denyhosts/clamav/libclamav/tomsfastmath/mul/fp_mul.c

/* TomsFastMath, a fast ISO C bignum library.
 *
 * This project is meant to fill in where LibTomMath
 * falls short.  That is speed ;-)
 *
 * This project is public domain and free for all purposes.
 *
 * Tom St Denis, tomstdenis@gmail.com
 */
#include <tfm_private.h>

/* c = a * b */
void fp_mul(fp_int *A, fp_int *B, fp_int *C)
{
    int   y, old_used;
#if FP_SIZE >= 48
    int   yy;
#endif

    old_used = C->used;

    /* call generic if we're out of range */
    if (A->used + B->used > FP_SIZE) {
       fp_mul_comba(A, B, C);
       goto clean;
    }

     y  = MAX(A->used, B->used);
#if FP_SIZE >= 48
     yy = MIN(A->used, B->used);
#endif
    /* pick a comba (unrolled 4/8/16/32 x or rolled) based on the size
       of the largest input.  We also want to avoid doing excess mults if the
       inputs are not close to the next power of two.  That is, for example,
       if say y=17 then we would do (32-17)^2 = 225 unneeded multiplications
    */

#if defined(TFM_MUL3) && FP_SIZE >= 6
        if (y <= 3) {
           fp_mul_comba3(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL4) && FP_SIZE >= 8
        if (y == 4) {
           fp_mul_comba4(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL6) && FP_SIZE >= 12
        if (y <= 6) {
           fp_mul_comba6(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL7) && FP_SIZE >= 14
        if (y == 7) {
           fp_mul_comba7(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL8) && FP_SIZE >= 16
        if (y == 8) {
           fp_mul_comba8(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL9) && FP_SIZE >= 18
        if (y == 9) {
           fp_mul_comba9(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL12) && FP_SIZE >= 24
        if (y <= 12) {
           fp_mul_comba12(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL17) && FP_SIZE >= 34
        if (y <= 17) {
           fp_mul_comba17(A,B,C);
           goto clean;
        }
#endif

#if defined(TFM_SMALL_SET) && FP_SIZE >= 32
        if (y <= 16) {
           fp_mul_comba_small(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL20) && FP_SIZE >= 40
        if (y <= 20) {
           fp_mul_comba20(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL24) && FP_SIZE >= 48
        if (yy >= 16 && y <= 24) {
           fp_mul_comba24(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL28) && FP_SIZE >= 56
        if (yy >= 20 && y <= 28) {
           fp_mul_comba28(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL32) && FP_SIZE >= 64
        if (yy >= 24 && y <= 32) {
           fp_mul_comba32(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL48) && FP_SIZE >= 96
        if (yy >= 40 && y <= 48) {
           fp_mul_comba48(A,B,C);
           goto clean;
        }
#endif
#if defined(TFM_MUL64) && FP_SIZE >= 128
        if (yy >= 56 && y <= 64) {
           fp_mul_comba64(A,B,C);
           goto clean;
        }
#endif
        fp_mul_comba(A,B,C);
clean:
    for (y = C->used; y < old_used; y++) {
       C->dp[y] = 0;
    }
}


/* $Source: /cvs/libtom/tomsfastmath/src/mul/fp_mul.c,v $ */
/* $Revision: 1.1 $ */
/* $Date: 2006/12/31 21:25:53 $ */