dnl x86 mpn_gcd_1 optimised for AMD K7. dnl Contributed to the GNU project by by Kevin Ryde. Rehacked by Torbjorn dnl Granlund. dnl Copyright 2000, 2001, 2002, 2005, 2009, 2011, 2012 Free Software dnl Foundation, Inc. dnl This file is part of the GNU MP Library. dnl The GNU MP Library is free software; you can redistribute it and/or modify dnl it under the terms of the GNU Lesser General Public License as published dnl by the Free Software Foundation; either version 3 of the License, or (at dnl your option) any later version. dnl The GNU MP Library is distributed in the hope that it will be useful, but dnl WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public dnl License for more details. dnl You should have received a copy of the GNU Lesser General Public License dnl along with the GNU MP Library. If not, see http://www.gnu.org/licenses/. include(`../config.m4') C cycles/bit (approx) C AMD K7 5.31 C AMD K8,K9 5.33 C AMD K10 5.30 C AMD bd1 ? C AMD bobcat 7.02 C Intel P4-2 10.1 C Intel P4-3/4 10.0 C Intel P6/13 5.88 C Intel core2 6.26 C Intel NHM 6.83 C Intel SBR 8.50 C Intel atom 8.90 C VIA nano ? C Numbers measured with: speed -CD -s16-32 -t16 mpn_gcd_1 C TODO C * Tune overhead, this takes 2-3 cycles more than old code when v0 is tiny. C * Stream things better through registers, avoiding some copying. C ctz_table[n] is the number of trailing zeros on n, or MAXSHIFT if n==0. deflit(MAXSHIFT, 6) deflit(MASK, eval((m4_lshift(1,MAXSHIFT))-1)) DEF_OBJECT(ctz_table,64) .byte MAXSHIFT forloop(i,1,MASK, ` .byte m4_count_trailing_zeros(i) ') END_OBJECT(ctz_table) C Threshold of when to call bmod when U is one limb. Should be about C (time_in_cycles(bmod_1,1) + call_overhead) / (cycles/bit). define(`DIV_THRES_LOG2', 7) define(`up', `%edi') define(`n', `%esi') define(`v0', `%edx') ASM_START() TEXT ALIGN(16) PROLOGUE(mpn_gcd_1) push %edi push %esi mov 12(%esp), up mov 16(%esp), n mov 20(%esp), v0 mov (up), %eax C U low limb or v0, %eax C x | y mov $-1, %ecx L(twos): inc %ecx shr %eax jnc L(twos) shr %cl, v0 mov %ecx, %eax C common twos L(divide_strip_y): shr v0 jnc L(divide_strip_y) adc v0, v0 push %eax push v0 cmp $1, n jnz L(reduce_nby1) C Both U and V are single limbs, reduce with bmod if u0 >> v0. mov (up), %ecx mov %ecx, %eax shr $DIV_THRES_LOG2, %ecx cmp %ecx, v0 ja L(reduced) mov v0, %esi xor %edx, %edx div %esi mov %edx, %eax jmp L(reduced) L(reduce_nby1): ifdef(`PIC_WITH_EBX',` push %ebx call L(movl_eip_to_ebx) add $_GLOBAL_OFFSET_TABLE_, %ebx ') push v0 C param 3 push n C param 2 push up C param 1 cmp $BMOD_1_TO_MOD_1_THRESHOLD, n jl L(bmod) CALL( mpn_mod_1) jmp L(called) L(bmod): CALL( mpn_modexact_1_odd) L(called): add $12, %esp C deallocate params ifdef(`PIC_WITH_EBX',` pop %ebx ') L(reduced): pop %edx LEA( ctz_table, %esi) test %eax, %eax mov %eax, %ecx jnz L(mid) jmp L(end) ALIGN(16) C K8 BC P4 NHM SBR L(top): cmovc( %ecx, %eax) C if x-y < 0 0 cmovc( %edi, %edx) C use x,y-x 0 L(mid): and $MASK, %ecx C 0 movzbl (%esi,%ecx), %ecx C 1 jz L(shift_alot) C 1 shr %cl, %eax C 3 mov %eax, %edi C 4 mov %edx, %ecx C 3 sub %eax, %ecx C 4 sub %edx, %eax C 4 jnz L(top) C 5 L(end): pop %ecx mov %edx, %eax shl %cl, %eax pop %esi pop %edi ret L(shift_alot): shr $MAXSHIFT, %eax mov %eax, %ecx jmp L(mid) ifdef(`PIC_WITH_EBX',` L(movl_eip_to_ebx): mov (%esp), %ebx ret ') EPILOGUE()