; mpn_karasub ; ; Copyright 2011 The Code Cavern ; ; Windows Conversion Copyright 2008 Brian Gladman ; ; This file is part of the MPIR Library. ; ; The MPIR Library is free software; you can redistribute it and/or modify ; it under the terms of the GNU Lesser General Public License as published ; by the Free Software Foundation; either version 2.1 of the License, or (at ; your option) any later version. ; ; The MPIR Library is distributed in the hope that it will be useful, but ; WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ; or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public ; License for more details. ; ; You should have received a copy of the GNU Lesser General Public License ; along with the MPIR Library; see the file COPYING.LIB. If not, write ; to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, ; Boston, MA 02110-1301, USA. ; ; void mpn_karasub(mp_ptr, mp_ptr, mp_size_t) ; rax rdi rsi rdx ; rax rcx rdx r8 %include "yasm_mac.inc" %define reg_save_list rbx, rbp, rsi, rdi, r12, r13, r14, r15 CPU Athlon64 BITS 64 TEXT ; requires n >= 8 FRAME_PROC mpn_karasub, 1, reg_save_list mov rdi, rcx mov rsi, rdx mov rdx, r8 mov [rsp], rdx ;rp is rdi ;tp is rsi ;n is rdx and put it on the stack shr rdx, 1 ;n2 is rdx lea rcx, [rdx+rdx*1] ; 2*n2 is rcx ; L is rdi ; H is rbp ; tp is rsi lea rbp, [rdi+rcx*8] xor rax, rax xor rbx, rbx ; rax rbx are the carrys lea rdi, [rdi+rdx*8-24] lea rsi, [rsi+rdx*8-24] lea rbp, [rbp+rdx*8-24] mov ecx, 3 sub rcx, rdx mov edx, 3 align 16 .1: bt rbx, 2 mov r8, [rdi+rdx*8] adc r8, [rbp+rcx*8] mov r12, r8 mov r9, [rdi+rdx*8+8] adc r9, [rbp+rcx*8+8] mov r10, [rdi+rdx*8+16] adc r10, [rbp+rcx*8+16] mov r11, [rdi+rdx*8+24] adc r11, [rbp+rcx*8+24] rcl rbx, 1 bt rax, 1 mov r15, r11 adc r8, [rdi+rcx*8] mov r13, r9 adc r9, [rdi+rcx*8+8] mov r14, r10 adc r10, [rdi+rcx*8+16] adc r11, [rdi+rcx*8+24] rcl rax, 1 bt rbx, 2 adc r12, [rbp+rdx*8] adc r13, [rbp+rdx*8+8] adc r14, [rbp+rdx*8+16] adc r15, [rbp+rdx*8+24] rcl rbx, 1 bt rax, 1 sbb r8, [rsi+rcx*8] sbb r9, [rsi+rcx*8+8] sbb r10, [rsi+rcx*8+16] sbb r11, [rsi+rcx*8+24] mov [rdi+rdx*8+16], r10 mov [rdi+rdx*8+24], r11 rcl rax, 1 bt rbx, 2 mov [rdi+rdx*8], r8 mov [rdi+rdx*8+8], r9 sbb r12, [rsi+rdx*8] sbb r13, [rsi+rdx*8+8] sbb r14, [rsi+rdx*8+16] sbb r15, [rsi+rdx*8+24] rcl rbx, 1 add rdx, 4 mov [rbp+rcx*8], r12 mov [rbp+rcx*8+8], r13 mov [rbp+rcx*8+16], r14 mov [rbp+rcx*8+24], r15 add rcx, 4 jnc .1 cmp rcx, 2 jg .6 jz .4 jp .3 .2: bt rbx, 2 mov r8, [rdi+rdx*8] adc r8, [rbp] mov r12, r8 mov r9, [rdi+rdx*8+8] adc r9, [rbp+8] mov r10, [rdi+rdx*8+16] adc r10, [rbp+16] rcl rbx, 1 bt rax, 1 adc r8, [rdi] mov r13, r9 adc r9, [rdi+8] mov r14, r10 adc r10, [rdi+16] rcl rax, 1 bt rbx, 2 adc r12, [rbp+rdx*8] adc r13, [rbp+rdx*8+8] adc r14, [rbp+rdx*8+16] rcl rbx, 1 bt rax, 1 sbb r8, [rsi] sbb r9, [rsi+8] sbb r10, [rsi+16] mov [rdi+rdx*8+16], r10 rcl rax, 1 bt rbx, 2 mov [rdi+rdx*8], r8 mov [rdi+rdx*8+8], r9 sbb r12, [rsi+rdx*8] sbb r13, [rsi+rdx*8+8] sbb r14, [rsi+rdx*8+16] rcl rbx, 1 add rdx, 3 mov [rbp], r12 mov [rbp+8], r13 mov [rbp+16], r14 jmp .5 .3: bt rbx, 2 mov r8, [rdi+rdx*8] adc r8, [rbp+8] mov r12, r8 mov r9, [rdi+rdx*8+8] adc r9, [rbp+16] rcl rbx, 1 bt rax, 1 adc r8, [rdi+8] mov r13, r9 adc r9, [rdi+16] rcl rax, 1 bt rbx, 2 adc r12, [rbp+rdx*8] adc r13, [rbp+rdx*8+8] rcl rbx, 1 bt rax, 1 sbb r8, [rsi+8] sbb r9, [rsi+16] rcl rax, 1 bt rbx, 2 mov [rdi+rdx*8], r8 mov [rdi+rdx*8+8], r9 sbb r12, [rsi+rdx*8] sbb r13, [rsi+rdx*8+8] rcl rbx, 1 add rdx, 2 mov [rbp+8], r12 mov [rbp+16], r13 jmp .5 .4: bt rbx, 2 mov r8, [rdi+rdx*8] adc r8, [rbp+16] mov r12, r8 rcl rbx, 1 bt rax, 1 adc r8, [rdi+16] rcl rax, 1 bt rbx, 2 adc r12, [rbp+rdx*8] rcl rbx, 1 bt rax, 1 sbb r8, [rsi+16] rcl rax, 1 bt rbx, 2 mov [rdi+rdx*8], r8 sbb r12, [rsi+rdx*8] rcl rbx, 1 inc rdx mov [rbp+rcx*8], r12 .5: mov rcx, 3 .6: ; if odd the do next two mov r8, [rsp] bt r8, 0 jnc .9 xor r10, r10 mov r8, [rbp+rdx*8] mov r9, [rbp+rdx*8+8] sub r8, [rsi+rdx*8] sbb r9, [rsi+rdx*8+8] rcl r10, 1 add [rbp+24], r8 adc [rbp+32], r9 .7: adc qword[rbp+rcx*8+16], 0 inc rcx jc .7 mov rcx, 3 bt r10, 0 .8: sbb qword[rbp+rcx*8+16], 0 inc rcx jc .8 mov rcx, 3 ; add in all carrys ; should we do the borrows last as it may be possible to underflow ; could use popcount .9: mov rsi, rdx bt rax, 0 .10: sbb qword[rdi+rdx*8], 0 inc rdx jc .10 xor r8, r8 bt rax, 1 adc r8, r8 bt rbx, 2 adc r8, 0 add [rdi+rsi*8], r8 .11: adc qword[rdi+rsi*8+8], 0 inc rsi jc .11 mov rsi, rcx bt rbx, 0 .12: sbb qword[rbp+rcx*8], 0 inc rcx jc .12 xor r8, r8 bt rbx, 1 adc r8, r8 bt rbx, 2 adc r8, 0 add [rbp+rsi*8], r8 .13: adc qword[rbp+rsi*8+8], 0 inc rsi jc .13 END_PROC reg_save_list end