Annotation of OpenXM_contrib/gmp/mpn/alpha/cntlz.asm, Revision 1.1
1.1 ! maekawa 1: dnl Alpha auxiliary for longlong.h's count_leading_zeros
! 2:
! 3: dnl Copyright (C) 1997, 2000 Free Software Foundation, Inc.
! 4:
! 5: dnl This file is part of the GNU MP Library.
! 6:
! 7: dnl The GNU MP Library is free software; you can redistribute it and/or modify
! 8: dnl it under the terms of the GNU Lesser General Public License as published by
! 9: dnl the Free Software Foundation; either version 2.1 of the License, or (at your
! 10: dnl option) any later version.
! 11:
! 12: dnl The GNU MP Library is distributed in the hope that it will be useful, but
! 13: dnl WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
! 14: dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
! 15: dnl License for more details.
! 16:
! 17: dnl You should have received a copy of the GNU Lesser General Public License
! 18: dnl along with the GNU MP Library; see the file COPYING.LIB. If not, write to
! 19: dnl the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
! 20: dnl MA 02111-1307, USA.
! 21:
! 22: include(`../config.m4')
! 23:
! 24: dnl DISCUSSION:
! 25:
! 26: dnl Other methods have been tried, and using a 128-entry table actually trims
! 27: dnl about 10% of the execution time (on a 21164) when the table is in the L1
! 28: dnl cache. But under non-benchmarking conditions, the table will hardly be in
! 29: dnl the L1 cache. Tricky bit-fiddling methods with multiplies and magic tables
! 30: dnl are also possible, but they require many more instructions than the current
! 31: dnl code. (But for count_trailing_zeros, such tricks are beneficial.)
! 32: dnl Finally, converting to floating-point and extracting the exponent is much
! 33: dnl slower.
! 34:
! 35: ASM_START()
! 36: PROLOGUE(MPN(count_leading_zeros))
! 37: bis r31,63,r0 C initialize partial result count
! 38:
! 39: srl r16,32,r1 C shift down 32 steps -> r1
! 40: cmovne r1,r1,r16 C select r1 if non-zero
! 41: cmovne r1,31,r0 C if r1 is nonzero choose smaller count
! 42:
! 43: srl r16,16,r1 C shift down 16 steps -> r1
! 44: subq r0,16,r2 C generate new partial result count
! 45: cmovne r1,r1,r16 C choose new r1 if non-zero
! 46: cmovne r1,r2,r0 C choose new count if r1 was non-zero
! 47:
! 48: srl r16,8,r1
! 49: subq r0,8,r2
! 50: cmovne r1,r1,r16
! 51: cmovne r1,r2,r0
! 52:
! 53: srl r16,4,r1
! 54: subq r0,4,r2
! 55: cmovne r1,r1,r16
! 56: cmovne r1,r2,r0
! 57:
! 58: srl r16,2,r1
! 59: subq r0,2,r2
! 60: cmovne r1,r1,r16
! 61: cmovne r1,r2,r0
! 62:
! 63: srl r16,1,r1 C extract bit 1
! 64: subq r0,r1,r0 C subtract it from partial result
! 65:
! 66: ret r31,(r26),1
! 67: EPILOGUE(MPN(count_leading_zeros))
! 68: ASM_END()
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