dnl core2 mpn_redc_basecase dnl Copyright 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,rcx)=(rsi,rcx)+(rdx,rcx) with the carry flag set for the carry C this is the usual mpn_add_n with the final dec rax;adc rax,rax;ret removed C and a jump where we have two rets define(`MPN_ADD',` mov %rcx,%rax and `$'3,%rax shr `$'2,%rcx cmp `$'0,%rcx C carry flag is clear here jnz addloop mov (%rsi),%r11 add (%rdx),%r11 mov %r11,(%rdi) dec %rax jz addend mov 8(%rsi),%r11 adc 8(%rdx),%r11 mov %r11,8(%rdi) dec %rax jz addend mov 16(%rsi),%r11 adc 16(%rdx),%r11 mov %r11,16(%rdi) jmp addend ALIGN(16) addloop: mov (%rsi),%r11 mov 8(%rsi),%r8 lea 32(%rsi),%rsi adc (%rdx),%r11 adc 8(%rdx),%r8 lea 32(%rdx),%rdx mov %r11,(%rdi) mov %r8,8(%rdi) lea 32(%rdi),%rdi mov -16(%rsi),%r9 mov -8(%rsi),%r10 adc -16(%rdx),%r9 adc -8(%rdx),%r10 mov %r9,-16(%rdi) dec %rcx mov %r10,-8(%rdi) jnz addloop inc %rax dec %rax jz addend mov (%rsi),%r11 adc (%rdx),%r11 mov %r11,(%rdi) dec %rax jz addend mov 8(%rsi),%r11 adc 8(%rdx),%r11 mov %r11,8(%rdi) dec %rax jz addend mov 16(%rsi),%r11 adc 16(%rdx),%r11 mov %r11,16(%rdi) addend: ') C (rbx,rbp)=(rsi,rbp)-(rdx,rbp) define(`MPN_SUB',` mov %rbp,%rax and `$'3,%rax shr `$'2,%rbp cmp `$'0,%rbp C carry flag is clear here jnz subloop mov (%rsi),%r11 sub (%rdx),%r11 mov %r11,(%rbx) dec %rax jz subend mov 8(%rsi),%r11 sbb 8(%rdx),%r11 mov %r11,8(%rbx) dec %rax jz subend mov 16(%rsi),%r11 sbb 16(%rdx),%r11 mov %r11,16(%rbx) jmp subend ALIGN(16) subloop: mov (%rsi),%r11 mov 8(%rsi),%r8 lea 32(%rsi),%rsi sbb (%rdx),%r11 sbb 8(%rdx),%r8 lea 32(%rdx),%rdx mov %r11,(%rbx) mov %r8,8(%rbx) lea 32(%rbx),%rbx mov -16(%rsi),%r9 mov -8(%rsi),%r10 sbb -16(%rdx),%r9 sbb -8(%rdx),%r10 mov %r9,-16(%rbx) dec %rbp mov %r10,-8(%rbx) jnz subloop inc %rax dec %rax jz subend mov (%rsi),%r11 sbb (%rdx),%r11 mov %r11,(%rbx) dec %rax jz subend mov 8(%rsi),%r11 sbb 8(%rdx),%r11 mov %r11,8(%rbx) dec %rax jz subend mov 16(%rsi),%r11 sbb 16(%rdx),%r11 mov %r11,16(%rbx) subend: ') C changes from standard addmul C change r8 to r12 and rcx to r13 and rdi to r8 C reemove ret and write last limb but to beginning define(`ADDMULLOOP',` ALIGN(16) addmulloop$1: mov `$'0,%r10 mul %r13 add %r12,(%r8,%r11,8) adc %rax,%r9 .byte 0x26 adc %rdx,%r10 mov 16(%rsi,%r11,8),%rax mul %r13 add %r9,8(%r8,%r11,8) adc %rax,%r10 mov `$'0,%ebx adc %rdx,%rbx mov 24(%rsi,%r11,8),%rax mov `$'0,%r12 mov `$'0,%r9 mul %r13 add %r10,16(%r8,%r11,8) .byte 0x26 adc %rax,%rbx .byte 0x26 adc %rdx,%r12 mov 32(%rsi,%r11,8),%rax mul %r13 add %rbx,24(%r8,%r11,8) .byte 0x26 adc %rax,%r12 .byte 0x26 adc %rdx,%r9 add `$'4,%r11 mov 8(%rsi,%r11,8),%rax jnc addmulloop$1 ') define(`ADDMULPROPRO0',` imul %rcx,%r13 lea -8(%r8),%r8 ') define(`ADDMULPRO0',` mov %r14,%r11 lea 8(%r8),%r8 mov (%rsi,%r14,8),%rax mul %r13 mov %rax,%r12 mov 8(%rsi,%r14,8),%rax mov %rdx,%r9 cmp `$'0,%r14 ') define(`ADDMULNEXT0',` mov `$'0,%r10d mul %r13 add %r12,(%r8,%r11,8) adc %rax,%r9 adc %rdx,%r10 mov 16(%rsi,%r11,8),%rax mul %r13 add %r9,8(%r8,%r11,8) adc %rax,%r10 mov `$'0,%ebx adc %rdx,%rbx mov 24(%rsi,%r11,8),%rax mov `$'0,%r12d mov `$'0,%r9d mul %r13 add %r10,16(%r8,%r11,8) adc %rax,%rbx adc %rdx,%r12 mov 32(%rsi,%r11,8),%rax mul %r13 add %rbx,24(%r8,%r11,8) mov 8(%r8,%r14,8),%r13 adc %rax,%r12 adc %rdx,%r9 imul %rcx,%r13 add %r12,32(%r8,%r11,8) adc `$'0,%r9 sub `$'1,%r15 mov %r9,(%r8,%r14,8) ') define(`ADDMULPROPRO1',` ') define(`ADDMULPRO1',` imul %rcx,%r13 mov (%rsi,%r14,8),%rax mov %r14,%r11 mul %r13 mov %rax,%r12 mov 8(%rsi,%r14,8),%rax mov %rdx,%r9 cmp `$'0,%r14 ') define(`ADDMULNEXT1',` mov `$'0,%r10d mul %r13 add %r12,(%r8,%r11,8) adc %rax,%r9 adc %rdx,%r10 mov 16(%rsi,%r11,8),%rax mul %r13 add %r9,8(%r8,%r11,8) adc %rax,%r10 mov `$'0,%ebx adc %rdx,%rbx mov 24(%rsi,%r11,8),%rax mov `$'0,%r12d mul %r13 add %r10,16(%r8,%r11,8) adc %rax,%rbx adc %rdx,%r12 add %rbx,24(%r8,%r11,8) mov 8(%r8,%r14,8),%r13 adc `$'0,%r12 sub `$'1,%r15 mov %r12,(%r8,%r14,8) lea 8(%r8),%r8 ') define(`ADDMULPROPRO2',` ') define(`ADDMULPRO2',` imul %rcx,%r13 mov (%rsi,%r14,8),%rax mov %r14,%r11 mul %r13 mov %rax,%r12 mov 8(%rsi,%r14,8),%rax mov %rdx,%r9 cmp `$'0,%r14 ') define(`ADDMULNEXT2',` mul %r13 add %r12,(%r8,%r11,8) adc %rax,%r9 mov `$'0,%r10d adc %rdx,%r10 mov 16(%rsi,%r11,8),%rax mul %r13 add %r9,8(%r8,%r11,8) adc %rax,%r10 mov `$'0,%ebx adc %rdx,%rbx mov 8(%r8,%r14,8),%r13 add %r10,16(%r8,%r11,8) adc `$'0,%rbx mov %rbx,(%r8,%r14,8) sub `$'1,%r15 lea 8(%r8),%r8 ') define(`ADDMULPROPRO3',` ') define(`ADDMULPRO3',` imul %rcx,%r13 mov (%rsi,%r14,8),%rax mov %r14,%r11 mul %r13 mov %rax,%r12 mov 8(%rsi,%r14,8),%rax mov %rdx,%r9 cmp `$'0,%r14 ') define(`ADDMULNEXT3',` mul %r13 add %r12,(%r8,%r11,8) adc %rax,%r9 mov `$'0,%r10d adc %rdx,%r10 add %r9,8(%r8,%r11,8) adc `$'0,%r10 mov 8(%r8,%r14,8),%r13 mov %r10,(%r8,%r14,8) lea 8(%r8),%r8 sub `$'1,%r15 ') C change r8 to r12 C write top limb ax straight to mem dont return (NOTE we WRITE NOT ADD) define(`MPN_ADDMUL_1_INT',` ADDMULPROPRO$1 ALIGN(16) loopaddmul$1: ADDMULPRO$1 jge addmulskiploop$1 ADDMULLOOP($1) addmulskiploop$1: ADDMULNEXT$1 jnz loopaddmul$1 jmp end ') ASM_START() PROLOGUE(mpn_redc_basecase) cmp $1,%rdx je one push %r13 push %r14 push %rbx push %r12 push %r15 push %rbp mov $5,%r14 sub %rdx,%r14 C store copys push %rsi push %r8 lea -40(%r8,%rdx,8),%r8 lea -40(%rsi,%rdx,8),%rsi mov %rdx,%rbp mov %rdx,%r15 mov %r14,%rax and $3,%rax mov (%r8,%r14,8),%r13 je case0 jp case3 cmp $1,%rax je case1 case2: MPN_ADDMUL_1_INT(2) ALIGN(16) case0: MPN_ADDMUL_1_INT(0) ALIGN(16) case1: MPN_ADDMUL_1_INT(1) ALIGN(16) case3: MPN_ADDMUL_1_INT(3) ALIGN(16) end: mov %rbp,%rcx pop %rdx lea (%rdx,%rbp,8),%rsi mov %rdi,%rbx MPN_ADD() C mpnadd(rdi,rsi,rdx,rcx) pop %rdx jnc skip mov %rbx,%rsi MPN_SUB() C mpn_sub_n(rbx,rsi,rdx,rbp) we can certainly improve this sub skip: pop %rbp pop %r15 pop %r12 pop %rbx pop %r14 pop %r13 ret ALIGN(16) one: mov (%r8),%r9 mov (%rsi),%r11 imul %r9,%rcx mov %rcx,%rax mul %r11 add %r9,%rax C rax is zero here adc 8(%r8),%rdx cmovnc %rax,%r11 sub %r11,%rdx mov %rdx,(%rdi) ret EPILOGUE()