170 lines
5.3 KiB
C
170 lines
5.3 KiB
C
/* mpn_fib2_ui -- calculate Fibonacci numbers.
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THE FUNCTIONS IN THIS FILE ARE FOR INTERNAL USE ONLY. THEY'RE ALMOST
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CERTAIN TO BE SUBJECT TO INCOMPATIBLE CHANGES OR DISAPPEAR COMPLETELY IN
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FUTURE GNU MP RELEASES.
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Copyright 2001, 2002, 2005 Free Software Foundation, Inc.
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This file is part of the GNU MP Library.
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The GNU MP Library is free software; you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation; either version 2.1 of the License, or (at your
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option) any later version.
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The GNU MP Library is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
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License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with the GNU MP Library; see the file COPYING.LIB. If not, write to
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the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
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MA 02110-1301, USA. */
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#include <stdio.h>
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#include "mpir.h"
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#include "gmp-impl.h"
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#include "longlong.h"
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/* change this to "#define TRACE(x) x" for diagnostics */
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#define TRACE(x)
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/* Store F[n] at fp and F[n-1] at f1p. fp and f1p should have room for
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MPN_FIB2_SIZE(n) limbs.
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The return value is the actual number of limbs stored, this will be at
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least 1. fp[size-1] will be non-zero, except when n==0, in which case
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fp[0] is 0 and f1p[0] is 1. f1p[size-1] can be zero, since F[n-1]<F[n]
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(for n>0).
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Notes:
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In F[2k+1] with k even, +2 is applied to 4*F[k]^2 just by ORing into the
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low limb.
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In F[2k+1] with k odd, -2 is applied to the low limb of 4*F[k]^2 -
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F[k-1]^2. This F[2k+1] is an F[4m+3] and such numbers are congruent to
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1, 2 or 5 mod 8, which means no underflow reaching it with a -2 (since
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that would leave 6 or 7 mod 8).
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This property of F[4m+3] can be verified by induction on F[4m+3] =
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7*F[4m-1] - F[4m-5], that formula being a standard lucas sequence
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identity U[i+j] = U[i]*V[j] - U[i-j]*Q^j.
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Enhancements:
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If there was an mpn_addlshift, it'd be possible to eliminate the yp
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temporary, using xp=F[k]^2, fp=F[k-1]^2, f1p=xp+fp, fp+=4*fp, fp-=f1p,
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fp+=2*(-1)^n, etc. */
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mp_size_t
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mpn_fib2_ui (mp_ptr fp, mp_ptr f1p, unsigned long int n)
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{
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mp_ptr xp, yp;
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mp_size_t size;
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unsigned long nfirst, mask;
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TMP_DECL;
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TRACE (printf ("mpn_fib2_ui n=%lu\n", n));
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ASSERT (! MPN_OVERLAP_P (fp, MPN_FIB2_SIZE(n), f1p, MPN_FIB2_SIZE(n)));
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/* Take a starting pair from the table. */
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mask = 1;
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for (nfirst = n; nfirst > FIB_TABLE_LIMIT; nfirst /= 2)
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mask <<= 1;
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TRACE (printf ("nfirst=%lu mask=0x%lX\n", nfirst, mask));
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f1p[0] = FIB_TABLE ((int) nfirst - 1);
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fp[0] = FIB_TABLE (nfirst);
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size = 1;
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/* Skip to the end if the table lookup gives the final answer. */
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if (mask != 1)
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{
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mp_size_t alloc;
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TMP_MARK;
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alloc = MPN_FIB2_SIZE (n);
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TMP_ALLOC_LIMBS_2 (xp,alloc, yp,alloc);
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do
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{
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mp_limb_t c;
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/* Here fp==F[k] and f1p==F[k-1], with k being the bits of n from
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n&mask upwards.
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The next bit of n is n&(mask>>1) and we'll double to the pair
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fp==F[2k],f1p==F[2k-1] or fp==F[2k+1],f1p==F[2k], according as
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that bit is 0 or 1 respectively. */
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TRACE (printf ("k=%lu mask=0x%lX size=%ld alloc=%ld\n",
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n >> refmpn_count_trailing_zeros(mask),
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mask, size, alloc);
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mpn_trace ("fp ", fp, size);
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mpn_trace ("f1p", f1p, size));
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/* fp normalized, f1p at most one high zero */
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ASSERT (fp[size-1] != 0);
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ASSERT (f1p[size-1] != 0 || f1p[size-2] != 0);
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/* f1p[size-1] might be zero, but this occurs rarely, so it's not
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worth bothering checking for it */
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ASSERT (alloc >= 2*size);
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mpn_sqr_n (xp, fp, size);
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mpn_sqr_n (yp, f1p, size);
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size *= 2;
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/* Shrink if possible. Since fp was normalized there'll be at
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most one high zero on xp (and if there is then there's one on
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yp too). */
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ASSERT (xp[size-1] != 0 || yp[size-1] == 0);
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size -= (xp[size-1] == 0);
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ASSERT (xp[size-1] != 0); /* only one xp high zero */
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/* Calculate F[2k+1] = 4*F[k]^2 - F[k-1]^2 + 2*(-1)^k.
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n&mask is the low bit of our implied k. */
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c = mpn_lshift2 (fp, xp, size);
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fp[0] |= (n & mask ? 0 : 2); /* possible +2 */
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c -= mpn_sub_n (fp, fp, yp, size);
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ASSERT (n & (mask << 1) ? fp[0] != 0 && fp[0] != 1 : 1);
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fp[0] -= (n & mask ? 2 : 0); /* possible -2 */
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ASSERT (alloc >= size+1);
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xp[size] = 0;
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yp[size] = 0;
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fp[size] = c;
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size += (c != 0);
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/* Calculate F[2k-1] = F[k]^2 + F[k-1]^2.
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F[2k-1]<F[2k+1] so no carry out of "size" limbs. */
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ASSERT_NOCARRY (mpn_add_n (f1p, xp, yp, size));
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/* now n&mask is the new bit of n being considered */
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mask >>= 1;
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/* Calculate F[2k] = F[2k+1] - F[2k-1], replacing the unwanted one of
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F[2k+1] and F[2k-1]. */
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ASSERT_NOCARRY (mpn_sub_n ((n & mask ? f1p : fp), fp, f1p, size));
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/* Can have a high zero after replacing F[2k+1] with F[2k].
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f1p will have a high zero if fp does. */
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ASSERT (fp[size-1] != 0 || f1p[size-1] == 0);
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size -= (fp[size-1] == 0);
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}
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while (mask != 1);
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TMP_FREE;
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}
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TRACE (printf ("done size=%ld\n", size);
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mpn_trace ("fp ", fp, size);
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mpn_trace ("f1p", f1p, size));
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return size;
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}
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