diff options
Diffstat (limited to 'rts/gmp/mpz/and.c')
| -rw-r--r-- | rts/gmp/mpz/and.c | 278 |
1 files changed, 0 insertions, 278 deletions
diff --git a/rts/gmp/mpz/and.c b/rts/gmp/mpz/and.c deleted file mode 100644 index 354e9455bf..0000000000 --- a/rts/gmp/mpz/and.c +++ /dev/null @@ -1,278 +0,0 @@ -/* mpz_and -- Logical and. - -Copyright (C) 1991, 1993, 1994, 1996, 1997, 2000 Free Software Foundation, -Inc. - -This file is part of the GNU MP Library. - -The GNU MP Library is free software; you can redistribute it and/or modify -it under the terms of the GNU Lesser General Public License as published by -the Free Software Foundation; either version 2.1 of the License, or (at your -option) any later version. - -The GNU MP Library is distributed in the hope that it will be useful, but -WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public -License for more details. - -You should have received a copy of the GNU Lesser General Public License -along with the GNU MP Library; see the file COPYING.LIB. If not, write to -the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, -MA 02111-1307, USA. */ - -#include "gmp.h" -#include "gmp-impl.h" - -void -#if __STDC__ -mpz_and (mpz_ptr res, mpz_srcptr op1, mpz_srcptr op2) -#else -mpz_and (res, op1, op2) - mpz_ptr res; - mpz_srcptr op1; - mpz_srcptr op2; -#endif -{ - mp_srcptr op1_ptr, op2_ptr; - mp_size_t op1_size, op2_size; - mp_ptr res_ptr; - mp_size_t res_size; - mp_size_t i; - TMP_DECL (marker); - - TMP_MARK (marker); - op1_size = op1->_mp_size; - op2_size = op2->_mp_size; - - op1_ptr = op1->_mp_d; - op2_ptr = op2->_mp_d; - res_ptr = res->_mp_d; - - if (op1_size >= 0) - { - if (op2_size >= 0) - { - res_size = MIN (op1_size, op2_size); - /* First loop finds the size of the result. */ - for (i = res_size - 1; i >= 0; i--) - if ((op1_ptr[i] & op2_ptr[i]) != 0) - break; - res_size = i + 1; - - /* Handle allocation, now then we know exactly how much space is - needed for the result. */ - if (res->_mp_alloc < res_size) - { - _mpz_realloc (res, res_size); - op1_ptr = op1->_mp_d; - op2_ptr = op2->_mp_d; - res_ptr = res->_mp_d; - } - - /* Second loop computes the real result. */ - for (i = res_size - 1; i >= 0; i--) - res_ptr[i] = op1_ptr[i] & op2_ptr[i]; - - res->_mp_size = res_size; - return; - } - else /* op2_size < 0 */ - { - /* Fall through to the code at the end of the function. */ - } - } - else - { - if (op2_size < 0) - { - mp_ptr opx; - mp_limb_t cy; - mp_size_t res_alloc; - - /* Both operands are negative, so will be the result. - -((-OP1) & (-OP2)) = -(~(OP1 - 1) & ~(OP2 - 1)) = - = ~(~(OP1 - 1) & ~(OP2 - 1)) + 1 = - = ((OP1 - 1) | (OP2 - 1)) + 1 */ - - /* It might seem as we could end up with an (invalid) result with - a leading zero-limb here when one of the operands is of the - type 1,,0,,..,,.0. But some analysis shows that we surely - would get carry into the zero-limb in this situation... */ - - op1_size = -op1_size; - op2_size = -op2_size; - - res_alloc = 1 + MAX (op1_size, op2_size); - - opx = (mp_ptr) TMP_ALLOC (op1_size * BYTES_PER_MP_LIMB); - mpn_sub_1 (opx, op1_ptr, op1_size, (mp_limb_t) 1); - op1_ptr = opx; - - opx = (mp_ptr) TMP_ALLOC (op2_size * BYTES_PER_MP_LIMB); - mpn_sub_1 (opx, op2_ptr, op2_size, (mp_limb_t) 1); - op2_ptr = opx; - - if (res->_mp_alloc < res_alloc) - { - _mpz_realloc (res, res_alloc); - res_ptr = res->_mp_d; - /* Don't re-read OP1_PTR and OP2_PTR. They point to - temporary space--never to the space RES->_mp_d used - to point to before reallocation. */ - } - - if (op1_size >= op2_size) - { - MPN_COPY (res_ptr + op2_size, op1_ptr + op2_size, - op1_size - op2_size); - for (i = op2_size - 1; i >= 0; i--) - res_ptr[i] = op1_ptr[i] | op2_ptr[i]; - res_size = op1_size; - } - else - { - MPN_COPY (res_ptr + op1_size, op2_ptr + op1_size, - op2_size - op1_size); - for (i = op1_size - 1; i >= 0; i--) - res_ptr[i] = op1_ptr[i] | op2_ptr[i]; - res_size = op2_size; - } - - cy = mpn_add_1 (res_ptr, res_ptr, res_size, (mp_limb_t) 1); - if (cy) - { - res_ptr[res_size] = cy; - res_size++; - } - - res->_mp_size = -res_size; - TMP_FREE (marker); - return; - } - else - { - /* We should compute -OP1 & OP2. Swap OP1 and OP2 and fall - through to the code that handles OP1 & -OP2. */ - MPZ_SRCPTR_SWAP (op1, op2); - MPN_SRCPTR_SWAP (op1_ptr,op1_size, op2_ptr,op2_size); - } - - } - - { -#if ANDNEW - mp_size_t op2_lim; - mp_size_t count; - - /* OP2 must be negated as with infinite precision. - - Scan from the low end for a non-zero limb. The first non-zero - limb is simply negated (two's complement). Any subsequent - limbs are one's complemented. Of course, we don't need to - handle more limbs than there are limbs in the other, positive - operand as the result for those limbs is going to become zero - anyway. */ - - /* Scan for the least significant non-zero OP2 limb, and zero the - result meanwhile for those limb positions. (We will surely - find a non-zero limb, so we can write the loop with one - termination condition only.) */ - for (i = 0; op2_ptr[i] == 0; i++) - res_ptr[i] = 0; - op2_lim = i; - - op2_size = -op2_size; - - if (op1_size <= op2_size) - { - /* The ones-extended OP2 is >= than the zero-extended OP1. - RES_SIZE <= OP1_SIZE. Find the exact size. */ - for (i = op1_size - 1; i > op2_lim; i--) - if ((op1_ptr[i] & ~op2_ptr[i]) != 0) - break; - res_size = i + 1; - for (i = res_size - 1; i > op2_lim; i--) - res_ptr[i] = op1_ptr[i] & ~op2_ptr[i]; - res_ptr[op2_lim] = op1_ptr[op2_lim] & -op2_ptr[op2_lim]; - /* Yes, this *can* happen! */ - MPN_NORMALIZE (res_ptr, res_size); - } - else - { - /* The ones-extended OP2 is < than the zero-extended OP1. - RES_SIZE == OP1_SIZE, since OP1 is normalized. */ - res_size = op1_size; - MPN_COPY (res_ptr + op2_size, op1_ptr + op2_size, op1_size - op2_size); - for (i = op2_size - 1; i > op2_lim; i--) - res_ptr[i] = op1_ptr[i] & ~op2_ptr[i]; - res_ptr[op2_lim] = op1_ptr[op2_lim] & -op2_ptr[op2_lim]; - } - - res->_mp_size = res_size; -#else - - /* OP1 is positive and zero-extended, - OP2 is negative and ones-extended. - The result will be positive. - OP1 & -OP2 = OP1 & ~(OP2 - 1). */ - - mp_ptr opx; - - op2_size = -op2_size; - opx = (mp_ptr) TMP_ALLOC (op2_size * BYTES_PER_MP_LIMB); - mpn_sub_1 (opx, op2_ptr, op2_size, (mp_limb_t) 1); - op2_ptr = opx; - - if (op1_size > op2_size) - { - /* The result has the same size as OP1, since OP1 is normalized - and longer than the ones-extended OP2. */ - res_size = op1_size; - - /* Handle allocation, now then we know exactly how much space is - needed for the result. */ - if (res->_mp_alloc < res_size) - { - _mpz_realloc (res, res_size); - res_ptr = res->_mp_d; - op1_ptr = op1->_mp_d; - /* Don't re-read OP2_PTR. It points to temporary space--never - to the space RES->_mp_d used to point to before reallocation. */ - } - - MPN_COPY (res_ptr + op2_size, op1_ptr + op2_size, - res_size - op2_size); - for (i = op2_size - 1; i >= 0; i--) - res_ptr[i] = op1_ptr[i] & ~op2_ptr[i]; - - res->_mp_size = res_size; - } - else - { - /* Find out the exact result size. Ignore the high limbs of OP2, - OP1 is zero-extended and would make the result zero. */ - for (i = op1_size - 1; i >= 0; i--) - if ((op1_ptr[i] & ~op2_ptr[i]) != 0) - break; - res_size = i + 1; - - /* Handle allocation, now then we know exactly how much space is - needed for the result. */ - if (res->_mp_alloc < res_size) - { - _mpz_realloc (res, res_size); - res_ptr = res->_mp_d; - op1_ptr = op1->_mp_d; - /* Don't re-read OP2_PTR. It points to temporary space--never - to the space RES->_mp_d used to point to before reallocation. */ - } - - for (i = res_size - 1; i >= 0; i--) - res_ptr[i] = op1_ptr[i] & ~op2_ptr[i]; - - res->_mp_size = res_size; - } -#endif - } - TMP_FREE (marker); -} |