dnl AMD64 mpn_addmul_1 dnl Copyright 2008,2009 Jason Moxham dnl This file is part of the MPIR Library. dnl The MPIR 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 2.1 of the License, or (at dnl your option) any later version. dnl The MPIR 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 MPIR Library; see the file COPYING.LIB. If not, write dnl to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, dnl Boston, MA 02110-1301, USA. include(`../config.m4') C (rdi,rdx)=(rdi,rdx)+(rsi,rdx)*rcx C rax=carry ASM_START() PROLOGUE(mpn_addmul_1) # Version 1.0.4 mov (%rsi),%rax cmp $1,%rdx je one mov $5,%r11 lea -40(%rsi,%rdx,8),%rsi lea -40(%rdi,%rdx,8),%rdi sub %rdx,%r11 mul %rcx .byte 0x26 mov %rax,%r8 .byte 0x26 mov 8(%rsi,%r11,8),%rax .byte 0x26 mov %rdx,%r9 .byte 0x26 cmp $0,%r11 .byte 0x26 mov %rbx,-8(%rsp) .byte 0x26 jge skiploop ALIGN(16) loop: mov $0,%r10 mul %rcx add %r8,(%rdi,%r11,8) adc %rax,%r9 .byte 0x26 adc %rdx,%r10 mov 16(%rsi,%r11,8),%rax mul %rcx add %r9,8(%rdi,%r11,8) adc %rax,%r10 mov $0,%ebx adc %rdx,%rbx mov 24(%rsi,%r11,8),%rax mov $0,%r8 mov $0,%r9 mul %rcx add %r10,16(%rdi,%r11,8) .byte 0x26 adc %rax,%rbx .byte 0x26 adc %rdx,%r8 mov 32(%rsi,%r11,8),%rax mul %rcx add %rbx,24(%rdi,%r11,8) .byte 0x26 adc %rax,%r8 .byte 0x26 adc %rdx,%r9 add $4,%r11 mov 8(%rsi,%r11,8),%rax jnc loop ALIGN(16) skiploop: mov $0,%r10d mul %rcx add %r8,(%rdi,%r11,8) adc %rax,%r9 adc %rdx,%r10 cmp $2,%r11 jz next2 ja next3 jp next1 next0: mov 16(%rsi,%r11,8),%rax mul %rcx add %r9,8(%rdi,%r11,8) adc %rax,%r10 mov $0,%ebx adc %rdx,%rbx mov 24(%rsi,%r11,8),%rax mov $0,%r8d mul %rcx add %r10,16(%rdi,%r11,8) adc %rax,%rbx adc %rdx,%r8 mov 32(%rsi,%r11,8),%rax mul %rcx add %rbx,24(%rdi,%r11,8) mov -8(%rsp),%rbx adc %rax,%r8 adc $0,%rdx add %r8,32(%rdi,%r11,8) adc $0,%rdx mov %rdx,%rax ret ALIGN(16) next1: mov 16(%rsi,%r11,8),%rax mul %rcx add %r9,8(%rdi,%r11,8) adc %rax,%r10 mov $0,%r8d adc %rdx,%r8 mov 24(%rsi,%r11,8),%rax mul %rcx add %r10,16(%rdi,%r11,8) adc %rax,%r8 adc $0,%rdx add %r8,24(%rdi,%r11,8) mov -8(%rsp),%rbx adc $0,%rdx mov %rdx,%rax ret ALIGN(16) one: mul %rcx add %rax,(%rdi) adc $0,%rdx mov %rdx,%rax ret ALIGN(16) next2: mov 16(%rsi,%r11,8),%rax mul %rcx add %r9,8(%rdi,%r11,8) adc %rax,%r10 mov $0,%ebx adc %rdx,%rbx add %r10,16(%rdi,%r11,8) adc $0,%rbx mov %rbx,%rax mov -8(%rsp),%rbx ret ALIGN(16) next3: mov -8(%rsp),%rbx add %r9,8(%rdi,%r11,8) adc $0,%r10 mov %r10,%rax ret EPILOGUE()