dnl x86-64 mpn_rsh1add_n/mpn_rsh1sub_n. dnl Contributed to the GNU project by Torbjorn Granlund. dnl Copyright 2011, 2012 Free Software Foundation, Inc. dnl This file is part of the GNU MP Library. dnl dnl The GNU MP Library is free software; you can redistribute it and/or modify dnl it under the terms of either: dnl dnl * the GNU Lesser General Public License as published by the Free dnl Software Foundation; either version 3 of the License, or (at your dnl option) any later version. dnl dnl or dnl dnl * the GNU General Public License as published by the Free Software dnl Foundation; either version 2 of the License, or (at your option) any dnl later version. dnl dnl or both in parallel, as here. dnl 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 General Public License dnl for more details. dnl dnl You should have received copies of the GNU General Public License and the dnl GNU Lesser General Public License along with the GNU MP Library. If not, dnl see https://www.gnu.org/licenses/. include(`../config.m4') C TODO C * Schedule loop less. It is now almost surely overscheduled, resulting in C large feed-in and wind-down code. C cycles/limb C AMD K8,K9 ? C AMD K10 ? C Intel P4 ? C Intel core2 ? C Intel NMH ? C Intel SBR ? C Intel atom 5.25 C VIA nano ? C INPUT PARAMETERS define(`rp',`%rdi') define(`up',`%rsi') define(`vp',`%rdx') define(`n',`%rcx') ifdef(`OPERATION_rsh1add_n', ` define(ADDSUB, add) define(ADCSBB, adc) define(func_n, mpn_rsh1add_n) define(func_nc, mpn_rsh1add_nc)') ifdef(`OPERATION_rsh1sub_n', ` define(ADDSUB, sub) define(ADCSBB, sbb) define(func_n, mpn_rsh1sub_n) define(func_nc, mpn_rsh1sub_nc)') ABI_SUPPORT(DOS64) ABI_SUPPORT(STD64) MULFUNC_PROLOGUE(mpn_rsh1add_n mpn_rsh1sub_n) ASM_START() TEXT ALIGN(16) PROLOGUE(func_n) FUNC_ENTRY(4) push %rbx push %rbp push %r12 push %r13 push %r14 push %r15 mov (up), %r15 ADDSUB (vp), %r15 sbb R32(%rbx), R32(%rbx) xor R32(%rax), R32(%rax) shr %r15 adc R32(%rax), R32(%rax) C return value mov R32(n), R32(%rbp) and $3, R32(%rbp) jz L(b0) cmp $2, R32(%rbp) jae L(b23) L(b1): dec n jnz L(gt1) shl $63, %rbx add %rbx, %r15 mov %r15, (rp) jmp L(cj1) L(gt1): lea 24(up), up lea 24(vp), vp mov -16(up), %r9 add R32(%rbx), R32(%rbx) mov -8(up), %r10 lea 24(rp), rp mov (up), %r11 ADCSBB -16(vp), %r9 ADCSBB -8(vp), %r10 mov %r15, %r12 ADCSBB (vp), %r11 mov %r9, %r13 sbb R32(%rbx), R32(%rbx) mov %r11, %r15 mov %r10, %r14 shl $63, %r11 shl $63, %r10 shl $63, %r9 or %r9, %r12 shr %r13 mov 8(up), %r8 shr %r14 or %r10, %r13 shr %r15 or %r11, %r14 sub $4, n jz L(cj5) L(gt5): mov 16(up), %r9 add R32(%rbx), R32(%rbx) mov 24(up), %r10 ADCSBB 8(vp), %r8 mov %r15, %rbp mov 32(up), %r11 jmp L(lo1) L(b23): jnz L(b3) mov 8(up), %r8 sub $2, n jnz L(gt2) add R32(%rbx), R32(%rbx) ADCSBB 8(vp), %r8 mov %r8, %r12 jmp L(cj2) L(gt2): mov 16(up), %r9 add R32(%rbx), R32(%rbx) mov 24(up), %r10 ADCSBB 8(vp), %r8 mov %r15, %rbp mov 32(up), %r11 ADCSBB 16(vp), %r9 lea 32(up), up ADCSBB 24(vp), %r10 mov %r9, %r13 ADCSBB 32(vp), %r11 mov %r8, %r12 jmp L(lo2) L(b3): lea 40(up), up lea 8(vp), vp mov %r15, %r14 add R32(%rbx), R32(%rbx) mov -32(up), %r11 ADCSBB 0(vp), %r11 lea 8(rp), rp sbb R32(%rbx), R32(%rbx) mov %r11, %r15 shl $63, %r11 mov -24(up), %r8 shr %r15 or %r11, %r14 sub $3, n jnz L(gt3) add R32(%rbx), R32(%rbx) ADCSBB 8(vp), %r8 jmp L(cj3) L(gt3): mov -16(up), %r9 add R32(%rbx), R32(%rbx) mov -8(up), %r10 ADCSBB 8(vp), %r8 mov %r15, %rbp mov (up), %r11 ADCSBB 16(vp), %r9 ADCSBB 24(vp), %r10 mov %r8, %r12 jmp L(lo3) L(b0): lea 48(up), up lea 16(vp), vp add R32(%rbx), R32(%rbx) mov -40(up), %r10 lea 16(rp), rp mov -32(up), %r11 ADCSBB -8(vp), %r10 mov %r15, %r13 ADCSBB (vp), %r11 sbb R32(%rbx), R32(%rbx) mov %r11, %r15 mov %r10, %r14 shl $63, %r11 shl $63, %r10 mov -24(up), %r8 shr %r14 or %r10, %r13 shr %r15 or %r11, %r14 sub $4, n jnz L(gt4) add R32(%rbx), R32(%rbx) ADCSBB 8(vp), %r8 jmp L(cj4) L(gt4): mov -16(up), %r9 add R32(%rbx), R32(%rbx) mov -8(up), %r10 ADCSBB 8(vp), %r8 mov %r15, %rbp mov (up), %r11 ADCSBB 16(vp), %r9 jmp L(lo0) ALIGN(8) L(top): mov 16(up), %r9 shr %r14 or %r10, %r13 shr %r15 or %r11, %r14 add R32(%rbx), R32(%rbx) mov 24(up), %r10 mov %rbp, (rp) ADCSBB 8(vp), %r8 mov %r15, %rbp lea 32(rp), rp mov 32(up), %r11 L(lo1): ADCSBB 16(vp), %r9 lea 32(up), up mov %r12, -24(rp) L(lo0): ADCSBB 24(vp), %r10 mov %r8, %r12 mov %r13, -16(rp) L(lo3): ADCSBB 32(vp), %r11 mov %r9, %r13 mov %r14, -8(rp) L(lo2): sbb R32(%rbx), R32(%rbx) shl $63, %r8 mov %r11, %r15 shr %r12 mov %r10, %r14 shl $63, %r9 lea 32(vp), vp shl $63, %r10 or %r8, %rbp shl $63, %r11 or %r9, %r12 shr %r13 mov 8(up), %r8 sub $4, n jg L(top) L(end): shr %r14 or %r10, %r13 shr %r15 or %r11, %r14 mov %rbp, (rp) lea 32(rp), rp L(cj5): add R32(%rbx), R32(%rbx) ADCSBB 8(vp), %r8 mov %r12, -24(rp) L(cj4): mov %r13, -16(rp) L(cj3): mov %r8, %r12 mov %r14, -8(rp) L(cj2): sbb R32(%rbx), R32(%rbx) shl $63, %r8 shr %r12 or %r8, %r15 shl $63, %rbx add %rbx, %r12 mov %r15, (rp) mov %r12, 8(rp) L(cj1): pop %r15 pop %r14 pop %r13 pop %r12 pop %rbp pop %rbx FUNC_EXIT() ret EPILOGUE()