; core2 mpn_sqr_basecase ; Copyright 2009 Jason Moxham ; 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. %include 'yasm_mac.inc' ; (rdi, 2*rdx) = (rsi, rdx)^2 ; same as the addmul for now ; changes from standard mul ; change r8 to r12 and rcx to r13 ; reemove ret and write last limb %macro mulloop 1 align 16 %%1: mov r10, 0 mul r13 mov [rdi+r11*8], r12 add r9, rax db 0x26 adc r10, rdx mov rax, [rsi+r11*8+16] mul r13 mov [rdi+r11*8+8], r9 add r10, rax mov ebx, 0 adc rbx, rdx mov rax, [rsi+r11*8+24] mov r12, 0 mov r9, 0 mul r13 mov [rdi+r11*8+16], r10 db 0x26 add rbx, rax db 0x26 adc r12, rdx mov rax, [rsi+r11*8+32] mul r13 mov [rdi+r11*8+24], rbx db 0x26 add r12, rax db 0x26 adc r9, rdx add r11, 4 mov rax, [rsi+r11*8+8] jnc %%1 %endmacro %macro mulnext0 0 mov rax, [rsi+r11*8+16] mul r13 mov [rdi+r11*8+8], r9 add r10, rax mov ebx, 0 adc rbx, rdx mov rax, [rsi+r11*8+24] mov r12d, 0 mul r13 mov [rdi+r11*8+16], r10 add rbx, rax adc r12, rdx mov rax, [rsi+r11*8+32] mul r13 mov [rdi+r11*8+24], rbx add r12, rax adc rdx, 0 mov [rdi+r11*8+32], r12 mov [rdi+r11*8+40], rdx add r14, 1 lea rdi, [rdi+8] %endmacro %macro mulnext1 0 mov rax, [rsi+r11*8+16] mul r13 mov [rdi+r11*8+8], r9 add r10, rax mov r12d, 0 adc r12, rdx mov rax, [rsi+r11*8+24] mul r13 mov [rdi+r11*8+16], r10 add r12, rax adc rdx, 0 mov [rdi+r11*8+24], r12 mov [rdi+r11*8+32], rdx add r14, 1 lea rdi, [rdi+8] %endmacro %macro mulnext2 0 mov rax, [rsi+r11*8+16] mul r13 mov [rdi+r11*8+8], r9 add r10, rax mov ebx, 0 adc rbx, rdx mov [rdi+r11*8+16], r10 mov [rdi+r11*8+24], rbx add r14, 1 lea rdi, [rdi+8] %endmacro %macro mulnext3 0 mov [rdi+r11*8+8], r9 mov [rdi+r11*8+16], r10 add r14, 1 lea rdi, [rdi+8] %endmacro ; changes from standard addmul ; change r8 to r12 and rcx to r13 ; reemove ret and write last limb %macro addmulloop 1 align 16 %%1: mov r10, 0 mul r13 add [rdi+r11*8], r12 adc r9, rax db 0x26 adc r10, rdx mov rax, [rsi+r11*8+16] mul r13 add [rdi+r11*8+8], r9 adc r10, rax mov ebx, 0 adc rbx, rdx mov rax, [rsi+r11*8+24] mov r12, 0 mov r9, 0 mul r13 add [rdi+r11*8+16], r10 db 0x26 adc rbx, rax db 0x26 adc r12, rdx mov rax, [rsi+r11*8+32] mul r13 add [rdi+r11*8+24], rbx db 0x26 adc r12, rax db 0x26 adc r9, rdx add r11, 4 mov rax, [rsi+r11*8+8] jnc %%1 %endmacro %macro addmulnext0 0 mov r10d, 0 mul r13 add [rdi+r11*8], r12 adc r9, rax adc r10, rdx mov rax, [rsi+r11*8+16] mul r13 add [rdi+r11*8+8], r9 adc r10, rax mov ebx, 0 adc rbx, rdx mov rax, [rsi+r11*8+24] mov r12d, 0 mul r13 add [rdi+r11*8+16], r10 adc rbx, rax adc r12, rdx mov rax, [rsi+r11*8+32] mul r13 add [rdi+r11*8+24], rbx adc r12, rax adc rdx, 0 add [rdi+r11*8+32], r12 adc rdx, 0 add r14, 1 mov [rdi+r11*8+40], rdx lea rdi, [rdi+8] %endmacro %macro addmulnext1 0 mov r10d, 0 mul r13 add [rdi+r11*8], r12 adc r9, rax adc r10, rdx mov rax, [rsi+r11*8+16] mul r13 add [rdi+r11*8+8], r9 adc r10, rax mov r12d, 0 adc r12, rdx mov rax, [rsi+r11*8+24] mul r13 add [rdi+r11*8+16], r10 adc r12, rax adc rdx, 0 add [rdi+r11*8+24], r12 adc rdx, 0 mov [rdi+r11*8+32], rdx add r14, 1 lea rdi, [rdi+8] %endmacro %macro addmulnext2 0 mov r10d, 0 mul r13 add [rdi+r11*8], r12 adc r9, rax adc r10, rdx mov rax, [rsi+r11*8+16] mul r13 mov ebx, 0 add [rdi+r11*8+8], r9 adc r10, rax adc rbx, rdx add [rdi+r11*8+16], r10 adc rbx, 0 mov [rdi+r11*8+24], rbx add r14, 1 lea rdi, [rdi+8] %endmacro %macro addmulnext3 0 mul r13 add [rdi+r11*8], r12 adc r9, rax mov r10d, 0 adc r10, rdx add [rdi+r11*8+8], r9 adc r10, 0 mov [rdi+r11*8+16], r10 add r14, 1 lea rdi, [rdi+8] cmp r14, 4 jnz theloop %endmacro BITS 64 GLOBAL_FUNC mpn_sqr_basecase cmp rdx, 3 ja fourormore jz three jp two one: mov rax, [rsi] mul rax mov [rdi], rax mov [rdi+8], rdx ret align 16 fourormore: ; this code can not handle cases 3,2,1 mov [rsp-8], r12 mov [rsp-16], r13 mov [rsp-24], r14 mov [rsp-32], rbx ; save data for later mov [rsp-40], rdi mov [rsp-48], rsi mov [rsp-56], rdx mov r13, [rsi] mov rax, [rsi+8] mov r14d, 6 sub r14, rdx lea rdi, [rdi+rdx*8-40] lea rsi, [rsi+rdx*8-40] mov r11, r14 mul r13 mov r12, rax mov rax, [rsi+r14*8+8] mov r9, rdx cmp r14, 0 jge mulskiploop1 mulloop 1 mulskiploop1: mov r10d, 0 mul r13 mov [rdi+r11*8], r12 add r9, rax adc r10, rdx ; could save r9 here ; could update here ie lea 8(rdi),rdi and inc r14 cmp r11, 2 je mcase2 ja mcase3 jp mcase1 mcase0: mulnext0 jmp case1 align 16 mcase1: mulnext1 jmp case2 align 16 mcase2: mulnext2 jmp case3 align 16 mcase3: mulnext3 ; jmp case0 just fall thru align 16 theloop: case0: mov rax, [rsi+r14*8] mov r13, [rsi+r14*8-8] mov r11, r14 mul r13 mov r12, rax mov rax, [rsi+r14*8+8] mov r9, rdx cmp r14, 0 jge addmulskiploop0 addmulloop 0 addmulskiploop0: addmulnext0 case1: mov rax, [rsi+r14*8] mov r13, [rsi+r14*8-8] mov r11, r14 mul r13 mov r12, rax mov rax, [rsi+r14*8+8] mov r9, rdx cmp r14, 0 jge addmulskiploop1 addmulloop 1 addmulskiploop1: addmulnext1 case2: mov rax, [rsi+r14*8] mov r13, [rsi+r14*8-8] mov r11, r14 mul r13 mov r12, rax mov rax, [rsi+r14*8+8] mov r9, rdx cmp r14, 0 jge addmulskiploop2 addmulloop 2 addmulskiploop2: addmulnext2 case3: mov rax, [rsi+r14*8] mov r13, [rsi+r14*8-8] mov r11, r14 mul r13 mov r12, rax mov rax, [rsi+r14*8+8] mov r9, rdx cmp r14, 0 jge addmulskiploop3 addmulloop 3 addmulskiploop3: addmulnext3 mov rax, [rsi+r14*8] mov r13, [rsi+r14*8-8] mul r13 add [rdi+r14*8], rax adc rdx, 0 mov [rdi+r14*8+8], rdx ; now lsh by 1 and add in the diagonal mov rdi, [rsp-40] mov rsi, [rsp-48] mov rcx, [rsp-56] mov r12, [rsp-8] mov r13, [rsp-16] xor rbx, rbx xor r11, r11 lea rsi, [rsi+rcx*8] mov [rdi], r11 lea r10, [rdi+rcx*8] mov [r10+rcx*8-8], r11 neg rcx align 16 dialoop: mov rax, [rsi+rcx*8] mul rax mov r8, [rdi] mov r9, [rdi+8] add rbx, 1 adc r8, r8 adc r9, r9 sbb rbx, rbx add r11, 1 adc r8, rax adc r9, rdx sbb r11, r11 mov [rdi], r8 mov [rdi+8], r9 add rcx, 1 lea rdi, [rdi+16] jnz dialoop mov rbx, [rsp-32] mov r14, [rsp-24] ret align 16 two: mov rax, [rsi] mov r9, [rsi+8] mov r8, rax mul rax mov [rdi], rax mov rax, r9 mov [rdi+8], rdx mul rax mov [rdi+16], rax mov rax, r8 mov r10, rdx mul r9 add rax, rax adc rdx, rdx adc r10, 0 add [rdi+8], rax adc [rdi+16], rdx adc r10, 0 mov [rdi+24], r10 ret align 16 three: mov r8, [rsi] mov rax, [rsi+8] mul r8 mov r11d, 0 mov [rdi+8], rax mov rax, [rsi+16] mov r9, rdx mul r8 mov r8, [rsi+8] add r9, rax mov rax, [rsi+16] adc r11, rdx mul r8 mov [rdi+16], r9 add r11, rax mov r9d, 0 mov [rdi+24], r11 adc r9, rdx mov [rdi+32], r9 mov rcx, -3 xor r10, r10 xor r11, r11 lea rsi, [rsi+24] mov [rdi], r11 mov [rdi+40], r11 dialoop1: mov rax, [rsi+rcx*8] mul rax mov r8, [rdi] mov r9, [rdi+8] add r10, 1 adc r8, r8 adc r9, r9 sbb r10, r10 add r11, 1 adc r8, rax adc r9, rdx sbb r11, r11 mov [rdi], r8 mov [rdi+8], r9 add rcx, 1 lea rdi, [rdi+16] jnz dialoop1 nop ret