:06:29
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   /*$OpenXM: OpenXM/src/kan96xx/plugin/cmo-gmp.c,v 1.5 2000/02/01 02:38:58 noro Exp $ */
 #include <stdio.h>  #include <stdio.h>
 #include <string.h>  #include <string.h>
 /* #include <netinet/in.h> */  /* #include <netinet/in.h> */
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Line 10 
 #include "kclass.h"  #include "kclass.h"
   
 #include "gmp.h"  #include "gmp.h"
 #include "gmp-impl.h"  #include "gmp-impl.h"
   
   
 #include "file2.h"  #include "file2.h"
 #include "cmo.h"  #include "cmo.h"
   
Line 72  static outRawInt32(int k)
Line 74  static outRawInt32(int k)
 size_t  size_t
 cmoOutGMPCoeff_old(mpz_srcptr x)  cmoOutGMPCoeff_old(mpz_srcptr x)
 {  {
   int i;    fprintf(stderr,"cmoOutGMPCoeff_old is no longer supported.\n");
   mp_size_t s;    exit(10);
   mp_size_t xsize = ABS (x->_mp_size);  
   mp_srcptr xp = x->_mp_d;  
   mp_size_t out_bytesize;  
   mp_limb_t hi_limb;  
   int n_bytes_in_hi_limb;  
   cmoint tmp[1];  
   tmp[0] = htonl(CMO_ZZ_OLD);  
   cmoOutputToBuf(CMOPUT,tmp,sizeof(cmoint));  
   
   if (xsize == 0)  
     {  
       for (i = 4 - 1; i >= 0; i--)  
         myfputc (0);  
       return  4;  
     }  
   
   hi_limb = xp[xsize - 1];  
   for (i = BYTES_PER_MP_LIMB - 1; i > 0; i--)  
     {  
       if ((hi_limb >> i * BITS_PER_CHAR) != 0)  
         break;  
     }  
   n_bytes_in_hi_limb = i + 1;  
   out_bytesize = BYTES_PER_MP_LIMB * (xsize - 1) + n_bytes_in_hi_limb;  
   if (x->_mp_size < 0)  
     out_bytesize = -out_bytesize;  
   
   /* Make the size 4 bytes on all machines, to make the format portable.  */  
   for (i = 4 - 1; i >= 0; i--)  
     myfputc ((out_bytesize >> (i * BITS_PER_CHAR)) % (1 << BITS_PER_CHAR));  
   
   /* Output from the most significant limb to the least significant limb,  
      with each limb also output in decreasing significance order.  */  
   
   /* Output the most significant limb separately, since we will only  
      output some of its bytes.  */  
   for (i = n_bytes_in_hi_limb - 1; i >= 0; i--)  
     myfputc ((hi_limb >> (i * BITS_PER_CHAR)) % (1 << BITS_PER_CHAR));  
   
   /* Output the remaining limbs.  */  
   for (s = xsize - 2; s >= 0; s--)  
     {  
       mp_limb_t x_limb;  
   
       x_limb = xp[s];  
       for (i = BYTES_PER_MP_LIMB - 1; i >= 0; i--)  
         myfputc ((x_limb >> (i * BITS_PER_CHAR)) % (1 << BITS_PER_CHAR));  
     }  
   return ( ABS (out_bytesize) + 4);  
 }  }
   
   
Line 161  static int myfgetc(struct cmoBuffer *cb)
Line 114  static int myfgetc(struct cmoBuffer *cb)
       cb->rpos--;        cb->rpos--;
       errorCmo(" cmo-gmp.c : myfgetc(): no data in the buffer.");        errorCmo(" cmo-gmp.c : myfgetc(): no data in the buffer.");
     }      }
     return(k);  
   }    }
     return(k);
 }  }
   #if BYTES_PER_MP_LIMB == 8
   static unsigned int getRawInt32(struct cmoBuffer *cb)
   {
     char d[4];
     int i;
     int r;
     for (i=0; i<4; i++) {
       d[i] = myfgetc(cb);
     }
     return( ntohl(* ( (unsigned int *)d)));
   }
   #elif BYTES_PER_MP_LIMB == 4
 static int getRawInt32(struct cmoBuffer *cb)  static int getRawInt32(struct cmoBuffer *cb)
 {  {
   char d[4];    char d[4];
   int i;    int i;
     int r;
   for (i=0; i<4; i++) {    for (i=0; i<4; i++) {
     d[i] = myfgetc(cb);      d[i] = myfgetc(cb);
   }    }
   return(ntohl(* ( (int *)d)));    return( ntohl(* ( (int *)d)));
 }  }
   #endif
   
 cmoGetGMPCoeff_old(MP_INT *x, struct cmoBuffer *cb)  cmoGetGMPCoeff_old(MP_INT *x, struct cmoBuffer *cb)
 {  {
     fprintf(stderr,"cmoGetGMPCoeff_old is no longer supported.\n");
     exit(10);
   }
   
   /*****************************************************/
   /*****   new version for CMO_ZZ  *********************/
   /*****************************************************/
   #if BYTES_PER_MP_LIMB == 8
   size_t
   cmoOutGMPCoeff_new(mpz_srcptr x)
   {
   int i;    int i;
   mp_size_t s;    mp_size_t s;
     mp_size_t xsize = ABS (x->_mp_size);
     mp_size_t xsize0;
     mp_srcptr xp = x->_mp_d;
     mp_size_t out_bytesize;
     mp_limb_t hi_limb;
     int n_bytes_in_hi_limb;
     cmoint tmp[1];
     tmp[0] = htonl(CMO_ZZ);
     cmoOutputToBuf(CMOPUT,tmp,sizeof(cmoint));
   
     if (BITS_PER_CHAR != 8) {
       fprintf(stderr,"BITS_PER_CHAR = %d\n",BITS_PER_CHAR);
       fprintf(stderr,"cmo-gmp.c does not work on this CPU.\n");
       fprintf(stderr,"Read the GMP source code and rewrite cmo-gmp.c.\n");
       exit(10);
     }
   
     if (xsize == 0)
       {
         outRawInt32(0);
         return  1;
       }
   
     xsize0 = xsize;
     if ( (unsigned long)xp[xsize-1] < (unsigned long)0x100000000 )
       xsize = xsize0*2-1;
     else
       xsize = xsize0*2;
   
     if (x->_mp_size >= 0)
       outRawInt32(xsize);
     else
       outRawInt32(-xsize);
   
     for (s = 0; s < xsize0-1; s++)
       {
         outRawInt32(((unsigned long)xp[s])&(unsigned long)0xffffffff);
         outRawInt32(((unsigned long)xp[s])>>32);
       }
     if ( !(xsize&1) ) {
       outRawInt32(((unsigned long)xp[s])&(unsigned long)0xffffffff);
       outRawInt32(((unsigned long)xp[s])>>32);
     } else
       outRawInt32(((unsigned long)xp[s])&(unsigned long)0xffffffff);
     return ( ABS (xsize) );
   }
   
   cmoGetGMPCoeff_new(MP_INT *x, struct cmoBuffer *cb)
   {
     int i;
     mp_size_t s;
   mp_size_t xsize;    mp_size_t xsize;
     mp_size_t xsize0;
   mp_ptr xp;    mp_ptr xp;
   unsigned int c;    unsigned int c;
   mp_limb_t x_limb;    mp_limb_t x_limb;
   mp_size_t in_bytesize;    mp_size_t in_bytesize;
   int neg_flag;    int neg_flag;
   
     if (BITS_PER_CHAR != 8) {
       fprintf(stderr,"BITS_PER_CHAR = %d\n",BITS_PER_CHAR);
       fprintf(stderr,"cmo-gmp.c does not work on this CPU.\n");
       fprintf(stderr,"Read the GMP source code and rewrite cmo-gmp.c.\n");
       exit(10);
     }
   
   /* Read 4-byte size */    /* Read 4-byte size */
   in_bytesize = 0;  
   for (i = 4 - 1; i >= 0; i--)  
     {  
       c = myfgetc (cb);  
       in_bytesize = (in_bytesize << BITS_PER_CHAR) | c;  
     }  
   
   /* Size is stored as a 32 bit word; sign extend in_bytesize for non-32 bit    xsize = (int)getRawInt32(cb);
      machines.  */    neg_flag = xsize < 0;
   if (sizeof (mp_size_t) > 4)    xsize = ABS(xsize);
     in_bytesize |= (-(in_bytesize < 0)) << 31;  
   
   neg_flag = in_bytesize < 0;  
   in_bytesize = ABS (in_bytesize);  
   xsize = (in_bytesize + BYTES_PER_MP_LIMB - 1) / BYTES_PER_MP_LIMB;  
   
   if (xsize == 0)    if (xsize == 0)
     {      {
       x->_mp_size = 0;        x->_mp_size = 0;
       return 4;                 /* we've read 4 bytes */        return 1;         /* we've read 4 bytes */
     }      }
   
   if (x->_mp_alloc < xsize)    xsize0 = (xsize+1)/2;
     _mpz_realloc (x, xsize);    if (x->_mp_alloc < xsize0)
       _mpz_realloc (x, xsize0);
   xp = x->_mp_d;    xp = x->_mp_d;
   
   x_limb = 0;    for (i=0; i<xsize0-1; i++) {
   for (i = (in_bytesize - 1) % BYTES_PER_MP_LIMB; i >= 0; i--)      xp[i] = ((unsigned long)getRawInt32(cb))
     {        |(((unsigned long)getRawInt32(cb))<<32);
       c = myfgetc (cb);    }
       x_limb = (x_limb << BITS_PER_CHAR) | c;    if ( !(xsize&1) )
     }      xp[i] = ((unsigned long)getRawInt32(cb))
   xp[xsize - 1] = x_limb;        |(((unsigned long)getRawInt32(cb))<<32);
     else
       xp[i] = (unsigned long)getRawInt32(cb);
   
   for (s = xsize - 2; s >= 0; s--)    MPN_NORMALIZE (xp, xsize0);
     {    x->_mp_size = neg_flag ? -xsize0 : xsize0;
       x_limb = 0;    return( xsize0 );
       for (i = BYTES_PER_MP_LIMB - 1; i >= 0; i--)  
         {  
           c = myfgetc (cb);  
           x_limb = (x_limb << BITS_PER_CHAR) | c;  
         }  
       xp[s] = x_limb;  
     }  
   
   if (c == EOF)  
     return 0;                   /* error */  
   
   MPN_NORMALIZE (xp, xsize);  
   x->_mp_size = neg_flag ? -xsize : xsize;  
   return in_bytesize + 4;  
 }  }
   #elif BYTES_PER_MP_LIMB == 4
 /*****************************************************/  
 /*****   new version for CMO_ZZ  *********************/  
 /*****************************************************/  
 size_t  size_t
 cmoOutGMPCoeff_new(mpz_srcptr x)  cmoOutGMPCoeff_new(mpz_srcptr x)
 {  {
Line 324  cmoGetGMPCoeff_new(MP_INT *x, struct cmoBuffer *cb)
Line 336  cmoGetGMPCoeff_new(MP_INT *x, struct cmoBuffer *cb)
   if (xsize == 0)    if (xsize == 0)
     {      {
       x->_mp_size = 0;        x->_mp_size = 0;
       return 1;                 /* we've read 4 bytes */        return 1;         /* we've read 4 bytes */
     }      }
   
   if (x->_mp_alloc < xsize)    if (x->_mp_alloc < xsize)
Line 339  cmoGetGMPCoeff_new(MP_INT *x, struct cmoBuffer *cb)
Line 351  cmoGetGMPCoeff_new(MP_INT *x, struct cmoBuffer *cb)
   x->_mp_size = neg_flag ? -xsize : xsize;    x->_mp_size = neg_flag ? -xsize : xsize;
   return( xsize );    return( xsize );
 }  }
   #endif /* BYTES_PER_MP_LIMB */

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